IFT122 cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	IFT122
Entrez Gene ID	102371821
Full Name	intraflagellar transport 122
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025204786.1	XP_025060571.1	intraflagellar transport protein 122 homolog isoform X2
XM_006024131.3	XP_006024193.1	intraflagellar transport protein 122 homolog isoform X1
XM_006024132.3	XP_006024194.1	intraflagellar transport protein 122 homolog isoform X3
XM_025204787.1	XP_025060572.1	intraflagellar transport protein 122 homolog isoform X4
XM_006024131.2	XP_006024193.1	intraflagellar transport protein 122 homolog isoform X1
XM_006024132.2	XP_006024194.1	intraflagellar transport protein 122 homolog isoform X2

Pathways from BioSystems
Gene Ontology

The following IFT122 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the IFT122 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OAl18722	XM_006024131.3 Latest version!	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OAl18723	XM_006024132.3 Latest version!	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OAl87393	XM_025204786.1 Latest version!	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAl87394	XM_025204787.1 Latest version!	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
View Old Accession Versions >>
OAl18722	XM_006024131.2	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OAl18723	XM_006024132.2	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

IFT122 ( XM_006024131.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006024193.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl18722
Clone ID Related Accession (Same CDS sequence)	XM_006024131.3 , XM_006024131.2
Accession Version	XM_006024131.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3741bp) 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	intraflagellar transport protein 122 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006024131.2. ##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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGATT 
CTGAAGATAT TTGTAGACAA TGTCTTTGCA ATTGTCCTTC TGAAGCAATC TACGGCTGTG 
CGTTGTCTAG ATATGAGCGC ATCCCGAAAC AAACTGGCAG TGGTAGATGA AAATGACACC 
TGTCTGGTGT ATGATATTCA CACCAAGGAG CTCCTGTTCC AAGAACCCAA TGCTAATAGC 
GTTGCTTGGA ATACACAATG TGAGGACATG CTTTGCTTTT CTGGAGGGGG TTACCTCAAC 
ATCAAAGCTA GTAACTTCCC TGTCCATCAG CAAAAACTTC AAGGCTTTGT TGTGGGATAC 
AATGGATCCA AGATCTTCTG TCTTCATGTT TTCTCTATGT CAGCTGTTGA AGTTCCACAG 
TCTGCACCTA TGTATCAGTA CCTGGAGCGG AAAATGTTCA AAGAAGCCTA CCAGATTGCT 
TGTTTGGGAG TAACTGACAC TGACTGGAAA GAGCTGGCTA TGGAGGCTTT AGAAGGGCTA 
GAGTTTGAAA CTGCTAAAAA GGCATTTACC AGAGTACGAG AGCTTCGGTA TTTAGAACTG 
ATCAGCAGCA TCGAGGAAAG GAAGAAGCGG GGAGAGAGCA ACAATGAGCT TTTTCTAGCA 
GATGTTTATG CCTACCAAGG AAAATTCCAT GAAGCAGCTA AACTATACAA AAAAAGTGGA 
CATGACAACC TAGCTCTTGA TATGTACACT GATTTACGCA TGTTTGACTA TGCAAAGGAT 
TTCCTTGGGT CTGGAGACCC CAAAGACACA AAGATGCTAA TCACAAAACA AGCAGATTGG 
GCCAAGAATA TCAATGAACC AAGAGCAGCA GTGGAGATGT ACATTTCTGC AGGCGAGCAC 
ATGAAGGCCA TAGAAATCAG CGGGGATCAT GGCTGGGTTG ATATGTTAAT TGACATTGCA 
CGGAAACTGG ATAAAGCTGA GCGTGAGCCT TTGTCAAAAT GTGCCTATTA TTTTAAGAAA 
CTTGAAAACC ATGGTTATGC AGCAGAAACC TATGTGAAGA TAGGTGACCT GAAGGCCCTG 
GTACAGCTCC ACGTAGAAAC ACAGCGCTGG GAAGAAGCCT TTGCTTTAAG TGAAAAGCAT 
CCTGAATTCA AAGATGATGT CTATGTTCCT TATGCTCAGT GGCTGGCAGA GAATGATAGA 
TTTGAAGAAG CCCAAAAAGC ATTCCACAAG GCTGGCAGGC AGAGCGAAGC TGTAAAAGTG 
CTGGAGCAGC TAACTCACAA TGCTGTGGTG GAAAGCCGAT TTAACGACGC AGCTTATTAT 
TACTGGATGC TCTCCATGCA GTGTTTAGAC ATAGCCCAAG CAAATGAACA GCAGAAGACT 
GAAATGTTAC AGAAGTTTCA TCACTTTCAG CACCTGGCAG AACTCTATCA TGTCTATCAC 
TCTATTCAGA GATACACTGA GGAACCCTTC AGTTTCCATT TGTCAGAAAC ACTCTTCAAT 
ATATCCAGGT TTTTACTTCA TAACCTAACT AAGGAAACTC CATTGGGCAT CTCTAAAGTC 
AATACATTAT TTGCATTGGC AAAGCAGAGT AAAGCTCTGG GCGCATATAA ATTGGCTCGT 
CATGCCTATG ACAAGTTGCA GGGACTGCAG ATCCCAGCTA GGTTTCAGAA ATCAATTGAG 
CTGGGCAGCT TGACAATCCG ATCCAAGCCA TTTCATGACA GTGAAGAGCT TGTGCCCTTG 
TGTTATAGGT GCTCTACCAA CAATCCCTTG CTAAATAATC TGGGGAACGT TTGCATTAAC 
TGTAGACAGC CTTTTGTCTT CTCTGCTTCG TCTTATGAAG TATTGCATCT AGTTGAGTTC 
TATTTGGAAG AAGGGATCAC AGATGAAGAA GCTGTAGCTC TTATTGATCT TGAAGCACCA 
AGACTAAGTA AGAGAGAGAA TAAATGGCAA GAGATGACAA GTGAGAATGC TCAAAGTTTG 
AGACTGGATG ACGACACAGA CATTATTGAA GAAGACGATC CCTTTACAGC AAAATTGAGC 
TTCGAGCAAG GAGGCTCTGA ATTTGTTCCT GTCGTGGTGA ATCGTGCAGT TCTCCATTCA 
ATGAGCCGGA GGGATGTCCT GATTAAACGC TGGCCAAAGC CATTACGGTG GCAATACTAC 
CGGTCCTTGC TGCCAGATGC CTCCATTACC ATGTGTCCAT CCTGCTTTCA GATGTTTCAC 
TCTGAAGATT ATGAGCTCCT AGTGCTTCAG CATAACTGTT GTCCATTCTG TCGGAGGAGA 
ATAGACGAGT CAAACCAGTG A

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

RefSeq	XP_006024193.1
CDS	45..3785
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSSRWENFWNARASEEEEMEEEEDESIHNYIKEIPAIKSSMCSSQSSETEEEEHEEEESPRDTSLDEHNDILAVADWGQRLSFYQLSGKQIGKDRVLNFDPCCVSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQILKIFVDNVFAIVLLKQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_006024131.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.

Target ORF information:

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

XM_006024131.3

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGATT 
CTGAAGATAT TTGTAGACAA TGTCTTTGCA ATTGTCCTTC TGAAGCAATC TACGGCTGTG 
CGTTGTCTAG ATATGAGCGC ATCCCGAAAC AAACTGGCAG TGGTAGATGA AAATGACACC 
TGTCTGGTGT ATGATATTCA CACCAAGGAG CTCCTGTTCC AAGAACCCAA TGCTAATAGC 
GTTGCTTGGA ATACACAATG TGAGGACATG CTTTGCTTTT CTGGAGGGGG TTACCTCAAC 
ATCAAAGCTA GTAACTTCCC TGTCCATCAG CAAAAACTTC AAGGCTTTGT TGTGGGATAC 
AATGGATCCA AGATCTTCTG TCTTCATGTT TTCTCTATGT CAGCTGTTGA AGTTCCACAG 
TCTGCACCTA TGTATCAGTA CCTGGAGCGG AAAATGTTCA AAGAAGCCTA CCAGATTGCT 
TGTTTGGGAG TAACTGACAC TGACTGGAAA GAGCTGGCTA TGGAGGCTTT AGAAGGGCTA 
GAGTTTGAAA CTGCTAAAAA GGCATTTACC AGAGTACGAG AGCTTCGGTA TTTAGAACTG 
ATCAGCAGCA TCGAGGAAAG GAAGAAGCGG GGAGAGAGCA ACAATGAGCT TTTTCTAGCA 
GATGTTTATG CCTACCAAGG AAAATTCCAT GAAGCAGCTA AACTATACAA AAAAAGTGGA 
CATGACAACC TAGCTCTTGA TATGTACACT GATTTACGCA TGTTTGACTA TGCAAAGGAT 
TTCCTTGGGT CTGGAGACCC CAAAGACACA AAGATGCTAA TCACAAAACA AGCAGATTGG 
GCCAAGAATA TCAATGAACC AAGAGCAGCA GTGGAGATGT ACATTTCTGC AGGCGAGCAC 
ATGAAGGCCA TAGAAATCAG CGGGGATCAT GGCTGGGTTG ATATGTTAAT TGACATTGCA 
CGGAAACTGG ATAAAGCTGA GCGTGAGCCT TTGTCAAAAT GTGCCTATTA TTTTAAGAAA 
CTTGAAAACC ATGGTTATGC AGCAGAAACC TATGTGAAGA TAGGTGACCT GAAGGCCCTG 
GTACAGCTCC ACGTAGAAAC ACAGCGCTGG GAAGAAGCCT TTGCTTTAAG TGAAAAGCAT 
CCTGAATTCA AAGATGATGT CTATGTTCCT TATGCTCAGT GGCTGGCAGA GAATGATAGA 
TTTGAAGAAG CCCAAAAAGC ATTCCACAAG GCTGGCAGGC AGAGCGAAGC TGTAAAAGTG 
CTGGAGCAGC TAACTCACAA TGCTGTGGTG GAAAGCCGAT TTAACGACGC AGCTTATTAT 
TACTGGATGC TCTCCATGCA GTGTTTAGAC ATAGCCCAAG CAAATGAACA GCAGAAGACT 
GAAATGTTAC AGAAGTTTCA TCACTTTCAG CACCTGGCAG AACTCTATCA TGTCTATCAC 
TCTATTCAGA GATACACTGA GGAACCCTTC AGTTTCCATT TGTCAGAAAC ACTCTTCAAT 
ATATCCAGGT TTTTACTTCA TAACCTAACT AAGGAAACTC CATTGGGCAT CTCTAAAGTC 
AATACATTAT TTGCATTGGC AAAGCAGAGT AAAGCTCTGG GCGCATATAA ATTGGCTCGT 
CATGCCTATG ACAAGTTGCA GGGACTGCAG ATCCCAGCTA GGTTTCAGAA ATCAATTGAG 
CTGGGCAGCT TGACAATCCG ATCCAAGCCA TTTCATGACA GTGAAGAGCT TGTGCCCTTG 
TGTTATAGGT GCTCTACCAA CAATCCCTTG CTAAATAATC TGGGGAACGT TTGCATTAAC 
TGTAGACAGC CTTTTGTCTT CTCTGCTTCG TCTTATGAAG TATTGCATCT AGTTGAGTTC 
TATTTGGAAG AAGGGATCAC AGATGAAGAA GCTGTAGCTC TTATTGATCT TGAAGCACCA 
AGACTAAGTA AGAGAGAGAA TAAATGGCAA GAGATGACAA GTGAGAATGC TCAAAGTTTG 
AGACTGGATG ACGACACAGA CATTATTGAA GAAGACGATC CCTTTACAGC AAAATTGAGC 
TTCGAGCAAG GAGGCTCTGA ATTTGTTCCT GTCGTGGTGA ATCGTGCAGT TCTCCATTCA 
ATGAGCCGGA GGGATGTCCT GATTAAACGC TGGCCAAAGC CATTACGGTG GCAATACTAC 
CGGTCCTTGC TGCCAGATGC CTCCATTACC ATGTGTCCAT CCTGCTTTCA GATGTTTCAC 
TCTGAAGATT ATGAGCTCCT AGTGCTTCAG CATAACTGTT GTCCATTCTG TCGGAGGAGA 
ATAGACGAGT CAAACCAGTG A

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

IFT122 ( XM_006024131.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006024193.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAl18722
Clone ID Related Accession (Same CDS sequence)	XM_006024131.3 , XM_006024131.2
Accession Version	XM_006024131.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3741bp) 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	intraflagellar transport protein 122 homolog isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006024131.1. ##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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGATT 
CTGAAGATAT TTGTAGACAA TGTCTTTGCA ATTGTCCTTC TGAAGCAATC TACGGCTGTG 
CGTTGTCTAG ATATGAGCGC ATCCCGAAAC AAACTGGCAG TGGTAGATGA AAATGACACC 
TGTCTGGTGT ATGATATTCA CACCAAGGAG CTCCTGTTCC AAGAACCCAA TGCTAATAGC 
GTTGCTTGGA ATACACAATG TGAGGACATG CTTTGCTTTT CTGGAGGGGG TTACCTCAAC 
ATCAAAGCTA GTAACTTCCC TGTCCATCAG CAAAAACTTC AAGGCTTTGT TGTGGGATAC 
AATGGATCCA AGATCTTCTG TCTTCATGTT TTCTCTATGT CAGCTGTTGA AGTTCCACAG 
TCTGCACCTA TGTATCAGTA CCTGGAGCGG AAAATGTTCA AAGAAGCCTA CCAGATTGCT 
TGTTTGGGAG TAACTGACAC TGACTGGAAA GAGCTGGCTA TGGAGGCTTT AGAAGGGCTA 
GAGTTTGAAA CTGCTAAAAA GGCATTTACC AGAGTACGAG AGCTTCGGTA TTTAGAACTG 
ATCAGCAGCA TCGAGGAAAG GAAGAAGCGG GGAGAGAGCA ACAATGAGCT TTTTCTAGCA 
GATGTTTATG CCTACCAAGG AAAATTCCAT GAAGCAGCTA AACTATACAA AAAAAGTGGA 
CATGACAACC TAGCTCTTGA TATGTACACT GATTTACGCA TGTTTGACTA TGCAAAGGAT 
TTCCTTGGGT CTGGAGACCC CAAAGACACA AAGATGCTAA TCACAAAACA AGCAGATTGG 
GCCAAGAATA TCAATGAACC AAGAGCAGCA GTGGAGATGT ACATTTCTGC AGGCGAGCAC 
ATGAAGGCCA TAGAAATCAG CGGGGATCAT GGCTGGGTTG ATATGTTAAT TGACATTGCA 
CGGAAACTGG ATAAAGCTGA GCGTGAGCCT TTGTCAAAAT GTGCCTATTA TTTTAAGAAA 
CTTGAAAACC ATGGTTATGC AGCAGAAACC TATGTGAAGA TAGGTGACCT GAAGGCCCTG 
GTACAGCTCC ACGTAGAAAC ACAGCGCTGG GAAGAAGCCT TTGCTTTAAG TGAAAAGCAT 
CCTGAATTCA AAGATGATGT CTATGTTCCT TATGCTCAGT GGCTGGCAGA GAATGATAGA 
TTTGAAGAAG CCCAAAAAGC ATTCCACAAG GCTGGCAGGC AGAGCGAAGC TGTAAAAGTG 
CTGGAGCAGC TAACTCACAA TGCTGTGGTG GAAAGCCGAT TTAACGACGC AGCTTATTAT 
TACTGGATGC TCTCCATGCA GTGTTTAGAC ATAGCCCAAG CAAATGAACA GCAGAAGACT 
GAAATGTTAC AGAAGTTTCA TCACTTTCAG CACCTGGCAG AACTCTATCA TGTCTATCAC 
TCTATTCAGA GATACACTGA GGAACCCTTC AGTTTCCATT TGTCAGAAAC ACTCTTCAAT 
ATATCCAGGT TTTTACTTCA TAACCTAACT AAGGAAACTC CATTGGGCAT CTCTAAAGTC 
AATACATTAT TTGCATTGGC AAAGCAGAGT AAAGCTCTGG GCGCATATAA ATTGGCTCGT 
CATGCCTATG ACAAGTTGCA GGGACTGCAG ATCCCAGCTA GGTTTCAGAA ATCAATTGAG 
CTGGGCAGCT TGACAATCCG ATCCAAGCCA TTTCATGACA GTGAAGAGCT TGTGCCCTTG 
TGTTATAGGT GCTCTACCAA CAATCCCTTG CTAAATAATC TGGGGAACGT TTGCATTAAC 
TGTAGACAGC CTTTTGTCTT CTCTGCTTCG TCTTATGAAG TATTGCATCT AGTTGAGTTC 
TATTTGGAAG AAGGGATCAC AGATGAAGAA GCTGTAGCTC TTATTGATCT TGAAGCACCA 
AGACTAAGTA AGAGAGAGAA TAAATGGCAA GAGATGACAA GTGAGAATGC TCAAAGTTTG 
AGACTGGATG ACGACACAGA CATTATTGAA GAAGACGATC CCTTTACAGC AAAATTGAGC 
TTCGAGCAAG GAGGCTCTGA ATTTGTTCCT GTCGTGGTGA ATCGTGCAGT TCTCCATTCA 
ATGAGCCGGA GGGATGTCCT GATTAAACGC TGGCCAAAGC CATTACGGTG GCAATACTAC 
CGGTCCTTGC TGCCAGATGC CTCCATTACC ATGTGTCCAT CCTGCTTTCA GATGTTTCAC 
TCTGAAGATT ATGAGCTCCT AGTGCTTCAG CATAACTGTT GTCCATTCTG TCGGAGGAGA 
ATAGACGAGT CAAACCAGTG A

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

RefSeq	XP_006024193.1
CDS	1..3741
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSSRWENFWNARASEEEEMEEEEDESIHNYIKEIPAIKSSMCSSQSSETEEEEHEEEESPRDTSLDEHNDILAVADWGQRLSFYQLSGKQIGKDRVLNFDPCCVSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQILKIFVDNVFAIVLLKQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_006024131.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X1, mRNA.

Target ORF information:

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

XM_006024131.2

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGATT 
CTGAAGATAT TTGTAGACAA TGTCTTTGCA ATTGTCCTTC TGAAGCAATC TACGGCTGTG 
CGTTGTCTAG ATATGAGCGC ATCCCGAAAC AAACTGGCAG TGGTAGATGA AAATGACACC 
TGTCTGGTGT ATGATATTCA CACCAAGGAG CTCCTGTTCC AAGAACCCAA TGCTAATAGC 
GTTGCTTGGA ATACACAATG TGAGGACATG CTTTGCTTTT CTGGAGGGGG TTACCTCAAC 
ATCAAAGCTA GTAACTTCCC TGTCCATCAG CAAAAACTTC AAGGCTTTGT TGTGGGATAC 
AATGGATCCA AGATCTTCTG TCTTCATGTT TTCTCTATGT CAGCTGTTGA AGTTCCACAG 
TCTGCACCTA TGTATCAGTA CCTGGAGCGG AAAATGTTCA AAGAAGCCTA CCAGATTGCT 
TGTTTGGGAG TAACTGACAC TGACTGGAAA GAGCTGGCTA TGGAGGCTTT AGAAGGGCTA 
GAGTTTGAAA CTGCTAAAAA GGCATTTACC AGAGTACGAG AGCTTCGGTA TTTAGAACTG 
ATCAGCAGCA TCGAGGAAAG GAAGAAGCGG GGAGAGAGCA ACAATGAGCT TTTTCTAGCA 
GATGTTTATG CCTACCAAGG AAAATTCCAT GAAGCAGCTA AACTATACAA AAAAAGTGGA 
CATGACAACC TAGCTCTTGA TATGTACACT GATTTACGCA TGTTTGACTA TGCAAAGGAT 
TTCCTTGGGT CTGGAGACCC CAAAGACACA AAGATGCTAA TCACAAAACA AGCAGATTGG 
GCCAAGAATA TCAATGAACC AAGAGCAGCA GTGGAGATGT ACATTTCTGC AGGCGAGCAC 
ATGAAGGCCA TAGAAATCAG CGGGGATCAT GGCTGGGTTG ATATGTTAAT TGACATTGCA 
CGGAAACTGG ATAAAGCTGA GCGTGAGCCT TTGTCAAAAT GTGCCTATTA TTTTAAGAAA 
CTTGAAAACC ATGGTTATGC AGCAGAAACC TATGTGAAGA TAGGTGACCT GAAGGCCCTG 
GTACAGCTCC ACGTAGAAAC ACAGCGCTGG GAAGAAGCCT TTGCTTTAAG TGAAAAGCAT 
CCTGAATTCA AAGATGATGT CTATGTTCCT TATGCTCAGT GGCTGGCAGA GAATGATAGA 
TTTGAAGAAG CCCAAAAAGC ATTCCACAAG GCTGGCAGGC AGAGCGAAGC TGTAAAAGTG 
CTGGAGCAGC TAACTCACAA TGCTGTGGTG GAAAGCCGAT TTAACGACGC AGCTTATTAT 
TACTGGATGC TCTCCATGCA GTGTTTAGAC ATAGCCCAAG CAAATGAACA GCAGAAGACT 
GAAATGTTAC AGAAGTTTCA TCACTTTCAG CACCTGGCAG AACTCTATCA TGTCTATCAC 
TCTATTCAGA GATACACTGA GGAACCCTTC AGTTTCCATT TGTCAGAAAC ACTCTTCAAT 
ATATCCAGGT TTTTACTTCA TAACCTAACT AAGGAAACTC CATTGGGCAT CTCTAAAGTC 
AATACATTAT TTGCATTGGC AAAGCAGAGT AAAGCTCTGG GCGCATATAA ATTGGCTCGT 
CATGCCTATG ACAAGTTGCA GGGACTGCAG ATCCCAGCTA GGTTTCAGAA ATCAATTGAG 
CTGGGCAGCT TGACAATCCG ATCCAAGCCA TTTCATGACA GTGAAGAGCT TGTGCCCTTG 
TGTTATAGGT GCTCTACCAA CAATCCCTTG CTAAATAATC TGGGGAACGT TTGCATTAAC 
TGTAGACAGC CTTTTGTCTT CTCTGCTTCG TCTTATGAAG TATTGCATCT AGTTGAGTTC 
TATTTGGAAG AAGGGATCAC AGATGAAGAA GCTGTAGCTC TTATTGATCT TGAAGCACCA 
AGACTAAGTA AGAGAGAGAA TAAATGGCAA GAGATGACAA GTGAGAATGC TCAAAGTTTG 
AGACTGGATG ACGACACAGA CATTATTGAA GAAGACGATC CCTTTACAGC AAAATTGAGC 
TTCGAGCAAG GAGGCTCTGA ATTTGTTCCT GTCGTGGTGA ATCGTGCAGT TCTCCATTCA 
ATGAGCCGGA GGGATGTCCT GATTAAACGC TGGCCAAAGC CATTACGGTG GCAATACTAC 
CGGTCCTTGC TGCCAGATGC CTCCATTACC ATGTGTCCAT CCTGCTTTCA GATGTTTCAC 
TCTGAAGATT ATGAGCTCCT AGTGCTTCAG CATAACTGTT GTCCATTCTG TCGGAGGAGA 
ATAGACGAGT CAAACCAGTG A

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

IFT122 ( XM_006024132.3 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006024194.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X3, mRNA.

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CloneID	OAl18723
Clone ID Related Accession (Same CDS sequence)	XM_006024132.3 , XM_006024132.2
Accession Version	XM_006024132.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3555bp) 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	intraflagellar transport protein 122 homolog isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 4, 2018 this sequence version replaced XM_006024132.2. ##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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGAGATGAA CACAATGACA TCTTGGCTGT AGCAGACTGG 
GGTCAAAGGC TTTCCTTTTA TCAACTTAGT GGCAAACAGA TTGGGAAGGA CAGGGTGCTT 
AATTTTGACC CTTGCTGTGT TAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

RefSeq	XP_006024194.1
CDS	1..3555
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSRDEHNDILAVADWGQRLSFYQLSGKQIGKDRVLNFDPCCVSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQILKIFVDNVFAIVLLKQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_006024132.3
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X3, mRNA.

Target ORF information:

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

XM_006024132.3

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGAGATGAA CACAATGACA TCTTGGCTGT AGCAGACTGG 
GGTCAAAGGC TTTCCTTTTA TCAACTTAGT GGCAAACAGA TTGGGAAGGA CAGGGTGCTT 
AATTTTGACC CTTGCTGTGT TAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

IFT122 ( XM_006024132.2 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_006024194.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.

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CloneID	OAl18723
Clone ID Related Accession (Same CDS sequence)	XM_006024132.3 , XM_006024132.2
Accession Version	XM_006024132.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3555bp) 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	intraflagellar transport protein 122 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 30, 2015 this sequence version replaced XM_006024132.1. ##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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGAGATGAA CACAATGACA TCTTGGCTGT AGCAGACTGG 
GGTCAAAGGC TTTCCTTTTA TCAACTTAGT GGCAAACAGA TTGGGAAGGA CAGGGTGCTT 
AATTTTGACC CTTGCTGTGT TAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

RefSeq	XP_006024194.1
CDS	1..3555
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSRDEHNDILAVADWGQRLSFYQLSGKQIGKDRVLNFDPCCVSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQILKIFVDNVFAIVLLKQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_006024132.2
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.

Target ORF information:

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

XM_006024132.2

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGAGATGAA CACAATGACA TCTTGGCTGT AGCAGACTGG 
GGTCAAAGGC TTTCCTTTTA TCAACTTAGT GGCAAACAGA TTGGGAAGGA CAGGGTGCTT 
AATTTTGACC CTTGCTGTGT TAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

IFT122 ( XM_025204786.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025060571.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAl87393
Clone ID Related Accession (Same CDS sequence)	XM_025204786.1
Accession Version	XM_025204786.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3693bp) 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	intraflagellar transport protein 122 homolog isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) 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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGCAA 
TCTACGGCTG TGCGTTGTCT AGATATGAGC GCATCCCGAA ACAAACTGGC AGTGGTAGAT 
GAAAATGACA CCTGTCTGGT GTATGATATT CACACCAAGG AGCTCCTGTT CCAAGAACCC 
AATGCTAATA GCGTTGCTTG GAATACACAA TGTGAGGACA TGCTTTGCTT TTCTGGAGGG 
GGTTACCTCA ACATCAAAGC TAGTAACTTC CCTGTCCATC AGCAAAAACT TCAAGGCTTT 
GTTGTGGGAT ACAATGGATC CAAGATCTTC TGTCTTCATG TTTTCTCTAT GTCAGCTGTT 
GAAGTTCCAC AGTCTGCACC TATGTATCAG TACCTGGAGC GGAAAATGTT CAAAGAAGCC 
TACCAGATTG CTTGTTTGGG AGTAACTGAC ACTGACTGGA AAGAGCTGGC TATGGAGGCT 
TTAGAAGGGC TAGAGTTTGA AACTGCTAAA AAGGCATTTA CCAGAGTACG AGAGCTTCGG 
TATTTAGAAC TGATCAGCAG CATCGAGGAA AGGAAGAAGC GGGGAGAGAG CAACAATGAG 
CTTTTTCTAG CAGATGTTTA TGCCTACCAA GGAAAATTCC ATGAAGCAGC TAAACTATAC 
AAAAAAAGTG GACATGACAA CCTAGCTCTT GATATGTACA CTGATTTACG CATGTTTGAC 
TATGCAAAGG ATTTCCTTGG GTCTGGAGAC CCCAAAGACA CAAAGATGCT AATCACAAAA 
CAAGCAGATT GGGCCAAGAA TATCAATGAA CCAAGAGCAG CAGTGGAGAT GTACATTTCT 
GCAGGCGAGC ACATGAAGGC CATAGAAATC AGCGGGGATC ATGGCTGGGT TGATATGTTA 
ATTGACATTG CACGGAAACT GGATAAAGCT GAGCGTGAGC CTTTGTCAAA ATGTGCCTAT 
TATTTTAAGA AACTTGAAAA CCATGGTTAT GCAGCAGAAA CCTATGTGAA GATAGGTGAC 
CTGAAGGCCC TGGTACAGCT CCACGTAGAA ACACAGCGCT GGGAAGAAGC CTTTGCTTTA 
AGTGAAAAGC ATCCTGAATT CAAAGATGAT GTCTATGTTC CTTATGCTCA GTGGCTGGCA 
GAGAATGATA GATTTGAAGA AGCCCAAAAA GCATTCCACA AGGCTGGCAG GCAGAGCGAA 
GCTGTAAAAG TGCTGGAGCA GCTAACTCAC AATGCTGTGG TGGAAAGCCG ATTTAACGAC 
GCAGCTTATT ATTACTGGAT GCTCTCCATG CAGTGTTTAG ACATAGCCCA AGCAAATGAA 
CAGCAGAAGA CTGAAATGTT ACAGAAGTTT CATCACTTTC AGCACCTGGC AGAACTCTAT 
CATGTCTATC ACTCTATTCA GAGATACACT GAGGAACCCT TCAGTTTCCA TTTGTCAGAA 
ACACTCTTCA ATATATCCAG GTTTTTACTT CATAACCTAA CTAAGGAAAC TCCATTGGGC 
ATCTCTAAAG TCAATACATT ATTTGCATTG GCAAAGCAGA GTAAAGCTCT GGGCGCATAT 
AAATTGGCTC GTCATGCCTA TGACAAGTTG CAGGGACTGC AGATCCCAGC TAGGTTTCAG 
AAATCAATTG AGCTGGGCAG CTTGACAATC CGATCCAAGC CATTTCATGA CAGTGAAGAG 
CTTGTGCCCT TGTGTTATAG GTGCTCTACC AACAATCCCT TGCTAAATAA TCTGGGGAAC 
GTTTGCATTA ACTGTAGACA GCCTTTTGTC TTCTCTGCTT CGTCTTATGA AGTATTGCAT 
CTAGTTGAGT TCTATTTGGA AGAAGGGATC ACAGATGAAG AAGCTGTAGC TCTTATTGAT 
CTTGAAGCAC CAAGACTAAG TAAGAGAGAG AATAAATGGC AAGAGATGAC AAGTGAGAAT 
GCTCAAAGTT TGAGACTGGA TGACGACACA GACATTATTG AAGAAGACGA TCCCTTTACA 
GCAAAATTGA GCTTCGAGCA AGGAGGCTCT GAATTTGTTC CTGTCGTGGT GAATCGTGCA 
GTTCTCCATT CAATGAGCCG GAGGGATGTC CTGATTAAAC GCTGGCCAAA GCCATTACGG 
TGGCAATACT ACCGGTCCTT GCTGCCAGAT GCCTCCATTA CCATGTGTCC ATCCTGCTTT 
CAGATGTTTC ACTCTGAAGA TTATGAGCTC CTAGTGCTTC AGCATAACTG TTGTCCATTC 
TGTCGGAGGA GAATAGACGA GTCAAACCAG TGA

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

RefSeq	XP_025060571.1
CDS	45..3737
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSSRWENFWNARASEEEEMEEEEDESIHNYIKEIPAIKSSMCSSQSSETEEEEHEEEESPRDTSLDEHNDILAVADWGQRLSFYQLSGKQIGKDRVLNFDPCCVSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_025204786.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X2, mRNA.

Target ORF information:

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

XM_025204786.1

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGTCGGTGG GAGAATTTCT GGAATGCTAG AGCAAGTGAA 
GAGGAGGAAA TGGAGGAGGA GGAAGACGAG TCAATCCACA ACTATATAAA GGAAATACCA 
GCTATAAAGT CCAGCATGTG CAGTAGTCAG AGTAGTGAGA CAGAGGAAGA AGAGCATGAG 
GAAGAAGAGA GCCCTAGGGA CACCAGCTTA GATGAACACA ATGACATCTT GGCTGTAGCA 
GACTGGGGTC AAAGGCTTTC CTTTTATCAA CTTAGTGGCA AACAGATTGG GAAGGACAGG 
GTGCTTAATT TTGACCCTTG CTGTGTTAGC TATTTTTCTA AGGGAGAATA TATATTACTG 
GGAGGCTCAG ATAAACAAGT CTCTCTGTAC ACGAAGGATG GAGTGCGTCT CGGTACCATA 
GGGGAGCAGA GCACTTGGGT GTGGACATGT AAAGTTAAAC CAGACTCCAA TTATGTGGCA 
GTAGGGTGCC AGGATGGAAC AATTTCCTTT TATCAGCTGA TTTTCAGCAC CGTGCATGGT 
CTTTACAAGG ATCGCTATGC TTATAGGGAC AACATGACTG ATGTTATTGT TCAGCACCTC 
ATCACTGAGC AAAAAGTTAG AGTAAAATGC AGAGAGCTTG TAAAGAAAAT TGCCATATAT 
AAAAACAGAC TAGCAATCCA GCTGCCAGAG AGAATCCTGA TTTATGAGTT ATACTCAGAT 
GACTCTTCGG ACATGCATTA CCGTGTGAAG GAAAAGATAG TAAAGAAATT TGAGTGCAAC 
TTGTTGGTTG TTTGTTCAGA TCACATTATT TTATGCCAGG AGAAAAGATT ACAGTGCCTC 
TCATTTAGTG GTGTTAAAGA GCGAGAGTGG CTGATGGAGT CTCTTATTCG TTACATTAAA 
GTAATTGGAG GACCTCCTGG AAGAGAAGGC CTCTTAGTAG GTCTAAAGAA TGGCCAGCAA 
TCTACGGCTG TGCGTTGTCT AGATATGAGC GCATCCCGAA ACAAACTGGC AGTGGTAGAT 
GAAAATGACA CCTGTCTGGT GTATGATATT CACACCAAGG AGCTCCTGTT CCAAGAACCC 
AATGCTAATA GCGTTGCTTG GAATACACAA TGTGAGGACA TGCTTTGCTT TTCTGGAGGG 
GGTTACCTCA ACATCAAAGC TAGTAACTTC CCTGTCCATC AGCAAAAACT TCAAGGCTTT 
GTTGTGGGAT ACAATGGATC CAAGATCTTC TGTCTTCATG TTTTCTCTAT GTCAGCTGTT 
GAAGTTCCAC AGTCTGCACC TATGTATCAG TACCTGGAGC GGAAAATGTT CAAAGAAGCC 
TACCAGATTG CTTGTTTGGG AGTAACTGAC ACTGACTGGA AAGAGCTGGC TATGGAGGCT 
TTAGAAGGGC TAGAGTTTGA AACTGCTAAA AAGGCATTTA CCAGAGTACG AGAGCTTCGG 
TATTTAGAAC TGATCAGCAG CATCGAGGAA AGGAAGAAGC GGGGAGAGAG CAACAATGAG 
CTTTTTCTAG CAGATGTTTA TGCCTACCAA GGAAAATTCC ATGAAGCAGC TAAACTATAC 
AAAAAAAGTG GACATGACAA CCTAGCTCTT GATATGTACA CTGATTTACG CATGTTTGAC 
TATGCAAAGG ATTTCCTTGG GTCTGGAGAC CCCAAAGACA CAAAGATGCT AATCACAAAA 
CAAGCAGATT GGGCCAAGAA TATCAATGAA CCAAGAGCAG CAGTGGAGAT GTACATTTCT 
GCAGGCGAGC ACATGAAGGC CATAGAAATC AGCGGGGATC ATGGCTGGGT TGATATGTTA 
ATTGACATTG CACGGAAACT GGATAAAGCT GAGCGTGAGC CTTTGTCAAA ATGTGCCTAT 
TATTTTAAGA AACTTGAAAA CCATGGTTAT GCAGCAGAAA CCTATGTGAA GATAGGTGAC 
CTGAAGGCCC TGGTACAGCT CCACGTAGAA ACACAGCGCT GGGAAGAAGC CTTTGCTTTA 
AGTGAAAAGC ATCCTGAATT CAAAGATGAT GTCTATGTTC CTTATGCTCA GTGGCTGGCA 
GAGAATGATA GATTTGAAGA AGCCCAAAAA GCATTCCACA AGGCTGGCAG GCAGAGCGAA 
GCTGTAAAAG TGCTGGAGCA GCTAACTCAC AATGCTGTGG TGGAAAGCCG ATTTAACGAC 
GCAGCTTATT ATTACTGGAT GCTCTCCATG CAGTGTTTAG ACATAGCCCA AGCAAATGAA 
CAGCAGAAGA CTGAAATGTT ACAGAAGTTT CATCACTTTC AGCACCTGGC AGAACTCTAT 
CATGTCTATC ACTCTATTCA GAGATACACT GAGGAACCCT TCAGTTTCCA TTTGTCAGAA 
ACACTCTTCA ATATATCCAG GTTTTTACTT CATAACCTAA CTAAGGAAAC TCCATTGGGC 
ATCTCTAAAG TCAATACATT ATTTGCATTG GCAAAGCAGA GTAAAGCTCT GGGCGCATAT 
AAATTGGCTC GTCATGCCTA TGACAAGTTG CAGGGACTGC AGATCCCAGC TAGGTTTCAG 
AAATCAATTG AGCTGGGCAG CTTGACAATC CGATCCAAGC CATTTCATGA CAGTGAAGAG 
CTTGTGCCCT TGTGTTATAG GTGCTCTACC AACAATCCCT TGCTAAATAA TCTGGGGAAC 
GTTTGCATTA ACTGTAGACA GCCTTTTGTC TTCTCTGCTT CGTCTTATGA AGTATTGCAT 
CTAGTTGAGT TCTATTTGGA AGAAGGGATC ACAGATGAAG AAGCTGTAGC TCTTATTGAT 
CTTGAAGCAC CAAGACTAAG TAAGAGAGAG AATAAATGGC AAGAGATGAC AAGTGAGAAT 
GCTCAAAGTT TGAGACTGGA TGACGACACA GACATTATTG AAGAAGACGA TCCCTTTACA 
GCAAAATTGA GCTTCGAGCA AGGAGGCTCT GAATTTGTTC CTGTCGTGGT GAATCGTGCA 
GTTCTCCATT CAATGAGCCG GAGGGATGTC CTGATTAAAC GCTGGCCAAA GCCATTACGG 
TGGCAATACT ACCGGTCCTT GCTGCCAGAT GCCTCCATTA CCATGTGTCC ATCCTGCTTT 
CAGATGTTTC ACTCTGAAGA TTATGAGCTC CTAGTGCTTC AGCATAACTG TTGTCCATTC 
TGTCGGAGGA GAATAGACGA GTCAAACCAG TGA

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

IFT122 ( XM_025204787.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025060572.1 Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X4, mRNA.

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CloneID	OAl87394
Clone ID Related Accession (Same CDS sequence)	XM_025204787.1
Accession Version	XM_025204787.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3435bp) 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	intraflagellar transport protein 122 homolog isoform X4
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842097.1) 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##

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

RefSeq	XP_025060572.1
CDS	45..3479
Translation	MRAALTWRDKAEQCIYDLAFKPDGTQLIIAAGNRLLVYDTSDGTLIQPLKGHKDTVYCVAYAKDGKRFASGSADKSVIIWTSKLEGILKYTHNDSIQCVSYNPVTHQLASCSSSDFGLWSPEQKSVSKHKSNSKITCCSWTNDGQYLALGMFNGIVSIRNKNGEEKVKIERPGGALSPVWSICWNPSSYFSKGEYILLGGSDKQVSLYTKDGVRLGTIGEQSTWVWTCKVKPDSNYVAVGCQDGTISFYQLIFSTVHGLYKDRYAYRDNMTDVIVQHLITEQKVRVKCRELVKKIAIYKNRLAIQLPERILIYELYSDDSSDMHYRVKEKIVKKFECNLLVVCSDHIILCQEKRLQCLSFSGVKEREWLMESLIRYIKVIGGPPGREGLLVGLKNGQILKIFVDNVFAIVLLKQSTAVRCLDMSASRNKLAVVDENDTCLVYDIHTKELLFQEPNANSVAWNTQCEDMLCFSGGGYLNIKASNFPVHQQKLQGFVVGYNGSKIFCLHVFSMSAVEVPQSAPMYQYLERKMFKEAYQIACLGVTDTDWKELAMEALEGLEFETAKKAFTRVRELRYLELISSIEERKKRGESNNELFLADVYAYQGKFHEAAKLYKKSGHDNLALDMYTDLRMFDYAKDFLGSGDPKDTKMLITKQADWAKNINEPRAAVEMYISAGEHMKAIEISGDHGWVDMLIDIARKLDKAEREPLSKCAYYFKKLENHGYAAETYVKIGDLKALVQLHVETQRWEEAFALSEKHPEFKDDVYVPYAQWLAENDRFEEAQKAFHKAGRQSEAVKVLEQLTHNAVVESRFNDAAYYYWMLSMQCLDIAQANEQQKTEMLQKFHHFQHLAELYHVYHSIQRYTEEPFSFHLSETLFNISRFLLHNLTKETPLGISKVNTLFALAKQSKALGAYKLARHAYDKLQGLQIPARFQKSIELGSLTIRSKPFHDSEELVPLCYRCSTNNPLLNNLGNVCINCRQPFVFSASSYEVLHLVEFYLEEGITDEEAVALIDLEAPRLSKRENKWQEMTSENAQSLRLDDDTDIIEEDDPFTAKLSFEQGGSEFVPVVVNRAVLHSMSRRDVLIKRWPKPLRWQYYRSLLPDASITMCPSCFQMFHSEDYELLVLQHNCCPFCRRRIDESNQ

Target ORF information:

RefSeq Version	XM_025204787.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis intraflagellar transport 122 (IFT122), transcript variant X4, mRNA.

Target ORF information:

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

XM_025204787.1

ORF Insert Sequence:

ATGAGGGCGG CGCTGACGTG GCGGGACAAG GCGGAGCAGT GCATCTATGA CCTCGCGTTT 
AAACCCGATG GGACGCAACT GATCATTGCA GCGGGAAACA GACTGCTGGT ATATGATACA 
TCTGATGGAA CCTTAATTCA GCCTTTGAAA GGACATAAAG ACACAGTGTA CTGTGTGGCT 
TATGCTAAAG ATGGCAAGCG TTTTGCATCT GGCTCTGCTG ATAAAAGCGT GATCATTTGG 
ACTTCCAAGT TAGAAGGCAT TCTGAAATAC ACGCATAATG ACTCTATACA GTGTGTTTCA 
TACAACCCAG TTACTCACCA ACTAGCATCT TGCTCCTCCA GTGATTTTGG TTTGTGGTCT 
CCTGAACAGA AGTCAGTCTC CAAACATAAA TCAAACAGTA AAATCACCTG CTGTAGCTGG 
ACAAATGATG GCCAGTACCT TGCTTTGGGG ATGTTCAATG GCATTGTAAG CATAAGGAAT 
AAAAATGGTG AAGAAAAAGT TAAAATAGAA CGTCCAGGTG GAGCTTTATC GCCAGTATGG 
TCAATTTGCT GGAATCCATC AAGCTATTTT TCTAAGGGAG AATATATATT ACTGGGAGGC 
TCAGATAAAC AAGTCTCTCT GTACACGAAG GATGGAGTGC GTCTCGGTAC CATAGGGGAG 
CAGAGCACTT GGGTGTGGAC ATGTAAAGTT AAACCAGACT CCAATTATGT GGCAGTAGGG 
TGCCAGGATG GAACAATTTC CTTTTATCAG CTGATTTTCA GCACCGTGCA TGGTCTTTAC 
AAGGATCGCT ATGCTTATAG GGACAACATG ACTGATGTTA TTGTTCAGCA CCTCATCACT 
GAGCAAAAAG TTAGAGTAAA ATGCAGAGAG CTTGTAAAGA AAATTGCCAT ATATAAAAAC 
AGACTAGCAA TCCAGCTGCC AGAGAGAATC CTGATTTATG AGTTATACTC AGATGACTCT 
TCGGACATGC ATTACCGTGT GAAGGAAAAG ATAGTAAAGA AATTTGAGTG CAACTTGTTG 
GTTGTTTGTT CAGATCACAT TATTTTATGC CAGGAGAAAA GATTACAGTG CCTCTCATTT 
AGTGGTGTTA AAGAGCGAGA GTGGCTGATG GAGTCTCTTA TTCGTTACAT TAAAGTAATT 
GGAGGACCTC CTGGAAGAGA AGGCCTCTTA GTAGGTCTAA AGAATGGCCA GATTCTGAAG 
ATATTTGTAG ACAATGTCTT TGCAATTGTC CTTCTGAAGC AATCTACGGC TGTGCGTTGT 
CTAGATATGA GCGCATCCCG AAACAAACTG GCAGTGGTAG ATGAAAATGA CACCTGTCTG 
GTGTATGATA TTCACACCAA GGAGCTCCTG TTCCAAGAAC CCAATGCTAA TAGCGTTGCT 
TGGAATACAC AATGTGAGGA CATGCTTTGC TTTTCTGGAG GGGGTTACCT CAACATCAAA 
GCTAGTAACT TCCCTGTCCA TCAGCAAAAA CTTCAAGGCT TTGTTGTGGG ATACAATGGA 
TCCAAGATCT TCTGTCTTCA TGTTTTCTCT ATGTCAGCTG TTGAAGTTCC ACAGTCTGCA 
CCTATGTATC AGTACCTGGA GCGGAAAATG TTCAAAGAAG CCTACCAGAT TGCTTGTTTG 
GGAGTAACTG ACACTGACTG GAAAGAGCTG GCTATGGAGG CTTTAGAAGG GCTAGAGTTT 
GAAACTGCTA AAAAGGCATT TACCAGAGTA CGAGAGCTTC GGTATTTAGA ACTGATCAGC 
AGCATCGAGG AAAGGAAGAA GCGGGGAGAG AGCAACAATG AGCTTTTTCT AGCAGATGTT 
TATGCCTACC AAGGAAAATT CCATGAAGCA GCTAAACTAT ACAAAAAAAG TGGACATGAC 
AACCTAGCTC TTGATATGTA CACTGATTTA CGCATGTTTG ACTATGCAAA GGATTTCCTT 
GGGTCTGGAG ACCCCAAAGA CACAAAGATG CTAATCACAA AACAAGCAGA TTGGGCCAAG 
AATATCAATG AACCAAGAGC AGCAGTGGAG ATGTACATTT CTGCAGGCGA GCACATGAAG 
GCCATAGAAA TCAGCGGGGA TCATGGCTGG GTTGATATGT TAATTGACAT TGCACGGAAA 
CTGGATAAAG CTGAGCGTGA GCCTTTGTCA AAATGTGCCT ATTATTTTAA GAAACTTGAA 
AACCATGGTT ATGCAGCAGA AACCTATGTG AAGATAGGTG ACCTGAAGGC CCTGGTACAG 
CTCCACGTAG AAACACAGCG CTGGGAAGAA GCCTTTGCTT TAAGTGAAAA GCATCCTGAA 
TTCAAAGATG ATGTCTATGT TCCTTATGCT CAGTGGCTGG CAGAGAATGA TAGATTTGAA 
GAAGCCCAAA AAGCATTCCA CAAGGCTGGC AGGCAGAGCG AAGCTGTAAA AGTGCTGGAG 
CAGCTAACTC ACAATGCTGT GGTGGAAAGC CGATTTAACG ACGCAGCTTA TTATTACTGG 
ATGCTCTCCA TGCAGTGTTT AGACATAGCC CAAGCAAATG AACAGCAGAA GACTGAAATG 
TTACAGAAGT TTCATCACTT TCAGCACCTG GCAGAACTCT ATCATGTCTA TCACTCTATT 
CAGAGATACA CTGAGGAACC CTTCAGTTTC CATTTGTCAG AAACACTCTT CAATATATCC 
AGGTTTTTAC TTCATAACCT AACTAAGGAA ACTCCATTGG GCATCTCTAA AGTCAATACA 
TTATTTGCAT TGGCAAAGCA GAGTAAAGCT CTGGGCGCAT ATAAATTGGC TCGTCATGCC 
TATGACAAGT TGCAGGGACT GCAGATCCCA GCTAGGTTTC AGAAATCAAT TGAGCTGGGC 
AGCTTGACAA TCCGATCCAA GCCATTTCAT GACAGTGAAG AGCTTGTGCC CTTGTGTTAT 
AGGTGCTCTA CCAACAATCC CTTGCTAAAT AATCTGGGGA ACGTTTGCAT TAACTGTAGA 
CAGCCTTTTG TCTTCTCTGC TTCGTCTTAT GAAGTATTGC ATCTAGTTGA GTTCTATTTG 
GAAGAAGGGA TCACAGATGA AGAAGCTGTA GCTCTTATTG ATCTTGAAGC ACCAAGACTA 
AGTAAGAGAG AGAATAAATG GCAAGAGATG ACAAGTGAGA ATGCTCAAAG TTTGAGACTG 
GATGACGACA CAGACATTAT TGAAGAAGAC GATCCCTTTA CAGCAAAATT GAGCTTCGAG 
CAAGGAGGCT CTGAATTTGT TCCTGTCGTG GTGAATCGTG CAGTTCTCCA TTCAATGAGC 
CGGAGGGATG TCCTGATTAA ACGCTGGCCA AAGCCATTAC GGTGGCAATA CTACCGGTCC 
TTGCTGCCAG ATGCCTCCAT TACCATGTGT CCATCCTGCT TTCAGATGTT TCACTCTGAA 
GATTATGAGC TCCTAGTGCT TCAGCATAAC TGTTGTCCAT TCTGTCGGAG GAGAATAGAC 
GAGTCAAACC AGTGA

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

PubMed

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IFT122 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:

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見積依頼

Eメール

電話

FAX

オンラインフォーム