SUN1 gene cDNA ORF clone, Alligator sinensis(Chinese alligator)

mRNA	Protein	Name
XM_025215805.1	XP_025071590.1	SUN domain-containing protein 1 isoform X5
XM_006033912.3	XP_006033974.1	SUN domain-containing protein 1 isoform X10
XM_006033910.3	XP_006033972.1	SUN domain-containing protein 1 isoform X10
XM_025215802.1	XP_025071587.1	SUN domain-containing protein 1 isoform X2
XM_006033911.3	XP_006033973.1	SUN domain-containing protein 1 isoform X10
XM_006033909.2	XP_006033971.1	SUN domain-containing protein 1 isoform X1
XM_006033912.2	XP_006033974.1	SUN domain-containing protein 1 isoform X1
XM_014524827.1	XP_014380313.1	SUN domain-containing protein 1 isoform X2
XM_025215803.1	XP_025071588.1	SUN domain-containing protein 1 isoform X3
XM_025215807.1	XP_025071592.1	SUN domain-containing protein 1 isoform X7
XM_025215808.1	XP_025071593.1	SUN domain-containing protein 1 isoform X8
XM_025215811.1	XP_025071596.1	SUN domain-containing protein 1 isoform X11
XM_025215804.1	XP_025071589.1	SUN domain-containing protein 1 isoform X4
XM_025215806.1	XP_025071591.1	SUN domain-containing protein 1 isoform X6
XM_025215809.1	XP_025071594.1	SUN domain-containing protein 1 isoform X9
XM_006033910.2	XP_006033972.1	SUN domain-containing protein 1 isoform X1
XM_006033911.2	XP_006033973.1	SUN domain-containing protein 1 isoform X1
XM_025215801.1	XP_025071586.1	SUN domain-containing protein 1 isoform X1
XM_006033909.3	XP_006033971.1	SUN domain-containing protein 1 isoform X10
XM_025215810.1	XP_025071595.1	SUN domain-containing protein 1 isoform X10
XM_025215812.1	XP_025071597.1	SUN domain-containing protein 1 isoform X12
XM_025215813.1	XP_025071598.1	SUN domain-containing protein 1 isoform X13

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OAl27783	XM_006033909.3 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X10, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033912.3 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X12, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_025215810.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X14, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033911.3 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X11, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033910.3 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X13, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27784	XM_014524827.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl94767	XM_025215801.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94768	XM_025215802.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94769	XM_025215803.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94770	XM_025215804.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94771	XM_025215805.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94772	XM_025215806.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94773	XM_025215807.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94774	XM_025215808.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X8, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94775	XM_025215809.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X9, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94776	XM_025215811.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X15, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94777	XM_025215812.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X16, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OAl94778	XM_025215813.1 Latest version!	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X17, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
View Old Accession Versions >>
OAl27783	XM_006033912.2	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033910.2	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033911.2	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
OAl27783	XM_006033909.2	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00
Hide Old Accession Versions >>

SUN1 ( XM_006033912.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033974.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X12, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033912.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006033912.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033974.1
CDS	154..2886
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033912.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X12, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033912.3

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033910.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033972.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X13, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033910.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006033910.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033972.1
CDS	184..2916
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033910.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X13, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033910.3

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033911.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033973.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X11, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033911.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006033911.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033973.1
CDS	183..2915
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033911.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X11, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033911.3

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033909.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033971.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033909.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006033909.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033971.1
CDS	105..2837
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033909.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033909.2

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033912.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033974.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033912.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006033912.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033974.1
CDS	154..2886
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033912.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033912.2

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033910.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033972.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033910.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006033910.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033972.1
CDS	169..2901
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033910.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033910.2

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033911.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033973.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033911.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006033911.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033973.1
CDS	167..2899
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033911.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033911.2

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_006033909.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006033971.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X10, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_006033909.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006033909.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_006033971.1
CDS	154..2886
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_006033909.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X10, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_006033909.3

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215810.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071595.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X14, mRNA.

Price & Availability↑

CloneID	OAl27783
Clone ID Related Accession (Same CDS sequence)	XM_006033912.3 , XM_006033910.3 , XM_006033911.3 , XM_006033909.2 , XM_006033912.2 , XM_006033910.2 , XM_006033911.2 , XM_006033909.3 , XM_025215810.1
Accession Version	XM_025215810.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2733bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X10
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071595.1
CDS	40..2772
Translation	MDFSRLHTYTPPQCVPENTGYTYALSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215810.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X14, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215810.1

ORF Insert Sequence:

ATGGACTTTT CACGTCTACA CACGTATACC CCTCCCCAAT GTGTGCCAGA GAACACTGGC 
TATACATACG CACTCAGTTC AAGTTACTCT TCAACTGCTC TGGATTTTGA GACTGAACAT 
AAATTGGATC CAGTATTTGA TTCTCCAAGA ATGTCAAGAC GCAGTTTACG TCTGATCACT 
GCAGGATACA ATAAAGCGGA TGATGTTCAA ACTGATGGCA TCTACAACAA CTCCTATTCT 
GGAAACATGT CTTTTACAGA ACAATTATCT AAAACAGTAA AGCAGTGCAA AAGTATGAGC 
AAACAATCAG GCAGTGCAAA ACATACTCCA AGAAAAAATC TATCCAGCTC TTCTGCTTTT 
AGCCAAAGTA GCTTCAACAG CCACATCAGT GATACATCTA CACTGTCCAC TGTATTGGAT 
GAATCTCTGA TTCGGGAGCA GACAGAGCTT GACCATTTTT GGGGTCTTGA TGATGATGGT 
GATCCTAAAG GTGGGGACAC AACAGTGATT CAGGGAAATG GTGATCTAGC AACAGTAGAA 
ACGCAGACTA CCGTAATCAA TGGCTACACC TGCAATGATT GCAGTATGCT TTCTGAACGG 
AAAGAGGTCC TCACAGCATA CTCTACTTCT CACATGCCTT CTTCAAGAAT TTACTCCAGG 
GATAGGAGCC AAAAACACAA GTCTGGAGGC ACCTTTTTCT ACATGATTAA GATTCTACAA 
TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA TCACTGTTAG TGCAACTATT TCAAATGGTT 
CTGTTGAAGC TGGGTTATGA ATTTAAAGCT CACTCAAACT ACTGTGGAAG TATGAATGTA 
AAAGAGTTTC TCAGAGAAGA TGGCCATCTT GGTATAAATG GGGAATCTTT GTGTGATGAC 
TGTAAGGGGA AGAAACATCT TGAAACATAC ACAACAGTCC ACATGCAATC CTCAAGGTCT 
AAAAGGGTAG CAAGGACCAT TTGGCACACC TTTTCTTATG CAGGTTACTT TGTGCTACGA 
GCATTGCGAA CAGTGGGAAC AACAGGATGG CTTGTATCTC GGAAGGTGTT AGCACTACTA 
TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_014524827.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014380313.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OAl27784
Clone ID Related Accession (Same CDS sequence)	XM_014524827.1
Accession Version	XM_014524827.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2700bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2015-10-29
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Alligator sinensis Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTCCAAAG TTAATACAAT TTCTGCAATT GATTTGTCTA TACATTCAAG TTACTCTTCA 
ACTGCTCTGG ATTTTGAGAC TGAACATAAA TTGGATCCAG TATTTGATTC TCCAAGAATG 
TCAAGACGCA GTTTACGTCT GATCACTGCA GGATACAATA AAGCGGATGA TGTTCAAACT 
GATGGCATCT ACAACAACTC CTATTCTGGA AACATGTCTT TTACAGAACA ATTATCTAAA 
ACAGTAAAGC AGTGCAAAAG TATGAGCAAA CAATCAGGCA GTGCAAAACA TACTCCAAGA 
AAAAATCTAT CCAGCTCTTC TGCTTTTAGC CAAAGTAGCT TCAACAGCCA CATCAGTGAT 
ACATCTACAC TGTCCACTGT ATTGGATGAA TCTCTGATTC GGGAGCAGAC AGAGCTTGAC 
CATTTTTGGG GTCTTGATGA TGATGGTGAT CCTAAAGGTG GGGACACAAC AGTGATTCAG 
GGAAATGGTG ATCTAGCAAC AGTAGAAACG CAGACTACCG TAATCAATGG CTACACCTGC 
AATGATTGCA GTATGCTTTC TGAACGGAAA GAGGTCCTCA CAGCATACTC TACTTCTCAC 
ATGCCTTCTT CAAGAATTTA CTCCAGGGAT AGGAGCCAAA AACACAAGTC TGGAGGCACC 
TTTTTCTACA TGATTAAGAT TCTACAATTG GTCAAATACG CTGCAACCTC TTTTGCATCA 
CTGTTAGTGC AACTATTTCA AATGGTTCTG TTGAAGCTGG GTTATGAATT TAAAGCTCAC 
TCAAACTACT GTGGAAGTAT GAATGTAAAA GAGTTTCTCA GAGAAGATGG CCATCTTGGT 
ATAAATGGGG AATCTTTGTG TGATGACTGT AAGGGGAAGA AACATCTTGA AACATACACA 
ACAGTCCACA TGCAATCCTC AAGGTCTAAA AGGGTAGCAA GGACCATTTG GCACACCTTT 
TCTTATGCAG GTTACTTTGT GCTACGAGCA TTGCGAACAG TGGGAACAAC AGGATGGCTT 
GTATCTCGGA AGGTGTTAGC ACTACTATGG CTGGCCATTG TTTCTCCAGG TAAGGCAGCT 
TCTGGAGCTT TCTGGTGGCT TGGAACTGGA TGGTATCAAC TTGTTACTTT GATTTCTTTG 
TTCAATGTGT TTCTTCTTAC AAGATGCCTT CCAAAAATTT ATAAGCTGTT ACTGTTTCTC 
ATCCCACTGC TGTTGCTCCT GGGTTTATTG TACTGGGGGT TTGAAGGCTT CCTTTCGTTA 
CTGCCTGCAT TCAATTGGAC AAGCATAAGT AAACCACAAA GTGTAGATGA GTCTGTATAC 
ATCCTGAAAC CAAGGCCTGA TTCTTTTCAC TCAGTTCGGC CTCCAGAGGA TTCCATTAAC 
TTTGATTCTA GCCGCATGAA AGAGTTGGAA AAACAGATTG CCTTAATGTC TGACAGATGT 
CATCATCATG ATGAAGAATA TGGTAAAGTG ATGCTGTTGC TCCAGAAGCT TCAGGATCAG 
GTTGCCCTGA TGAATGACAA AAGTGAAATG TTAACACTAA TAAAAAATGT AATGGGCCAA 
CATCTTAAAG AAACTAAATC TGAAGAAACA GCACACTCAA TGACTGACCT TCTGGCCTTA 
TACCAAGAAC ACAAATTGAG CATCATGACG TTGGAAGACC ATATTGGAAA ACTCTCTGCA 
AAATATGAGG GCATCCAGAA GGATCTGGAA CTAAGCAAAA CAAGAACAGT GAGCGTGGGT 
GATGAACGGT ATGAGAACCT CTTATCCAAA GCTAAACAAA TGGAACAAGA GTTGGCTAGT 
ATGAGAGTAG AACTGTTTAA CTTGCAAGGC TTGAAGACTC AGTGTGAGAA AGTAGATACC 
ATATATGAAA ACGTAGATGC CCAGATCAAG GAATCTGTCA AGCTTATGTT TTTTGGTGAC 
CAGCACAGTG ACTTCTCTGA ATCGCTGCTG CAGTGGCTGA TGTCTAAATT CGTGAGCAAG 
AATGATTTGC AGACCTTGTT ACAAGATCTA GAGATGCGAA TCCTCAAGAA CATATCTTTT 
CATATGTCTG TCTCAAACCA AAAGTCAACC TCTGAAATTG TTACAAGTGC TGTTAATGCT 
GGGATTTCTG GTATCTCAGA AGCGCAAGCA CGCATTATTG TAAATAATGC ACTGAAACTC 
TATTCTCAAG ACAAGACTGG TATGGTGGAC TTCGCTTTAG AATCTGGAGG TGGTAGTATT 
CTGAGTACTC GTTGTTCTGA GACGTATGAA ACTAAAACAG CACTAATTAG TCTCTTTGGA 
ATTCCTTTGT GGTATTTCTC GCAATCTCCC AGAGTGGTAA TTCAGCCTGA GATGTATCCA 
GGAAACTGCT GGGCTTTCAA AGGATCACAG GGGTACCTTG TAGTTCGACT TTCTATCAAG 
ATCTACCCAA CAGCCTTTAC GCTGGAACAT ATACCAAAAA CACTGTCACC GACGGGTAAC 
ATTACCAGTG CACCTAAGGA TTTTACAGTA TATGGCCTGG ATGATGAATA TCAGGAAGAA 
GGCATACTTC TGGGACAGTA CATGTATGAT GAAGGAGGAG AGCCGCTGCA GACATTTCAA 
GTGACGGAGA AAAACGAAAA CGCATTCCAA ATAGTGGAGC TAAGAATCCT TTCTAACTGG 
GGCCATACGG AGTACACCTG TCTCTATCGG TTCAGAGTGC ATGGGAGACC TGCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_014380313.1
CDS	241..2940
Translation	MSKVNTISAIDLSIHSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_014524827.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_014524827.1

ORF Insert Sequence:

ATGTCCAAAG TTAATACAAT TTCTGCAATT GATTTGTCTA TACATTCAAG TTACTCTTCA 
ACTGCTCTGG ATTTTGAGAC TGAACATAAA TTGGATCCAG TATTTGATTC TCCAAGAATG 
TCAAGACGCA GTTTACGTCT GATCACTGCA GGATACAATA AAGCGGATGA TGTTCAAACT 
GATGGCATCT ACAACAACTC CTATTCTGGA AACATGTCTT TTACAGAACA ATTATCTAAA 
ACAGTAAAGC AGTGCAAAAG TATGAGCAAA CAATCAGGCA GTGCAAAACA TACTCCAAGA 
AAAAATCTAT CCAGCTCTTC TGCTTTTAGC CAAAGTAGCT TCAACAGCCA CATCAGTGAT 
ACATCTACAC TGTCCACTGT ATTGGATGAA TCTCTGATTC GGGAGCAGAC AGAGCTTGAC 
CATTTTTGGG GTCTTGATGA TGATGGTGAT CCTAAAGGTG GGGACACAAC AGTGATTCAG 
GGAAATGGTG ATCTAGCAAC AGTAGAAACG CAGACTACCG TAATCAATGG CTACACCTGC 
AATGATTGCA GTATGCTTTC TGAACGGAAA GAGGTCCTCA CAGCATACTC TACTTCTCAC 
ATGCCTTCTT CAAGAATTTA CTCCAGGGAT AGGAGCCAAA AACACAAGTC TGGAGGCACC 
TTTTTCTACA TGATTAAGAT TCTACAATTG GTCAAATACG CTGCAACCTC TTTTGCATCA 
CTGTTAGTGC AACTATTTCA AATGGTTCTG TTGAAGCTGG GTTATGAATT TAAAGCTCAC 
TCAAACTACT GTGGAAGTAT GAATGTAAAA GAGTTTCTCA GAGAAGATGG CCATCTTGGT 
ATAAATGGGG AATCTTTGTG TGATGACTGT AAGGGGAAGA AACATCTTGA AACATACACA 
ACAGTCCACA TGCAATCCTC AAGGTCTAAA AGGGTAGCAA GGACCATTTG GCACACCTTT 
TCTTATGCAG GTTACTTTGT GCTACGAGCA TTGCGAACAG TGGGAACAAC AGGATGGCTT 
GTATCTCGGA AGGTGTTAGC ACTACTATGG CTGGCCATTG TTTCTCCAGG TAAGGCAGCT 
TCTGGAGCTT TCTGGTGGCT TGGAACTGGA TGGTATCAAC TTGTTACTTT GATTTCTTTG 
TTCAATGTGT TTCTTCTTAC AAGATGCCTT CCAAAAATTT ATAAGCTGTT ACTGTTTCTC 
ATCCCACTGC TGTTGCTCCT GGGTTTATTG TACTGGGGGT TTGAAGGCTT CCTTTCGTTA 
CTGCCTGCAT TCAATTGGAC AAGCATAAGT AAACCACAAA GTGTAGATGA GTCTGTATAC 
ATCCTGAAAC CAAGGCCTGA TTCTTTTCAC TCAGTTCGGC CTCCAGAGGA TTCCATTAAC 
TTTGATTCTA GCCGCATGAA AGAGTTGGAA AAACAGATTG CCTTAATGTC TGACAGATGT 
CATCATCATG ATGAAGAATA TGGTAAAGTG ATGCTGTTGC TCCAGAAGCT TCAGGATCAG 
GTTGCCCTGA TGAATGACAA AAGTGAAATG TTAACACTAA TAAAAAATGT AATGGGCCAA 
CATCTTAAAG AAACTAAATC TGAAGAAACA GCACACTCAA TGACTGACCT TCTGGCCTTA 
TACCAAGAAC ACAAATTGAG CATCATGACG TTGGAAGACC ATATTGGAAA ACTCTCTGCA 
AAATATGAGG GCATCCAGAA GGATCTGGAA CTAAGCAAAA CAAGAACAGT GAGCGTGGGT 
GATGAACGGT ATGAGAACCT CTTATCCAAA GCTAAACAAA TGGAACAAGA GTTGGCTAGT 
ATGAGAGTAG AACTGTTTAA CTTGCAAGGC TTGAAGACTC AGTGTGAGAA AGTAGATACC 
ATATATGAAA ACGTAGATGC CCAGATCAAG GAATCTGTCA AGCTTATGTT TTTTGGTGAC 
CAGCACAGTG ACTTCTCTGA ATCGCTGCTG CAGTGGCTGA TGTCTAAATT CGTGAGCAAG 
AATGATTTGC AGACCTTGTT ACAAGATCTA GAGATGCGAA TCCTCAAGAA CATATCTTTT 
CATATGTCTG TCTCAAACCA AAAGTCAACC TCTGAAATTG TTACAAGTGC TGTTAATGCT 
GGGATTTCTG GTATCTCAGA AGCGCAAGCA CGCATTATTG TAAATAATGC ACTGAAACTC 
TATTCTCAAG ACAAGACTGG TATGGTGGAC TTCGCTTTAG AATCTGGAGG TGGTAGTATT 
CTGAGTACTC GTTGTTCTGA GACGTATGAA ACTAAAACAG CACTAATTAG TCTCTTTGGA 
ATTCCTTTGT GGTATTTCTC GCAATCTCCC AGAGTGGTAA TTCAGCCTGA GATGTATCCA 
GGAAACTGCT GGGCTTTCAA AGGATCACAG GGGTACCTTG TAGTTCGACT TTCTATCAAG 
ATCTACCCAA CAGCCTTTAC GCTGGAACAT ATACCAAAAA CACTGTCACC GACGGGTAAC 
ATTACCAGTG CACCTAAGGA TTTTACAGTA TATGGCCTGG ATGATGAATA TCAGGAAGAA 
GGCATACTTC TGGGACAGTA CATGTATGAT GAAGGAGGAG AGCCGCTGCA GACATTTCAA 
GTGACGGAGA AAAACGAAAA CGCATTCCAA ATAGTGGAGC TAAGAATCCT TTCTAACTGG 
GGCCATACGG AGTACACCTG TCTCTATCGG TTCAGAGTGC ATGGGAGACC TGCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215801.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071586.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl94767
Clone ID Related Accession (Same CDS sequence)	XM_025215801.1
Accession Version	XM_025215801.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2970bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TGATGACTGT 
AAGGGGAAGA AACATCTTGA AACATACACA ACAGTCCACA TGCAATCCTC AAGGTCTAAA 
AGGGTAGCAA GGACCATTTG GCACACCTTT TCTTATGCAG GTTACTTTGT GCTACGAGCA 
TTGCGAACAG TGGGAACAAC AGGATGGCTT GTATCTCGGA AGGTGTTAGC ACTACTATGG 
CTGGCCATTG TTTCTCCAGG TAAGGCAGCT TCTGGAGCTT TCTGGTGGCT TGGAACTGGA 
TGGTATCAAC TTGTTACTTT GATTTCTTTG TTCAATGTGT TTCTTCTTAC AAGATGCCTT 
CCAAAAATTT ATAAGCTGTT ACTGTTTCTC ATCCCACTGC TGTTGCTCCT GGGTTTATTG 
TACTGGGGGT TTGAAGGCTT CCTTTCGTTA CTGCCTGCAT TCAATTGGAC AAGCATAAGT 
AAACCACAAA GTGTAGATGA GTCTGTATAC ATCCTGAAAC CAAGGCCTGA TTCTTTTCAC 
TCAGTTCGGC CTCCAGAGGA TTCCATTAAC TTTGATTCTA GCCGCATGAA AGAGTTGGAA 
AAACAGATTG CCTTAATGTC TGACAGATGT CATCATCATG ATGAAGAATA TGGTAAAGTG 
ATGCTGTTGC TCCAGAAGCT TCAGGATCAG GTTGCCCTGA TGAATGACAA AAGTGAAATG 
TTAACACTAA TAAAAAATGT AATGGGCCAA CATCTTAAAG AAACTAAATC TGAAGAAACA 
GCACACTCAA TGACTGACCT TCTGGCCTTA TACCAAGAAC ACAAATTGAG CATCATGACG 
TTGGAAGACC ATATTGGAAA ACTCTCTGCA AAATATGAGG GCATCCAGAA GGATCTGGAA 
CTAAGCAAAA CAAGAACAGT GAGCGTGGGT GATGAACGGT ATGAGAACCT CTTATCCAAA 
GCTAAACAAA TGGAACAAGA GTTGGCTAGT ATGAGAGTAG AACTGTTTAA CTTGCAAGGC 
TTGAAGACTC AGTGTGAGAA AGTAGATACC ATATATGAAA ACGTAGATGC CCAGATCAAG 
GAATCTGTCA AGCTTATGTT TTTTGGTGAC CAGCACAGTG ACTTCTCTGA ATCGCTGCTG 
CAGTGGCTGA TGTCTAAATT CGTGAGCAAG AATGATTTGC AGACCTTGTT ACAAGATCTA 
GAGATGCGAA TCCTCAAGAA CATATCTTTT CATATGTCTG TCTCAAACCA AAAGTCAACC 
TCTGAAATTG TTACAAGTGC TGTTAATGCT GGGATTTCTG GTATCTCAGA AGCGCAAGCA 
CGCATTATTG TAAATAATGC ACTGAAACTC TATTCTCAAG ACAAGACTGG TATGGTGGAC 
TTCGCTTTAG AATCTGGAGG TGGTAGTATT CTGAGTACTC GTTGTTCTGA GACGTATGAA 
ACTAAAACAG CACTAATTAG TCTCTTTGGA ATTCCTTTGT GGTATTTCTC GCAATCTCCC 
AGAGTGGTAA TTCAGCCTGA GATGTATCCA GGAAACTGCT GGGCTTTCAA AGGATCACAG 
GGGTACCTTG TAGTTCGACT TTCTATCAAG ATCTACCCAA CAGCCTTTAC GCTGGAACAT 
ATACCAAAAA CACTGTCACC GACGGGTAAC ATTACCAGTG CACCTAAGGA TTTTACAGTA 
TATGGCCTGG ATGATGAATA TCAGGAAGAA GGCATACTTC TGGGACAGTA CATGTATGAT 
GAAGGAGGAG AGCCGCTGCA GACATTTCAA GTGACGGAGA AAAACGAAAA CGCATTCCAA 
ATAGTGGAGC TAAGAATCCT TTCTAACTGG GGCCATACGG AGTACACCTG TCTCTATCGG 
TTCAGAGTGC ATGGGAGACC TGCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071586.1
CDS	16..2985
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215801.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215801.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TGATGACTGT 
AAGGGGAAGA AACATCTTGA AACATACACA ACAGTCCACA TGCAATCCTC AAGGTCTAAA 
AGGGTAGCAA GGACCATTTG GCACACCTTT TCTTATGCAG GTTACTTTGT GCTACGAGCA 
TTGCGAACAG TGGGAACAAC AGGATGGCTT GTATCTCGGA AGGTGTTAGC ACTACTATGG 
CTGGCCATTG TTTCTCCAGG TAAGGCAGCT TCTGGAGCTT TCTGGTGGCT TGGAACTGGA 
TGGTATCAAC TTGTTACTTT GATTTCTTTG TTCAATGTGT TTCTTCTTAC AAGATGCCTT 
CCAAAAATTT ATAAGCTGTT ACTGTTTCTC ATCCCACTGC TGTTGCTCCT GGGTTTATTG 
TACTGGGGGT TTGAAGGCTT CCTTTCGTTA CTGCCTGCAT TCAATTGGAC AAGCATAAGT 
AAACCACAAA GTGTAGATGA GTCTGTATAC ATCCTGAAAC CAAGGCCTGA TTCTTTTCAC 
TCAGTTCGGC CTCCAGAGGA TTCCATTAAC TTTGATTCTA GCCGCATGAA AGAGTTGGAA 
AAACAGATTG CCTTAATGTC TGACAGATGT CATCATCATG ATGAAGAATA TGGTAAAGTG 
ATGCTGTTGC TCCAGAAGCT TCAGGATCAG GTTGCCCTGA TGAATGACAA AAGTGAAATG 
TTAACACTAA TAAAAAATGT AATGGGCCAA CATCTTAAAG AAACTAAATC TGAAGAAACA 
GCACACTCAA TGACTGACCT TCTGGCCTTA TACCAAGAAC ACAAATTGAG CATCATGACG 
TTGGAAGACC ATATTGGAAA ACTCTCTGCA AAATATGAGG GCATCCAGAA GGATCTGGAA 
CTAAGCAAAA CAAGAACAGT GAGCGTGGGT GATGAACGGT ATGAGAACCT CTTATCCAAA 
GCTAAACAAA TGGAACAAGA GTTGGCTAGT ATGAGAGTAG AACTGTTTAA CTTGCAAGGC 
TTGAAGACTC AGTGTGAGAA AGTAGATACC ATATATGAAA ACGTAGATGC CCAGATCAAG 
GAATCTGTCA AGCTTATGTT TTTTGGTGAC CAGCACAGTG ACTTCTCTGA ATCGCTGCTG 
CAGTGGCTGA TGTCTAAATT CGTGAGCAAG AATGATTTGC AGACCTTGTT ACAAGATCTA 
GAGATGCGAA TCCTCAAGAA CATATCTTTT CATATGTCTG TCTCAAACCA AAAGTCAACC 
TCTGAAATTG TTACAAGTGC TGTTAATGCT GGGATTTCTG GTATCTCAGA AGCGCAAGCA 
CGCATTATTG TAAATAATGC ACTGAAACTC TATTCTCAAG ACAAGACTGG TATGGTGGAC 
TTCGCTTTAG AATCTGGAGG TGGTAGTATT CTGAGTACTC GTTGTTCTGA GACGTATGAA 
ACTAAAACAG CACTAATTAG TCTCTTTGGA ATTCCTTTGT GGTATTTCTC GCAATCTCCC 
AGAGTGGTAA TTCAGCCTGA GATGTATCCA GGAAACTGCT GGGCTTTCAA AGGATCACAG 
GGGTACCTTG TAGTTCGACT TTCTATCAAG ATCTACCCAA CAGCCTTTAC GCTGGAACAT 
ATACCAAAAA CACTGTCACC GACGGGTAAC ATTACCAGTG CACCTAAGGA TTTTACAGTA 
TATGGCCTGG ATGATGAATA TCAGGAAGAA GGCATACTTC TGGGACAGTA CATGTATGAT 
GAAGGAGGAG AGCCGCTGCA GACATTTCAA GTGACGGAGA AAAACGAAAA CGCATTCCAA 
ATAGTGGAGC TAAGAATCCT TTCTAACTGG GGCCATACGG AGTACACCTG TCTCTATCGG 
TTCAGAGTGC ATGGGAGACC TGCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215802.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071587.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl94768
Clone ID Related Accession (Same CDS sequence)	XM_025215802.1
Accession Version	XM_025215802.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2943bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTGGGGACAC AACAGTGATT 
CAGGGAAATG GTGATCTAGC AACAGTAGAA ACGCAGACTA CCGTAATCAA TGGCTACACC 
TGCAATGATT GCAGTATGCT TTCTGAACGG AAAGAGGTCC TCACAGCATA CTCTACTTCT 
CACATGCCTT CTTCAAGAAT TTACTCCAGG GATAGGAGCC AAAAACACAA GTCTGGAGGC 
ACCTTTTTCT ACATGATTAA GATTCTACAA TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA 
TCACTGTTAG TGCAACTATT TCAAATGGTT CTGTTGAAGC TGGGTTATGA ATTTAAAGCT 
CACTCAAACT ACTGTGGAAG TATGAATGTA AAAGAGTTTC TCAGAGAAGA TGGCCATCTT 
GGTATAAATG GGGAATCTTT GTGTGATGAC TGTAAGGGGA AGAAACATCT TGAAACATAC 
ACAACAGTCC ACATGCAATC CTCAAGGTCT AAAAGGGTAG CAAGGACCAT TTGGCACACC 
TTTTCTTATG CAGGTTACTT TGTGCTACGA GCATTGCGAA CAGTGGGAAC AACAGGATGG 
CTTGTATCTC GGAAGGTGTT AGCACTACTA TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA 
GCTTCTGGAG CTTTCTGGTG GCTTGGAACT GGATGGTATC AACTTGTTAC TTTGATTTCT 
TTGTTCAATG TGTTTCTTCT TACAAGATGC CTTCCAAAAA TTTATAAGCT GTTACTGTTT 
CTCATCCCAC TGCTGTTGCT CCTGGGTTTA TTGTACTGGG GGTTTGAAGG CTTCCTTTCG 
TTACTGCCTG CATTCAATTG GACAAGCATA AGTAAACCAC AAAGTGTAGA TGAGTCTGTA 
TACATCCTGA AACCAAGGCC TGATTCTTTT CACTCAGTTC GGCCTCCAGA GGATTCCATT 
AACTTTGATT CTAGCCGCAT GAAAGAGTTG GAAAAACAGA TTGCCTTAAT GTCTGACAGA 
TGTCATCATC ATGATGAAGA ATATGGTAAA GTGATGCTGT TGCTCCAGAA GCTTCAGGAT 
CAGGTTGCCC TGATGAATGA CAAAAGTGAA ATGTTAACAC TAATAAAAAA TGTAATGGGC 
CAACATCTTA AAGAAACTAA ATCTGAAGAA ACAGCACACT CAATGACTGA CCTTCTGGCC 
TTATACCAAG AACACAAATT GAGCATCATG ACGTTGGAAG ACCATATTGG AAAACTCTCT 
GCAAAATATG AGGGCATCCA GAAGGATCTG GAACTAAGCA AAACAAGAAC AGTGAGCGTG 
GGTGATGAAC GGTATGAGAA CCTCTTATCC AAAGCTAAAC AAATGGAACA AGAGTTGGCT 
AGTATGAGAG TAGAACTGTT TAACTTGCAA GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT 
ACCATATATG AAAACGTAGA TGCCCAGATC AAGGAATCTG TCAAGCTTAT GTTTTTTGGT 
GACCAGCACA GTGACTTCTC TGAATCGCTG CTGCAGTGGC TGATGTCTAA ATTCGTGAGC 
AAGAATGATT TGCAGACCTT GTTACAAGAT CTAGAGATGC GAATCCTCAA GAACATATCT 
TTTCATATGT CTGTCTCAAA CCAAAAGTCA ACCTCTGAAA TTGTTACAAG TGCTGTTAAT 
GCTGGGATTT CTGGTATCTC AGAAGCGCAA GCACGCATTA TTGTAAATAA TGCACTGAAA 
CTCTATTCTC AAGACAAGAC TGGTATGGTG GACTTCGCTT TAGAATCTGG AGGTGGTAGT 
ATTCTGAGTA CTCGTTGTTC TGAGACGTAT GAAACTAAAA CAGCACTAAT TAGTCTCTTT 
GGAATTCCTT TGTGGTATTT CTCGCAATCT CCCAGAGTGG TAATTCAGCC TGAGATGTAT 
CCAGGAAACT GCTGGGCTTT CAAAGGATCA CAGGGGTACC TTGTAGTTCG ACTTTCTATC 
AAGATCTACC CAACAGCCTT TACGCTGGAA CATATACCAA AAACACTGTC ACCGACGGGT 
AACATTACCA GTGCACCTAA GGATTTTACA GTATATGGCC TGGATGATGA ATATCAGGAA 
GAAGGCATAC TTCTGGGACA GTACATGTAT GATGAAGGAG GAGAGCCGCT GCAGACATTT 
CAAGTGACGG AGAAAAACGA AAACGCATTC CAAATAGTGG AGCTAAGAAT CCTTTCTAAC 
TGGGGCCATA CGGAGTACAC CTGTCTCTAT CGGTTCAGAG TGCATGGGAG ACCTGCTGAG 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071587.1
CDS	16..2958
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215802.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215802.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTGGGGACAC AACAGTGATT 
CAGGGAAATG GTGATCTAGC AACAGTAGAA ACGCAGACTA CCGTAATCAA TGGCTACACC 
TGCAATGATT GCAGTATGCT TTCTGAACGG AAAGAGGTCC TCACAGCATA CTCTACTTCT 
CACATGCCTT CTTCAAGAAT TTACTCCAGG GATAGGAGCC AAAAACACAA GTCTGGAGGC 
ACCTTTTTCT ACATGATTAA GATTCTACAA TTGGTCAAAT ACGCTGCAAC CTCTTTTGCA 
TCACTGTTAG TGCAACTATT TCAAATGGTT CTGTTGAAGC TGGGTTATGA ATTTAAAGCT 
CACTCAAACT ACTGTGGAAG TATGAATGTA AAAGAGTTTC TCAGAGAAGA TGGCCATCTT 
GGTATAAATG GGGAATCTTT GTGTGATGAC TGTAAGGGGA AGAAACATCT TGAAACATAC 
ACAACAGTCC ACATGCAATC CTCAAGGTCT AAAAGGGTAG CAAGGACCAT TTGGCACACC 
TTTTCTTATG CAGGTTACTT TGTGCTACGA GCATTGCGAA CAGTGGGAAC AACAGGATGG 
CTTGTATCTC GGAAGGTGTT AGCACTACTA TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA 
GCTTCTGGAG CTTTCTGGTG GCTTGGAACT GGATGGTATC AACTTGTTAC TTTGATTTCT 
TTGTTCAATG TGTTTCTTCT TACAAGATGC CTTCCAAAAA TTTATAAGCT GTTACTGTTT 
CTCATCCCAC TGCTGTTGCT CCTGGGTTTA TTGTACTGGG GGTTTGAAGG CTTCCTTTCG 
TTACTGCCTG CATTCAATTG GACAAGCATA AGTAAACCAC AAAGTGTAGA TGAGTCTGTA 
TACATCCTGA AACCAAGGCC TGATTCTTTT CACTCAGTTC GGCCTCCAGA GGATTCCATT 
AACTTTGATT CTAGCCGCAT GAAAGAGTTG GAAAAACAGA TTGCCTTAAT GTCTGACAGA 
TGTCATCATC ATGATGAAGA ATATGGTAAA GTGATGCTGT TGCTCCAGAA GCTTCAGGAT 
CAGGTTGCCC TGATGAATGA CAAAAGTGAA ATGTTAACAC TAATAAAAAA TGTAATGGGC 
CAACATCTTA AAGAAACTAA ATCTGAAGAA ACAGCACACT CAATGACTGA CCTTCTGGCC 
TTATACCAAG AACACAAATT GAGCATCATG ACGTTGGAAG ACCATATTGG AAAACTCTCT 
GCAAAATATG AGGGCATCCA GAAGGATCTG GAACTAAGCA AAACAAGAAC AGTGAGCGTG 
GGTGATGAAC GGTATGAGAA CCTCTTATCC AAAGCTAAAC AAATGGAACA AGAGTTGGCT 
AGTATGAGAG TAGAACTGTT TAACTTGCAA GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT 
ACCATATATG AAAACGTAGA TGCCCAGATC AAGGAATCTG TCAAGCTTAT GTTTTTTGGT 
GACCAGCACA GTGACTTCTC TGAATCGCTG CTGCAGTGGC TGATGTCTAA ATTCGTGAGC 
AAGAATGATT TGCAGACCTT GTTACAAGAT CTAGAGATGC GAATCCTCAA GAACATATCT 
TTTCATATGT CTGTCTCAAA CCAAAAGTCA ACCTCTGAAA TTGTTACAAG TGCTGTTAAT 
GCTGGGATTT CTGGTATCTC AGAAGCGCAA GCACGCATTA TTGTAAATAA TGCACTGAAA 
CTCTATTCTC AAGACAAGAC TGGTATGGTG GACTTCGCTT TAGAATCTGG AGGTGGTAGT 
ATTCTGAGTA CTCGTTGTTC TGAGACGTAT GAAACTAAAA CAGCACTAAT TAGTCTCTTT 
GGAATTCCTT TGTGGTATTT CTCGCAATCT CCCAGAGTGG TAATTCAGCC TGAGATGTAT 
CCAGGAAACT GCTGGGCTTT CAAAGGATCA CAGGGGTACC TTGTAGTTCG ACTTTCTATC 
AAGATCTACC CAACAGCCTT TACGCTGGAA CATATACCAA AAACACTGTC ACCGACGGGT 
AACATTACCA GTGCACCTAA GGATTTTACA GTATATGGCC TGGATGATGA ATATCAGGAA 
GAAGGCATAC TTCTGGGACA GTACATGTAT GATGAAGGAG GAGAGCCGCT GCAGACATTT 
CAAGTGACGG AGAAAAACGA AAACGCATTC CAAATAGTGG AGCTAAGAAT CCTTTCTAAC 
TGGGGCCATA CGGAGTACAC CTGTCTCTAT CGGTTCAGAG TGCATGGGAG ACCTGCTGAG 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215803.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071588.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OAl94769
Clone ID Related Accession (Same CDS sequence)	XM_025215803.1
Accession Version	XM_025215803.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2886bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGGTGAT GACTGTAAGG GGAAGAAACA TCTTGAAACA 
TACACAACAG TCCACATGCA ATCCTCAAGG TCTAAAAGGG TAGCAAGGAC CATTTGGCAC 
ACCTTTTCTT ATGCAGGTTA CTTTGTGCTA CGAGCATTGC GAACAGTGGG AACAACAGGA 
TGGCTTGTAT CTCGGAAGGT GTTAGCACTA CTATGGCTGG CCATTGTTTC TCCAGGTAAG 
GCAGCTTCTG GAGCTTTCTG GTGGCTTGGA ACTGGATGGT ATCAACTTGT TACTTTGATT 
TCTTTGTTCA ATGTGTTTCT TCTTACAAGA TGCCTTCCAA AAATTTATAA GCTGTTACTG 
TTTCTCATCC CACTGCTGTT GCTCCTGGGT TTATTGTACT GGGGGTTTGA AGGCTTCCTT 
TCGTTACTGC CTGCATTCAA TTGGACAAGC ATAAGTAAAC CACAAAGTGT AGATGAGTCT 
GTATACATCC TGAAACCAAG GCCTGATTCT TTTCACTCAG TTCGGCCTCC AGAGGATTCC 
ATTAACTTTG ATTCTAGCCG CATGAAAGAG TTGGAAAAAC AGATTGCCTT AATGTCTGAC 
AGATGTCATC ATCATGATGA AGAATATGGT AAAGTGATGC TGTTGCTCCA GAAGCTTCAG 
GATCAGGTTG CCCTGATGAA TGACAAAAGT GAAATGTTAA CACTAATAAA AAATGTAATG 
GGCCAACATC TTAAAGAAAC TAAATCTGAA GAAACAGCAC ACTCAATGAC TGACCTTCTG 
GCCTTATACC AAGAACACAA ATTGAGCATC ATGACGTTGG AAGACCATAT TGGAAAACTC 
TCTGCAAAAT ATGAGGGCAT CCAGAAGGAT CTGGAACTAA GCAAAACAAG AACAGTGAGC 
GTGGGTGATG AACGGTATGA GAACCTCTTA TCCAAAGCTA AACAAATGGA ACAAGAGTTG 
GCTAGTATGA GAGTAGAACT GTTTAACTTG CAAGGCTTGA AGACTCAGTG TGAGAAAGTA 
GATACCATAT ATGAAAACGT AGATGCCCAG ATCAAGGAAT CTGTCAAGCT TATGTTTTTT 
GGTGACCAGC ACAGTGACTT CTCTGAATCG CTGCTGCAGT GGCTGATGTC TAAATTCGTG 
AGCAAGAATG ATTTGCAGAC CTTGTTACAA GATCTAGAGA TGCGAATCCT CAAGAACATA 
TCTTTTCATA TGTCTGTCTC AAACCAAAAG TCAACCTCTG AAATTGTTAC AAGTGCTGTT 
AATGCTGGGA TTTCTGGTAT CTCAGAAGCG CAAGCACGCA TTATTGTAAA TAATGCACTG 
AAACTCTATT CTCAAGACAA GACTGGTATG GTGGACTTCG CTTTAGAATC TGGAGGTGGT 
AGTATTCTGA GTACTCGTTG TTCTGAGACG TATGAAACTA AAACAGCACT AATTAGTCTC 
TTTGGAATTC CTTTGTGGTA TTTCTCGCAA TCTCCCAGAG TGGTAATTCA GCCTGAGATG 
TATCCAGGAA ACTGCTGGGC TTTCAAAGGA TCACAGGGGT ACCTTGTAGT TCGACTTTCT 
ATCAAGATCT ACCCAACAGC CTTTACGCTG GAACATATAC CAAAAACACT GTCACCGACG 
GGTAACATTA CCAGTGCACC TAAGGATTTT ACAGTATATG GCCTGGATGA TGAATATCAG 
GAAGAAGGCA TACTTCTGGG ACAGTACATG TATGATGAAG GAGGAGAGCC GCTGCAGACA 
TTTCAAGTGA CGGAGAAAAA CGAAAACGCA TTCCAAATAG TGGAGCTAAG AATCCTTTCT 
AACTGGGGCC ATACGGAGTA CACCTGTCTC TATCGGTTCA GAGTGCATGG GAGACCTGCT 
GAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071588.1
CDS	16..2901
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKGDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215803.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215803.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGGTGAT GACTGTAAGG GGAAGAAACA TCTTGAAACA 
TACACAACAG TCCACATGCA ATCCTCAAGG TCTAAAAGGG TAGCAAGGAC CATTTGGCAC 
ACCTTTTCTT ATGCAGGTTA CTTTGTGCTA CGAGCATTGC GAACAGTGGG AACAACAGGA 
TGGCTTGTAT CTCGGAAGGT GTTAGCACTA CTATGGCTGG CCATTGTTTC TCCAGGTAAG 
GCAGCTTCTG GAGCTTTCTG GTGGCTTGGA ACTGGATGGT ATCAACTTGT TACTTTGATT 
TCTTTGTTCA ATGTGTTTCT TCTTACAAGA TGCCTTCCAA AAATTTATAA GCTGTTACTG 
TTTCTCATCC CACTGCTGTT GCTCCTGGGT TTATTGTACT GGGGGTTTGA AGGCTTCCTT 
TCGTTACTGC CTGCATTCAA TTGGACAAGC ATAAGTAAAC CACAAAGTGT AGATGAGTCT 
GTATACATCC TGAAACCAAG GCCTGATTCT TTTCACTCAG TTCGGCCTCC AGAGGATTCC 
ATTAACTTTG ATTCTAGCCG CATGAAAGAG TTGGAAAAAC AGATTGCCTT AATGTCTGAC 
AGATGTCATC ATCATGATGA AGAATATGGT AAAGTGATGC TGTTGCTCCA GAAGCTTCAG 
GATCAGGTTG CCCTGATGAA TGACAAAAGT GAAATGTTAA CACTAATAAA AAATGTAATG 
GGCCAACATC TTAAAGAAAC TAAATCTGAA GAAACAGCAC ACTCAATGAC TGACCTTCTG 
GCCTTATACC AAGAACACAA ATTGAGCATC ATGACGTTGG AAGACCATAT TGGAAAACTC 
TCTGCAAAAT ATGAGGGCAT CCAGAAGGAT CTGGAACTAA GCAAAACAAG AACAGTGAGC 
GTGGGTGATG AACGGTATGA GAACCTCTTA TCCAAAGCTA AACAAATGGA ACAAGAGTTG 
GCTAGTATGA GAGTAGAACT GTTTAACTTG CAAGGCTTGA AGACTCAGTG TGAGAAAGTA 
GATACCATAT ATGAAAACGT AGATGCCCAG ATCAAGGAAT CTGTCAAGCT TATGTTTTTT 
GGTGACCAGC ACAGTGACTT CTCTGAATCG CTGCTGCAGT GGCTGATGTC TAAATTCGTG 
AGCAAGAATG ATTTGCAGAC CTTGTTACAA GATCTAGAGA TGCGAATCCT CAAGAACATA 
TCTTTTCATA TGTCTGTCTC AAACCAAAAG TCAACCTCTG AAATTGTTAC AAGTGCTGTT 
AATGCTGGGA TTTCTGGTAT CTCAGAAGCG CAAGCACGCA TTATTGTAAA TAATGCACTG 
AAACTCTATT CTCAAGACAA GACTGGTATG GTGGACTTCG CTTTAGAATC TGGAGGTGGT 
AGTATTCTGA GTACTCGTTG TTCTGAGACG TATGAAACTA AAACAGCACT AATTAGTCTC 
TTTGGAATTC CTTTGTGGTA TTTCTCGCAA TCTCCCAGAG TGGTAATTCA GCCTGAGATG 
TATCCAGGAA ACTGCTGGGC TTTCAAAGGA TCACAGGGGT ACCTTGTAGT TCGACTTTCT 
ATCAAGATCT ACCCAACAGC CTTTACGCTG GAACATATAC CAAAAACACT GTCACCGACG 
GGTAACATTA CCAGTGCACC TAAGGATTTT ACAGTATATG GCCTGGATGA TGAATATCAG 
GAAGAAGGCA TACTTCTGGG ACAGTACATG TATGATGAAG GAGGAGAGCC GCTGCAGACA 
TTTCAAGTGA CGGAGAAAAA CGAAAACGCA TTCCAAATAG TGGAGCTAAG AATCCTTTCT 
AACTGGGGCC ATACGGAGTA CACCTGTCTC TATCGGTTCA GAGTGCATGG GAGACCTGCT 
GAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215804.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071589.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OAl94770
Clone ID Related Accession (Same CDS sequence)	XM_025215804.1
Accession Version	XM_025215804.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2871bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TGATGACTGT 
AAGGGGAAGA AACATCTTGA AACATACACA ACAGTCCACA TGCAATCCTC AAGGTCTAAA 
AGGGTAGCAA GGACCATTTG GCACACCTTT TCTTATGCAG GTAAGGCAGC TTCTGGAGCT 
TTCTGGTGGC TTGGAACTGG ATGGTATCAA CTTGTTACTT TGATTTCTTT GTTCAATGTG 
TTTCTTCTTA CAAGATGCCT TCCAAAAATT TATAAGCTGT TACTGTTTCT CATCCCACTG 
CTGTTGCTCC TGGGTTTATT GTACTGGGGG TTTGAAGGCT TCCTTTCGTT ACTGCCTGCA 
TTCAATTGGA CAAGCATAAG TAAACCACAA AGTGTAGATG AGTCTGTATA CATCCTGAAA 
CCAAGGCCTG ATTCTTTTCA CTCAGTTCGG CCTCCAGAGG ATTCCATTAA CTTTGATTCT 
AGCCGCATGA AAGAGTTGGA AAAACAGATT GCCTTAATGT CTGACAGATG TCATCATCAT 
GATGAAGAAT ATGGTAAAGT GATGCTGTTG CTCCAGAAGC TTCAGGATCA GGTTGCCCTG 
ATGAATGACA AAAGTGAAAT GTTAACACTA ATAAAAAATG TAATGGGCCA ACATCTTAAA 
GAAACTAAAT CTGAAGAAAC AGCACACTCA ATGACTGACC TTCTGGCCTT ATACCAAGAA 
CACAAATTGA GCATCATGAC GTTGGAAGAC CATATTGGAA AACTCTCTGC AAAATATGAG 
GGCATCCAGA AGGATCTGGA ACTAAGCAAA ACAAGAACAG TGAGCGTGGG TGATGAACGG 
TATGAGAACC TCTTATCCAA AGCTAAACAA ATGGAACAAG AGTTGGCTAG TATGAGAGTA 
GAACTGTTTA ACTTGCAAGG CTTGAAGACT CAGTGTGAGA AAGTAGATAC CATATATGAA 
AACGTAGATG CCCAGATCAA GGAATCTGTC AAGCTTATGT TTTTTGGTGA CCAGCACAGT 
GACTTCTCTG AATCGCTGCT GCAGTGGCTG ATGTCTAAAT TCGTGAGCAA GAATGATTTG 
CAGACCTTGT TACAAGATCT AGAGATGCGA ATCCTCAAGA ACATATCTTT TCATATGTCT 
GTCTCAAACC AAAAGTCAAC CTCTGAAATT GTTACAAGTG CTGTTAATGC TGGGATTTCT 
GGTATCTCAG AAGCGCAAGC ACGCATTATT GTAAATAATG CACTGAAACT CTATTCTCAA 
GACAAGACTG GTATGGTGGA CTTCGCTTTA GAATCTGGAG GTGGTAGTAT TCTGAGTACT 
CGTTGTTCTG AGACGTATGA AACTAAAACA GCACTAATTA GTCTCTTTGG AATTCCTTTG 
TGGTATTTCT CGCAATCTCC CAGAGTGGTA ATTCAGCCTG AGATGTATCC AGGAAACTGC 
TGGGCTTTCA AAGGATCACA GGGGTACCTT GTAGTTCGAC TTTCTATCAA GATCTACCCA 
ACAGCCTTTA CGCTGGAACA TATACCAAAA ACACTGTCAC CGACGGGTAA CATTACCAGT 
GCACCTAAGG ATTTTACAGT ATATGGCCTG GATGATGAAT ATCAGGAAGA AGGCATACTT 
CTGGGACAGT ACATGTATGA TGAAGGAGGA GAGCCGCTGC AGACATTTCA AGTGACGGAG 
AAAAACGAAA ACGCATTCCA AATAGTGGAG CTAAGAATCC TTTCTAACTG GGGCCATACG 
GAGTACACCT GTCTCTATCG GTTCAGAGTG CATGGGAGAC CTGCTGAGTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071589.1
CDS	16..2886
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215804.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X4, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215804.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TGATGACTGT 
AAGGGGAAGA AACATCTTGA AACATACACA ACAGTCCACA TGCAATCCTC AAGGTCTAAA 
AGGGTAGCAA GGACCATTTG GCACACCTTT TCTTATGCAG GTAAGGCAGC TTCTGGAGCT 
TTCTGGTGGC TTGGAACTGG ATGGTATCAA CTTGTTACTT TGATTTCTTT GTTCAATGTG 
TTTCTTCTTA CAAGATGCCT TCCAAAAATT TATAAGCTGT TACTGTTTCT CATCCCACTG 
CTGTTGCTCC TGGGTTTATT GTACTGGGGG TTTGAAGGCT TCCTTTCGTT ACTGCCTGCA 
TTCAATTGGA CAAGCATAAG TAAACCACAA AGTGTAGATG AGTCTGTATA CATCCTGAAA 
CCAAGGCCTG ATTCTTTTCA CTCAGTTCGG CCTCCAGAGG ATTCCATTAA CTTTGATTCT 
AGCCGCATGA AAGAGTTGGA AAAACAGATT GCCTTAATGT CTGACAGATG TCATCATCAT 
GATGAAGAAT ATGGTAAAGT GATGCTGTTG CTCCAGAAGC TTCAGGATCA GGTTGCCCTG 
ATGAATGACA AAAGTGAAAT GTTAACACTA ATAAAAAATG TAATGGGCCA ACATCTTAAA 
GAAACTAAAT CTGAAGAAAC AGCACACTCA ATGACTGACC TTCTGGCCTT ATACCAAGAA 
CACAAATTGA GCATCATGAC GTTGGAAGAC CATATTGGAA AACTCTCTGC AAAATATGAG 
GGCATCCAGA AGGATCTGGA ACTAAGCAAA ACAAGAACAG TGAGCGTGGG TGATGAACGG 
TATGAGAACC TCTTATCCAA AGCTAAACAA ATGGAACAAG AGTTGGCTAG TATGAGAGTA 
GAACTGTTTA ACTTGCAAGG CTTGAAGACT CAGTGTGAGA AAGTAGATAC CATATATGAA 
AACGTAGATG CCCAGATCAA GGAATCTGTC AAGCTTATGT TTTTTGGTGA CCAGCACAGT 
GACTTCTCTG AATCGCTGCT GCAGTGGCTG ATGTCTAAAT TCGTGAGCAA GAATGATTTG 
CAGACCTTGT TACAAGATCT AGAGATGCGA ATCCTCAAGA ACATATCTTT TCATATGTCT 
GTCTCAAACC AAAAGTCAAC CTCTGAAATT GTTACAAGTG CTGTTAATGC TGGGATTTCT 
GGTATCTCAG AAGCGCAAGC ACGCATTATT GTAAATAATG CACTGAAACT CTATTCTCAA 
GACAAGACTG GTATGGTGGA CTTCGCTTTA GAATCTGGAG GTGGTAGTAT TCTGAGTACT 
CGTTGTTCTG AGACGTATGA AACTAAAACA GCACTAATTA GTCTCTTTGG AATTCCTTTG 
TGGTATTTCT CGCAATCTCC CAGAGTGGTA ATTCAGCCTG AGATGTATCC AGGAAACTGC 
TGGGCTTTCA AAGGATCACA GGGGTACCTT GTAGTTCGAC TTTCTATCAA GATCTACCCA 
ACAGCCTTTA CGCTGGAACA TATACCAAAA ACACTGTCAC CGACGGGTAA CATTACCAGT 
GCACCTAAGG ATTTTACAGT ATATGGCCTG GATGATGAAT ATCAGGAAGA AGGCATACTT 
CTGGGACAGT ACATGTATGA TGAAGGAGGA GAGCCGCTGC AGACATTTCA AGTGACGGAG 
AAAAACGAAA ACGCATTCCA AATAGTGGAG CTAAGAATCC TTTCTAACTG GGGCCATACG 
GAGTACACCT GTCTCTATCG GTTCAGAGTG CATGGGAGAC CTGCTGAGTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215805.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071590.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OAl94771
Clone ID Related Accession (Same CDS sequence)	XM_025215805.1
Accession Version	XM_025215805.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2859bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X5
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TTACTTTGTG 
CTACGAGCAT TGCGAACAGT GGGAACAACA GGATGGCTTG TATCTCGGAA GGTGTTAGCA 
CTACTATGGC TGGCCATTGT TTCTCCAGGT AAGGCAGCTT CTGGAGCTTT CTGGTGGCTT 
GGAACTGGAT GGTATCAACT TGTTACTTTG ATTTCTTTGT TCAATGTGTT TCTTCTTACA 
AGATGCCTTC CAAAAATTTA TAAGCTGTTA CTGTTTCTCA TCCCACTGCT GTTGCTCCTG 
GGTTTATTGT ACTGGGGGTT TGAAGGCTTC CTTTCGTTAC TGCCTGCATT CAATTGGACA 
AGCATAAGTA AACCACAAAG TGTAGATGAG TCTGTATACA TCCTGAAACC AAGGCCTGAT 
TCTTTTCACT CAGTTCGGCC TCCAGAGGAT TCCATTAACT TTGATTCTAG CCGCATGAAA 
GAGTTGGAAA AACAGATTGC CTTAATGTCT GACAGATGTC ATCATCATGA TGAAGAATAT 
GGTAAAGTGA TGCTGTTGCT CCAGAAGCTT CAGGATCAGG TTGCCCTGAT GAATGACAAA 
AGTGAAATGT TAACACTAAT AAAAAATGTA ATGGGCCAAC ATCTTAAAGA AACTAAATCT 
GAAGAAACAG CACACTCAAT GACTGACCTT CTGGCCTTAT ACCAAGAACA CAAATTGAGC 
ATCATGACGT TGGAAGACCA TATTGGAAAA CTCTCTGCAA AATATGAGGG CATCCAGAAG 
GATCTGGAAC TAAGCAAAAC AAGAACAGTG AGCGTGGGTG ATGAACGGTA TGAGAACCTC 
TTATCCAAAG CTAAACAAAT GGAACAAGAG TTGGCTAGTA TGAGAGTAGA ACTGTTTAAC 
TTGCAAGGCT TGAAGACTCA GTGTGAGAAA GTAGATACCA TATATGAAAA CGTAGATGCC 
CAGATCAAGG AATCTGTCAA GCTTATGTTT TTTGGTGACC AGCACAGTGA CTTCTCTGAA 
TCGCTGCTGC AGTGGCTGAT GTCTAAATTC GTGAGCAAGA ATGATTTGCA GACCTTGTTA 
CAAGATCTAG AGATGCGAAT CCTCAAGAAC ATATCTTTTC ATATGTCTGT CTCAAACCAA 
AAGTCAACCT CTGAAATTGT TACAAGTGCT GTTAATGCTG GGATTTCTGG TATCTCAGAA 
GCGCAAGCAC GCATTATTGT AAATAATGCA CTGAAACTCT ATTCTCAAGA CAAGACTGGT 
ATGGTGGACT TCGCTTTAGA ATCTGGAGGT GGTAGTATTC TGAGTACTCG TTGTTCTGAG 
ACGTATGAAA CTAAAACAGC ACTAATTAGT CTCTTTGGAA TTCCTTTGTG GTATTTCTCG 
CAATCTCCCA GAGTGGTAAT TCAGCCTGAG ATGTATCCAG GAAACTGCTG GGCTTTCAAA 
GGATCACAGG GGTACCTTGT AGTTCGACTT TCTATCAAGA TCTACCCAAC AGCCTTTACG 
CTGGAACATA TACCAAAAAC ACTGTCACCG ACGGGTAACA TTACCAGTGC ACCTAAGGAT 
TTTACAGTAT ATGGCCTGGA TGATGAATAT CAGGAAGAAG GCATACTTCT GGGACAGTAC 
ATGTATGATG AAGGAGGAGA GCCGCTGCAG ACATTTCAAG TGACGGAGAA AAACGAAAAC 
GCATTCCAAA TAGTGGAGCT AAGAATCCTT TCTAACTGGG GCCATACGGA GTACACCTGT 
CTCTATCGGT TCAGAGTGCA TGGGAGACCT GCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071590.1
CDS	16..2874
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215805.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X5, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215805.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGCTCAC TCAAACTACT GTGGAAGTAT GAATGTAAAA 
GAGTTTCTCA GAGAAGATGG CCATCTTGGT ATAAATGGGG AATCTTTGTG TTACTTTGTG 
CTACGAGCAT TGCGAACAGT GGGAACAACA GGATGGCTTG TATCTCGGAA GGTGTTAGCA 
CTACTATGGC TGGCCATTGT TTCTCCAGGT AAGGCAGCTT CTGGAGCTTT CTGGTGGCTT 
GGAACTGGAT GGTATCAACT TGTTACTTTG ATTTCTTTGT TCAATGTGTT TCTTCTTACA 
AGATGCCTTC CAAAAATTTA TAAGCTGTTA CTGTTTCTCA TCCCACTGCT GTTGCTCCTG 
GGTTTATTGT ACTGGGGGTT TGAAGGCTTC CTTTCGTTAC TGCCTGCATT CAATTGGACA 
AGCATAAGTA AACCACAAAG TGTAGATGAG TCTGTATACA TCCTGAAACC AAGGCCTGAT 
TCTTTTCACT CAGTTCGGCC TCCAGAGGAT TCCATTAACT TTGATTCTAG CCGCATGAAA 
GAGTTGGAAA AACAGATTGC CTTAATGTCT GACAGATGTC ATCATCATGA TGAAGAATAT 
GGTAAAGTGA TGCTGTTGCT CCAGAAGCTT CAGGATCAGG TTGCCCTGAT GAATGACAAA 
AGTGAAATGT TAACACTAAT AAAAAATGTA ATGGGCCAAC ATCTTAAAGA AACTAAATCT 
GAAGAAACAG CACACTCAAT GACTGACCTT CTGGCCTTAT ACCAAGAACA CAAATTGAGC 
ATCATGACGT TGGAAGACCA TATTGGAAAA CTCTCTGCAA AATATGAGGG CATCCAGAAG 
GATCTGGAAC TAAGCAAAAC AAGAACAGTG AGCGTGGGTG ATGAACGGTA TGAGAACCTC 
TTATCCAAAG CTAAACAAAT GGAACAAGAG TTGGCTAGTA TGAGAGTAGA ACTGTTTAAC 
TTGCAAGGCT TGAAGACTCA GTGTGAGAAA GTAGATACCA TATATGAAAA CGTAGATGCC 
CAGATCAAGG AATCTGTCAA GCTTATGTTT TTTGGTGACC AGCACAGTGA CTTCTCTGAA 
TCGCTGCTGC AGTGGCTGAT GTCTAAATTC GTGAGCAAGA ATGATTTGCA GACCTTGTTA 
CAAGATCTAG AGATGCGAAT CCTCAAGAAC ATATCTTTTC ATATGTCTGT CTCAAACCAA 
AAGTCAACCT CTGAAATTGT TACAAGTGCT GTTAATGCTG GGATTTCTGG TATCTCAGAA 
GCGCAAGCAC GCATTATTGT AAATAATGCA CTGAAACTCT ATTCTCAAGA CAAGACTGGT 
ATGGTGGACT TCGCTTTAGA ATCTGGAGGT GGTAGTATTC TGAGTACTCG TTGTTCTGAG 
ACGTATGAAA CTAAAACAGC ACTAATTAGT CTCTTTGGAA TTCCTTTGTG GTATTTCTCG 
CAATCTCCCA GAGTGGTAAT TCAGCCTGAG ATGTATCCAG GAAACTGCTG GGCTTTCAAA 
GGATCACAGG GGTACCTTGT AGTTCGACTT TCTATCAAGA TCTACCCAAC AGCCTTTACG 
CTGGAACATA TACCAAAAAC ACTGTCACCG ACGGGTAACA TTACCAGTGC ACCTAAGGAT 
TTTACAGTAT ATGGCCTGGA TGATGAATAT CAGGAAGAAG GCATACTTCT GGGACAGTAC 
ATGTATGATG AAGGAGGAGA GCCGCTGCAG ACATTTCAAG TGACGGAGAA AAACGAAAAC 
GCATTCCAAA TAGTGGAGCT AAGAATCCTT TCTAACTGGG GCCATACGGA GTACACCTGT 
CTCTATCGGT TCAGAGTGCA TGGGAGACCT GCTGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215806.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071591.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X6, mRNA.

Price & Availability↑

CloneID	OAl94772
Clone ID Related Accession (Same CDS sequence)	XM_025215806.1
Accession Version	XM_025215806.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2847bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X6
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGCTCACTCA AACTACTGTG GAAGTATGAA TGTAAAAGAG 
TTTCTCAGAG AAGATGGCCA TCTTGGTATA AATGGGGAAT CTTTGTGTGA TGACTGTAAG 
GGGAAGAAAC ATCTTGAAAC ATACACAACA GTCCACATGC AATCCTCAAG GTCTAAAAGG 
GTAGCAAGGA CCATTTGGCA CACCTTTTCT TATGCAGGTT ACTTTGTGCT ACGAGCATTG 
CGAACAGTGG GAACAACAGG ATGGCTTGTA TCTCGGAAGG TGTTAGCACT ACTATGGCTG 
GCCATTGTTT CTCCAGGTAA GGCAGCTTCT GGAGCTTTCT GGTGGCTTGG AACTGGATGG 
TATCAACTTG TTACTTTGAT TTCTTTGTTC AATGTGTTTC TTCTTACAAG ATGCCTTCCA 
AAAATTTATA AGCTGTTACT GTTTCTCATC CCACTGCTGT TGCTCCTGGG TTTATTGTAC 
TGGGGGTTTG AAGGCTTCCT TTCGTTACTG CCTGCATTCA ATTGGACAAG CATAAGTAAA 
CCACAAAGTG TAGATGAGTC TGTATACATC CTGAAACCAA GGCCTGATTC TTTTCACTCA 
GTTCGGCCTC CAGAGGATTC CATTAACTTT GATTCTAGCC GCATGAAAGA GTTGGAAAAA 
CAGATTGCCT TAATGTCTGA CAGATGTCAT CATCATGATG AAGAATATGG TAAAGTGATG 
CTGTTGCTCC AGAAGCTTCA GGATCAGGTT GCCCTGATGA ATGACAAAAG TGAAATGTTA 
ACACTAATAA AAAATGTAAT GGGCCAACAT CTTAAAGAAA CTAAATCTGA AGAAACAGCA 
CACTCAATGA CTGACCTTCT GGCCTTATAC CAAGAACACA AATTGAGCAT CATGACGTTG 
GAAGACCATA TTGGAAAACT CTCTGCAAAA TATGAGGGCA TCCAGAAGGA TCTGGAACTA 
AGCAAAACAA GAACAGTGAG CGTGGGTGAT GAACGGTATG AGAACCTCTT ATCCAAAGCT 
AAACAAATGG AACAAGAGTT GGCTAGTATG AGAGTAGAAC TGTTTAACTT GCAAGGCTTG 
AAGACTCAGT GTGAGAAAGT AGATACCATA TATGAAAACG TAGATGCCCA GATCAAGGAA 
TCTGTCAAGC TTATGTTTTT TGGTGACCAG CACAGTGACT TCTCTGAATC GCTGCTGCAG 
TGGCTGATGT CTAAATTCGT GAGCAAGAAT GATTTGCAGA CCTTGTTACA AGATCTAGAG 
ATGCGAATCC TCAAGAACAT ATCTTTTCAT ATGTCTGTCT CAAACCAAAA GTCAACCTCT 
GAAATTGTTA CAAGTGCTGT TAATGCTGGG ATTTCTGGTA TCTCAGAAGC GCAAGCACGC 
ATTATTGTAA ATAATGCACT GAAACTCTAT TCTCAAGACA AGACTGGTAT GGTGGACTTC 
GCTTTAGAAT CTGGAGGTGG TAGTATTCTG AGTACTCGTT GTTCTGAGAC GTATGAAACT 
AAAACAGCAC TAATTAGTCT CTTTGGAATT CCTTTGTGGT ATTTCTCGCA ATCTCCCAGA 
GTGGTAATTC AGCCTGAGAT GTATCCAGGA AACTGCTGGG CTTTCAAAGG ATCACAGGGG 
TACCTTGTAG TTCGACTTTC TATCAAGATC TACCCAACAG CCTTTACGCT GGAACATATA 
CCAAAAACAC TGTCACCGAC GGGTAACATT ACCAGTGCAC CTAAGGATTT TACAGTATAT 
GGCCTGGATG ATGAATATCA GGAAGAAGGC ATACTTCTGG GACAGTACAT GTATGATGAA 
GGAGGAGAGC CGCTGCAGAC ATTTCAAGTG ACGGAGAAAA ACGAAAACGC ATTCCAAATA 
GTGGAGCTAA GAATCCTTTC TAACTGGGGC CATACGGAGT ACACCTGTCT CTATCGGTTC 
AGAGTGCATG GGAGACCTGC TGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071591.1
CDS	16..2862
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215806.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X6, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215806.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGCTCACTCA AACTACTGTG GAAGTATGAA TGTAAAAGAG 
TTTCTCAGAG AAGATGGCCA TCTTGGTATA AATGGGGAAT CTTTGTGTGA TGACTGTAAG 
GGGAAGAAAC ATCTTGAAAC ATACACAACA GTCCACATGC AATCCTCAAG GTCTAAAAGG 
GTAGCAAGGA CCATTTGGCA CACCTTTTCT TATGCAGGTT ACTTTGTGCT ACGAGCATTG 
CGAACAGTGG GAACAACAGG ATGGCTTGTA TCTCGGAAGG TGTTAGCACT ACTATGGCTG 
GCCATTGTTT CTCCAGGTAA GGCAGCTTCT GGAGCTTTCT GGTGGCTTGG AACTGGATGG 
TATCAACTTG TTACTTTGAT TTCTTTGTTC AATGTGTTTC TTCTTACAAG ATGCCTTCCA 
AAAATTTATA AGCTGTTACT GTTTCTCATC CCACTGCTGT TGCTCCTGGG TTTATTGTAC 
TGGGGGTTTG AAGGCTTCCT TTCGTTACTG CCTGCATTCA ATTGGACAAG CATAAGTAAA 
CCACAAAGTG TAGATGAGTC TGTATACATC CTGAAACCAA GGCCTGATTC TTTTCACTCA 
GTTCGGCCTC CAGAGGATTC CATTAACTTT GATTCTAGCC GCATGAAAGA GTTGGAAAAA 
CAGATTGCCT TAATGTCTGA CAGATGTCAT CATCATGATG AAGAATATGG TAAAGTGATG 
CTGTTGCTCC AGAAGCTTCA GGATCAGGTT GCCCTGATGA ATGACAAAAG TGAAATGTTA 
ACACTAATAA AAAATGTAAT GGGCCAACAT CTTAAAGAAA CTAAATCTGA AGAAACAGCA 
CACTCAATGA CTGACCTTCT GGCCTTATAC CAAGAACACA AATTGAGCAT CATGACGTTG 
GAAGACCATA TTGGAAAACT CTCTGCAAAA TATGAGGGCA TCCAGAAGGA TCTGGAACTA 
AGCAAAACAA GAACAGTGAG CGTGGGTGAT GAACGGTATG AGAACCTCTT ATCCAAAGCT 
AAACAAATGG AACAAGAGTT GGCTAGTATG AGAGTAGAAC TGTTTAACTT GCAAGGCTTG 
AAGACTCAGT GTGAGAAAGT AGATACCATA TATGAAAACG TAGATGCCCA GATCAAGGAA 
TCTGTCAAGC TTATGTTTTT TGGTGACCAG CACAGTGACT TCTCTGAATC GCTGCTGCAG 
TGGCTGATGT CTAAATTCGT GAGCAAGAAT GATTTGCAGA CCTTGTTACA AGATCTAGAG 
ATGCGAATCC TCAAGAACAT ATCTTTTCAT ATGTCTGTCT CAAACCAAAA GTCAACCTCT 
GAAATTGTTA CAAGTGCTGT TAATGCTGGG ATTTCTGGTA TCTCAGAAGC GCAAGCACGC 
ATTATTGTAA ATAATGCACT GAAACTCTAT TCTCAAGACA AGACTGGTAT GGTGGACTTC 
GCTTTAGAAT CTGGAGGTGG TAGTATTCTG AGTACTCGTT GTTCTGAGAC GTATGAAACT 
AAAACAGCAC TAATTAGTCT CTTTGGAATT CCTTTGTGGT ATTTCTCGCA ATCTCCCAGA 
GTGGTAATTC AGCCTGAGAT GTATCCAGGA AACTGCTGGG CTTTCAAAGG ATCACAGGGG 
TACCTTGTAG TTCGACTTTC TATCAAGATC TACCCAACAG CCTTTACGCT GGAACATATA 
CCAAAAACAC TGTCACCGAC GGGTAACATT ACCAGTGCAC CTAAGGATTT TACAGTATAT 
GGCCTGGATG ATGAATATCA GGAAGAAGGC ATACTTCTGG GACAGTACAT GTATGATGAA 
GGAGGAGAGC CGCTGCAGAC ATTTCAAGTG ACGGAGAAAA ACGAAAACGC ATTCCAAATA 
GTGGAGCTAA GAATCCTTTC TAACTGGGGC CATACGGAGT ACACCTGTCT CTATCGGTTC 
AGAGTGCATG GGAGACCTGC TGAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215807.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071592.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X7, mRNA.

Price & Availability↑

CloneID	OAl94773
Clone ID Related Accession (Same CDS sequence)	XM_025215807.1
Accession Version	XM_025215807.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2775bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X7
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGGTTAC TTTGTGCTAC GAGCATTGCG AACAGTGGGA 
ACAACAGGAT GGCTTGTATC TCGGAAGGTG TTAGCACTAC TATGGCTGGC CATTGTTTCT 
CCAGGTAAGG CAGCTTCTGG AGCTTTCTGG TGGCTTGGAA CTGGATGGTA TCAACTTGTT 
ACTTTGATTT CTTTGTTCAA TGTGTTTCTT CTTACAAGAT GCCTTCCAAA AATTTATAAG 
CTGTTACTGT TTCTCATCCC ACTGCTGTTG CTCCTGGGTT TATTGTACTG GGGGTTTGAA 
GGCTTCCTTT CGTTACTGCC TGCATTCAAT TGGACAAGCA TAAGTAAACC ACAAAGTGTA 
GATGAGTCTG TATACATCCT GAAACCAAGG CCTGATTCTT TTCACTCAGT TCGGCCTCCA 
GAGGATTCCA TTAACTTTGA TTCTAGCCGC ATGAAAGAGT TGGAAAAACA GATTGCCTTA 
ATGTCTGACA GATGTCATCA TCATGATGAA GAATATGGTA AAGTGATGCT GTTGCTCCAG 
AAGCTTCAGG ATCAGGTTGC CCTGATGAAT GACAAAAGTG AAATGTTAAC ACTAATAAAA 
AATGTAATGG GCCAACATCT TAAAGAAACT AAATCTGAAG AAACAGCACA CTCAATGACT 
GACCTTCTGG CCTTATACCA AGAACACAAA TTGAGCATCA TGACGTTGGA AGACCATATT 
GGAAAACTCT CTGCAAAATA TGAGGGCATC CAGAAGGATC TGGAACTAAG CAAAACAAGA 
ACAGTGAGCG TGGGTGATGA ACGGTATGAG AACCTCTTAT CCAAAGCTAA ACAAATGGAA 
CAAGAGTTGG CTAGTATGAG AGTAGAACTG TTTAACTTGC AAGGCTTGAA GACTCAGTGT 
GAGAAAGTAG ATACCATATA TGAAAACGTA GATGCCCAGA TCAAGGAATC TGTCAAGCTT 
ATGTTTTTTG GTGACCAGCA CAGTGACTTC TCTGAATCGC TGCTGCAGTG GCTGATGTCT 
AAATTCGTGA GCAAGAATGA TTTGCAGACC TTGTTACAAG ATCTAGAGAT GCGAATCCTC 
AAGAACATAT CTTTTCATAT GTCTGTCTCA AACCAAAAGT CAACCTCTGA AATTGTTACA 
AGTGCTGTTA ATGCTGGGAT TTCTGGTATC TCAGAAGCGC AAGCACGCAT TATTGTAAAT 
AATGCACTGA AACTCTATTC TCAAGACAAG ACTGGTATGG TGGACTTCGC TTTAGAATCT 
GGAGGTGGTA GTATTCTGAG TACTCGTTGT TCTGAGACGT ATGAAACTAA AACAGCACTA 
ATTAGTCTCT TTGGAATTCC TTTGTGGTAT TTCTCGCAAT CTCCCAGAGT GGTAATTCAG 
CCTGAGATGT ATCCAGGAAA CTGCTGGGCT TTCAAAGGAT CACAGGGGTA CCTTGTAGTT 
CGACTTTCTA TCAAGATCTA CCCAACAGCC TTTACGCTGG AACATATACC AAAAACACTG 
TCACCGACGG GTAACATTAC CAGTGCACCT AAGGATTTTA CAGTATATGG CCTGGATGAT 
GAATATCAGG AAGAAGGCAT ACTTCTGGGA CAGTACATGT ATGATGAAGG AGGAGAGCCG 
CTGCAGACAT TTCAAGTGAC GGAGAAAAAC GAAAACGCAT TCCAAATAGT GGAGCTAAGA 
ATCCTTTCTA ACTGGGGCCA TACGGAGTAC ACCTGTCTCT ATCGGTTCAG AGTGCATGGG 
AGACCTGCTG AGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071592.1
CDS	16..2790
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215807.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X7, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215807.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGAGGCACC TTTTTCTACA TGATTAAGAT TCTACAATTG 
GTCAAATACG CTGCAACCTC TTTTGCATCA CTGTTAGTGC AACTATTTCA AATGGTTCTG 
TTGAAGCTGG GTTATGAATT TAAAGGTTAC TTTGTGCTAC GAGCATTGCG AACAGTGGGA 
ACAACAGGAT GGCTTGTATC TCGGAAGGTG TTAGCACTAC TATGGCTGGC CATTGTTTCT 
CCAGGTAAGG CAGCTTCTGG AGCTTTCTGG TGGCTTGGAA CTGGATGGTA TCAACTTGTT 
ACTTTGATTT CTTTGTTCAA TGTGTTTCTT CTTACAAGAT GCCTTCCAAA AATTTATAAG 
CTGTTACTGT TTCTCATCCC ACTGCTGTTG CTCCTGGGTT TATTGTACTG GGGGTTTGAA 
GGCTTCCTTT CGTTACTGCC TGCATTCAAT TGGACAAGCA TAAGTAAACC ACAAAGTGTA 
GATGAGTCTG TATACATCCT GAAACCAAGG CCTGATTCTT TTCACTCAGT TCGGCCTCCA 
GAGGATTCCA TTAACTTTGA TTCTAGCCGC ATGAAAGAGT TGGAAAAACA GATTGCCTTA 
ATGTCTGACA GATGTCATCA TCATGATGAA GAATATGGTA AAGTGATGCT GTTGCTCCAG 
AAGCTTCAGG ATCAGGTTGC CCTGATGAAT GACAAAAGTG AAATGTTAAC ACTAATAAAA 
AATGTAATGG GCCAACATCT TAAAGAAACT AAATCTGAAG AAACAGCACA CTCAATGACT 
GACCTTCTGG CCTTATACCA AGAACACAAA TTGAGCATCA TGACGTTGGA AGACCATATT 
GGAAAACTCT CTGCAAAATA TGAGGGCATC CAGAAGGATC TGGAACTAAG CAAAACAAGA 
ACAGTGAGCG TGGGTGATGA ACGGTATGAG AACCTCTTAT CCAAAGCTAA ACAAATGGAA 
CAAGAGTTGG CTAGTATGAG AGTAGAACTG TTTAACTTGC AAGGCTTGAA GACTCAGTGT 
GAGAAAGTAG ATACCATATA TGAAAACGTA GATGCCCAGA TCAAGGAATC TGTCAAGCTT 
ATGTTTTTTG GTGACCAGCA CAGTGACTTC TCTGAATCGC TGCTGCAGTG GCTGATGTCT 
AAATTCGTGA GCAAGAATGA TTTGCAGACC TTGTTACAAG ATCTAGAGAT GCGAATCCTC 
AAGAACATAT CTTTTCATAT GTCTGTCTCA AACCAAAAGT CAACCTCTGA AATTGTTACA 
AGTGCTGTTA ATGCTGGGAT TTCTGGTATC TCAGAAGCGC AAGCACGCAT TATTGTAAAT 
AATGCACTGA AACTCTATTC TCAAGACAAG ACTGGTATGG TGGACTTCGC TTTAGAATCT 
GGAGGTGGTA GTATTCTGAG TACTCGTTGT TCTGAGACGT ATGAAACTAA AACAGCACTA 
ATTAGTCTCT TTGGAATTCC TTTGTGGTAT TTCTCGCAAT CTCCCAGAGT GGTAATTCAG 
CCTGAGATGT ATCCAGGAAA CTGCTGGGCT TTCAAAGGAT CACAGGGGTA CCTTGTAGTT 
CGACTTTCTA TCAAGATCTA CCCAACAGCC TTTACGCTGG AACATATACC AAAAACACTG 
TCACCGACGG GTAACATTAC CAGTGCACCT AAGGATTTTA CAGTATATGG CCTGGATGAT 
GAATATCAGG AAGAAGGCAT ACTTCTGGGA CAGTACATGT ATGATGAAGG AGGAGAGCCG 
CTGCAGACAT TTCAAGTGAC GGAGAAAAAC GAAAACGCAT TCCAAATAGT GGAGCTAAGA 
ATCCTTTCTA ACTGGGGCCA TACGGAGTAC ACCTGTCTCT ATCGGTTCAG AGTGCATGGG 
AGACCTGCTG AGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215808.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071593.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X8, mRNA.

Price & Availability↑

CloneID	OAl94774
Clone ID Related Accession (Same CDS sequence)	XM_025215808.1
Accession Version	XM_025215808.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2763bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X8
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTGATGAC TGTAAGGGGA AGAAACATCT TGAAACATAC 
ACAACAGTCC ACATGCAATC CTCAAGGTCT AAAAGGGTAG CAAGGACCAT TTGGCACACC 
TTTTCTTATG CAGGTTACTT TGTGCTACGA GCATTGCGAA CAGTGGGAAC AACAGGATGG 
CTTGTATCTC GGAAGGTGTT AGCACTACTA TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA 
GCTTCTGGAG CTTTCTGGTG GCTTGGAACT GGATGGTATC AACTTGTTAC TTTGATTTCT 
TTGTTCAATG TGTTTCTTCT TACAAGATGC CTTCCAAAAA TTTATAAGCT GTTACTGTTT 
CTCATCCCAC TGCTGTTGCT CCTGGGTTTA TTGTACTGGG GGTTTGAAGG CTTCCTTTCG 
TTACTGCCTG CATTCAATTG GACAAGCATA AGTAAACCAC AAAGTGTAGA TGAGTCTGTA 
TACATCCTGA AACCAAGGCC TGATTCTTTT CACTCAGTTC GGCCTCCAGA GGATTCCATT 
AACTTTGATT CTAGCCGCAT GAAAGAGTTG GAAAAACAGA TTGCCTTAAT GTCTGACAGA 
TGTCATCATC ATGATGAAGA ATATGGTAAA GTGATGCTGT TGCTCCAGAA GCTTCAGGAT 
CAGGTTGCCC TGATGAATGA CAAAAGTGAA ATGTTAACAC TAATAAAAAA TGTAATGGGC 
CAACATCTTA AAGAAACTAA ATCTGAAGAA ACAGCACACT CAATGACTGA CCTTCTGGCC 
TTATACCAAG AACACAAATT GAGCATCATG ACGTTGGAAG ACCATATTGG AAAACTCTCT 
GCAAAATATG AGGGCATCCA GAAGGATCTG GAACTAAGCA AAACAAGAAC AGTGAGCGTG 
GGTGATGAAC GGTATGAGAA CCTCTTATCC AAAGCTAAAC AAATGGAACA AGAGTTGGCT 
AGTATGAGAG TAGAACTGTT TAACTTGCAA GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT 
ACCATATATG AAAACGTAGA TGCCCAGATC AAGGAATCTG TCAAGCTTAT GTTTTTTGGT 
GACCAGCACA GTGACTTCTC TGAATCGCTG CTGCAGTGGC TGATGTCTAA ATTCGTGAGC 
AAGAATGATT TGCAGACCTT GTTACAAGAT CTAGAGATGC GAATCCTCAA GAACATATCT 
TTTCATATGT CTGTCTCAAA CCAAAAGTCA ACCTCTGAAA TTGTTACAAG TGCTGTTAAT 
GCTGGGATTT CTGGTATCTC AGAAGCGCAA GCACGCATTA TTGTAAATAA TGCACTGAAA 
CTCTATTCTC AAGACAAGAC TGGTATGGTG GACTTCGCTT TAGAATCTGG AGGTGGTAGT 
ATTCTGAGTA CTCGTTGTTC TGAGACGTAT GAAACTAAAA CAGCACTAAT TAGTCTCTTT 
GGAATTCCTT TGTGGTATTT CTCGCAATCT CCCAGAGTGG TAATTCAGCC TGAGATGTAT 
CCAGGAAACT GCTGGGCTTT CAAAGGATCA CAGGGGTACC TTGTAGTTCG ACTTTCTATC 
AAGATCTACC CAACAGCCTT TACGCTGGAA CATATACCAA AAACACTGTC ACCGACGGGT 
AACATTACCA GTGCACCTAA GGATTTTACA GTATATGGCC TGGATGATGA ATATCAGGAA 
GAAGGCATAC TTCTGGGACA GTACATGTAT GATGAAGGAG GAGAGCCGCT GCAGACATTT 
CAAGTGACGG AGAAAAACGA AAACGCATTC CAAATAGTGG AGCTAAGAAT CCTTTCTAAC 
TGGGGCCATA CGGAGTACAC CTGTCTCTAT CGGTTCAGAG TGCATGGGAG ACCTGCTGAG 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071593.1
CDS	16..2778
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215808.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X8, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215808.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTGATGAC TGTAAGGGGA AGAAACATCT TGAAACATAC 
ACAACAGTCC ACATGCAATC CTCAAGGTCT AAAAGGGTAG CAAGGACCAT TTGGCACACC 
TTTTCTTATG CAGGTTACTT TGTGCTACGA GCATTGCGAA CAGTGGGAAC AACAGGATGG 
CTTGTATCTC GGAAGGTGTT AGCACTACTA TGGCTGGCCA TTGTTTCTCC AGGTAAGGCA 
GCTTCTGGAG CTTTCTGGTG GCTTGGAACT GGATGGTATC AACTTGTTAC TTTGATTTCT 
TTGTTCAATG TGTTTCTTCT TACAAGATGC CTTCCAAAAA TTTATAAGCT GTTACTGTTT 
CTCATCCCAC TGCTGTTGCT CCTGGGTTTA TTGTACTGGG GGTTTGAAGG CTTCCTTTCG 
TTACTGCCTG CATTCAATTG GACAAGCATA AGTAAACCAC AAAGTGTAGA TGAGTCTGTA 
TACATCCTGA AACCAAGGCC TGATTCTTTT CACTCAGTTC GGCCTCCAGA GGATTCCATT 
AACTTTGATT CTAGCCGCAT GAAAGAGTTG GAAAAACAGA TTGCCTTAAT GTCTGACAGA 
TGTCATCATC ATGATGAAGA ATATGGTAAA GTGATGCTGT TGCTCCAGAA GCTTCAGGAT 
CAGGTTGCCC TGATGAATGA CAAAAGTGAA ATGTTAACAC TAATAAAAAA TGTAATGGGC 
CAACATCTTA AAGAAACTAA ATCTGAAGAA ACAGCACACT CAATGACTGA CCTTCTGGCC 
TTATACCAAG AACACAAATT GAGCATCATG ACGTTGGAAG ACCATATTGG AAAACTCTCT 
GCAAAATATG AGGGCATCCA GAAGGATCTG GAACTAAGCA AAACAAGAAC AGTGAGCGTG 
GGTGATGAAC GGTATGAGAA CCTCTTATCC AAAGCTAAAC AAATGGAACA AGAGTTGGCT 
AGTATGAGAG TAGAACTGTT TAACTTGCAA GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT 
ACCATATATG AAAACGTAGA TGCCCAGATC AAGGAATCTG TCAAGCTTAT GTTTTTTGGT 
GACCAGCACA GTGACTTCTC TGAATCGCTG CTGCAGTGGC TGATGTCTAA ATTCGTGAGC 
AAGAATGATT TGCAGACCTT GTTACAAGAT CTAGAGATGC GAATCCTCAA GAACATATCT 
TTTCATATGT CTGTCTCAAA CCAAAAGTCA ACCTCTGAAA TTGTTACAAG TGCTGTTAAT 
GCTGGGATTT CTGGTATCTC AGAAGCGCAA GCACGCATTA TTGTAAATAA TGCACTGAAA 
CTCTATTCTC AAGACAAGAC TGGTATGGTG GACTTCGCTT TAGAATCTGG AGGTGGTAGT 
ATTCTGAGTA CTCGTTGTTC TGAGACGTAT GAAACTAAAA CAGCACTAAT TAGTCTCTTT 
GGAATTCCTT TGTGGTATTT CTCGCAATCT CCCAGAGTGG TAATTCAGCC TGAGATGTAT 
CCAGGAAACT GCTGGGCTTT CAAAGGATCA CAGGGGTACC TTGTAGTTCG ACTTTCTATC 
AAGATCTACC CAACAGCCTT TACGCTGGAA CATATACCAA AAACACTGTC ACCGACGGGT 
AACATTACCA GTGCACCTAA GGATTTTACA GTATATGGCC TGGATGATGA ATATCAGGAA 
GAAGGCATAC TTCTGGGACA GTACATGTAT GATGAAGGAG GAGAGCCGCT GCAGACATTT 
CAAGTGACGG AGAAAAACGA AAACGCATTC CAAATAGTGG AGCTAAGAAT CCTTTCTAAC 
TGGGGCCATA CGGAGTACAC CTGTCTCTAT CGGTTCAGAG TGCATGGGAG ACCTGCTGAG 
TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215809.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071594.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X9, mRNA.

Price & Availability↑

CloneID	OAl94775
Clone ID Related Accession (Same CDS sequence)	XM_025215809.1
Accession Version	XM_025215809.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2736bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGCTCACTCA AACTACTGTG GAAGTATGAA TGTAAAAGAG 
TTTCTCAGAG AAGATGGCCA TCTTGGTATA AATGGGGAAT CTTTGTGTTA CTTTGTGCTA 
CGAGCATTGC GAACAGTGGG AACAACAGGA TGGCTTGTAT CTCGGAAGGT GTTAGCACTA 
CTATGGCTGG CCATTGTTTC TCCAGGTAAG GCAGCTTCTG GAGCTTTCTG GTGGCTTGGA 
ACTGGATGGT ATCAACTTGT TACTTTGATT TCTTTGTTCA ATGTGTTTCT TCTTACAAGA 
TGCCTTCCAA AAATTTATAA GCTGTTACTG TTTCTCATCC CACTGCTGTT GCTCCTGGGT 
TTATTGTACT GGGGGTTTGA AGGCTTCCTT TCGTTACTGC CTGCATTCAA TTGGACAAGC 
ATAAGTAAAC CACAAAGTGT AGATGAGTCT GTATACATCC TGAAACCAAG GCCTGATTCT 
TTTCACTCAG TTCGGCCTCC AGAGGATTCC ATTAACTTTG ATTCTAGCCG CATGAAAGAG 
TTGGAAAAAC AGATTGCCTT AATGTCTGAC AGATGTCATC ATCATGATGA AGAATATGGT 
AAAGTGATGC TGTTGCTCCA GAAGCTTCAG GATCAGGTTG CCCTGATGAA TGACAAAAGT 
GAAATGTTAA CACTAATAAA AAATGTAATG GGCCAACATC TTAAAGAAAC TAAATCTGAA 
GAAACAGCAC ACTCAATGAC TGACCTTCTG GCCTTATACC AAGAACACAA ATTGAGCATC 
ATGACGTTGG AAGACCATAT TGGAAAACTC TCTGCAAAAT ATGAGGGCAT CCAGAAGGAT 
CTGGAACTAA GCAAAACAAG AACAGTGAGC GTGGGTGATG AACGGTATGA GAACCTCTTA 
TCCAAAGCTA AACAAATGGA ACAAGAGTTG GCTAGTATGA GAGTAGAACT GTTTAACTTG 
CAAGGCTTGA AGACTCAGTG TGAGAAAGTA GATACCATAT ATGAAAACGT AGATGCCCAG 
ATCAAGGAAT CTGTCAAGCT TATGTTTTTT GGTGACCAGC ACAGTGACTT CTCTGAATCG 
CTGCTGCAGT GGCTGATGTC TAAATTCGTG AGCAAGAATG ATTTGCAGAC CTTGTTACAA 
GATCTAGAGA TGCGAATCCT CAAGAACATA TCTTTTCATA TGTCTGTCTC AAACCAAAAG 
TCAACCTCTG AAATTGTTAC AAGTGCTGTT AATGCTGGGA TTTCTGGTAT CTCAGAAGCG 
CAAGCACGCA TTATTGTAAA TAATGCACTG AAACTCTATT CTCAAGACAA GACTGGTATG 
GTGGACTTCG CTTTAGAATC TGGAGGTGGT AGTATTCTGA GTACTCGTTG TTCTGAGACG 
TATGAAACTA AAACAGCACT AATTAGTCTC TTTGGAATTC CTTTGTGGTA TTTCTCGCAA 
TCTCCCAGAG TGGTAATTCA GCCTGAGATG TATCCAGGAA ACTGCTGGGC TTTCAAAGGA 
TCACAGGGGT ACCTTGTAGT TCGACTTTCT ATCAAGATCT ACCCAACAGC CTTTACGCTG 
GAACATATAC CAAAAACACT GTCACCGACG GGTAACATTA CCAGTGCACC TAAGGATTTT 
ACAGTATATG GCCTGGATGA TGAATATCAG GAAGAAGGCA TACTTCTGGG ACAGTACATG 
TATGATGAAG GAGGAGAGCC GCTGCAGACA TTTCAAGTGA CGGAGAAAAA CGAAAACGCA 
TTCCAAATAG TGGAGCTAAG AATCCTTTCT AACTGGGGCC ATACGGAGTA CACCTGTCTC 
TATCGGTTCA GAGTGCATGG GAGACCTGCT GAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071594.1
CDS	16..2751
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSAHSNYCGSMNVKEFLREDGHLGINGESLCYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215809.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X9, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215809.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGCTCACTCA AACTACTGTG GAAGTATGAA TGTAAAAGAG 
TTTCTCAGAG AAGATGGCCA TCTTGGTATA AATGGGGAAT CTTTGTGTTA CTTTGTGCTA 
CGAGCATTGC GAACAGTGGG AACAACAGGA TGGCTTGTAT CTCGGAAGGT GTTAGCACTA 
CTATGGCTGG CCATTGTTTC TCCAGGTAAG GCAGCTTCTG GAGCTTTCTG GTGGCTTGGA 
ACTGGATGGT ATCAACTTGT TACTTTGATT TCTTTGTTCA ATGTGTTTCT TCTTACAAGA 
TGCCTTCCAA AAATTTATAA GCTGTTACTG TTTCTCATCC CACTGCTGTT GCTCCTGGGT 
TTATTGTACT GGGGGTTTGA AGGCTTCCTT TCGTTACTGC CTGCATTCAA TTGGACAAGC 
ATAAGTAAAC CACAAAGTGT AGATGAGTCT GTATACATCC TGAAACCAAG GCCTGATTCT 
TTTCACTCAG TTCGGCCTCC AGAGGATTCC ATTAACTTTG ATTCTAGCCG CATGAAAGAG 
TTGGAAAAAC AGATTGCCTT AATGTCTGAC AGATGTCATC ATCATGATGA AGAATATGGT 
AAAGTGATGC TGTTGCTCCA GAAGCTTCAG GATCAGGTTG CCCTGATGAA TGACAAAAGT 
GAAATGTTAA CACTAATAAA AAATGTAATG GGCCAACATC TTAAAGAAAC TAAATCTGAA 
GAAACAGCAC ACTCAATGAC TGACCTTCTG GCCTTATACC AAGAACACAA ATTGAGCATC 
ATGACGTTGG AAGACCATAT TGGAAAACTC TCTGCAAAAT ATGAGGGCAT CCAGAAGGAT 
CTGGAACTAA GCAAAACAAG AACAGTGAGC GTGGGTGATG AACGGTATGA GAACCTCTTA 
TCCAAAGCTA AACAAATGGA ACAAGAGTTG GCTAGTATGA GAGTAGAACT GTTTAACTTG 
CAAGGCTTGA AGACTCAGTG TGAGAAAGTA GATACCATAT ATGAAAACGT AGATGCCCAG 
ATCAAGGAAT CTGTCAAGCT TATGTTTTTT GGTGACCAGC ACAGTGACTT CTCTGAATCG 
CTGCTGCAGT GGCTGATGTC TAAATTCGTG AGCAAGAATG ATTTGCAGAC CTTGTTACAA 
GATCTAGAGA TGCGAATCCT CAAGAACATA TCTTTTCATA TGTCTGTCTC AAACCAAAAG 
TCAACCTCTG AAATTGTTAC AAGTGCTGTT AATGCTGGGA TTTCTGGTAT CTCAGAAGCG 
CAAGCACGCA TTATTGTAAA TAATGCACTG AAACTCTATT CTCAAGACAA GACTGGTATG 
GTGGACTTCG CTTTAGAATC TGGAGGTGGT AGTATTCTGA GTACTCGTTG TTCTGAGACG 
TATGAAACTA AAACAGCACT AATTAGTCTC TTTGGAATTC CTTTGTGGTA TTTCTCGCAA 
TCTCCCAGAG TGGTAATTCA GCCTGAGATG TATCCAGGAA ACTGCTGGGC TTTCAAAGGA 
TCACAGGGGT ACCTTGTAGT TCGACTTTCT ATCAAGATCT ACCCAACAGC CTTTACGCTG 
GAACATATAC CAAAAACACT GTCACCGACG GGTAACATTA CCAGTGCACC TAAGGATTTT 
ACAGTATATG GCCTGGATGA TGAATATCAG GAAGAAGGCA TACTTCTGGG ACAGTACATG 
TATGATGAAG GAGGAGAGCC GCTGCAGACA TTTCAAGTGA CGGAGAAAAA CGAAAACGCA 
TTCCAAATAG TGGAGCTAAG AATCCTTTCT AACTGGGGCC ATACGGAGTA CACCTGTCTC 
TATCGGTTCA GAGTGCATGG GAGACCTGCT GAGTAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215811.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071596.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X15, mRNA.

Price & Availability↑

CloneID	OAl94776
Clone ID Related Accession (Same CDS sequence)	XM_025215811.1
Accession Version	XM_025215811.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2661bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X11
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAGTTCAA GTTACTCTTC AACTGCTCTG GATTTTGAGA CTGAACATAA ATTGGATCCA 
GTATTTGATT CTCCAAGAAT GTCAAGACGC AGTTTACGTC TGATCACTGC AGGATACAAT 
AAAGCGGATG ATGTTCAAAC TGATGGCATC TACAACAACT CCTATTCTGG AAACATGTCT 
TTTACAGAAC AATTATCTAA AACAGTAAAG CAGTGCAAAA GTATGAGCAA ACAATCAGGC 
AGTGCAAAAC ATACTCCAAG AAAAAATCTA TCCAGCTCTT CTGCTTTTAG CCAAAGTAGC 
TTCAACAGCC ACATCAGTGA TACATCTACA CTGTCCACTG TATTGGATGA ATCTCTGATT 
CGGGAGCAGA CAGAGCTTGA CCATTTTTGG GGTCTTGATG ATGATGGTGA TCCTAAAGGT 
GGGGACACAA CAGTGATTCA GGGAAATGGT GATCTAGCAA CAGTAGAAAC GCAGACTACC 
GTAATCAATG GCTACACCTG CAATGATTGC AGTATGCTTT CTGAACGGAA AGAGGTCCTC 
ACAGCATACT CTACTTCTCA CATGCCTTCT TCAAGAATTT ACTCCAGGGA TAGGAGCCAA 
AAACACAAGT CTGGAGGCAC CTTTTTCTAC ATGATTAAGA TTCTACAATT GGTCAAATAC 
GCTGCAACCT CTTTTGCATC ACTGTTAGTG CAACTATTTC AAATGGTTCT GTTGAAGCTG 
GGTTATGAAT TTAAAGCTCA CTCAAACTAC TGTGGAAGTA TGAATGTAAA AGAGTTTCTC 
AGAGAAGATG GCCATCTTGG TATAAATGGG GAATCTTTGT GTGATGACTG TAAGGGGAAG 
AAACATCTTG AAACATACAC AACAGTCCAC ATGCAATCCT CAAGGTCTAA AAGGGTAGCA 
AGGACCATTT GGCACACCTT TTCTTATGCA GGTTACTTTG TGCTACGAGC ATTGCGAACA 
GTGGGAACAA CAGGATGGCT TGTATCTCGG AAGGTGTTAG CACTACTATG GCTGGCCATT 
GTTTCTCCAG GTAAGGCAGC TTCTGGAGCT TTCTGGTGGC TTGGAACTGG ATGGTATCAA 
CTTGTTACTT TGATTTCTTT GTTCAATGTG TTTCTTCTTA CAAGATGCCT TCCAAAAATT 
TATAAGCTGT TACTGTTTCT CATCCCACTG CTGTTGCTCC TGGGTTTATT GTACTGGGGG 
TTTGAAGGCT TCCTTTCGTT ACTGCCTGCA TTCAATTGGA CAAGCATAAG TAAACCACAA 
AGTGTAGATG AGTCTGTATA CATCCTGAAA CCAAGGCCTG ATTCTTTTCA CTCAGTTCGG 
CCTCCAGAGG ATTCCATTAA CTTTGATTCT AGCCGCATGA AAGAGTTGGA AAAACAGATT 
GCCTTAATGT CTGACAGATG TCATCATCAT GATGAAGAAT ATGGTAAAGT GATGCTGTTG 
CTCCAGAAGC TTCAGGATCA GGTTGCCCTG ATGAATGACA AAAGTGAAAT GTTAACACTA 
ATAAAAAATG TAATGGGCCA ACATCTTAAA GAAACTAAAT CTGAAGAAAC AGCACACTCA 
ATGACTGACC TTCTGGCCTT ATACCAAGAA CACAAATTGA GCATCATGAC GTTGGAAGAC 
CATATTGGAA AACTCTCTGC AAAATATGAG GGCATCCAGA AGGATCTGGA ACTAAGCAAA 
ACAAGAACAG TGAGCGTGGG TGATGAACGG TATGAGAACC TCTTATCCAA AGCTAAACAA 
ATGGAACAAG AGTTGGCTAG TATGAGAGTA GAACTGTTTA ACTTGCAAGG CTTGAAGACT 
CAGTGTGAGA AAGTAGATAC CATATATGAA AACGTAGATG CCCAGATCAA GGAATCTGTC 
AAGCTTATGT TTTTTGGTGA CCAGCACAGT GACTTCTCTG AATCGCTGCT GCAGTGGCTG 
ATGTCTAAAT TCGTGAGCAA GAATGATTTG CAGACCTTGT TACAAGATCT AGAGATGCGA 
ATCCTCAAGA ACATATCTTT TCATATGTCT GTCTCAAACC AAAAGTCAAC CTCTGAAATT 
GTTACAAGTG CTGTTAATGC TGGGATTTCT GGTATCTCAG AAGCGCAAGC ACGCATTATT 
GTAAATAATG CACTGAAACT CTATTCTCAA GACAAGACTG GTATGGTGGA CTTCGCTTTA 
GAATCTGGAG GTGGTAGTAT TCTGAGTACT CGTTGTTCTG AGACGTATGA AACTAAAACA 
GCACTAATTA GTCTCTTTGG AATTCCTTTG TGGTATTTCT CGCAATCTCC CAGAGTGGTA 
ATTCAGCCTG AGATGTATCC AGGAAACTGC TGGGCTTTCA AAGGATCACA GGGGTACCTT 
GTAGTTCGAC TTTCTATCAA GATCTACCCA ACAGCCTTTA CGCTGGAACA TATACCAAAA 
ACACTGTCAC CGACGGGTAA CATTACCAGT GCACCTAAGG ATTTTACAGT ATATGGCCTG 
GATGATGAAT ATCAGGAAGA AGGCATACTT CTGGGACAGT ACATGTATGA TGAAGGAGGA 
GAGCCGCTGC AGACATTTCA AGTGACGGAG AAAAACGAAA ACGCATTCCA AATAGTGGAG 
CTAAGAATCC TTTCTAACTG GGGCCATACG GAGTACACCT GTCTCTATCG GTTCAGAGTG 
CATGGGAGAC CTGCTGAGTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071596.1
CDS	70..2730
Translation	MSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGGTFFYMIKILQLVKYAATSFASLLVQLFQMVLLKLGYEFKAHSNYCGSMNVKEFLREDGHLGINGESLCDDCKGKKHLETYTTVHMQSSRSKRVARTIWHTFSYAGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215811.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X15, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215811.1

ORF Insert Sequence:

ATGAGTTCAA GTTACTCTTC AACTGCTCTG GATTTTGAGA CTGAACATAA ATTGGATCCA 
GTATTTGATT CTCCAAGAAT GTCAAGACGC AGTTTACGTC TGATCACTGC AGGATACAAT 
AAAGCGGATG ATGTTCAAAC TGATGGCATC TACAACAACT CCTATTCTGG AAACATGTCT 
TTTACAGAAC AATTATCTAA AACAGTAAAG CAGTGCAAAA GTATGAGCAA ACAATCAGGC 
AGTGCAAAAC ATACTCCAAG AAAAAATCTA TCCAGCTCTT CTGCTTTTAG CCAAAGTAGC 
TTCAACAGCC ACATCAGTGA TACATCTACA CTGTCCACTG TATTGGATGA ATCTCTGATT 
CGGGAGCAGA CAGAGCTTGA CCATTTTTGG GGTCTTGATG ATGATGGTGA TCCTAAAGGT 
GGGGACACAA CAGTGATTCA GGGAAATGGT GATCTAGCAA CAGTAGAAAC GCAGACTACC 
GTAATCAATG GCTACACCTG CAATGATTGC AGTATGCTTT CTGAACGGAA AGAGGTCCTC 
ACAGCATACT CTACTTCTCA CATGCCTTCT TCAAGAATTT ACTCCAGGGA TAGGAGCCAA 
AAACACAAGT CTGGAGGCAC CTTTTTCTAC ATGATTAAGA TTCTACAATT GGTCAAATAC 
GCTGCAACCT CTTTTGCATC ACTGTTAGTG CAACTATTTC AAATGGTTCT GTTGAAGCTG 
GGTTATGAAT TTAAAGCTCA CTCAAACTAC TGTGGAAGTA TGAATGTAAA AGAGTTTCTC 
AGAGAAGATG GCCATCTTGG TATAAATGGG GAATCTTTGT GTGATGACTG TAAGGGGAAG 
AAACATCTTG AAACATACAC AACAGTCCAC ATGCAATCCT CAAGGTCTAA AAGGGTAGCA 
AGGACCATTT GGCACACCTT TTCTTATGCA GGTTACTTTG TGCTACGAGC ATTGCGAACA 
GTGGGAACAA CAGGATGGCT TGTATCTCGG AAGGTGTTAG CACTACTATG GCTGGCCATT 
GTTTCTCCAG GTAAGGCAGC TTCTGGAGCT TTCTGGTGGC TTGGAACTGG ATGGTATCAA 
CTTGTTACTT TGATTTCTTT GTTCAATGTG TTTCTTCTTA CAAGATGCCT TCCAAAAATT 
TATAAGCTGT TACTGTTTCT CATCCCACTG CTGTTGCTCC TGGGTTTATT GTACTGGGGG 
TTTGAAGGCT TCCTTTCGTT ACTGCCTGCA TTCAATTGGA CAAGCATAAG TAAACCACAA 
AGTGTAGATG AGTCTGTATA CATCCTGAAA CCAAGGCCTG ATTCTTTTCA CTCAGTTCGG 
CCTCCAGAGG ATTCCATTAA CTTTGATTCT AGCCGCATGA AAGAGTTGGA AAAACAGATT 
GCCTTAATGT CTGACAGATG TCATCATCAT GATGAAGAAT ATGGTAAAGT GATGCTGTTG 
CTCCAGAAGC TTCAGGATCA GGTTGCCCTG ATGAATGACA AAAGTGAAAT GTTAACACTA 
ATAAAAAATG TAATGGGCCA ACATCTTAAA GAAACTAAAT CTGAAGAAAC AGCACACTCA 
ATGACTGACC TTCTGGCCTT ATACCAAGAA CACAAATTGA GCATCATGAC GTTGGAAGAC 
CATATTGGAA AACTCTCTGC AAAATATGAG GGCATCCAGA AGGATCTGGA ACTAAGCAAA 
ACAAGAACAG TGAGCGTGGG TGATGAACGG TATGAGAACC TCTTATCCAA AGCTAAACAA 
ATGGAACAAG AGTTGGCTAG TATGAGAGTA GAACTGTTTA ACTTGCAAGG CTTGAAGACT 
CAGTGTGAGA AAGTAGATAC CATATATGAA AACGTAGATG CCCAGATCAA GGAATCTGTC 
AAGCTTATGT TTTTTGGTGA CCAGCACAGT GACTTCTCTG AATCGCTGCT GCAGTGGCTG 
ATGTCTAAAT TCGTGAGCAA GAATGATTTG CAGACCTTGT TACAAGATCT AGAGATGCGA 
ATCCTCAAGA ACATATCTTT TCATATGTCT GTCTCAAACC AAAAGTCAAC CTCTGAAATT 
GTTACAAGTG CTGTTAATGC TGGGATTTCT GGTATCTCAG AAGCGCAAGC ACGCATTATT 
GTAAATAATG CACTGAAACT CTATTCTCAA GACAAGACTG GTATGGTGGA CTTCGCTTTA 
GAATCTGGAG GTGGTAGTAT TCTGAGTACT CGTTGTTCTG AGACGTATGA AACTAAAACA 
GCACTAATTA GTCTCTTTGG AATTCCTTTG TGGTATTTCT CGCAATCTCC CAGAGTGGTA 
ATTCAGCCTG AGATGTATCC AGGAAACTGC TGGGCTTTCA AAGGATCACA GGGGTACCTT 
GTAGTTCGAC TTTCTATCAA GATCTACCCA ACAGCCTTTA CGCTGGAACA TATACCAAAA 
ACACTGTCAC CGACGGGTAA CATTACCAGT GCACCTAAGG ATTTTACAGT ATATGGCCTG 
GATGATGAAT ATCAGGAAGA AGGCATACTT CTGGGACAGT ACATGTATGA TGAAGGAGGA 
GAGCCGCTGC AGACATTTCA AGTGACGGAG AAAAACGAAA ACGCATTCCA AATAGTGGAG 
CTAAGAATCC TTTCTAACTG GGGCCATACG GAGTACACCT GTCTCTATCG GTTCAGAGTG 
CATGGGAGAC CTGCTGAGTA A

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215812.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071597.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X16, mRNA.

Price & Availability↑

CloneID	OAl94777
Clone ID Related Accession (Same CDS sequence)	XM_025215812.1
Accession Version	XM_025215812.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2652bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X12
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTTACTTT GTGCTACGAG CATTGCGAAC AGTGGGAACA 
ACAGGATGGC TTGTATCTCG GAAGGTGTTA GCACTACTAT GGCTGGCCAT TGTTTCTCCA 
GGTAAGGCAG CTTCTGGAGC TTTCTGGTGG CTTGGAACTG GATGGTATCA ACTTGTTACT 
TTGATTTCTT TGTTCAATGT GTTTCTTCTT ACAAGATGCC TTCCAAAAAT TTATAAGCTG 
TTACTGTTTC TCATCCCACT GCTGTTGCTC CTGGGTTTAT TGTACTGGGG GTTTGAAGGC 
TTCCTTTCGT TACTGCCTGC ATTCAATTGG ACAAGCATAA GTAAACCACA AAGTGTAGAT 
GAGTCTGTAT ACATCCTGAA ACCAAGGCCT GATTCTTTTC ACTCAGTTCG GCCTCCAGAG 
GATTCCATTA ACTTTGATTC TAGCCGCATG AAAGAGTTGG AAAAACAGAT TGCCTTAATG 
TCTGACAGAT GTCATCATCA TGATGAAGAA TATGGTAAAG TGATGCTGTT GCTCCAGAAG 
CTTCAGGATC AGGTTGCCCT GATGAATGAC AAAAGTGAAA TGTTAACACT AATAAAAAAT 
GTAATGGGCC AACATCTTAA AGAAACTAAA TCTGAAGAAA CAGCACACTC AATGACTGAC 
CTTCTGGCCT TATACCAAGA ACACAAATTG AGCATCATGA CGTTGGAAGA CCATATTGGA 
AAACTCTCTG CAAAATATGA GGGCATCCAG AAGGATCTGG AACTAAGCAA AACAAGAACA 
GTGAGCGTGG GTGATGAACG GTATGAGAAC CTCTTATCCA AAGCTAAACA AATGGAACAA 
GAGTTGGCTA GTATGAGAGT AGAACTGTTT AACTTGCAAG GCTTGAAGAC TCAGTGTGAG 
AAAGTAGATA CCATATATGA AAACGTAGAT GCCCAGATCA AGGAATCTGT CAAGCTTATG 
TTTTTTGGTG ACCAGCACAG TGACTTCTCT GAATCGCTGC TGCAGTGGCT GATGTCTAAA 
TTCGTGAGCA AGAATGATTT GCAGACCTTG TTACAAGATC TAGAGATGCG AATCCTCAAG 
AACATATCTT TTCATATGTC TGTCTCAAAC CAAAAGTCAA CCTCTGAAAT TGTTACAAGT 
GCTGTTAATG CTGGGATTTC TGGTATCTCA GAAGCGCAAG CACGCATTAT TGTAAATAAT 
GCACTGAAAC TCTATTCTCA AGACAAGACT GGTATGGTGG ACTTCGCTTT AGAATCTGGA 
GGTGGTAGTA TTCTGAGTAC TCGTTGTTCT GAGACGTATG AAACTAAAAC AGCACTAATT 
AGTCTCTTTG GAATTCCTTT GTGGTATTTC TCGCAATCTC CCAGAGTGGT AATTCAGCCT 
GAGATGTATC CAGGAAACTG CTGGGCTTTC AAAGGATCAC AGGGGTACCT TGTAGTTCGA 
CTTTCTATCA AGATCTACCC AACAGCCTTT ACGCTGGAAC ATATACCAAA AACACTGTCA 
CCGACGGGTA ACATTACCAG TGCACCTAAG GATTTTACAG TATATGGCCT GGATGATGAA 
TATCAGGAAG AAGGCATACT TCTGGGACAG TACATGTATG ATGAAGGAGG AGAGCCGCTG 
CAGACATTTC AAGTGACGGA GAAAAACGAA AACGCATTCC AAATAGTGGA GCTAAGAATC 
CTTTCTAACT GGGGCCATAC GGAGTACACC TGTCTCTATC GGTTCAGAGT GCATGGGAGA 
CCTGCTGAGT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071597.1
CDS	16..2667
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGYFVLRALRTVGTTGWLVSRKVLALLWLAIVSPGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215812.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X16, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215812.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTTACTTT GTGCTACGAG CATTGCGAAC AGTGGGAACA 
ACAGGATGGC TTGTATCTCG GAAGGTGTTA GCACTACTAT GGCTGGCCAT TGTTTCTCCA 
GGTAAGGCAG CTTCTGGAGC TTTCTGGTGG CTTGGAACTG GATGGTATCA ACTTGTTACT 
TTGATTTCTT TGTTCAATGT GTTTCTTCTT ACAAGATGCC TTCCAAAAAT TTATAAGCTG 
TTACTGTTTC TCATCCCACT GCTGTTGCTC CTGGGTTTAT TGTACTGGGG GTTTGAAGGC 
TTCCTTTCGT TACTGCCTGC ATTCAATTGG ACAAGCATAA GTAAACCACA AAGTGTAGAT 
GAGTCTGTAT ACATCCTGAA ACCAAGGCCT GATTCTTTTC ACTCAGTTCG GCCTCCAGAG 
GATTCCATTA ACTTTGATTC TAGCCGCATG AAAGAGTTGG AAAAACAGAT TGCCTTAATG 
TCTGACAGAT GTCATCATCA TGATGAAGAA TATGGTAAAG TGATGCTGTT GCTCCAGAAG 
CTTCAGGATC AGGTTGCCCT GATGAATGAC AAAAGTGAAA TGTTAACACT AATAAAAAAT 
GTAATGGGCC AACATCTTAA AGAAACTAAA TCTGAAGAAA CAGCACACTC AATGACTGAC 
CTTCTGGCCT TATACCAAGA ACACAAATTG AGCATCATGA CGTTGGAAGA CCATATTGGA 
AAACTCTCTG CAAAATATGA GGGCATCCAG AAGGATCTGG AACTAAGCAA AACAAGAACA 
GTGAGCGTGG GTGATGAACG GTATGAGAAC CTCTTATCCA AAGCTAAACA AATGGAACAA 
GAGTTGGCTA GTATGAGAGT AGAACTGTTT AACTTGCAAG GCTTGAAGAC TCAGTGTGAG 
AAAGTAGATA CCATATATGA AAACGTAGAT GCCCAGATCA AGGAATCTGT CAAGCTTATG 
TTTTTTGGTG ACCAGCACAG TGACTTCTCT GAATCGCTGC TGCAGTGGCT GATGTCTAAA 
TTCGTGAGCA AGAATGATTT GCAGACCTTG TTACAAGATC TAGAGATGCG AATCCTCAAG 
AACATATCTT TTCATATGTC TGTCTCAAAC CAAAAGTCAA CCTCTGAAAT TGTTACAAGT 
GCTGTTAATG CTGGGATTTC TGGTATCTCA GAAGCGCAAG CACGCATTAT TGTAAATAAT 
GCACTGAAAC TCTATTCTCA AGACAAGACT GGTATGGTGG ACTTCGCTTT AGAATCTGGA 
GGTGGTAGTA TTCTGAGTAC TCGTTGTTCT GAGACGTATG AAACTAAAAC AGCACTAATT 
AGTCTCTTTG GAATTCCTTT GTGGTATTTC TCGCAATCTC CCAGAGTGGT AATTCAGCCT 
GAGATGTATC CAGGAAACTG CTGGGCTTTC AAAGGATCAC AGGGGTACCT TGTAGTTCGA 
CTTTCTATCA AGATCTACCC AACAGCCTTT ACGCTGGAAC ATATACCAAA AACACTGTCA 
CCGACGGGTA ACATTACCAG TGCACCTAAG GATTTTACAG TATATGGCCT GGATGATGAA 
TATCAGGAAG AAGGCATACT TCTGGGACAG TACATGTATG ATGAAGGAGG AGAGCCGCTG 
CAGACATTTC AAGTGACGGA GAAAAACGAA AACGCATTCC AAATAGTGGA GCTAAGAATC 
CTTTCTAACT GGGGCCATAC GGAGTACACC TGTCTCTATC GGTTCAGAGT GCATGGGAGA 
CCTGCTGAGT AA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

SUN1 ( XM_025215813.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025071598.1 Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X17, mRNA.

Price & Availability↑

CloneID	OAl94778
Clone ID Related Accession (Same CDS sequence)	XM_025215813.1
Accession Version	XM_025215813.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2553bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-06-03
Organism	Alligator sinensis(Chinese alligator)
Product	SUN domain-containing protein 1 isoform X13
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842677.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Alligator sinensis Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

RefSeq	XP_025071598.1
CDS	16..2568
Translation	MALTDNRSFTWLDQIRLILQALLKLGSHFGILRCGIENNILSTCKLALNDFGWDCQALEQKAETFNHAKHVKRMTLDLGYLGLPHVYCRLLFICNKVIDLGALPSSSYSSTALDFETEHKLDPVFDSPRMSRRSLRLITAGYNKADDVQTDGIYNNSYSGNMSFTEQLSKTVKQCKSMSKQSGSAKHTPRKNLSSSSAFSQSSFNSHISDTSTLSTVLDESLIREQTELDHFWGLDDDGDPKGGDTTVIQGNGDLATVETQTTVINGYTCNDCSMLSERKEVLTAYSTSHMPSSRIYSRDRSQKHKSGKAASGAFWWLGTGWYQLVTLISLFNVFLLTRCLPKIYKLLLFLIPLLLLLGLLYWGFEGFLSLLPAFNWTSISKPQSVDESVYILKPRPDSFHSVRPPEDSINFDSSRMKELEKQIALMSDRCHHHDEEYGKVMLLLQKLQDQVALMNDKSEMLTLIKNVMGQHLKETKSEETAHSMTDLLALYQEHKLSIMTLEDHIGKLSAKYEGIQKDLELSKTRTVSVGDERYENLLSKAKQMEQELASMRVELFNLQGLKTQCEKVDTIYENVDAQIKESVKLMFFGDQHSDFSESLLQWLMSKFVSKNDLQTLLQDLEMRILKNISFHMSVSNQKSTSEIVTSAVNAGISGISEAQARIIVNNALKLYSQDKTGMVDFALESGGGSILSTRCSETYETKTALISLFGIPLWYFSQSPRVVIQPEMYPGNCWAFKGSQGYLVVRLSIKIYPTAFTLEHIPKTLSPTGNITSAPKDFTVYGLDDEYQEEGILLGQYMYDEGGEPLQTFQVTEKNENAFQIVELRILSNWGHTEYTCLYRFRVHGRPAE

Target ORF information:

RefSeq Version	XM_025215813.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis Sad1 and UNC84 domain containing 1 (SUN1), transcript variant X17, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_025215813.1

ORF Insert Sequence:

ATGGCTCTGA CTGACAACAG GAGCTTTACT TGGTTGGATC AGATTAGGCT GATCCTTCAG 
GCTTTGTTGA AGCTAGGAAG CCATTTTGGG ATTCTGCGGT GTGGAATAGA AAATAACATA 
CTGTCAACTT GCAAACTTGC CTTGAATGAT TTTGGCTGGG ATTGCCAGGC TTTGGAACAG 
AAGGCTGAAA CATTTAATCA TGCTAAACAT GTGAAACGGA TGACACTGGA TTTGGGATAT 
CTAGGTTTGC CACACGTTTA CTGCCGTCTT CTGTTCATCT GCAATAAAGT GATAGATCTT 
GGAGCTTTAC CTAGTTCAAG TTACTCTTCA ACTGCTCTGG ATTTTGAGAC TGAACATAAA 
TTGGATCCAG TATTTGATTC TCCAAGAATG TCAAGACGCA GTTTACGTCT GATCACTGCA 
GGATACAATA AAGCGGATGA TGTTCAAACT GATGGCATCT ACAACAACTC CTATTCTGGA 
AACATGTCTT TTACAGAACA ATTATCTAAA ACAGTAAAGC AGTGCAAAAG TATGAGCAAA 
CAATCAGGCA GTGCAAAACA TACTCCAAGA AAAAATCTAT CCAGCTCTTC TGCTTTTAGC 
CAAAGTAGCT TCAACAGCCA CATCAGTGAT ACATCTACAC TGTCCACTGT ATTGGATGAA 
TCTCTGATTC GGGAGCAGAC AGAGCTTGAC CATTTTTGGG GTCTTGATGA TGATGGTGAT 
CCTAAAGGTG GGGACACAAC AGTGATTCAG GGAAATGGTG ATCTAGCAAC AGTAGAAACG 
CAGACTACCG TAATCAATGG CTACACCTGC AATGATTGCA GTATGCTTTC TGAACGGAAA 
GAGGTCCTCA CAGCATACTC TACTTCTCAC ATGCCTTCTT CAAGAATTTA CTCCAGGGAT 
AGGAGCCAAA AACACAAGTC TGGTAAGGCA GCTTCTGGAG CTTTCTGGTG GCTTGGAACT 
GGATGGTATC AACTTGTTAC TTTGATTTCT TTGTTCAATG TGTTTCTTCT TACAAGATGC 
CTTCCAAAAA TTTATAAGCT GTTACTGTTT CTCATCCCAC TGCTGTTGCT CCTGGGTTTA 
TTGTACTGGG GGTTTGAAGG CTTCCTTTCG TTACTGCCTG CATTCAATTG GACAAGCATA 
AGTAAACCAC AAAGTGTAGA TGAGTCTGTA TACATCCTGA AACCAAGGCC TGATTCTTTT 
CACTCAGTTC GGCCTCCAGA GGATTCCATT AACTTTGATT CTAGCCGCAT GAAAGAGTTG 
GAAAAACAGA TTGCCTTAAT GTCTGACAGA TGTCATCATC ATGATGAAGA ATATGGTAAA 
GTGATGCTGT TGCTCCAGAA GCTTCAGGAT CAGGTTGCCC TGATGAATGA CAAAAGTGAA 
ATGTTAACAC TAATAAAAAA TGTAATGGGC CAACATCTTA AAGAAACTAA ATCTGAAGAA 
ACAGCACACT CAATGACTGA CCTTCTGGCC TTATACCAAG AACACAAATT GAGCATCATG 
ACGTTGGAAG ACCATATTGG AAAACTCTCT GCAAAATATG AGGGCATCCA GAAGGATCTG 
GAACTAAGCA AAACAAGAAC AGTGAGCGTG GGTGATGAAC GGTATGAGAA CCTCTTATCC 
AAAGCTAAAC AAATGGAACA AGAGTTGGCT AGTATGAGAG TAGAACTGTT TAACTTGCAA 
GGCTTGAAGA CTCAGTGTGA GAAAGTAGAT ACCATATATG AAAACGTAGA TGCCCAGATC 
AAGGAATCTG TCAAGCTTAT GTTTTTTGGT GACCAGCACA GTGACTTCTC TGAATCGCTG 
CTGCAGTGGC TGATGTCTAA ATTCGTGAGC AAGAATGATT TGCAGACCTT GTTACAAGAT 
CTAGAGATGC GAATCCTCAA GAACATATCT TTTCATATGT CTGTCTCAAA CCAAAAGTCA 
ACCTCTGAAA TTGTTACAAG TGCTGTTAAT GCTGGGATTT CTGGTATCTC AGAAGCGCAA 
GCACGCATTA TTGTAAATAA TGCACTGAAA CTCTATTCTC AAGACAAGAC TGGTATGGTG 
GACTTCGCTT TAGAATCTGG AGGTGGTAGT ATTCTGAGTA CTCGTTGTTC TGAGACGTAT 
GAAACTAAAA CAGCACTAAT TAGTCTCTTT GGAATTCCTT TGTGGTATTT CTCGCAATCT 
CCCAGAGTGG TAATTCAGCC TGAGATGTAT CCAGGAAACT GCTGGGCTTT CAAAGGATCA 
CAGGGGTACC TTGTAGTTCG ACTTTCTATC AAGATCTACC CAACAGCCTT TACGCTGGAA 
CATATACCAA AAACACTGTC ACCGACGGGT AACATTACCA GTGCACCTAA GGATTTTACA 
GTATATGGCC TGGATGATGA ATATCAGGAA GAAGGCATAC TTCTGGGACA GTACATGTAT 
GATGAAGGAG GAGAGCCGCT GCAGACATTT CAAGTGACGG AGAAAAACGA AAACGCATTC 
CAAATAGTGG AGCTAAGAAT CCTTTCTAAC TGGGGCCATA CGGAGTACAC CTGTCTCTAT 
CGGTTCAGAG TGCATGGGAG ACCTGCTGAG TAA

The stop codons will be deleted if pcDNA3.1⁺/C-(K)DYK vector is selected.

Gene Symbol	SUN1
Entrez Gene ID	102384309
Full Name	Sad1 and UNC84 domain containing 1
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
30% OFF

SUN1 cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Most Popular Services

Services & Products

見積依頼

Eメール

電話

FAX

オンラインフォーム