UTP14A cDNA ORF clone, Alligator sinensis(Chinese alligator)

Gene
Clones
gRNAs

Summary

Gene Symbol	UTP14A
Entrez Gene ID	102385774
Full Name	UTP14A, small subunit processome component
Gene Type	protein-coding
Organism	Alligator sinensis(Chinese alligator)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025208752.1	XP_025064537.1	U3 small nucleolar RNA-associated protein 14 homolog A
XM_014521751.1	XP_014377237.1	U3 small nucleolar RNA-associated protein 14 homolog A

Pathways from BioSystems
Gene Ontology

The following UTP14A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UTP14A 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)	Select
OAl21867	XM_014521751.1 Latest version!	Alligator sinensis UTP14A small subunit (SSU) processome component (UTP14A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$391.30 $559.00
OAl90017	XM_025208752.1 Latest version!	Alligator sinensis UTP14A, small subunit processome component (UTP14A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

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Next-day Shipping ORF Clones ( in default vector with tag)
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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)

UTP14A ( XM_014521751.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_014377237.1 Alligator sinensis UTP14A small subunit (SSU) processome component (UTP14A), mRNA.

Price & Availability↑

CloneID	OAl21867
Clone ID Related Accession (Same CDS sequence)	XM_014521751.1
Accession Version	XM_014521751.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2457bp) 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	U3 small nucleolar RNA-associated protein 14 homolog A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842250.1) 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## ##RefSeq-Attributes-START## ab initio :: 10% of CDS bases ##RefSeq-Attributes-END##

ATGAGTTCTG GTGAGCCTCA GGAAGTGGCT TGCAATTCAC ATCCAGGTTT GGGTATTTTG 
GGGCCTAACC GCGGTTTGGA ACAGGCAGCA CTAGCGACAC CCGTGGAGGA GGCGGCCAAG 
GAGCCAGCAC AAGCCAGAGC TGCTCTGCCC CGGCCTCCTA CTAGCTGCTC AGCTCCTGGA 
CCCGGGCGGA AGCCTGCCTG CGCCTGCTGG ATCTCTAGCT CCACCTACCC AGCAGCACCC 
TCCCCCTCCC CGGTTTGGCA TACTGATTCC CTGCCCAGGT GCAGAGGCAG GTGGCAGTGC 
ATCTGCAATT GCAAAATCTG GGGGGCTTAT GATGTGGAGA GGAGACATCG TCAGCTCTTG 
GAGGCAGTTA GCTCCCTGGC TGGCAGGAAC CGGCGGAAGC TGACTGAGCG CACTGAGGCG 
AGTGCACAGG TGTCTGAGTT TGGTGTCAGC TGTGAAGGTG CTGGGGAGAA ACTGATCTTG 
TCTGACCTAC TGGGGCCTAT CAAGGCCTCA TCTTTGCTGG GCACTGTGAA GAAGCAACTG 
AACAGAGTCA AGCAGAAGAA AGCTGTGGAG CTGCCCCTCA GCAAAAGGGA GGCACAGCGG 
GTTGTGAGGG AGGCTGCCTA TGATAAAACC TCAAAGGCCA TCACCAAGTG GGACCAAGTG 
GTTCTGCAGA ACCGACGGGC AGAGCAGCTG GTTTTCCCCC TGAAGCAGGA ACAATTGACA 
GTTGCCTCCA TTGAAGAGAG GGTGACTAGC TGGCAGGCAC GGACTCCACT GGAGCAGGAA 
ATCTTCAGTT TGCTTCATAA GACACGGCAG TTGACAACAG ACCCGCTGCT GACACTGCAG 
GAAGAGGCCT CTTTGCAGGC CATGAGTCTA GAAGAAGCCC AGCAGCGCCG TGCAGAGCTG 
CAGAAAGCAC GGGCTCTGCA GTCCTACTAT GAAGCCAAGG CACGACGGGA GAAGAAGATC 
AAAAGCAAGA AGTTCCACCG AGTGCTGCAG AAGAACAAGC GGCGGGAGGC TCTAAAGGAG 
TTTGAGGCAC TTAAGAAATC CAACCCTGAA GCTGCCTTGT TGAAGCTGGA TGAGATGGAG 
AAAGCTAGGA TAAAGGAAAG AATGAGCCTC AAGCACCAGA ACAAGGGGAA GTGGGCCAGG 
TCCAGGGCCA TCATGGGCAA ATACGACCTG GAGGCCCGCA GGGCTATGCA GGAGCAGCTA 
GCCAAGAACA AAGAGCTCAC ACAGAAGGTG TGCATGGAGC TGGAGGGTGA CAAGGAAGTC 
TGTGTGGCTG AGGAAGGCCT CCTCCCTGAT TCCCTCAACG AGGTGCAGCC TAGCAGAAAT 
GTAGCTAACC CCTGGATGCT GGGCAAACTC AGCAGTGAAA CAAAGGACTC CGGGATCCAG 
GAGGACCTCA AAGCCCCTGC AGATTTAAAG GAGCCTGAGA GCGAGGGAGA GGAAGAGCCA 
GTGCTGTCAG AAGAGGAGGC CCTGCTGCAA GATTTTGAGC AGAGACGGTG GGTGCGGCAC 
TGCCAGAAAG GGAGCCCAGA GCCGCAGGGA GCTAGCAGAG ACGAGGAGTT GCCTGAATCT 
GTGAGCCCCA GCCAGGCTGC AGGGCAAATA AACATGGAAG ATGAACAGAA GCAGGAGGAG 
CCCTTGCTTT CAGAGCAGCT TGGCCGGCTG TGTGCTATGG AGGAGATGGA TGTCCTGGCC 
TCAGAAGATT GGGCAGAAGA GCAGGAGCCG CAACAGCCTG CGAGGACTGA GCAGCAGAAA 
CCACACCAGG ACACAGCAGT GGCAGAGGAC AGACCTAGAG GCAGTCAAAC AACAAGGAAA 
ACAGCCAAGC AGAAGATGAT TGACCTGCAG GCTGTCCTTG CAGGGGAATC CTGTATGATC 
CACTGCCCCA CCCTGCCTGT TGCTGTGCAG GATGAGGGAG GAGGTACAGA CCAGAGGCTG 
GTCATCAAGG AGGCCTTTGC AGCAGATGAT GTTGTTGCTG ACTTCCTGAA AGAAAAGAAC 
AAGGTGGAGC AGGAAGGGAA GTCCCAGACT GTGGACCTGT TGCTGCCTGG CTGGGGTGAG 
TGGAGTGGCA CAGGACTCAA ACCCAGCGCC AAAAAAAGGA AGAGGTTCCT CATCAAGCAG 
CCACCTGGGC CCCCCAGGAA AGATCGACAC CTGCCTCATG TCATCATCAG CCAAAAGCGC 
AACATCTTAG CTGCAACACA CCAGGTCAAT GAACTCCCGT TCCCCTTTGA CAGCCACCAC 
CAGTTTGAGC GGAGCATTCA GGCACCAATA GGGCCCATGT GGAACACACA GCATGCCTTC 
CAGAAGCTGA CAGCCCCACA CCTCATCACC CAGCCAGGCC ACATCATCCA GCCCATCTCC 
AATGAGGATG TTGCCTCTCA GAGCACCACG TCCACTCACA AAGCCAAGCC TGCAATGGAG 
CTGACACCCC AGCAAGCCAA ACGCCTCCAC CAGCACCCTC GCAAGAAAGT TCGATAA

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

RefSeq	XP_014377237.1
CDS	1..2457
Translation	MSSGEPQEVACNSHPGLGILGPNRGLEQAALATPVEEAAKEPAQARAALPRPPTSCSAPGPGRKPACACWISSSTYPAAPSPSPVWHTDSLPRCRGRWQCICNCKIWGAYDVERRHRQLLEAVSSLAGRNRRKLTERTEASAQVSEFGVSCEGAGEKLILSDLLGPIKASSLLGTVKKQLNRVKQKKAVELPLSKREAQRVVREAAYDKTSKAITKWDQVVLQNRRAEQLVFPLKQEQLTVASIEERVTSWQARTPLEQEIFSLLHKTRQLTTDPLLTLQEEASLQAMSLEEAQQRRAELQKARALQSYYEAKARREKKIKSKKFHRVLQKNKRREALKEFEALKKSNPEAALLKLDEMEKARIKERMSLKHQNKGKWARSRAIMGKYDLEARRAMQEQLAKNKELTQKVCMELEGDKEVCVAEEGLLPDSLNEVQPSRNVANPWMLGKLSSETKDSGIQEDLKAPADLKEPESEGEEEPVLSEEEALLQDFEQRRWVRHCQKGSPEPQGASRDEELPESVSPSQAAGQINMEDEQKQEEPLLSEQLGRLCAMEEMDVLASEDWAEEQEPQQPARTEQQKPHQDTAVAEDRPRGSQTTRKTAKQKMIDLQAVLAGESCMIHCPTLPVAVQDEGGGTDQRLVIKEAFAADDVVADFLKEKNKVEQEGKSQTVDLLLPGWGEWSGTGLKPSAKKRKRFLIKQPPGPPRKDRHLPHVIISQKRNILAATHQVNELPFPFDSHHQFERSIQAPIGPMWNTQHAFQKLTAPHLITQPGHIIQPISNEDVASQSTTSTHKAKPAMELTPQQAKRLHQHPRKKVR

Target ORF information:

RefSeq Version	XM_014521751.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis UTP14A small subunit (SSU) processome component (UTP14A), mRNA.

Target ORF information:

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

XM_014521751.1

ORF Insert Sequence:

ATGAGTTCTG GTGAGCCTCA GGAAGTGGCT TGCAATTCAC ATCCAGGTTT GGGTATTTTG 
GGGCCTAACC GCGGTTTGGA ACAGGCAGCA CTAGCGACAC CCGTGGAGGA GGCGGCCAAG 
GAGCCAGCAC AAGCCAGAGC TGCTCTGCCC CGGCCTCCTA CTAGCTGCTC AGCTCCTGGA 
CCCGGGCGGA AGCCTGCCTG CGCCTGCTGG ATCTCTAGCT CCACCTACCC AGCAGCACCC 
TCCCCCTCCC CGGTTTGGCA TACTGATTCC CTGCCCAGGT GCAGAGGCAG GTGGCAGTGC 
ATCTGCAATT GCAAAATCTG GGGGGCTTAT GATGTGGAGA GGAGACATCG TCAGCTCTTG 
GAGGCAGTTA GCTCCCTGGC TGGCAGGAAC CGGCGGAAGC TGACTGAGCG CACTGAGGCG 
AGTGCACAGG TGTCTGAGTT TGGTGTCAGC TGTGAAGGTG CTGGGGAGAA ACTGATCTTG 
TCTGACCTAC TGGGGCCTAT CAAGGCCTCA TCTTTGCTGG GCACTGTGAA GAAGCAACTG 
AACAGAGTCA AGCAGAAGAA AGCTGTGGAG CTGCCCCTCA GCAAAAGGGA GGCACAGCGG 
GTTGTGAGGG AGGCTGCCTA TGATAAAACC TCAAAGGCCA TCACCAAGTG GGACCAAGTG 
GTTCTGCAGA ACCGACGGGC AGAGCAGCTG GTTTTCCCCC TGAAGCAGGA ACAATTGACA 
GTTGCCTCCA TTGAAGAGAG GGTGACTAGC TGGCAGGCAC GGACTCCACT GGAGCAGGAA 
ATCTTCAGTT TGCTTCATAA GACACGGCAG TTGACAACAG ACCCGCTGCT GACACTGCAG 
GAAGAGGCCT CTTTGCAGGC CATGAGTCTA GAAGAAGCCC AGCAGCGCCG TGCAGAGCTG 
CAGAAAGCAC GGGCTCTGCA GTCCTACTAT GAAGCCAAGG CACGACGGGA GAAGAAGATC 
AAAAGCAAGA AGTTCCACCG AGTGCTGCAG AAGAACAAGC GGCGGGAGGC TCTAAAGGAG 
TTTGAGGCAC TTAAGAAATC CAACCCTGAA GCTGCCTTGT TGAAGCTGGA TGAGATGGAG 
AAAGCTAGGA TAAAGGAAAG AATGAGCCTC AAGCACCAGA ACAAGGGGAA GTGGGCCAGG 
TCCAGGGCCA TCATGGGCAA ATACGACCTG GAGGCCCGCA GGGCTATGCA GGAGCAGCTA 
GCCAAGAACA AAGAGCTCAC ACAGAAGGTG TGCATGGAGC TGGAGGGTGA CAAGGAAGTC 
TGTGTGGCTG AGGAAGGCCT CCTCCCTGAT TCCCTCAACG AGGTGCAGCC TAGCAGAAAT 
GTAGCTAACC CCTGGATGCT GGGCAAACTC AGCAGTGAAA CAAAGGACTC CGGGATCCAG 
GAGGACCTCA AAGCCCCTGC AGATTTAAAG GAGCCTGAGA GCGAGGGAGA GGAAGAGCCA 
GTGCTGTCAG AAGAGGAGGC CCTGCTGCAA GATTTTGAGC AGAGACGGTG GGTGCGGCAC 
TGCCAGAAAG GGAGCCCAGA GCCGCAGGGA GCTAGCAGAG ACGAGGAGTT GCCTGAATCT 
GTGAGCCCCA GCCAGGCTGC AGGGCAAATA AACATGGAAG ATGAACAGAA GCAGGAGGAG 
CCCTTGCTTT CAGAGCAGCT TGGCCGGCTG TGTGCTATGG AGGAGATGGA TGTCCTGGCC 
TCAGAAGATT GGGCAGAAGA GCAGGAGCCG CAACAGCCTG CGAGGACTGA GCAGCAGAAA 
CCACACCAGG ACACAGCAGT GGCAGAGGAC AGACCTAGAG GCAGTCAAAC AACAAGGAAA 
ACAGCCAAGC AGAAGATGAT TGACCTGCAG GCTGTCCTTG CAGGGGAATC CTGTATGATC 
CACTGCCCCA CCCTGCCTGT TGCTGTGCAG GATGAGGGAG GAGGTACAGA CCAGAGGCTG 
GTCATCAAGG AGGCCTTTGC AGCAGATGAT GTTGTTGCTG ACTTCCTGAA AGAAAAGAAC 
AAGGTGGAGC AGGAAGGGAA GTCCCAGACT GTGGACCTGT TGCTGCCTGG CTGGGGTGAG 
TGGAGTGGCA CAGGACTCAA ACCCAGCGCC AAAAAAAGGA AGAGGTTCCT CATCAAGCAG 
CCACCTGGGC CCCCCAGGAA AGATCGACAC CTGCCTCATG TCATCATCAG CCAAAAGCGC 
AACATCTTAG CTGCAACACA CCAGGTCAAT GAACTCCCGT TCCCCTTTGA CAGCCACCAC 
CAGTTTGAGC GGAGCATTCA GGCACCAATA GGGCCCATGT GGAACACACA GCATGCCTTC 
CAGAAGCTGA CAGCCCCACA CCTCATCACC CAGCCAGGCC ACATCATCCA GCCCATCTCC 
AATGAGGATG TTGCCTCTCA GAGCACCACG TCCACTCACA AAGCCAAGCC TGCAATGGAG 
CTGACACCCC AGCAAGCCAA ACGCCTCCAC CAGCACCCTC GCAAGAAAGT TCGATAA

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

UTP14A ( XM_025208752.1 ) cDNA ORF clone, Alligator sinensis(Chinese alligator) -> XP_025064537.1 Alligator sinensis UTP14A, small subunit processome component (UTP14A), mRNA.

Price & Availability↑

CloneID	OAl90017
Clone ID Related Accession (Same CDS sequence)	XM_025208752.1
Accession Version	XM_025208752.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2544bp) 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	U3 small nucleolar RNA-associated protein 14 homolog A
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005842250.1) 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## ##RefSeq-Attributes-START## ab initio :: 15% of CDS bases ##RefSeq-Attributes-END##

ATGAGCAGTG CGATCAGCAA CCTATTTACC AGCACCCTGC TGCTCATGTT GGTGTACAGT 
GTCTTTATCC AGGTGATGAA GGGGGCTTAT GATGTGGAGA GGAGACATCG TCAGCTCTTG 
GAGGCAGTTA GCTCCCTGGC TGGCAGGAAC CGGCGGAAGC TGACTGAGCG CACTGAGGCG 
AGTGCACAGG TGTCTGAGTT TGGTGTCAGC TGTGAAGGTG CTGGGGAGAA ACTGATCTTG 
TCTGACCTAC TGGGGCCTAT CAAGGCCTCA TCTTTGCTGG GCACTGTGAA GAAGCAACTG 
AACAGAGTCA AGCAGAAGAA AGCTGTGGAG CTGCCCCTCA GCAAAAGGGA GGCACAGCGG 
GTGACCTCAG TTCTGGCTGC ACTAACCACA TTTCCTTCTG TGCACCAGGG GGCTTATGAT 
GTGGAGAGGA GACATCGTCA GCTCTTGGAG GCAGTTAGCT CCCTGGCTGG CAGGAACCGG 
CGGAAGCTGA CTGAGCGCAC TGAGGCGAGT GCACAGGTGT CTGAGTTTGG TGTCAGCTGT 
GAAGGTGCTG GGGAGAAACT GATCTTGTCT GACCTACTGG GGCCTATCAA GGCCTCATCT 
TTGCTGGGCA CTGTGAAGAA GCAACTGAAC AGAGTCAAGC AGAAGAAAGC TGTGGAGCTG 
CCCCTCAGCA AAAGGGAGGC ACAGCGGGTT GTGAGGGAGG CTGCCTATGA TAAAACCTCA 
AAGGCCATCA CCAAGTGGGA CCAAGTGGTT CTGCAGAACC GACGGGCAGA GCAGCTGGTT 
TTCCCCCTGA AGCAGGAACA ATTGACAGTT GCCTCCATTG AAGAGAGGGT GACTAGCTGG 
CAGGCACGGA CTCCACTGGA GCAGGAAATC TTCAGTTTGC TTCATAAGAC ACGGCAGTTG 
ACAACAGACC CGCTGCTGAC ACTGCAGGAA GAGGCCTCTT TGCAGGCCAT GAGTCTAGAA 
GAAGCCCAGC AGCGCCGTGC AGAGCTGCAG AAAGCACGGG CTCTGCAGTC CTACTATGAA 
GCCAAGGCAC GACGGGAGAA GAAGATCAAA AGCAAGAAGT TCCACCGAGT GCTGCAGAAG 
AACAAGCGGC GGGAGGCTCT AAAGGAGTTT GAGGCACTTA AGAAATCCAA CCCTGAAGCT 
GCCTTGTTGA AGCTGGATGA GATGGAGAAA GCTAGGATAA AGGAAAGAAT GAGCCTCAAG 
CACCAGAACA AGGGGAAGTG GGCCAGGTCC AGGGCCATCA TGGGCAAATA CGACCTGGAG 
GCCCGCAGGG CTATGCAGGA GCAGCTAGCC AAGAACAAAG AGCTCACACA GAAGGTGTGC 
ATGGAGCTGG AGGGTGACAA GGAAGTCTGT GTGGCTGAGG AAGGCCTCCT CCCTGATTCC 
CTCAACGAGG TGCAGCCTAG CAGAAATGTA GCTAACCCCT GGATGCTGGG CAAACTCAGC 
AGTGAAACAA AGGACTCCGG GATCCAGGAG GACCTCAAAG CCCCTGCAGA TTTAAAGGAG 
CCTGAGAGCG AGGGAGAGGA AGAGCCAGTG CTGTCAGAAG AGGAGGCCCT GCTGCAAGAT 
TTTGAGCAGA GACGGTGGGT GCGGCACTGC CAGAAAGGGA GCCCAGAGCC GCAGGGAGCT 
AGCAGAGACG AGGAGTTGCC TGAATCTGTG AGCCCCAGCC AGGCTGCAGG GCAAATAAAC 
ATGGAAGATG AACAGAAGCA GGAGGAGCCC TTGCTTTCAG AGCAGCTTGG CCGGCTGTGT 
GCTATGGAGG AGATGGATGT CCTGGCCTCA GAAGATTGGG CAGAAGAGCA GGAGCCGCAA 
CAGCCTGCGA GGACTGAGCA GCAGAAACCA CACCAGGACA CAGCAGTGGC AGAGGACAGA 
CCTAGAGGCA GTCAAACAAC AAGGAAAACA GCCAAGCAGA AGATGATTGA CCTGCAGGCT 
GTCCTTGCAG GGGAATCCTG TATGATCCAC TGCCCCACCC TGCCTGTTGC TGTGCAGGAT 
GAGGGAGGAG GTACAGACCA GAGGCTGGTC ATCAAGGAGG CCTTTGCAGC AGATGATGTT 
GTTGCTGACT TCCTGAAAGA AAAGAACAAG GTGGAGCAGG AAGGGAAGTC CCAGACTGTG 
GACCTGTTGC TGCCTGGCTG GGGTGAGTGG AGTGGCACAG GACTCAAACC CAGCGCCAAA 
AAAAGGAAGA GGTTCCTCAT CAAGCAGCCA CCTGGGCCCC CCAGGAAAGA TCGACACCTG 
CCTCATGTCA TCATCAGCCA AAAGCGCAAC ATCTTAGCTG CAACACACCA GGTCAATGAA 
CTCCCGTTCC CCTTTGACAG CCACCACCAG TTTGAGCGGA GCATTCAGGC ACCAATAGGG 
CCCATGTGGA ACACACAGCA TGCCTTCCAG AAGCTGACAG CCCCACACCT CATCACCCAG 
CCAGGCCACA TCATCCAGCC CATCTCCAAT GAGGATGTTG CCTCTCAGAG CACCACGTCC 
ACTCACAAAG CCAAGCCTGC AATGGAGCTG ACACCCCAGC AAGCCAAACG CCTCCACCAG 
CACCCTCGCA AGAAAGTTCG ATAA

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

RefSeq	XP_025064537.1
CDS	1..2544
Translation	MSSAISNLFTSTLLLMLVYSVFIQVMKGAYDVERRHRQLLEAVSSLAGRNRRKLTERTEASAQVSEFGVSCEGAGEKLILSDLLGPIKASSLLGTVKKQLNRVKQKKAVELPLSKREAQRVTSVLAALTTFPSVHQGAYDVERRHRQLLEAVSSLAGRNRRKLTERTEASAQVSEFGVSCEGAGEKLILSDLLGPIKASSLLGTVKKQLNRVKQKKAVELPLSKREAQRVVREAAYDKTSKAITKWDQVVLQNRRAEQLVFPLKQEQLTVASIEERVTSWQARTPLEQEIFSLLHKTRQLTTDPLLTLQEEASLQAMSLEEAQQRRAELQKARALQSYYEAKARREKKIKSKKFHRVLQKNKRREALKEFEALKKSNPEAALLKLDEMEKARIKERMSLKHQNKGKWARSRAIMGKYDLEARRAMQEQLAKNKELTQKVCMELEGDKEVCVAEEGLLPDSLNEVQPSRNVANPWMLGKLSSETKDSGIQEDLKAPADLKEPESEGEEEPVLSEEEALLQDFEQRRWVRHCQKGSPEPQGASRDEELPESVSPSQAAGQINMEDEQKQEEPLLSEQLGRLCAMEEMDVLASEDWAEEQEPQQPARTEQQKPHQDTAVAEDRPRGSQTTRKTAKQKMIDLQAVLAGESCMIHCPTLPVAVQDEGGGTDQRLVIKEAFAADDVVADFLKEKNKVEQEGKSQTVDLLLPGWGEWSGTGLKPSAKKRKRFLIKQPPGPPRKDRHLPHVIISQKRNILAATHQVNELPFPFDSHHQFERSIQAPIGPMWNTQHAFQKLTAPHLITQPGHIIQPISNEDVASQSTTSTHKAKPAMELTPQQAKRLHQHPRKKVR

Target ORF information:

RefSeq Version	XM_025208752.1
Organism	Alligator sinensis(Chinese alligator)
Definition	Alligator sinensis UTP14A, small subunit processome component (UTP14A), mRNA.

Target ORF information:

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

XM_025208752.1

ORF Insert Sequence:

ATGAGCAGTG CGATCAGCAA CCTATTTACC AGCACCCTGC TGCTCATGTT GGTGTACAGT 
GTCTTTATCC AGGTGATGAA GGGGGCTTAT GATGTGGAGA GGAGACATCG TCAGCTCTTG 
GAGGCAGTTA GCTCCCTGGC TGGCAGGAAC CGGCGGAAGC TGACTGAGCG CACTGAGGCG 
AGTGCACAGG TGTCTGAGTT TGGTGTCAGC TGTGAAGGTG CTGGGGAGAA ACTGATCTTG 
TCTGACCTAC TGGGGCCTAT CAAGGCCTCA TCTTTGCTGG GCACTGTGAA GAAGCAACTG 
AACAGAGTCA AGCAGAAGAA AGCTGTGGAG CTGCCCCTCA GCAAAAGGGA GGCACAGCGG 
GTGACCTCAG TTCTGGCTGC ACTAACCACA TTTCCTTCTG TGCACCAGGG GGCTTATGAT 
GTGGAGAGGA GACATCGTCA GCTCTTGGAG GCAGTTAGCT CCCTGGCTGG CAGGAACCGG 
CGGAAGCTGA CTGAGCGCAC TGAGGCGAGT GCACAGGTGT CTGAGTTTGG TGTCAGCTGT 
GAAGGTGCTG GGGAGAAACT GATCTTGTCT GACCTACTGG GGCCTATCAA GGCCTCATCT 
TTGCTGGGCA CTGTGAAGAA GCAACTGAAC AGAGTCAAGC AGAAGAAAGC TGTGGAGCTG 
CCCCTCAGCA AAAGGGAGGC ACAGCGGGTT GTGAGGGAGG CTGCCTATGA TAAAACCTCA 
AAGGCCATCA CCAAGTGGGA CCAAGTGGTT CTGCAGAACC GACGGGCAGA GCAGCTGGTT 
TTCCCCCTGA AGCAGGAACA ATTGACAGTT GCCTCCATTG AAGAGAGGGT GACTAGCTGG 
CAGGCACGGA CTCCACTGGA GCAGGAAATC TTCAGTTTGC TTCATAAGAC ACGGCAGTTG 
ACAACAGACC CGCTGCTGAC ACTGCAGGAA GAGGCCTCTT TGCAGGCCAT GAGTCTAGAA 
GAAGCCCAGC AGCGCCGTGC AGAGCTGCAG AAAGCACGGG CTCTGCAGTC CTACTATGAA 
GCCAAGGCAC GACGGGAGAA GAAGATCAAA AGCAAGAAGT TCCACCGAGT GCTGCAGAAG 
AACAAGCGGC GGGAGGCTCT AAAGGAGTTT GAGGCACTTA AGAAATCCAA CCCTGAAGCT 
GCCTTGTTGA AGCTGGATGA GATGGAGAAA GCTAGGATAA AGGAAAGAAT GAGCCTCAAG 
CACCAGAACA AGGGGAAGTG GGCCAGGTCC AGGGCCATCA TGGGCAAATA CGACCTGGAG 
GCCCGCAGGG CTATGCAGGA GCAGCTAGCC AAGAACAAAG AGCTCACACA GAAGGTGTGC 
ATGGAGCTGG AGGGTGACAA GGAAGTCTGT GTGGCTGAGG AAGGCCTCCT CCCTGATTCC 
CTCAACGAGG TGCAGCCTAG CAGAAATGTA GCTAACCCCT GGATGCTGGG CAAACTCAGC 
AGTGAAACAA AGGACTCCGG GATCCAGGAG GACCTCAAAG CCCCTGCAGA TTTAAAGGAG 
CCTGAGAGCG AGGGAGAGGA AGAGCCAGTG CTGTCAGAAG AGGAGGCCCT GCTGCAAGAT 
TTTGAGCAGA GACGGTGGGT GCGGCACTGC CAGAAAGGGA GCCCAGAGCC GCAGGGAGCT 
AGCAGAGACG AGGAGTTGCC TGAATCTGTG AGCCCCAGCC AGGCTGCAGG GCAAATAAAC 
ATGGAAGATG AACAGAAGCA GGAGGAGCCC TTGCTTTCAG AGCAGCTTGG CCGGCTGTGT 
GCTATGGAGG AGATGGATGT CCTGGCCTCA GAAGATTGGG CAGAAGAGCA GGAGCCGCAA 
CAGCCTGCGA GGACTGAGCA GCAGAAACCA CACCAGGACA CAGCAGTGGC AGAGGACAGA 
CCTAGAGGCA GTCAAACAAC AAGGAAAACA GCCAAGCAGA AGATGATTGA CCTGCAGGCT 
GTCCTTGCAG GGGAATCCTG TATGATCCAC TGCCCCACCC TGCCTGTTGC TGTGCAGGAT 
GAGGGAGGAG GTACAGACCA GAGGCTGGTC ATCAAGGAGG CCTTTGCAGC AGATGATGTT 
GTTGCTGACT TCCTGAAAGA AAAGAACAAG GTGGAGCAGG AAGGGAAGTC CCAGACTGTG 
GACCTGTTGC TGCCTGGCTG GGGTGAGTGG AGTGGCACAG GACTCAAACC CAGCGCCAAA 
AAAAGGAAGA GGTTCCTCAT CAAGCAGCCA CCTGGGCCCC CCAGGAAAGA TCGACACCTG 
CCTCATGTCA TCATCAGCCA AAAGCGCAAC ATCTTAGCTG CAACACACCA GGTCAATGAA 
CTCCCGTTCC CCTTTGACAG CCACCACCAG TTTGAGCGGA GCATTCAGGC ACCAATAGGG 
CCCATGTGGA ACACACAGCA TGCCTTCCAG AAGCTGACAG CCCCACACCT CATCACCCAG 
CCAGGCCACA TCATCCAGCC CATCTCCAAT GAGGATGTTG CCTCTCAGAG CACCACGTCC 
ACTCACAAAG CCAAGCCTGC AATGGAGCTG ACACCCCAGC AAGCCAAACG CCTCCACCAG 
CACCCTCGCA AGAAAGTTCG ATAA