UTP14A cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	UTP14A
Entrez Gene ID	100223721
Full Name	UTP14A, small subunit processome component
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012573057.1	XP_012428511.1	U3 small nucleolar RNA-associated protein 14 homolog A
XM_030272761.1	XP_030128621.1	U3 small nucleolar RNA-associated protein 14 homolog A isoform X1
XM_030272762.1	XP_030128622.1	U3 small nucleolar RNA-associated protein 14 homolog A isoform X2

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)
OTd16700	XM_012573057.1 Latest version!	Taeniopygia guttata UTP14, U3 small nucleolar ribonucleoprotein, homolog A (yeast) (UTP14A), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd45756	XM_030272761.1 Latest version!	Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
OTd45757	XM_030272762.1 Latest version!	Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00

ORF Online Only Promotion

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_012573057.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012428511.1 Taeniopygia guttata UTP14, U3 small nucleolar ribonucleoprotein, homolog A (yeast) (UTP14A), mRNA.

Price & Availability↑

CloneID	OTd16700
Clone ID Related Accession (Same CDS sequence)	XM_012573057.1
Accession Version	XM_012573057.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2745bp) 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	1432483200000
Organism	Taeniopygia guttata(zebra finch)
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_002198595.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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##

ATGGCGGGGC CGTCACTGGG GCGGCGGCGG CCGCCGCACG TTCGGGCGCT GCTGCTGCTG 
CTGCTGCTGC TGCTCCGCCG CCCGAGCGCC CAGCATCATC GGGGCCCCGC GGGGCCGAGC 
TGGGCTGGGC TGGGCCGGCG GCTGCGGGAG AGGGAACGGG GAGAGCGCTC GGTCAGCACC 
AGGGCGGCGG CGGCACCGGC ACGGGGGGCG GCGGCCGCCG TCGCCATGGA AACCCCGCGC 
CCGGGAGGGG CGTTGCCGTG GGAATCCACC CGGGAGGGGG CGCGGGGCGC GGCCAGGAAG 
ACCCTCGGGT GGGCGGCTCC GCACCGGGAG GGGACGCGGC AGGGCCGGGC CACACAGGGC 
ACGGCAGCCC CGGCTCTGCG GGCGTGCCGG GAGGTGGCGA GGAGAGCGCG GATGGGAAGG 
GTGCTGGGGA AAAAGTGGTT TCTGTCCGAG CTGCTGCAGC CCATTCATCC CAAATACACG 
CTGGGCAGTG TGAGGAAGGA GCTGGCCAGA GTGAAGCAGA AGGCGGCGGT GGAGCTGCCA 
CTGAGCAAAG AGGAGGCCAA GAGGGTGGTG AGGGAGGCAG CCTACGTGAC CAGCTCGAAG 
GAGGTGGGGA AGTGGCAGCA GGTGGTGCTG CAGAACCGGC GCGCGGAGCA GCTGGTGTTC 
CCCCTGCGGC AGGACATCGC CACCGTCACG CCTCTGGAGA GGGTCACCTC GGCGTGGAAG 
GCCCGAACTC CACTGGAGCA GGAGATCTTT GGATTGCTCC ACAAGACACA GCAGCCCATC 
ACAGACCCGC TGCTGACACC GGAGGAGATG GCCTCAGTGC AGGCCATGAG CTTGGAGGAG 
GCCCGGCGCC GGCGGGCGGA GCTGCAGAAG GCCCGGGCAG TGCAGTCCTA CTACGAGGCG 
AAGGCTCGGC GAGCGAAGCG GATCAAGAGC AAGAAGTACC ACCGCGTGCT GAAGAAGAGC 
CGGAGGCGCC AGGCCCTGAA GGAGTTCGAG CAGCTGCACA AGTCGGACCC TGCGGCTGCC 
TTGGAGCAGC TGGAGGAGCT GGAGCAGCTC AGGATGCAGG AGCGGATGAG CCTTAAGCAC 
CAGAACAAGG GAAAATGGGC CCGATCCAGA GCCATTATGG CTAAGTATGA CCTCGAGGCC 
CGCAAGGCCT TGCAGGAGCA GCTGGCCAGG AACAAGGAGC TGATGCAGAA GGTGCAGGTG 
GAGCCGCCCG AGGAGGAGCC GTGTGAGGTG CCTGAGGAGG ACACCACGGC CTTGCCCATG 
CCTAGCGGGG CTAATCCCTG GATGCTGGGC AAGCCCAGTG GCCTGGCCCC GGAGCCTGAG 
GCACAGGAGG GTCCAAGAGA TGACACAGTG CCTGGTGCTG TGGAGAGCAA GGATGAGATG 
GAGGAGGAGG AGGAGGAAGA GCTGTCAGAG GAAGAAGCTC TGCTGCAAGA CTTTGAGCAG 
AAGCGTCAGC AGCGGACAGG GAACCCTGAG GGGCACAGCA AGGACCATGG TGCTGATGAG 
ACTGAGACTG GTGCTGAGCA GCCCAGGGAC AGTCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGACTGTG CCGAGGAGCT GGGGGACAGC CCAGTACCCC CAGTCTGTGC TGAGGAGCCG 
GTGAGTGCAG GGCTGGAGCC TCCCCCTCAG GCCCAGGAGG AGCTCCTGCT CTCGGAGCAG 
CTACGCCATG TGAAGACCAT GGAGGATATG GAGAGTCTGG CCAAGGAGGA GCTTGTGGAA 
GAGCAGGAGA AGCTGGTAGC CCTGGAACCA GGGAAGCGAG CACGGCAGCA GGAGAAAGCC 
AGTATGTCTG TCACCAGAAC TGGGGACAGA CATACCAAGA AAGCAGCAGC CAAGAGGAAG 
ATGATCAGCC TGGAGGCTGT GCTGGATGGG AAGCCCCAGG AGATGGACTG CTCCAGCCTG 
CCTGTGGTCC TGGAGGAGGA GGAGGGTGGC ATCGAGCAGC GCGGGATGAT CACGGAAGCC 
TTTGCTGGGG ACGATGTGGT CGCTGACTTC CGCCGGGAGA AGCGCAAGGC AGAGGAGGCG 
CTGAAGCCGC AGCCGGTGAA CCTGGTGCTG CCAGGCTGGG GCGAGTGGGG TGGCACAGGC 
CTGAAACCCA GTGCCAAGAA GGTCAAGAGG TTCCTGATCA AGGCGCCGCC GGCGCCTCCG 
CGGAAGGACC AGCACCTGCC CCACGTCATC ATGAGCGAGA AGCGCAACAT CCACGCGGCA 
GCGCATCAGG TCAGCGAGCT GCCCTTCCCC TTTGAGCGGC ACCAGCAGTT CGAGCAGAGC 
ATGCGGACGC CCCTGGGCCC CACGTGGAAC ACTCAGCGTG CCTTCCAGAA GCTCACAGCC 
CCTCGAGTCA TCACCCGTGC CGGCCACATC ATCCAGCCTA TCTCAGCTGA GGATGTCCCT 
GACACGGCCC CTGGCAGCGG GGCCAGGCTT GAGGGAGAGG CCATGCCTGG GAGGAAGGCT 
GTGCCCAGGG GCAAGGCTGT GCCCAGGGGG AAGGCTGTGC CCAAGGGAAA GGCTGTGCCC 
AGGGGGAAGG CTGTGCCCAA GGGGAAGGCT GTGCCCGGGG GGAAGGCTGT GCCCAGGGGC 
AAGGCTGTGC CCAGGGGAAA GGCTGTGCCC GGGGGGAAGG CTGTGCCCAG TGGGAGGACT 
GTTCCTGGGC AGAAGGCACA GCCTCAGAAC CGCGGAGCAC GGTAG

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

RefSeq	XP_012428511.1
CDS	1..2745
Translation	MAGPSLGRRRPPHVRALLLLLLLLLRRPSAQHHRGPAGPSWAGLGRRLRERERGERSVSTRAAAAPARGAAAAVAMETPRPGGALPWESTREGARGAARKTLGWAAPHREGTRQGRATQGTAAPALRACREVARRARMGRVLGKKWFLSELLQPIHPKYTLGSVRKELARVKQKAAVELPLSKEEAKRVVREAAYVTSSKEVGKWQQVVLQNRRAEQLVFPLRQDIATVTPLERVTSAWKARTPLEQEIFGLLHKTQQPITDPLLTPEEMASVQAMSLEEARRRRAELQKARAVQSYYEAKARRAKRIKSKKYHRVLKKSRRRQALKEFEQLHKSDPAAALEQLEELEQLRMQERMSLKHQNKGKWARSRAIMAKYDLEARKALQEQLARNKELMQKVQVEPPEEEPCEVPEEDTTALPMPSGANPWMLGKPSGLAPEPEAQEGPRDDTVPGAVESKDEMEEEEEEELSEEEALLQDFEQKRQQRTGNPEGHSKDHGADETETGAEQPRDSPVPPDCAEELGDSPVPPDCAEELRDSPVPPDCAEELGDSPVPPVCAEEPVSAGLEPPPQAQEELLLSEQLRHVKTMEDMESLAKEELVEEQEKLVALEPGKRARQQEKASMSVTRTGDRHTKKAAAKRKMISLEAVLDGKPQEMDCSSLPVVLEEEEGGIEQRGMITEAFAGDDVVADFRREKRKAEEALKPQPVNLVLPGWGEWGGTGLKPSAKKVKRFLIKAPPAPPRKDQHLPHVIMSEKRNIHAAAHQVSELPFPFERHQQFEQSMRTPLGPTWNTQRAFQKLTAPRVITRAGHIIQPISAEDVPDTAPGSGARLEGEAMPGRKAVPRGKAVPRGKAVPKGKAVPRGKAVPKGKAVPGGKAVPRGKAVPRGKAVPGGKAVPSGRTVPGQKAQPQNRGAR

Target ORF information:

RefSeq Version	XM_012573057.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata UTP14, U3 small nucleolar ribonucleoprotein, homolog A (yeast) (UTP14A), mRNA.

Target ORF information:

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

XM_012573057.1

ORF Insert Sequence:

ATGGCGGGGC CGTCACTGGG GCGGCGGCGG CCGCCGCACG TTCGGGCGCT GCTGCTGCTG 
CTGCTGCTGC TGCTCCGCCG CCCGAGCGCC CAGCATCATC GGGGCCCCGC GGGGCCGAGC 
TGGGCTGGGC TGGGCCGGCG GCTGCGGGAG AGGGAACGGG GAGAGCGCTC GGTCAGCACC 
AGGGCGGCGG CGGCACCGGC ACGGGGGGCG GCGGCCGCCG TCGCCATGGA AACCCCGCGC 
CCGGGAGGGG CGTTGCCGTG GGAATCCACC CGGGAGGGGG CGCGGGGCGC GGCCAGGAAG 
ACCCTCGGGT GGGCGGCTCC GCACCGGGAG GGGACGCGGC AGGGCCGGGC CACACAGGGC 
ACGGCAGCCC CGGCTCTGCG GGCGTGCCGG GAGGTGGCGA GGAGAGCGCG GATGGGAAGG 
GTGCTGGGGA AAAAGTGGTT TCTGTCCGAG CTGCTGCAGC CCATTCATCC CAAATACACG 
CTGGGCAGTG TGAGGAAGGA GCTGGCCAGA GTGAAGCAGA AGGCGGCGGT GGAGCTGCCA 
CTGAGCAAAG AGGAGGCCAA GAGGGTGGTG AGGGAGGCAG CCTACGTGAC CAGCTCGAAG 
GAGGTGGGGA AGTGGCAGCA GGTGGTGCTG CAGAACCGGC GCGCGGAGCA GCTGGTGTTC 
CCCCTGCGGC AGGACATCGC CACCGTCACG CCTCTGGAGA GGGTCACCTC GGCGTGGAAG 
GCCCGAACTC CACTGGAGCA GGAGATCTTT GGATTGCTCC ACAAGACACA GCAGCCCATC 
ACAGACCCGC TGCTGACACC GGAGGAGATG GCCTCAGTGC AGGCCATGAG CTTGGAGGAG 
GCCCGGCGCC GGCGGGCGGA GCTGCAGAAG GCCCGGGCAG TGCAGTCCTA CTACGAGGCG 
AAGGCTCGGC GAGCGAAGCG GATCAAGAGC AAGAAGTACC ACCGCGTGCT GAAGAAGAGC 
CGGAGGCGCC AGGCCCTGAA GGAGTTCGAG CAGCTGCACA AGTCGGACCC TGCGGCTGCC 
TTGGAGCAGC TGGAGGAGCT GGAGCAGCTC AGGATGCAGG AGCGGATGAG CCTTAAGCAC 
CAGAACAAGG GAAAATGGGC CCGATCCAGA GCCATTATGG CTAAGTATGA CCTCGAGGCC 
CGCAAGGCCT TGCAGGAGCA GCTGGCCAGG AACAAGGAGC TGATGCAGAA GGTGCAGGTG 
GAGCCGCCCG AGGAGGAGCC GTGTGAGGTG CCTGAGGAGG ACACCACGGC CTTGCCCATG 
CCTAGCGGGG CTAATCCCTG GATGCTGGGC AAGCCCAGTG GCCTGGCCCC GGAGCCTGAG 
GCACAGGAGG GTCCAAGAGA TGACACAGTG CCTGGTGCTG TGGAGAGCAA GGATGAGATG 
GAGGAGGAGG AGGAGGAAGA GCTGTCAGAG GAAGAAGCTC TGCTGCAAGA CTTTGAGCAG 
AAGCGTCAGC AGCGGACAGG GAACCCTGAG GGGCACAGCA AGGACCATGG TGCTGATGAG 
ACTGAGACTG GTGCTGAGCA GCCCAGGGAC AGTCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGACTGTG CCGAGGAGCT GGGGGACAGC CCAGTACCCC CAGTCTGTGC TGAGGAGCCG 
GTGAGTGCAG GGCTGGAGCC TCCCCCTCAG GCCCAGGAGG AGCTCCTGCT CTCGGAGCAG 
CTACGCCATG TGAAGACCAT GGAGGATATG GAGAGTCTGG CCAAGGAGGA GCTTGTGGAA 
GAGCAGGAGA AGCTGGTAGC CCTGGAACCA GGGAAGCGAG CACGGCAGCA GGAGAAAGCC 
AGTATGTCTG TCACCAGAAC TGGGGACAGA CATACCAAGA AAGCAGCAGC CAAGAGGAAG 
ATGATCAGCC TGGAGGCTGT GCTGGATGGG AAGCCCCAGG AGATGGACTG CTCCAGCCTG 
CCTGTGGTCC TGGAGGAGGA GGAGGGTGGC ATCGAGCAGC GCGGGATGAT CACGGAAGCC 
TTTGCTGGGG ACGATGTGGT CGCTGACTTC CGCCGGGAGA AGCGCAAGGC AGAGGAGGCG 
CTGAAGCCGC AGCCGGTGAA CCTGGTGCTG CCAGGCTGGG GCGAGTGGGG TGGCACAGGC 
CTGAAACCCA GTGCCAAGAA GGTCAAGAGG TTCCTGATCA AGGCGCCGCC GGCGCCTCCG 
CGGAAGGACC AGCACCTGCC CCACGTCATC ATGAGCGAGA AGCGCAACAT CCACGCGGCA 
GCGCATCAGG TCAGCGAGCT GCCCTTCCCC TTTGAGCGGC ACCAGCAGTT CGAGCAGAGC 
ATGCGGACGC CCCTGGGCCC CACGTGGAAC ACTCAGCGTG CCTTCCAGAA GCTCACAGCC 
CCTCGAGTCA TCACCCGTGC CGGCCACATC ATCCAGCCTA TCTCAGCTGA GGATGTCCCT 
GACACGGCCC CTGGCAGCGG GGCCAGGCTT GAGGGAGAGG CCATGCCTGG GAGGAAGGCT 
GTGCCCAGGG GCAAGGCTGT GCCCAGGGGG AAGGCTGTGC CCAAGGGAAA GGCTGTGCCC 
AGGGGGAAGG CTGTGCCCAA GGGGAAGGCT GTGCCCGGGG GGAAGGCTGT GCCCAGGGGC 
AAGGCTGTGC CCAGGGGAAA GGCTGTGCCC GGGGGGAAGG CTGTGCCCAG TGGGAGGACT 
GTTCCTGGGC AGAAGGCACA GCCTCAGAAC CGCGGAGCAC GGTAG

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

UTP14A ( XM_030272761.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030128621.1 Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd45756
Clone ID Related Accession (Same CDS sequence)	XM_030272761.1
Accession Version	XM_030272761.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2592bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	U3 small nucleolar RNA-associated protein 14 homolog A isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044216.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAACCC GCACGTCACG GCGGCGCGCT TTGCGGCAGG GCGCCGGGGC TCGGCGCGAC 
ACTCGGTGGC GCTTTGCGGC AGTACCGGCG TGCGCGGCCA TGGCGGAGCA GGAGGCGGCG 
GCGGCGGCGG GGAGCGGCAG CGACAGCGAG GAGGGGGAGG ATGGCGAGCG GCGGCACCGG 
CAGCTCCTGG AGGCCATCAG CGCCTTGTCC GGACGGAAAC GGCGGAAGCT GGCGGAGCGC 
TCGGAGGCCA GCGGGCAGGT GTCCGAGTTC AATGTCAGCT GCAAAGGTGC TGGGGAAAAG 
CTGCTTCTGT CGGAGCTGCT GCAGCCCATT CATCCCAAAT CCACGCTGGG CAGTGTGAGG 
AAGGAGCTGG CCAGAGTGAA GCAGAAGGCG GCGGTGGAGC TGCCACTGAG CAAAGAGGAG 
GCCAAGAGGG TGGTGAGGGA GGCAGCCTAC GTGACCAGCT CGAAGGAGGT GGGGAAGTGG 
CAGCAGGTGG TGCTGCAGAA CCGGCGCGCG GAGCAGCTGG TGTTCCCCCT GCGGCAGGAC 
ATCGCCACCG TCACGCCTCT GGAGAGGGTC ACCTCGGCCT GGAAGGCCCG AACTCCACTG 
GAGCAGGAGA TCTTTGGATT GCTCCACAAG ACACAGCAGC CCATCACAGA CCCGCTGCTG 
ACACCGGAGG AGATGGCCTC AGTGCAGGCC ATGAGCTTGG AGGAGGCCCG GCGCCGGCGG 
GCGGAGCTGC AGAAGGCCCG GGCAGTGCAG TCCTACTACG AGGCGAAGGC TCGGCGAGCG 
AAGCGGATCA AGAGCAAGAA GTACCACCGC GTGCTGAAGA AGAGCCGGAG GCGCCAGGCC 
CTGAAGGAGT TCGAGCAGCT GCACAAGTCG GACCCTGCGG CTGCCTTGGA GCAGCTGGAG 
GAGCTGGAGC AGCTCAGGAT GCAGGAGCGG ATGAGCCTTA AGCACCAGAA CAAGGGAAAA 
TGGGCCCGAT CCAGAGCCAT TATGGCTAAG TATGACCTCG AGGCCCGCAA GGCCTTGCAG 
GAGCAGCTGG CCAGGAACAA GGAGCTGATG CAGAAGGTGC AGGTGGAGCC GCCCGAGGAG 
GAGCCGTGTG AGGTGCCTGA GGAGGACACC ACGGCCTTGC CCATGCCTAG CGGGGCTAAT 
CCCTGGATGC TGGGCAAGCC CAGTGGCCTG GCCCCGGAAC CTGAGGCACA GGAGGGTCCA 
AGAGATGACA CAGTGCCTGG TGCTGTGGAG AGCAAGGATG AGATGGAGGA GGAGGAGGAA 
GAGCTGTCAG AGGAAGAAGC TCTGCTGCAA GACTTTGAGC AGAAGCGTCA GCAGCGGACA 
GGGAACCCCG AGGGGCACAG CAAGGACCAT GGTGCTGATG AGACTGAGAC TGGTGCTGAG 
CAGCCCAGGG ACAGCCCAGT CGCCCCAGAC TGTGCCGAGG AACTGGGGGA CAGCCCAGTC 
CCCCCAGACT GTGCCGAGGA GCTGGGGGAC AGCCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGTCTGTG CTGAGGAGCT GGTGAGTGCA GGACTGGAGC CTCCCCCTCA GGCCCAGGAG 
GAGCTCCTGC TCTCGGAGCA GCTGCGCCAT GTGAAGACCA TGGAGGATAT GGAGAGTCTG 
GCCAAGGAGG AGCTTGTGGA AGAGCAGGAG AAGCTGGTAG CCCTGAGACC AGGGAAGCGA 
GCACGGCAGC AGGAGAAAGC CAGTGTGTCT GTCACCAGAA CTGGGGACAG ACATACCAAG 
AAAGCAGCAG CCAAGAGGAA GATGATCAGC CTGGAGGCTG TGCTGGATGG GAAGCCCCAG 
GAGATGGACT GCTCCAGCCT GCCTGTGGTC TTGGAGGAGG AGGAGGGTGG CATGGAGCAG 
CGCGGGATGA TCACGGAAGC CTTTGCTGGG GACGATGTGG TCGCTGACTT CCGCCGGGAG 
AAGCGCAAGG CAGAGGAGGC GGTGAAGCCG CAGCCAGTGA ACCTGGTGCT GCCAGGCTGG 
GGCGAGTGGG GTGGCACAGG CCTGAAACCC AGTGCCAAGA AGGTCAAGAG GTTCCTGATC 
AAGGCGCCGC CGGCGCCTCC GCGGAAGGAC CAGCACCTGC CCCACGTCAT CATCAGCGAG 
AAGCGTAACA TCCACGCGGC AGCGCATCAG GTCAGCGAGC TGCCCTTCCC CTTTGAGCGG 
CACCAGCAGT TCGAGCAGAG CATGCGGACG CCCCTGGGCC CCACGTGGAA CACTCAGCGT 
GCCTTCCAGA AGCTGACAGC CCCTCGAGTC ATCACCCGTG CTGGCCACAT CATCCAGCCT 
ATCTCAGCTG AGGATGTCCC TGACACGGCT CCTGGCAGCG GGGCCAGGCT TGAGGGAGAG 
GCCATGCCTG GGAGGAAGGC TGTGCCCAGG GGGAAGGCTG TGCCCAAGGG GAAGGCTGTG 
CCCAAGGGGA AGGCTGTGCC CAGGGGGAAG GCTGTGCCCG GGGGGAAGGC TGTGCCTGGG 
GGGAAGGCTG TGCCCAGTGG GAGGACTGTT CCTGGGCAGA AGGCACAGCC CCGGCACCGC 
AGAGCACGGT AG

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

RefSeq	XP_030128621.1
CDS	16..2607
Translation	MATRTSRRRALRQGAGARRDTRWRFAAVPACAAMAEQEAAAAAGSGSDSEEGEDGERRHRQLLEAISALSGRKRRKLAERSEASGQVSEFNVSCKGAGEKLLLSELLQPIHPKSTLGSVRKELARVKQKAAVELPLSKEEAKRVVREAAYVTSSKEVGKWQQVVLQNRRAEQLVFPLRQDIATVTPLERVTSAWKARTPLEQEIFGLLHKTQQPITDPLLTPEEMASVQAMSLEEARRRRAELQKARAVQSYYEAKARRAKRIKSKKYHRVLKKSRRRQALKEFEQLHKSDPAAALEQLEELEQLRMQERMSLKHQNKGKWARSRAIMAKYDLEARKALQEQLARNKELMQKVQVEPPEEEPCEVPEEDTTALPMPSGANPWMLGKPSGLAPEPEAQEGPRDDTVPGAVESKDEMEEEEEELSEEEALLQDFEQKRQQRTGNPEGHSKDHGADETETGAEQPRDSPVAPDCAEELGDSPVPPDCAEELGDSPVPPDCAEELGDSPVPPDCAEELRDSPVPPVCAEELVSAGLEPPPQAQEELLLSEQLRHVKTMEDMESLAKEELVEEQEKLVALRPGKRARQQEKASVSVTRTGDRHTKKAAAKRKMISLEAVLDGKPQEMDCSSLPVVLEEEEGGMEQRGMITEAFAGDDVVADFRREKRKAEEAVKPQPVNLVLPGWGEWGGTGLKPSAKKVKRFLIKAPPAPPRKDQHLPHVIISEKRNIHAAAHQVSELPFPFERHQQFEQSMRTPLGPTWNTQRAFQKLTAPRVITRAGHIIQPISAEDVPDTAPGSGARLEGEAMPGRKAVPRGKAVPKGKAVPKGKAVPRGKAVPGGKAVPGGKAVPSGRTVPGQKAQPRHRRAR

Target ORF information:

RefSeq Version	XM_030272761.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X1, mRNA.

Target ORF information:

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

XM_030272761.1

ORF Insert Sequence:

ATGGCAACCC GCACGTCACG GCGGCGCGCT TTGCGGCAGG GCGCCGGGGC TCGGCGCGAC 
ACTCGGTGGC GCTTTGCGGC AGTACCGGCG TGCGCGGCCA TGGCGGAGCA GGAGGCGGCG 
GCGGCGGCGG GGAGCGGCAG CGACAGCGAG GAGGGGGAGG ATGGCGAGCG GCGGCACCGG 
CAGCTCCTGG AGGCCATCAG CGCCTTGTCC GGACGGAAAC GGCGGAAGCT GGCGGAGCGC 
TCGGAGGCCA GCGGGCAGGT GTCCGAGTTC AATGTCAGCT GCAAAGGTGC TGGGGAAAAG 
CTGCTTCTGT CGGAGCTGCT GCAGCCCATT CATCCCAAAT CCACGCTGGG CAGTGTGAGG 
AAGGAGCTGG CCAGAGTGAA GCAGAAGGCG GCGGTGGAGC TGCCACTGAG CAAAGAGGAG 
GCCAAGAGGG TGGTGAGGGA GGCAGCCTAC GTGACCAGCT CGAAGGAGGT GGGGAAGTGG 
CAGCAGGTGG TGCTGCAGAA CCGGCGCGCG GAGCAGCTGG TGTTCCCCCT GCGGCAGGAC 
ATCGCCACCG TCACGCCTCT GGAGAGGGTC ACCTCGGCCT GGAAGGCCCG AACTCCACTG 
GAGCAGGAGA TCTTTGGATT GCTCCACAAG ACACAGCAGC CCATCACAGA CCCGCTGCTG 
ACACCGGAGG AGATGGCCTC AGTGCAGGCC ATGAGCTTGG AGGAGGCCCG GCGCCGGCGG 
GCGGAGCTGC AGAAGGCCCG GGCAGTGCAG TCCTACTACG AGGCGAAGGC TCGGCGAGCG 
AAGCGGATCA AGAGCAAGAA GTACCACCGC GTGCTGAAGA AGAGCCGGAG GCGCCAGGCC 
CTGAAGGAGT TCGAGCAGCT GCACAAGTCG GACCCTGCGG CTGCCTTGGA GCAGCTGGAG 
GAGCTGGAGC AGCTCAGGAT GCAGGAGCGG ATGAGCCTTA AGCACCAGAA CAAGGGAAAA 
TGGGCCCGAT CCAGAGCCAT TATGGCTAAG TATGACCTCG AGGCCCGCAA GGCCTTGCAG 
GAGCAGCTGG CCAGGAACAA GGAGCTGATG CAGAAGGTGC AGGTGGAGCC GCCCGAGGAG 
GAGCCGTGTG AGGTGCCTGA GGAGGACACC ACGGCCTTGC CCATGCCTAG CGGGGCTAAT 
CCCTGGATGC TGGGCAAGCC CAGTGGCCTG GCCCCGGAAC CTGAGGCACA GGAGGGTCCA 
AGAGATGACA CAGTGCCTGG TGCTGTGGAG AGCAAGGATG AGATGGAGGA GGAGGAGGAA 
GAGCTGTCAG AGGAAGAAGC TCTGCTGCAA GACTTTGAGC AGAAGCGTCA GCAGCGGACA 
GGGAACCCCG AGGGGCACAG CAAGGACCAT GGTGCTGATG AGACTGAGAC TGGTGCTGAG 
CAGCCCAGGG ACAGCCCAGT CGCCCCAGAC TGTGCCGAGG AACTGGGGGA CAGCCCAGTC 
CCCCCAGACT GTGCCGAGGA GCTGGGGGAC AGCCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGTCTGTG CTGAGGAGCT GGTGAGTGCA GGACTGGAGC CTCCCCCTCA GGCCCAGGAG 
GAGCTCCTGC TCTCGGAGCA GCTGCGCCAT GTGAAGACCA TGGAGGATAT GGAGAGTCTG 
GCCAAGGAGG AGCTTGTGGA AGAGCAGGAG AAGCTGGTAG CCCTGAGACC AGGGAAGCGA 
GCACGGCAGC AGGAGAAAGC CAGTGTGTCT GTCACCAGAA CTGGGGACAG ACATACCAAG 
AAAGCAGCAG CCAAGAGGAA GATGATCAGC CTGGAGGCTG TGCTGGATGG GAAGCCCCAG 
GAGATGGACT GCTCCAGCCT GCCTGTGGTC TTGGAGGAGG AGGAGGGTGG CATGGAGCAG 
CGCGGGATGA TCACGGAAGC CTTTGCTGGG GACGATGTGG TCGCTGACTT CCGCCGGGAG 
AAGCGCAAGG CAGAGGAGGC GGTGAAGCCG CAGCCAGTGA ACCTGGTGCT GCCAGGCTGG 
GGCGAGTGGG GTGGCACAGG CCTGAAACCC AGTGCCAAGA AGGTCAAGAG GTTCCTGATC 
AAGGCGCCGC CGGCGCCTCC GCGGAAGGAC CAGCACCTGC CCCACGTCAT CATCAGCGAG 
AAGCGTAACA TCCACGCGGC AGCGCATCAG GTCAGCGAGC TGCCCTTCCC CTTTGAGCGG 
CACCAGCAGT TCGAGCAGAG CATGCGGACG CCCCTGGGCC CCACGTGGAA CACTCAGCGT 
GCCTTCCAGA AGCTGACAGC CCCTCGAGTC ATCACCCGTG CTGGCCACAT CATCCAGCCT 
ATCTCAGCTG AGGATGTCCC TGACACGGCT CCTGGCAGCG GGGCCAGGCT TGAGGGAGAG 
GCCATGCCTG GGAGGAAGGC TGTGCCCAGG GGGAAGGCTG TGCCCAAGGG GAAGGCTGTG 
CCCAAGGGGA AGGCTGTGCC CAGGGGGAAG GCTGTGCCCG GGGGGAAGGC TGTGCCTGGG 
GGGAAGGCTG TGCCCAGTGG GAGGACTGTT CCTGGGCAGA AGGCACAGCC CCGGCACCGC 
AGAGCACGGT AG

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

UTP14A ( XM_030272762.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030128622.1 Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X2, mRNA.

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CloneID	OTd45757
Clone ID Related Accession (Same CDS sequence)	XM_030272762.1
Accession Version	XM_030272762.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2556bp) 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	1565193600000
Organism	Taeniopygia guttata(zebra finch)
Product	U3 small nucleolar RNA-associated protein 14 homolog A isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044216.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAACCC GCACGTCACG GCGGCGCGCT TTGCGGCAGG GCGCCGGGGC TCGGCGCGAC 
ACTCGGTGGC GCTTTGCGGC AGTACCGGCG TGCGCGGCCA TGGCGGAGCA GGAGGCGGCG 
GCGGCGGCGG GGAGCGGCAG CGACAGCGAG GAGGGGGAGG ATGGCGAGCG GCGGCACCGG 
CAGCTCCTGG AGGCCATCAG CGCCTTGTCC GGACGGAAAC GGCGGAAGCT GGCGGAGCGC 
TCGGAGGCCA GCGGGCAGGT GTCCGAGTTC AATGTCAGCT GCAAAGGTGC TGGGGAAAAG 
CTGCTTCTGT CGGAGCTGCT GCAGCCCATT CATCCCAAAT CCACGCTGGG CAGTGTGAGG 
AAGGAGCTGG CCAGAGTGAA GCAGAAGGCG GCGGTGGAGC TGCCACTGAG CAAAGAGGAG 
GCCAAGAGGG TGGTGAGGGA GGCAGCCTAC GTGACCAGCT CGAAGGAGGT GGGGAAGTGG 
CAGCAGGTGG TGCTGCAGAA CCGGCGCGCG GAGCAGCTGG TGTTCCCCCT GCGGCAGGAC 
ATCGCCACCG TCACGCCTCT GGAGAGGGTC ACCTCGGCCT GGAAGGCCCG AACTCCACTG 
GAGCAGGAGA TCTTTGGATT GCTCCACAAG ACACAGCAGC CCATCACAGA CCCGCTGCTG 
ACACCGGAGG AGATGGCCTC AGTGCAGGCC ATGAGCTTGG AGGAGGCCCG GCGCCGGCGG 
GCGGAGCTGC AGAAGGCCCG GGCAGTGCAG TCCTACTACG AGGCGAAGGC TCGGCGAGCG 
AAGCGGATCA AGAGCAAGAA GTACCACCGC GTGCTGAAGA AGAGCCGGAG GCGCCAGGCC 
CTGAAGGAGT TCGAGCAGCT GCACAAGTCG GACCCTGCGG CTGCCTTGGA GCAGCTGGAG 
GAGCTGGAGC AGCTCAGGAT GCAGGAGCGG ATGAGCCTTA AGCACCAGAA CAAGGGAAAA 
TGGGCCCGAT CCAGAGCCAT TATGGCTAAG TATGACCTCG AGGCCCGCAA GGCCTTGCAG 
GAGCAGCTGG CCAGGAACAA GGAGCTGATG CAGAAGGTGC AGGTGGAGCC GCCCGAGGAG 
GAGCCGTGTG AGGTGCCTGA GGAGGACACC ACGGCCTTGC CCATGCCTAG CGGGGCTAAT 
CCCTGGATGC TGGGCAAGCC CAGTGGCCTG GCCCCGGAAC CTGAGGCACA GGAGGGTCCA 
AGAGATGACA CAGTGCCTGG TGCTGTGGAG AGCAAGGATG AGATGGAGGA GGAGGAGGAA 
GAGCTGTCAG AGGAAGAAGC TCTGCTGCAA GACTTTGAGC AGAAGCGTCA GCAGCGGACA 
GGGAACCCCG AGGGGCACAG CAAGGACCAT GGTGCTGATG AGACTGAGAC TGGTGCTGAG 
CAGCCCAGGG ACAGCCCAGT CGCCCCAGAC TGTGCCGAGG AACTGGGGGA CAGCCCAGTC 
CCCCCAGACT GTGCCGAGGA GCTGGGGGAC AGCCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGTCTGTG CTGAGGAGCT GGTGAGTGCA GGACTGGAGC CTCCCCCTCA GGCCCAGGAG 
GAGCTCCTGC TCTCGGAGCA GCTGCGCCAT GTGAAGACCA TGGAGGATAT GGAGAGTCTG 
GCCAAGGAGG AGCTTGTGGA AGAGCAGGAG AAGCTGGTAG CCCTGAGACC AGGGAAGCGA 
GCACGGCAGC AGGAGAAAGC CAGTGTGTCT GTCACCAGAA CTGGGGACAG ACATACCAAG 
AAAGCAGCAG CCAAGAGGAA GATGATCAGC CTGGAGGCTG TGCTGGATGG GAAGCCCCAG 
GAGATGGACT GCTCCAGCCT GCCTGTGGTC TTGGAGGAGG AGGAGGGTGG CATGGAGCAG 
CGCGGGATGA TCACGGAAGC CTTTGCTGGG GACGATGTGG TCGCTGACTT CCGCCGGGAG 
AAGCGCAAGG CAGAGGAGGC GGTGAAGCCG CAGCCAGTGA ACCTGGTGCT GCCAGGCTGG 
GGCGAGTGGG GTGGCACAGG CCTGAAACCC AGTGCCAAGA AGGTCAAGAG GTTCCTGATC 
AAGGCGCCGC CGGCGCCTCC GCGGAAGGAC CAGCACCTGC CCCACGTCAT CATCAGCGAG 
AAGCGTAACA TCCACGCGGC AGCGCATCAG GTCAGCGAGC TGCCCTTCCC CTTTGAGCGG 
CACCAGCAGT TCGAGCAGAG CATGCGGACG CCCCTGGGCC CCACGTGGAA CACTCAGCGT 
GCCTTCCAGA AGCTGACAGC CCCTCGAGTC ATCACCCGTG CTGGCCACAT CATCCAGCCT 
ATCTCAGCTG AGGATGTCCC TGACACGGCT CCTGGCAGCG GGGCCAGGCT TGAGGGAGAG 
GCCATGCCTG GGAGGAAGGC TGTGCCCAAG GGGAAGGCTG TGCCCAGGGG GAAGGCTGTG 
CCCGGGGGGA AGGCTGTGCC TGGGGGGAAG GCTGTGCCCA GTGGGAGGAC TGTTCCTGGG 
CAGAAGGCAC AGCCCCGGCA CCGCAGAGCA CGGTAG

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

RefSeq	XP_030128622.1
CDS	16..2571
Translation	MATRTSRRRALRQGAGARRDTRWRFAAVPACAAMAEQEAAAAAGSGSDSEEGEDGERRHRQLLEAISALSGRKRRKLAERSEASGQVSEFNVSCKGAGEKLLLSELLQPIHPKSTLGSVRKELARVKQKAAVELPLSKEEAKRVVREAAYVTSSKEVGKWQQVVLQNRRAEQLVFPLRQDIATVTPLERVTSAWKARTPLEQEIFGLLHKTQQPITDPLLTPEEMASVQAMSLEEARRRRAELQKARAVQSYYEAKARRAKRIKSKKYHRVLKKSRRRQALKEFEQLHKSDPAAALEQLEELEQLRMQERMSLKHQNKGKWARSRAIMAKYDLEARKALQEQLARNKELMQKVQVEPPEEEPCEVPEEDTTALPMPSGANPWMLGKPSGLAPEPEAQEGPRDDTVPGAVESKDEMEEEEEELSEEEALLQDFEQKRQQRTGNPEGHSKDHGADETETGAEQPRDSPVAPDCAEELGDSPVPPDCAEELGDSPVPPDCAEELGDSPVPPDCAEELRDSPVPPVCAEELVSAGLEPPPQAQEELLLSEQLRHVKTMEDMESLAKEELVEEQEKLVALRPGKRARQQEKASVSVTRTGDRHTKKAAAKRKMISLEAVLDGKPQEMDCSSLPVVLEEEEGGMEQRGMITEAFAGDDVVADFRREKRKAEEAVKPQPVNLVLPGWGEWGGTGLKPSAKKVKRFLIKAPPAPPRKDQHLPHVIISEKRNIHAAAHQVSELPFPFERHQQFEQSMRTPLGPTWNTQRAFQKLTAPRVITRAGHIIQPISAEDVPDTAPGSGARLEGEAMPGRKAVPKGKAVPRGKAVPGGKAVPGGKAVPSGRTVPGQKAQPRHRRAR

Target ORF information:

RefSeq Version	XM_030272762.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata UTP14A small subunit processome component (UTP14A), transcript variant X2, mRNA.

Target ORF information:

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

XM_030272762.1

ORF Insert Sequence:

ATGGCAACCC GCACGTCACG GCGGCGCGCT TTGCGGCAGG GCGCCGGGGC TCGGCGCGAC 
ACTCGGTGGC GCTTTGCGGC AGTACCGGCG TGCGCGGCCA TGGCGGAGCA GGAGGCGGCG 
GCGGCGGCGG GGAGCGGCAG CGACAGCGAG GAGGGGGAGG ATGGCGAGCG GCGGCACCGG 
CAGCTCCTGG AGGCCATCAG CGCCTTGTCC GGACGGAAAC GGCGGAAGCT GGCGGAGCGC 
TCGGAGGCCA GCGGGCAGGT GTCCGAGTTC AATGTCAGCT GCAAAGGTGC TGGGGAAAAG 
CTGCTTCTGT CGGAGCTGCT GCAGCCCATT CATCCCAAAT CCACGCTGGG CAGTGTGAGG 
AAGGAGCTGG CCAGAGTGAA GCAGAAGGCG GCGGTGGAGC TGCCACTGAG CAAAGAGGAG 
GCCAAGAGGG TGGTGAGGGA GGCAGCCTAC GTGACCAGCT CGAAGGAGGT GGGGAAGTGG 
CAGCAGGTGG TGCTGCAGAA CCGGCGCGCG GAGCAGCTGG TGTTCCCCCT GCGGCAGGAC 
ATCGCCACCG TCACGCCTCT GGAGAGGGTC ACCTCGGCCT GGAAGGCCCG AACTCCACTG 
GAGCAGGAGA TCTTTGGATT GCTCCACAAG ACACAGCAGC CCATCACAGA CCCGCTGCTG 
ACACCGGAGG AGATGGCCTC AGTGCAGGCC ATGAGCTTGG AGGAGGCCCG GCGCCGGCGG 
GCGGAGCTGC AGAAGGCCCG GGCAGTGCAG TCCTACTACG AGGCGAAGGC TCGGCGAGCG 
AAGCGGATCA AGAGCAAGAA GTACCACCGC GTGCTGAAGA AGAGCCGGAG GCGCCAGGCC 
CTGAAGGAGT TCGAGCAGCT GCACAAGTCG GACCCTGCGG CTGCCTTGGA GCAGCTGGAG 
GAGCTGGAGC AGCTCAGGAT GCAGGAGCGG ATGAGCCTTA AGCACCAGAA CAAGGGAAAA 
TGGGCCCGAT CCAGAGCCAT TATGGCTAAG TATGACCTCG AGGCCCGCAA GGCCTTGCAG 
GAGCAGCTGG CCAGGAACAA GGAGCTGATG CAGAAGGTGC AGGTGGAGCC GCCCGAGGAG 
GAGCCGTGTG AGGTGCCTGA GGAGGACACC ACGGCCTTGC CCATGCCTAG CGGGGCTAAT 
CCCTGGATGC TGGGCAAGCC CAGTGGCCTG GCCCCGGAAC CTGAGGCACA GGAGGGTCCA 
AGAGATGACA CAGTGCCTGG TGCTGTGGAG AGCAAGGATG AGATGGAGGA GGAGGAGGAA 
GAGCTGTCAG AGGAAGAAGC TCTGCTGCAA GACTTTGAGC AGAAGCGTCA GCAGCGGACA 
GGGAACCCCG AGGGGCACAG CAAGGACCAT GGTGCTGATG AGACTGAGAC TGGTGCTGAG 
CAGCCCAGGG ACAGCCCAGT CGCCCCAGAC TGTGCCGAGG AACTGGGGGA CAGCCCAGTC 
CCCCCAGACT GTGCCGAGGA GCTGGGGGAC AGCCCAGTCC CCCCAGACTG TGCCGAGGAG 
CTGGGGGACA GCCCAGTACC CCCAGACTGT GCCGAGGAGT TGCGGGACAG CCCAGTACCC 
CCAGTCTGTG CTGAGGAGCT GGTGAGTGCA GGACTGGAGC CTCCCCCTCA GGCCCAGGAG 
GAGCTCCTGC TCTCGGAGCA GCTGCGCCAT GTGAAGACCA TGGAGGATAT GGAGAGTCTG 
GCCAAGGAGG AGCTTGTGGA AGAGCAGGAG AAGCTGGTAG CCCTGAGACC AGGGAAGCGA 
GCACGGCAGC AGGAGAAAGC CAGTGTGTCT GTCACCAGAA CTGGGGACAG ACATACCAAG 
AAAGCAGCAG CCAAGAGGAA GATGATCAGC CTGGAGGCTG TGCTGGATGG GAAGCCCCAG 
GAGATGGACT GCTCCAGCCT GCCTGTGGTC TTGGAGGAGG AGGAGGGTGG CATGGAGCAG 
CGCGGGATGA TCACGGAAGC CTTTGCTGGG GACGATGTGG TCGCTGACTT CCGCCGGGAG 
AAGCGCAAGG CAGAGGAGGC GGTGAAGCCG CAGCCAGTGA ACCTGGTGCT GCCAGGCTGG 
GGCGAGTGGG GTGGCACAGG CCTGAAACCC AGTGCCAAGA AGGTCAAGAG GTTCCTGATC 
AAGGCGCCGC CGGCGCCTCC GCGGAAGGAC CAGCACCTGC CCCACGTCAT CATCAGCGAG 
AAGCGTAACA TCCACGCGGC AGCGCATCAG GTCAGCGAGC TGCCCTTCCC CTTTGAGCGG 
CACCAGCAGT TCGAGCAGAG CATGCGGACG CCCCTGGGCC CCACGTGGAA CACTCAGCGT 
GCCTTCCAGA AGCTGACAGC CCCTCGAGTC ATCACCCGTG CTGGCCACAT CATCCAGCCT 
ATCTCAGCTG AGGATGTCCC TGACACGGCT CCTGGCAGCG GGGCCAGGCT TGAGGGAGAG 
GCCATGCCTG GGAGGAAGGC TGTGCCCAAG GGGAAGGCTG TGCCCAGGGG GAAGGCTGTG 
CCCGGGGGGA AGGCTGTGCC TGGGGGGAAG GCTGTGCCCA GTGGGAGGAC TGTTCCTGGG 
CAGAAGGCAC AGCCCCGGCA CCGCAGAGCA CGGTAG

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

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UTP14A cDNA ORF clone, Taeniopygia guttata(zebra finch)

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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:

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