UACA cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	UACA
Entrez Gene ID	100228004
Full Name	uveal autoantigen with coiled-coil domains and ankyrin repeats
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030281672.1	XP_030137532.1	uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X1
XM_030281673.1	XP_030137533.1	uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X2
XM_002186960.2	XP_002186996.2	uveal autoantigen with coiled-coil domains and ankyrin repeats

Pathways from BioSystems
Gene Ontology

The following UACA gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UACA 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)
OTd00952	XM_002186960.2 Latest version!	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd26813	XM_030281672.1 Latest version!	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd26814	XM_030281673.1 Latest version!	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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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)

UACA ( XM_002186960.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002186996.2 Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

Price & Availability↑

CloneID	OTd00952
Clone ID Related Accession (Same CDS sequence)	XM_002186960.2
Accession Version	XM_002186960.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3753bp) 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	uveal autoantigen with coiled-coil domains and ankyrin repeats
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197127.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 12, 2013 this sequence version replaced XM_002186960.1. ##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 :: 100% of CDS bases ##RefSeq-Attributes-END##

ATGTGCAGTA TTTTTCAGAC GGCCAAGGAC GCAGTAGGTA TCTCGGAGCT TTACCTGGGC 
TCTCAGATCC TGGCAGGAAT TTACAGCTGC AAAAAGGTGA AAGCTCGGAT TGTGCAACTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG CCATGTCTGA CTGCTCTGCC 
AGCATCCAGC TGCTCTGCGA CCACGGCGCT GCCGTCAACT GCAAGGACGG GGACGGGAGG 
ACACCGCTGG TGCTGGCCAC CCAGATGTGC CGCCCCGCGC TCTGCCAGCT GCTCCTGGAC 
AGGGGGGCCG ACGTCAATGC CAGGGACAAG CAGAGCAGGA CTGCCCTCAT GCTGGGCTGT 
GAATATGGCT GCAAGGATGC TGTGGAGGTG TTGCTCAGGA ATGGTGCTGA TGCTGCCTTG 
ACTGATGGCC TTGGGCACGA CTGTGCTTAC TATGCCAGGA TTGGGGACAA TATTGACATT 
TTGGCTTTAA TAAAAGCTGC CCTTGAGGAC TCCAGCAGAG GAAGAGACAG CATGAACAGA 
GGGCAGGCTG AGCAGAAGGA CTTGGAGCTG GAAAACCAAG ATTTGAAGGA CCGGATGAGG 
GAAGTGCAGG AGGAGCAGAG GATGCTGCTG GACAGGATCA GTGGGCTGCA GCTGCAGCTC 
AGTGAGGAGC AAATGTTTGC AGATGATCTT GAGAATGAGA AAGACGAGTT GAAGAAAATC 
CTGACTACCA AGGAAAAGCA GCAGGAAGAA AGTTTAAGGA CTATTGAAGC TCTCAAAGCT 
AAACTCAAGT ATTATGAATC CAGGTCTCTG CTGAGGCCCC TGGAGCTCTC CCTGCCTGCC 
CAAGCGCCCA GCTGCGAGAA GGAGGCTCTG AAGAAAGAGC TGGAGAGCCT GAGGAGCTGC 
TTTGGGGCAG CCAAGGAGGA GATCAGCAAG CTGCAGAGGG AGCTGGCCCT GAAGGGCTCG 
GAGTGCAGGG CTCTGGCCTC AGAGTGCGAG AGGAGCAAGG CAGAGTCGGA CAGCCAGGTC 
AGGCAGCTGG AGGACGCCCT GAAGGACGTG CAGAAGAGGA TGTTCGACTC GGAGGGCAAA 
GTGAAGCAGA TGCAGAGCCA CTTCCTGGCG CTCAAGGAGC ACCTGGCCAG CGAGGTGGCC 
TCGGGGAGCG CCAAGGTGGC GGAGGAGCTC AAGGAGCAGC TCCGGGAGAT GAAAGCCAAG 
TACGAGGGAG CCTCGGCCGA GGTGGGGAAA CTGAGGAACC AGATCAAGCA GAACGAATTG 
CTGGTGGCAG AGTTCCAGAG GGACGAGGGC AGGCTGGTGG AGGAAAACAA AAGGTTGCAG 
AAGGAGCTGG TGAAGGTGGA GATGGAGCGA GATAAAAGGG GCAGGAATGT CACGGAGTTG 
GAAGGGCAGC TCAGGGAGAC GGCAGCCAAA CTGGCGCAGT CTGTGAGCGC AGAGCAGTTT 
GAGAACATGA AGGGTTTGCT GTCAGATGAG GTGAATGAGA AAGCAAGGAG GCTGGCAGAG 
GTGGAAGGGG AGCTGGAGAA GCTGCAGGCA GAGGTTGTGC TGTTACAGAA GGAGGCTGAG 
AGTCAGAGAG CTCAGCTGGC ACAGCATGTG AAGGCAGAGG AGCACGAGCA AATGAGGAGT 
GGGTTTGAGC AGAGGGAGGA GGAGCTGGGG AAGGCAATTT CTGAGCTATC ACACAAGAAT 
GAGACTCTGC AGAAGGAACT TGAAAGATTG CAGGCTGATA ACAAGGTGCT GAAGCAGCAA 
GTCCAAATGC TAAAAACTGA AATTAAAAGC CAGAATGTGC CTTTAAAAAT TCATGAGGAG 
TTGAAGAAAG CAAATGATCT GGCTGTGGGT GACCTGACAA AAAAGCTTTT TGAAATAACA 
AAGAAGTACA ATGAAAGCAA AGCAGAAGCT GAAAAGTTGC TGGCAGAGAA GAACGACTTA 
AATGAGAATA TCAGCCACTT GCAAGCTGTG TACCTGTCTC CAGAGCAGCA CAAGAAAGAG 
GTGGAAGCTT TAAAATCGAA TGGGATTGAG CTTGAAAAGC AGCTTGCTGA GCTTCAGAAG 
AAATACGATG AGGAGCAAGC AAAAGCAGGC AAACTGGTGA CTGAGGTCAC CGGCCTGAGG 
GAGACCCTGA GGGATCAGTA CGTGCTGGCC ACCACACATG AGGAGGTTAA AACTGTCCTG 
AACAGCACCC TGGAAAAAAC CAACGGGGAG CTGTCAGATC TGAGGGGCAA AATTGGAGAG 
ATAAAGCAAG AGTTCCTGAG GGTAAACGAA GAAAATGGAG CTTTAAAAAA CAAGGTGAAA 
CTCTTACAGA ACCAATTAAA GACGGAGTAT ATCAGTTTAA AAGATCACGA AGCCACGGTG 
AATACTTTAA ATAAAAGCGT GCAAGAGCTG CAGGAGAGCA ACGCTGCCAT CAGGGCTGAG 
CACCAGAGGG GGCAGGATGA AATCTCACAG CTGCACGCGG AAATCGAGGC CCAGAAGAAG 
GAGCTGGACA CCATTCAGGA GTGCATCAAG TCCAAGTACG CCGCGGTGGG CGCCTTGGAG 
GACAGGGAGC AGAGCTTGGA GGGCACGGTG AGGGAGCTGA GGGCGCAGCT GCAGGAGCAG 
GAGCAGCGGC GCAGAGCGAG CGAGGAGGAG AAGGAGCAGC TCAGGAGCGG CGTGCTGTCC 
ATCCAGAGCG ACCTGCAGCA GAGCCAGGCG CTGGCAGAGC AGTCCCGCCG GCTGGAGAGG 
CTGTGTGCCA GCAGCATGGA GGGGCTGAGC CGGCAGCTCA GGGCTCTGCT GAGGAAGCAC 
ACGGGGCAGG AGGGGCGGCA GGACGCGGCC GCGGTTCCGC AGCCGCCGGC GGAGCAGCTG 
GAGGCGCTGA GGGAGGCTCT GGGCCGCACC GTGGAGGAGC TGCAGGAGGC CCTGAGCAAG 
AAGGAGCAGC GGTACCACGA GGAAACCCTC CGGGTCGGGG AGCTGCAGCG GGAGCTGGCC 
CAGCTGAAGG AGTCCTCGGT GCCGCTGGTG GAGTTCACCC AGCTGAGGGA AGGGCTGCAG 
GGGGAAATGG CGGCCCTCAG GCGCAGCCTG CAGGAGAAGG AGGCAGAAAG CCAAGATCTG 
CGGAGCCAGG AGGTGGTGGC CGTGGCAGAG TACTGCTCCA TGAAGGCGGC CCTGGAGGCC 
CAGGTGAGCA GCATGGCTGG GTACCTGGCC AGCATGAGCC ACAAGTACGA GCAGGCCTGC 
GAGGAGGCCC TGCAGGCCAG GAGGATCGAG CTGTCTCTCA AGGACGAGAA GGAGCTGCTC 
CAGCTCAGGA GCTGCAGCAT CGAGCAGAGA TCAAGGACCA GAAGGAGAGA GCTGCTGAAC 
GACGTGGAGC GGCTGAAGCA GGCTCTCAAC GGCTTGTCCC AGCTGACATA CACCACTGGG 
ATCCCCTCCA AGAGGCACAA CCAGCAGGTG GAACTGCTCC AGAGCCAAGT GAAAACACTC 
CAGCAGCAGC TGGCTAACGC GGCGCGGCAG CACCAGGAGG TGGTGGCGGT GTACAGGACA 
CACCTGCTCA GCGCTGTGCA GGGACACATG GATGAAGATG TGCAGGCTGC CCTGCTGCAG 
ATCATCCGCA TGCGGCAGGG CCTGGTGTGC TGA

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

RefSeq	XP_002186996.2
CDS	1..3753
Translation	MCSIFQTAKDAVGISELYLGSQILAGIYSCKKVKARIVQLNPDWSKYDDRLMKAAERGDVDKVSSILAKKGVSPTKLDVEGRSAFHVVASKGNLDCLNTILVHGVDITATDAAAMSDCSASIQLLCDHGAAVNCKDGDGRTPLVLATQMCRPALCQLLLDRGADVNARDKQSRTALMLGCEYGCKDAVEVLLRNGADAALTDGLGHDCAYYARIGDNIDILALIKAALEDSSRGRDSMNRGQAEQKDLELENQDLKDRMREVQEEQRMLLDRISGLQLQLSEEQMFADDLENEKDELKKILTTKEKQQEESLRTIEALKAKLKYYESRSLLRPLELSLPAQAPSCEKEALKKELESLRSCFGAAKEEISKLQRELALKGSECRALASECERSKAESDSQVRQLEDALKDVQKRMFDSEGKVKQMQSHFLALKEHLASEVASGSAKVAEELKEQLREMKAKYEGASAEVGKLRNQIKQNELLVAEFQRDEGRLVEENKRLQKELVKVEMERDKRGRNVTELEGQLRETAAKLAQSVSAEQFENMKGLLSDEVNEKARRLAEVEGELEKLQAEVVLLQKEAESQRAQLAQHVKAEEHEQMRSGFEQREEELGKAISELSHKNETLQKELERLQADNKVLKQQVQMLKTEIKSQNVPLKIHEELKKANDLAVGDLTKKLFEITKKYNESKAEAEKLLAEKNDLNENISHLQAVYLSPEQHKKEVEALKSNGIELEKQLAELQKKYDEEQAKAGKLVTEVTGLRETLRDQYVLATTHEEVKTVLNSTLEKTNGELSDLRGKIGEIKQEFLRVNEENGALKNKVKLLQNQLKTEYISLKDHEATVNTLNKSVQELQESNAAIRAEHQRGQDEISQLHAEIEAQKKELDTIQECIKSKYAAVGALEDREQSLEGTVRELRAQLQEQEQRRRASEEEKEQLRSGVLSIQSDLQQSQALAEQSRRLERLCASSMEGLSRQLRALLRKHTGQEGRQDAAAVPQPPAEQLEALREALGRTVEELQEALSKKEQRYHEETLRVGELQRELAQLKESSVPLVEFTQLREGLQGEMAALRRSLQEKEAESQDLRSQEVVAVAEYCSMKAALEAQVSSMAGYLASMSHKYEQACEEALQARRIELSLKDEKELLQLRSCSIEQRSRTRRRELLNDVERLKQALNGLSQLTYTTGIPSKRHNQQVELLQSQVKTLQQQLANAARQHQEVVAVYRTHLLSAVQGHMDEDVQAALLQIIRMRQGLVC

Target ORF information:

RefSeq Version	XM_002186960.2
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (UACA), mRNA.

Target ORF information:

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

XM_002186960.2

ORF Insert Sequence:

ATGTGCAGTA TTTTTCAGAC GGCCAAGGAC GCAGTAGGTA TCTCGGAGCT TTACCTGGGC 
TCTCAGATCC TGGCAGGAAT TTACAGCTGC AAAAAGGTGA AAGCTCGGAT TGTGCAACTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG CCATGTCTGA CTGCTCTGCC 
AGCATCCAGC TGCTCTGCGA CCACGGCGCT GCCGTCAACT GCAAGGACGG GGACGGGAGG 
ACACCGCTGG TGCTGGCCAC CCAGATGTGC CGCCCCGCGC TCTGCCAGCT GCTCCTGGAC 
AGGGGGGCCG ACGTCAATGC CAGGGACAAG CAGAGCAGGA CTGCCCTCAT GCTGGGCTGT 
GAATATGGCT GCAAGGATGC TGTGGAGGTG TTGCTCAGGA ATGGTGCTGA TGCTGCCTTG 
ACTGATGGCC TTGGGCACGA CTGTGCTTAC TATGCCAGGA TTGGGGACAA TATTGACATT 
TTGGCTTTAA TAAAAGCTGC CCTTGAGGAC TCCAGCAGAG GAAGAGACAG CATGAACAGA 
GGGCAGGCTG AGCAGAAGGA CTTGGAGCTG GAAAACCAAG ATTTGAAGGA CCGGATGAGG 
GAAGTGCAGG AGGAGCAGAG GATGCTGCTG GACAGGATCA GTGGGCTGCA GCTGCAGCTC 
AGTGAGGAGC AAATGTTTGC AGATGATCTT GAGAATGAGA AAGACGAGTT GAAGAAAATC 
CTGACTACCA AGGAAAAGCA GCAGGAAGAA AGTTTAAGGA CTATTGAAGC TCTCAAAGCT 
AAACTCAAGT ATTATGAATC CAGGTCTCTG CTGAGGCCCC TGGAGCTCTC CCTGCCTGCC 
CAAGCGCCCA GCTGCGAGAA GGAGGCTCTG AAGAAAGAGC TGGAGAGCCT GAGGAGCTGC 
TTTGGGGCAG CCAAGGAGGA GATCAGCAAG CTGCAGAGGG AGCTGGCCCT GAAGGGCTCG 
GAGTGCAGGG CTCTGGCCTC AGAGTGCGAG AGGAGCAAGG CAGAGTCGGA CAGCCAGGTC 
AGGCAGCTGG AGGACGCCCT GAAGGACGTG CAGAAGAGGA TGTTCGACTC GGAGGGCAAA 
GTGAAGCAGA TGCAGAGCCA CTTCCTGGCG CTCAAGGAGC ACCTGGCCAG CGAGGTGGCC 
TCGGGGAGCG CCAAGGTGGC GGAGGAGCTC AAGGAGCAGC TCCGGGAGAT GAAAGCCAAG 
TACGAGGGAG CCTCGGCCGA GGTGGGGAAA CTGAGGAACC AGATCAAGCA GAACGAATTG 
CTGGTGGCAG AGTTCCAGAG GGACGAGGGC AGGCTGGTGG AGGAAAACAA AAGGTTGCAG 
AAGGAGCTGG TGAAGGTGGA GATGGAGCGA GATAAAAGGG GCAGGAATGT CACGGAGTTG 
GAAGGGCAGC TCAGGGAGAC GGCAGCCAAA CTGGCGCAGT CTGTGAGCGC AGAGCAGTTT 
GAGAACATGA AGGGTTTGCT GTCAGATGAG GTGAATGAGA AAGCAAGGAG GCTGGCAGAG 
GTGGAAGGGG AGCTGGAGAA GCTGCAGGCA GAGGTTGTGC TGTTACAGAA GGAGGCTGAG 
AGTCAGAGAG CTCAGCTGGC ACAGCATGTG AAGGCAGAGG AGCACGAGCA AATGAGGAGT 
GGGTTTGAGC AGAGGGAGGA GGAGCTGGGG AAGGCAATTT CTGAGCTATC ACACAAGAAT 
GAGACTCTGC AGAAGGAACT TGAAAGATTG CAGGCTGATA ACAAGGTGCT GAAGCAGCAA 
GTCCAAATGC TAAAAACTGA AATTAAAAGC CAGAATGTGC CTTTAAAAAT TCATGAGGAG 
TTGAAGAAAG CAAATGATCT GGCTGTGGGT GACCTGACAA AAAAGCTTTT TGAAATAACA 
AAGAAGTACA ATGAAAGCAA AGCAGAAGCT GAAAAGTTGC TGGCAGAGAA GAACGACTTA 
AATGAGAATA TCAGCCACTT GCAAGCTGTG TACCTGTCTC CAGAGCAGCA CAAGAAAGAG 
GTGGAAGCTT TAAAATCGAA TGGGATTGAG CTTGAAAAGC AGCTTGCTGA GCTTCAGAAG 
AAATACGATG AGGAGCAAGC AAAAGCAGGC AAACTGGTGA CTGAGGTCAC CGGCCTGAGG 
GAGACCCTGA GGGATCAGTA CGTGCTGGCC ACCACACATG AGGAGGTTAA AACTGTCCTG 
AACAGCACCC TGGAAAAAAC CAACGGGGAG CTGTCAGATC TGAGGGGCAA AATTGGAGAG 
ATAAAGCAAG AGTTCCTGAG GGTAAACGAA GAAAATGGAG CTTTAAAAAA CAAGGTGAAA 
CTCTTACAGA ACCAATTAAA GACGGAGTAT ATCAGTTTAA AAGATCACGA AGCCACGGTG 
AATACTTTAA ATAAAAGCGT GCAAGAGCTG CAGGAGAGCA ACGCTGCCAT CAGGGCTGAG 
CACCAGAGGG GGCAGGATGA AATCTCACAG CTGCACGCGG AAATCGAGGC CCAGAAGAAG 
GAGCTGGACA CCATTCAGGA GTGCATCAAG TCCAAGTACG CCGCGGTGGG CGCCTTGGAG 
GACAGGGAGC AGAGCTTGGA GGGCACGGTG AGGGAGCTGA GGGCGCAGCT GCAGGAGCAG 
GAGCAGCGGC GCAGAGCGAG CGAGGAGGAG AAGGAGCAGC TCAGGAGCGG CGTGCTGTCC 
ATCCAGAGCG ACCTGCAGCA GAGCCAGGCG CTGGCAGAGC AGTCCCGCCG GCTGGAGAGG 
CTGTGTGCCA GCAGCATGGA GGGGCTGAGC CGGCAGCTCA GGGCTCTGCT GAGGAAGCAC 
ACGGGGCAGG AGGGGCGGCA GGACGCGGCC GCGGTTCCGC AGCCGCCGGC GGAGCAGCTG 
GAGGCGCTGA GGGAGGCTCT GGGCCGCACC GTGGAGGAGC TGCAGGAGGC CCTGAGCAAG 
AAGGAGCAGC GGTACCACGA GGAAACCCTC CGGGTCGGGG AGCTGCAGCG GGAGCTGGCC 
CAGCTGAAGG AGTCCTCGGT GCCGCTGGTG GAGTTCACCC AGCTGAGGGA AGGGCTGCAG 
GGGGAAATGG CGGCCCTCAG GCGCAGCCTG CAGGAGAAGG AGGCAGAAAG CCAAGATCTG 
CGGAGCCAGG AGGTGGTGGC CGTGGCAGAG TACTGCTCCA TGAAGGCGGC CCTGGAGGCC 
CAGGTGAGCA GCATGGCTGG GTACCTGGCC AGCATGAGCC ACAAGTACGA GCAGGCCTGC 
GAGGAGGCCC TGCAGGCCAG GAGGATCGAG CTGTCTCTCA AGGACGAGAA GGAGCTGCTC 
CAGCTCAGGA GCTGCAGCAT CGAGCAGAGA TCAAGGACCA GAAGGAGAGA GCTGCTGAAC 
GACGTGGAGC GGCTGAAGCA GGCTCTCAAC GGCTTGTCCC AGCTGACATA CACCACTGGG 
ATCCCCTCCA AGAGGCACAA CCAGCAGGTG GAACTGCTCC AGAGCCAAGT GAAAACACTC 
CAGCAGCAGC TGGCTAACGC GGCGCGGCAG CACCAGGAGG TGGTGGCGGT GTACAGGACA 
CACCTGCTCA GCGCTGTGCA GGGACACATG GATGAAGATG TGCAGGCTGC CCTGCTGCAG 
ATCATCCGCA TGCGGCAGGG CCTGGTGTGC TGA

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

UACA ( XM_030281672.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137532.1 Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd26813
Clone ID Related Accession (Same CDS sequence)	XM_030281672.1
Accession Version	XM_030281672.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4146bp) 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	uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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##

ATGAAGAGCC TCAAGTCCCG GCTGAAGAAG CACGAGGCCG TCATCGCGGG CAGCGCGCTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG GCAGAAACGC CCTGCACTTG 
GCTGCAAAGT ATGGCCACGC TTTGTGCTTG CAGAAGCTCT TGCAGTACAA TTGCCCGACA 
GAGAATGTGG ATCTCCAGGG AAGAACTGCT CTTCATGATG CAGCCATGTC CGACTGCTCT 
GCCAGCATCC AGCTGCTCTG CGACCACGGC GCCGCCGTCA ACTGCAAGGA CGGGGACGGG 
AGGACACCGC TGGTGCTGGC CACCCAGATG TGCCGCCCCG CGCTCTGCCA GCTGCTCCTG 
GACAGGGGGG CCGACGTCAA TGCCAGGGAC AAGCAGAGCA GGACTGCCCT CATGCTGGGC 
TGTGAATATG GCTGCAAGGA TGCTGTGGAG GTGTTGCTCA GGAATGGTGC TGATGCTGCC 
TTGACTGATG GCCTTGGGCA CGACTGTGCT TACTATGCCA GGATTGGGGA CAATATTGAC 
ATTTTGGCTT TAATAAAAGC TGCCCTTGAG GACTCCAGCA GAGGAAGAGA CAGCATGAAC 
AGAGGGCAGG CTGAGCAGAA GGTCACCAGC GTGTCCCAGA GGTGGGGCCG GGGCTGTGGA 
GCACAGGAGG AGCCCAGAGT GTCCCAGAAG GAGCCCAGCA CTCAGGACTT GGAGCTGGAA 
AACCAAGATT TGAAGGACCG GATGAGGGAA GTGCAGGAGG AGCAGAGGAT GCTGCTGGAC 
AGGATCAGTG GGCTGCAGCT GCAGCTCAGT GAGGAGCAAA TGTTTGCAGA TGATCTTGAG 
AATGAGAAAG ACGAGTTGAA GAAAATCCTG ACTACCAAGG AAAAGCAGCA GGAAGAAAGT 
TTAAGGACTA TTGAAGCTCT CAAAGCTAAA CTCAAGTATT ATGAAGGTGA CTCTGCGGGG 
TCTGGAGGTA ACTTTGGAAA CAGAAAAGAA GATTTATTAC TTAAACAAGG CCAAGCGTTT 
GCAGTGGAAT CCCAGTCCAG GTCTCTGCTG AGGCCCCTGG AGCTCTCCCT GCCTGCCCAA 
GCGCCCAGCT GCGAGAAGGA GGCTCTGAAG AAAGAGCTGG AGAGCCTGAG GAGCTGCTTT 
GGGGCAGCCA AGGAGGAGAT CAGCAAGCTG CAGAGGGAGC TGGCCCTGAA GGGCTCGGAG 
TGCAGGGCTC TGGCCTCAGA GTGCGAGAGG AGCAAGGCAG AGTCGGACAG CCAGGTCAGG 
CAGCTGGAGG ACGCCCTGAA GGACGTGCAG AAGAGGATGT TCGACTCGGA GGGCAAAGTG 
AAGCAGATGC AGAGCCACTT CCTGGCGCTC AAGGAGCACC TGGCCAGCGA GGTGGCCTCG 
GGGAGCGCCA AGGTGGCGGA GGAGCTCAAG GAGCAGCTCC GGGAGATGAA AGCCAAGTAC 
GAGGGAGCCT CGGCCGAGGT GGGGAAACTG AGGAACCAGA TCAAGCAGAA CGAATTGCTG 
GTGGCAGAGT TCCAGAGGGA CGAGGGCAGG CTGGTGGAGG AAAACAAAAG GTTGCAGAAG 
GAGCTGGTGA AGGTGGAGAT GGAGCGAGAT AAAAGGGGCA GGAATGTCAC GGAGTTGGAA 
GGGCAGCTCA GGGAGACGGC AGCCAAATTG GCGCAGTCTG TGAGCGCAGA GCAGTTTGAG 
AACATGAAGG GTTTGCTGTC AGACGAGGTG AATGAGAAAG CAAGGAGGCT GGCAGAGGTG 
GAAGGGGAGC TGGAGAAGCT GCAGGCGGAG GTTGTGCTGT TACAGAGGGA GGCTGAGAGT 
CAGAGAGCTC AGCTGGCACG GCATGTGAAG GCAGAGGAGC ACGAGCAAAT GAGGAGTGGG 
TTTGAGCAGA GGGAGGTGGA GCTGGGGAAG GCAATTTCTG AGCTATCACA CAAGAATGAG 
ACTCTGCAGA AGGAACTTGA AAGATTGCAG GCTGATAACA AGGTGCTGAA GCAGCAAGTC 
CAAATGCTAA AAACTGAAAT TAAAAGCCAG AATGTGCCTT TAAAAATTCA TGAGGAGTTG 
AAGAAAGCAA ATGATCTGGC TGTGGGTGAC CTGACAAAAA AGCTTTTTGA AATAACAAAG 
AAGTACAATG AAAGCAAAGC AGAAGCTGAA AAGTTGCTGG CAGAGAAGAA CGACTTAAAT 
GAGAATATCA GCCACTTGCA AGCTGTGTAC CTGTCTCCAG AGCAGCACAA GAAAGAGGTG 
GAAGCTTTAA AATCGAATGG GATTGAGCTT GAAAAGCAGC TTGCTGAGCT TCAGAAGAAA 
TACGATGAGG AGCAAGCAAA AGCAGGCAAA CTGGTGACTG AGGTCACCGG CCTGAGGGAG 
ACCCTGAGGG ATCAGTACGT GCTGGCCACC ACACATGAGG AGGTTAAAAC TGTCCTGAAC 
AGCACCCTGG AAAAAACCAA CGGGGAGCTG TCAGATCTGA GGGGCAAAAT TGGAGAGATA 
AAGCAAGAGT TCCTGAGGGT AAACGAAGAA AATGGAGCTT TAAAAAACAA GGTGAAACTC 
TTACAGAACC AATTAAAGAC GGAGTATATC AGTTTAAAAG ATCACGAAGC CACGGTGAAT 
ACTTTAAATA AAAGCGTGCA AGAGCTGCAG GAGAGCAACG CTGCCATCAG GGCTGAGCAC 
CAGAGGGGGC AGGATGAAAT CTCACAGCTG CACGCGGAAA TCGAGGCCCA GAAGAAGGAG 
CTGGACACCA TTCAGGAGTG CATCAAGTCC AAGTACGCCG CGGTGGGCGC CTTGGAGGAC 
AGGGAGCAGA GCTTGGAGGG CACGGTGAGG GAGCTGAGGG CGCAGCTGCA GGAGCAGGAG 
CAGCGGCGCA GAGCGAGCGA GGAGGAGAAG GAGCAGCTCA GGAGCGGCGT GCTGTCCATC 
CAGAGCGACC TGCAGCAGAG CCAGGCGCTG GCAGAGCAGT CCCGCCGGCT GGAGAGGCTG 
TGTGCCAGCA GCATGGAGGG GCTGAGCCGG CAGCTCAGGG CTCTGCTGAG GAAGCACACG 
GGGCAGGAGG GGCGGCAGGA CGCGGCCGCG GCTCCGCAGC CGCCGGCGGA GCAGCTGGAG 
GCGCTGAGGG AGGCTCTGGG CCGCACCGTG GAGGAGCTGC AGGAGGCCCT GAGCAAGAAG 
GAGCAGCGGT ACCACGAGGA AACCCTCCGG GTCGGGGAGC TGCAGCGGGA GCTGGCCCAG 
CTGAAGGAGT CCTCGGTGCC GCTGGTGGAG TTCACCCAGC TGAGGGAAGG GCTGCAGGGG 
GAAATGGCGG CCCTCAGGCG CAGCCTGCAG GAGAAGGAGG CAGAAAGCCA AGGCAGGAGC 
GAGGAGGTGC TGAGGCTGCA GGCGGAGCTG CAGCTGAGCC AGCAGGCCTT GGCAGAGCTG 
CGGAGCCAGG AGGTGGTGGC CGTGGCAGAG TACAGCTCCA TGAAGGCGGC CCTGGAGGCC 
CAGGTGAGCA GCATGGCTGG GCACCTGGCC AGCATGAGCC ACAAGTACGA GCAGGCCTGC 
GAGGAGGCCC TGCAGGCCAG GAGGAGCGAG CTGTCCCTCA AGGACGAGAA GGAGCTGCTC 
CAGCTCAGGA GCTGCAGCAT CGAGCAGGAG ATCAAGGACC AGAAGGAGAG GTGTGACAAA 
TCCCTGACGA CCATTATTGA CCTGCAGAAG AGGATCCAGG AGTCTGCAAA GCAGGTGGAA 
GCCAAGGACA ACAAGATAAC AGAGCTGCTG AACGACGTGG AGCGGCTGAA GCAGGCTCTC 
AACGGCTTGT CCCAGCTGAC ATACACCACT GGGATCCCCT CCAAGAGGCA CAACCAGCAG 
GTGGAACTGC TCCAGAGCCA AGTGAAAACA CTCCAGCAGC AGCTGGCTGA CGCGGCGCGG 
CAGCACCAGG AGGTGGTGGC GGTGTACAGG ACACACCTGC TCAGCGCCGT GCAGGGACAC 
ATGGATGAAG ATGTGCAGGC TGCCCTGCTG CAGATCATCC GCATGCGGCA GGGCCTGGTG 
TGCTGA

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

RefSeq	XP_030137532.1
CDS	49..4194
Translation	MKSLKSRLKKHEAVIAGSALNPDWSKYDDRLMKAAERGDVDKVSSILAKKGVSPTKLDVEGRSAFHVVASKGNLDCLNTILVHGVDITATDAAGRNALHLAAKYGHALCLQKLLQYNCPTENVDLQGRTALHDAAMSDCSASIQLLCDHGAAVNCKDGDGRTPLVLATQMCRPALCQLLLDRGADVNARDKQSRTALMLGCEYGCKDAVEVLLRNGADAALTDGLGHDCAYYARIGDNIDILALIKAALEDSSRGRDSMNRGQAEQKVTSVSQRWGRGCGAQEEPRVSQKEPSTQDLELENQDLKDRMREVQEEQRMLLDRISGLQLQLSEEQMFADDLENEKDELKKILTTKEKQQEESLRTIEALKAKLKYYEGDSAGSGGNFGNRKEDLLLKQGQAFAVESQSRSLLRPLELSLPAQAPSCEKEALKKELESLRSCFGAAKEEISKLQRELALKGSECRALASECERSKAESDSQVRQLEDALKDVQKRMFDSEGKVKQMQSHFLALKEHLASEVASGSAKVAEELKEQLREMKAKYEGASAEVGKLRNQIKQNELLVAEFQRDEGRLVEENKRLQKELVKVEMERDKRGRNVTELEGQLRETAAKLAQSVSAEQFENMKGLLSDEVNEKARRLAEVEGELEKLQAEVVLLQREAESQRAQLARHVKAEEHEQMRSGFEQREVELGKAISELSHKNETLQKELERLQADNKVLKQQVQMLKTEIKSQNVPLKIHEELKKANDLAVGDLTKKLFEITKKYNESKAEAEKLLAEKNDLNENISHLQAVYLSPEQHKKEVEALKSNGIELEKQLAELQKKYDEEQAKAGKLVTEVTGLRETLRDQYVLATTHEEVKTVLNSTLEKTNGELSDLRGKIGEIKQEFLRVNEENGALKNKVKLLQNQLKTEYISLKDHEATVNTLNKSVQELQESNAAIRAEHQRGQDEISQLHAEIEAQKKELDTIQECIKSKYAAVGALEDREQSLEGTVRELRAQLQEQEQRRRASEEEKEQLRSGVLSIQSDLQQSQALAEQSRRLERLCASSMEGLSRQLRALLRKHTGQEGRQDAAAAPQPPAEQLEALREALGRTVEELQEALSKKEQRYHEETLRVGELQRELAQLKESSVPLVEFTQLREGLQGEMAALRRSLQEKEAESQGRSEEVLRLQAELQLSQQALAELRSQEVVAVAEYSSMKAALEAQVSSMAGHLASMSHKYEQACEEALQARRSELSLKDEKELLQLRSCSIEQEIKDQKERCDKSLTTIIDLQKRIQESAKQVEAKDNKITELLNDVERLKQALNGLSQLTYTTGIPSKRHNQQVELLQSQVKTLQQQLADAARQHQEVVAVYRTHLLSAVQGHMDEDVQAALLQIIRMRQGLVC

Target ORF information:

RefSeq Version	XM_030281672.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X1, mRNA.

Target ORF information:

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

XM_030281672.1

ORF Insert Sequence:

ATGAAGAGCC TCAAGTCCCG GCTGAAGAAG CACGAGGCCG TCATCGCGGG CAGCGCGCTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG GCAGAAACGC CCTGCACTTG 
GCTGCAAAGT ATGGCCACGC TTTGTGCTTG CAGAAGCTCT TGCAGTACAA TTGCCCGACA 
GAGAATGTGG ATCTCCAGGG AAGAACTGCT CTTCATGATG CAGCCATGTC CGACTGCTCT 
GCCAGCATCC AGCTGCTCTG CGACCACGGC GCCGCCGTCA ACTGCAAGGA CGGGGACGGG 
AGGACACCGC TGGTGCTGGC CACCCAGATG TGCCGCCCCG CGCTCTGCCA GCTGCTCCTG 
GACAGGGGGG CCGACGTCAA TGCCAGGGAC AAGCAGAGCA GGACTGCCCT CATGCTGGGC 
TGTGAATATG GCTGCAAGGA TGCTGTGGAG GTGTTGCTCA GGAATGGTGC TGATGCTGCC 
TTGACTGATG GCCTTGGGCA CGACTGTGCT TACTATGCCA GGATTGGGGA CAATATTGAC 
ATTTTGGCTT TAATAAAAGC TGCCCTTGAG GACTCCAGCA GAGGAAGAGA CAGCATGAAC 
AGAGGGCAGG CTGAGCAGAA GGTCACCAGC GTGTCCCAGA GGTGGGGCCG GGGCTGTGGA 
GCACAGGAGG AGCCCAGAGT GTCCCAGAAG GAGCCCAGCA CTCAGGACTT GGAGCTGGAA 
AACCAAGATT TGAAGGACCG GATGAGGGAA GTGCAGGAGG AGCAGAGGAT GCTGCTGGAC 
AGGATCAGTG GGCTGCAGCT GCAGCTCAGT GAGGAGCAAA TGTTTGCAGA TGATCTTGAG 
AATGAGAAAG ACGAGTTGAA GAAAATCCTG ACTACCAAGG AAAAGCAGCA GGAAGAAAGT 
TTAAGGACTA TTGAAGCTCT CAAAGCTAAA CTCAAGTATT ATGAAGGTGA CTCTGCGGGG 
TCTGGAGGTA ACTTTGGAAA CAGAAAAGAA GATTTATTAC TTAAACAAGG CCAAGCGTTT 
GCAGTGGAAT CCCAGTCCAG GTCTCTGCTG AGGCCCCTGG AGCTCTCCCT GCCTGCCCAA 
GCGCCCAGCT GCGAGAAGGA GGCTCTGAAG AAAGAGCTGG AGAGCCTGAG GAGCTGCTTT 
GGGGCAGCCA AGGAGGAGAT CAGCAAGCTG CAGAGGGAGC TGGCCCTGAA GGGCTCGGAG 
TGCAGGGCTC TGGCCTCAGA GTGCGAGAGG AGCAAGGCAG AGTCGGACAG CCAGGTCAGG 
CAGCTGGAGG ACGCCCTGAA GGACGTGCAG AAGAGGATGT TCGACTCGGA GGGCAAAGTG 
AAGCAGATGC AGAGCCACTT CCTGGCGCTC AAGGAGCACC TGGCCAGCGA GGTGGCCTCG 
GGGAGCGCCA AGGTGGCGGA GGAGCTCAAG GAGCAGCTCC GGGAGATGAA AGCCAAGTAC 
GAGGGAGCCT CGGCCGAGGT GGGGAAACTG AGGAACCAGA TCAAGCAGAA CGAATTGCTG 
GTGGCAGAGT TCCAGAGGGA CGAGGGCAGG CTGGTGGAGG AAAACAAAAG GTTGCAGAAG 
GAGCTGGTGA AGGTGGAGAT GGAGCGAGAT AAAAGGGGCA GGAATGTCAC GGAGTTGGAA 
GGGCAGCTCA GGGAGACGGC AGCCAAATTG GCGCAGTCTG TGAGCGCAGA GCAGTTTGAG 
AACATGAAGG GTTTGCTGTC AGACGAGGTG AATGAGAAAG CAAGGAGGCT GGCAGAGGTG 
GAAGGGGAGC TGGAGAAGCT GCAGGCGGAG GTTGTGCTGT TACAGAGGGA GGCTGAGAGT 
CAGAGAGCTC AGCTGGCACG GCATGTGAAG GCAGAGGAGC ACGAGCAAAT GAGGAGTGGG 
TTTGAGCAGA GGGAGGTGGA GCTGGGGAAG GCAATTTCTG AGCTATCACA CAAGAATGAG 
ACTCTGCAGA AGGAACTTGA AAGATTGCAG GCTGATAACA AGGTGCTGAA GCAGCAAGTC 
CAAATGCTAA AAACTGAAAT TAAAAGCCAG AATGTGCCTT TAAAAATTCA TGAGGAGTTG 
AAGAAAGCAA ATGATCTGGC TGTGGGTGAC CTGACAAAAA AGCTTTTTGA AATAACAAAG 
AAGTACAATG AAAGCAAAGC AGAAGCTGAA AAGTTGCTGG CAGAGAAGAA CGACTTAAAT 
GAGAATATCA GCCACTTGCA AGCTGTGTAC CTGTCTCCAG AGCAGCACAA GAAAGAGGTG 
GAAGCTTTAA AATCGAATGG GATTGAGCTT GAAAAGCAGC TTGCTGAGCT TCAGAAGAAA 
TACGATGAGG AGCAAGCAAA AGCAGGCAAA CTGGTGACTG AGGTCACCGG CCTGAGGGAG 
ACCCTGAGGG ATCAGTACGT GCTGGCCACC ACACATGAGG AGGTTAAAAC TGTCCTGAAC 
AGCACCCTGG AAAAAACCAA CGGGGAGCTG TCAGATCTGA GGGGCAAAAT TGGAGAGATA 
AAGCAAGAGT TCCTGAGGGT AAACGAAGAA AATGGAGCTT TAAAAAACAA GGTGAAACTC 
TTACAGAACC AATTAAAGAC GGAGTATATC AGTTTAAAAG ATCACGAAGC CACGGTGAAT 
ACTTTAAATA AAAGCGTGCA AGAGCTGCAG GAGAGCAACG CTGCCATCAG GGCTGAGCAC 
CAGAGGGGGC AGGATGAAAT CTCACAGCTG CACGCGGAAA TCGAGGCCCA GAAGAAGGAG 
CTGGACACCA TTCAGGAGTG CATCAAGTCC AAGTACGCCG CGGTGGGCGC CTTGGAGGAC 
AGGGAGCAGA GCTTGGAGGG CACGGTGAGG GAGCTGAGGG CGCAGCTGCA GGAGCAGGAG 
CAGCGGCGCA GAGCGAGCGA GGAGGAGAAG GAGCAGCTCA GGAGCGGCGT GCTGTCCATC 
CAGAGCGACC TGCAGCAGAG CCAGGCGCTG GCAGAGCAGT CCCGCCGGCT GGAGAGGCTG 
TGTGCCAGCA GCATGGAGGG GCTGAGCCGG CAGCTCAGGG CTCTGCTGAG GAAGCACACG 
GGGCAGGAGG GGCGGCAGGA CGCGGCCGCG GCTCCGCAGC CGCCGGCGGA GCAGCTGGAG 
GCGCTGAGGG AGGCTCTGGG CCGCACCGTG GAGGAGCTGC AGGAGGCCCT GAGCAAGAAG 
GAGCAGCGGT ACCACGAGGA AACCCTCCGG GTCGGGGAGC TGCAGCGGGA GCTGGCCCAG 
CTGAAGGAGT CCTCGGTGCC GCTGGTGGAG TTCACCCAGC TGAGGGAAGG GCTGCAGGGG 
GAAATGGCGG CCCTCAGGCG CAGCCTGCAG GAGAAGGAGG CAGAAAGCCA AGGCAGGAGC 
GAGGAGGTGC TGAGGCTGCA GGCGGAGCTG CAGCTGAGCC AGCAGGCCTT GGCAGAGCTG 
CGGAGCCAGG AGGTGGTGGC CGTGGCAGAG TACAGCTCCA TGAAGGCGGC CCTGGAGGCC 
CAGGTGAGCA GCATGGCTGG GCACCTGGCC AGCATGAGCC ACAAGTACGA GCAGGCCTGC 
GAGGAGGCCC TGCAGGCCAG GAGGAGCGAG CTGTCCCTCA AGGACGAGAA GGAGCTGCTC 
CAGCTCAGGA GCTGCAGCAT CGAGCAGGAG ATCAAGGACC AGAAGGAGAG GTGTGACAAA 
TCCCTGACGA CCATTATTGA CCTGCAGAAG AGGATCCAGG AGTCTGCAAA GCAGGTGGAA 
GCCAAGGACA ACAAGATAAC AGAGCTGCTG AACGACGTGG AGCGGCTGAA GCAGGCTCTC 
AACGGCTTGT CCCAGCTGAC ATACACCACT GGGATCCCCT CCAAGAGGCA CAACCAGCAG 
GTGGAACTGC TCCAGAGCCA AGTGAAAACA CTCCAGCAGC AGCTGGCTGA CGCGGCGCGG 
CAGCACCAGG AGGTGGTGGC GGTGTACAGG ACACACCTGC TCAGCGCCGT GCAGGGACAC 
ATGGATGAAG ATGTGCAGGC TGCCCTGCTG CAGATCATCC GCATGCGGCA GGGCCTGGTG 
TGCTGA

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

UACA ( XM_030281673.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030137533.1 Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X2, mRNA.

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CloneID	OTd26814
Clone ID Related Accession (Same CDS sequence)	XM_030281673.1
Accession Version	XM_030281673.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4113bp) 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	uveal autoantigen with coiled-coil domains and ankyrin repeats isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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##

ATGAAGAGCC TCAAGTCCCG GCTGAAGAAG CACGAGGCCG TCATCGCGGG CAGCGCGCTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG GCAGAAACGC CCTGCACTTG 
GCTGCAAAGT ATGGCCACGC TTTGTGCTTG CAGAAGCTCT TGCAGTACAA TTGCCCGACA 
GAGAATGTGG ATCTCCAGGG AAGAACTGCT CTTCATGATG CAGCCATGTC CGACTGCTCT 
GCCAGCATCC AGCTGCTCTG CGACCACGGC GCCGCCGTCA ACTGCAAGGA CGGGGACGGG 
AGGACACCGC TGGTGCTGGC CACCCAGATG TGCCGCCCCG CGCTCTGCCA GCTGCTCCTG 
GACAGGGGGG CCGACGTCAA TGCCAGGGAC AAGCAGAGCA GGACTGCCCT CATGCTGGGC 
TGTGAATATG GCTGCAAGGA TGCTGTGGAG GTGTTGCTCA GGAATGGTGC TGATGCTGCC 
TTGACTGATG GCCTTGGGCA CGACTGTGCT TACTATGCCA GGATTGGGGA CAATATTGAC 
ATTTTGGCTT TAATAAAAGC TGCCCTTGAG GACTCCAGCA GAGGAAGAGA CAGCATGAAC 
AGAGGGCAGG CTGAGCAGAA GGTCACCAGC GTGTCCCAGA GGTGGGGCCG GGGCTGTGGA 
GCACAGGAGG AGCCCAGAGT GTCCCAGAAG GAGCCCAGCA CTCAGGACTT GGAGCTGGAA 
AACCAAGATT TGAAGGACCG GATGAGGGAA GTGCAGGAGG AGCAGAGGAT GCTGCTGGAC 
AGGATCAGTG GGCTGCAGCT GCAGCTCAGT GAGAAAGACG AGTTGAAGAA AATCCTGACT 
ACCAAGGAAA AGCAGCAGGA AGAAAGTTTA AGGACTATTG AAGCTCTCAA AGCTAAACTC 
AAGTATTATG AAGGTGACTC TGCGGGGTCT GGAGGTAACT TTGGAAACAG AAAAGAAGAT 
TTATTACTTA AACAAGGCCA AGCGTTTGCA GTGGAATCCC AGTCCAGGTC TCTGCTGAGG 
CCCCTGGAGC TCTCCCTGCC TGCCCAAGCG CCCAGCTGCG AGAAGGAGGC TCTGAAGAAA 
GAGCTGGAGA GCCTGAGGAG CTGCTTTGGG GCAGCCAAGG AGGAGATCAG CAAGCTGCAG 
AGGGAGCTGG CCCTGAAGGG CTCGGAGTGC AGGGCTCTGG CCTCAGAGTG CGAGAGGAGC 
AAGGCAGAGT CGGACAGCCA GGTCAGGCAG CTGGAGGACG CCCTGAAGGA CGTGCAGAAG 
AGGATGTTCG ACTCGGAGGG CAAAGTGAAG CAGATGCAGA GCCACTTCCT GGCGCTCAAG 
GAGCACCTGG CCAGCGAGGT GGCCTCGGGG AGCGCCAAGG TGGCGGAGGA GCTCAAGGAG 
CAGCTCCGGG AGATGAAAGC CAAGTACGAG GGAGCCTCGG CCGAGGTGGG GAAACTGAGG 
AACCAGATCA AGCAGAACGA ATTGCTGGTG GCAGAGTTCC AGAGGGACGA GGGCAGGCTG 
GTGGAGGAAA ACAAAAGGTT GCAGAAGGAG CTGGTGAAGG TGGAGATGGA GCGAGATAAA 
AGGGGCAGGA ATGTCACGGA GTTGGAAGGG CAGCTCAGGG AGACGGCAGC CAAATTGGCG 
CAGTCTGTGA GCGCAGAGCA GTTTGAGAAC ATGAAGGGTT TGCTGTCAGA CGAGGTGAAT 
GAGAAAGCAA GGAGGCTGGC AGAGGTGGAA GGGGAGCTGG AGAAGCTGCA GGCGGAGGTT 
GTGCTGTTAC AGAGGGAGGC TGAGAGTCAG AGAGCTCAGC TGGCACGGCA TGTGAAGGCA 
GAGGAGCACG AGCAAATGAG GAGTGGGTTT GAGCAGAGGG AGGTGGAGCT GGGGAAGGCA 
ATTTCTGAGC TATCACACAA GAATGAGACT CTGCAGAAGG AACTTGAAAG ATTGCAGGCT 
GATAACAAGG TGCTGAAGCA GCAAGTCCAA ATGCTAAAAA CTGAAATTAA AAGCCAGAAT 
GTGCCTTTAA AAATTCATGA GGAGTTGAAG AAAGCAAATG ATCTGGCTGT GGGTGACCTG 
ACAAAAAAGC TTTTTGAAAT AACAAAGAAG TACAATGAAA GCAAAGCAGA AGCTGAAAAG 
TTGCTGGCAG AGAAGAACGA CTTAAATGAG AATATCAGCC ACTTGCAAGC TGTGTACCTG 
TCTCCAGAGC AGCACAAGAA AGAGGTGGAA GCTTTAAAAT CGAATGGGAT TGAGCTTGAA 
AAGCAGCTTG CTGAGCTTCA GAAGAAATAC GATGAGGAGC AAGCAAAAGC AGGCAAACTG 
GTGACTGAGG TCACCGGCCT GAGGGAGACC CTGAGGGATC AGTACGTGCT GGCCACCACA 
CATGAGGAGG TTAAAACTGT CCTGAACAGC ACCCTGGAAA AAACCAACGG GGAGCTGTCA 
GATCTGAGGG GCAAAATTGG AGAGATAAAG CAAGAGTTCC TGAGGGTAAA CGAAGAAAAT 
GGAGCTTTAA AAAACAAGGT GAAACTCTTA CAGAACCAAT TAAAGACGGA GTATATCAGT 
TTAAAAGATC ACGAAGCCAC GGTGAATACT TTAAATAAAA GCGTGCAAGA GCTGCAGGAG 
AGCAACGCTG CCATCAGGGC TGAGCACCAG AGGGGGCAGG ATGAAATCTC ACAGCTGCAC 
GCGGAAATCG AGGCCCAGAA GAAGGAGCTG GACACCATTC AGGAGTGCAT CAAGTCCAAG 
TACGCCGCGG TGGGCGCCTT GGAGGACAGG GAGCAGAGCT TGGAGGGCAC GGTGAGGGAG 
CTGAGGGCGC AGCTGCAGGA GCAGGAGCAG CGGCGCAGAG CGAGCGAGGA GGAGAAGGAG 
CAGCTCAGGA GCGGCGTGCT GTCCATCCAG AGCGACCTGC AGCAGAGCCA GGCGCTGGCA 
GAGCAGTCCC GCCGGCTGGA GAGGCTGTGT GCCAGCAGCA TGGAGGGGCT GAGCCGGCAG 
CTCAGGGCTC TGCTGAGGAA GCACACGGGG CAGGAGGGGC GGCAGGACGC GGCCGCGGCT 
CCGCAGCCGC CGGCGGAGCA GCTGGAGGCG CTGAGGGAGG CTCTGGGCCG CACCGTGGAG 
GAGCTGCAGG AGGCCCTGAG CAAGAAGGAG CAGCGGTACC ACGAGGAAAC CCTCCGGGTC 
GGGGAGCTGC AGCGGGAGCT GGCCCAGCTG AAGGAGTCCT CGGTGCCGCT GGTGGAGTTC 
ACCCAGCTGA GGGAAGGGCT GCAGGGGGAA ATGGCGGCCC TCAGGCGCAG CCTGCAGGAG 
AAGGAGGCAG AAAGCCAAGG CAGGAGCGAG GAGGTGCTGA GGCTGCAGGC GGAGCTGCAG 
CTGAGCCAGC AGGCCTTGGC AGAGCTGCGG AGCCAGGAGG TGGTGGCCGT GGCAGAGTAC 
AGCTCCATGA AGGCGGCCCT GGAGGCCCAG GTGAGCAGCA TGGCTGGGCA CCTGGCCAGC 
ATGAGCCACA AGTACGAGCA GGCCTGCGAG GAGGCCCTGC AGGCCAGGAG GAGCGAGCTG 
TCCCTCAAGG ACGAGAAGGA GCTGCTCCAG CTCAGGAGCT GCAGCATCGA GCAGGAGATC 
AAGGACCAGA AGGAGAGGTG TGACAAATCC CTGACGACCA TTATTGACCT GCAGAAGAGG 
ATCCAGGAGT CTGCAAAGCA GGTGGAAGCC AAGGACAACA AGATAACAGA GCTGCTGAAC 
GACGTGGAGC GGCTGAAGCA GGCTCTCAAC GGCTTGTCCC AGCTGACATA CACCACTGGG 
ATCCCCTCCA AGAGGCACAA CCAGCAGGTG GAACTGCTCC AGAGCCAAGT GAAAACACTC 
CAGCAGCAGC TGGCTGACGC GGCGCGGCAG CACCAGGAGG TGGTGGCGGT GTACAGGACA 
CACCTGCTCA GCGCCGTGCA GGGACACATG GATGAAGATG TGCAGGCTGC CCTGCTGCAG 
ATCATCCGCA TGCGGCAGGG CCTGGTGTGC TGA

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

RefSeq	XP_030137533.1
CDS	49..4161
Translation	MKSLKSRLKKHEAVIAGSALNPDWSKYDDRLMKAAERGDVDKVSSILAKKGVSPTKLDVEGRSAFHVVASKGNLDCLNTILVHGVDITATDAAGRNALHLAAKYGHALCLQKLLQYNCPTENVDLQGRTALHDAAMSDCSASIQLLCDHGAAVNCKDGDGRTPLVLATQMCRPALCQLLLDRGADVNARDKQSRTALMLGCEYGCKDAVEVLLRNGADAALTDGLGHDCAYYARIGDNIDILALIKAALEDSSRGRDSMNRGQAEQKVTSVSQRWGRGCGAQEEPRVSQKEPSTQDLELENQDLKDRMREVQEEQRMLLDRISGLQLQLSEKDELKKILTTKEKQQEESLRTIEALKAKLKYYEGDSAGSGGNFGNRKEDLLLKQGQAFAVESQSRSLLRPLELSLPAQAPSCEKEALKKELESLRSCFGAAKEEISKLQRELALKGSECRALASECERSKAESDSQVRQLEDALKDVQKRMFDSEGKVKQMQSHFLALKEHLASEVASGSAKVAEELKEQLREMKAKYEGASAEVGKLRNQIKQNELLVAEFQRDEGRLVEENKRLQKELVKVEMERDKRGRNVTELEGQLRETAAKLAQSVSAEQFENMKGLLSDEVNEKARRLAEVEGELEKLQAEVVLLQREAESQRAQLARHVKAEEHEQMRSGFEQREVELGKAISELSHKNETLQKELERLQADNKVLKQQVQMLKTEIKSQNVPLKIHEELKKANDLAVGDLTKKLFEITKKYNESKAEAEKLLAEKNDLNENISHLQAVYLSPEQHKKEVEALKSNGIELEKQLAELQKKYDEEQAKAGKLVTEVTGLRETLRDQYVLATTHEEVKTVLNSTLEKTNGELSDLRGKIGEIKQEFLRVNEENGALKNKVKLLQNQLKTEYISLKDHEATVNTLNKSVQELQESNAAIRAEHQRGQDEISQLHAEIEAQKKELDTIQECIKSKYAAVGALEDREQSLEGTVRELRAQLQEQEQRRRASEEEKEQLRSGVLSIQSDLQQSQALAEQSRRLERLCASSMEGLSRQLRALLRKHTGQEGRQDAAAAPQPPAEQLEALREALGRTVEELQEALSKKEQRYHEETLRVGELQRELAQLKESSVPLVEFTQLREGLQGEMAALRRSLQEKEAESQGRSEEVLRLQAELQLSQQALAELRSQEVVAVAEYSSMKAALEAQVSSMAGHLASMSHKYEQACEEALQARRSELSLKDEKELLQLRSCSIEQEIKDQKERCDKSLTTIIDLQKRIQESAKQVEAKDNKITELLNDVERLKQALNGLSQLTYTTGIPSKRHNQQVELLQSQVKTLQQQLADAARQHQEVVAVYRTHLLSAVQGHMDEDVQAALLQIIRMRQGLVC

Target ORF information:

RefSeq Version	XM_030281673.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata uveal autoantigen with coiled-coil domains and ankyrin repeats (LOC100228004), transcript variant X2, mRNA.

Target ORF information:

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

XM_030281673.1

ORF Insert Sequence:

ATGAAGAGCC TCAAGTCCCG GCTGAAGAAG CACGAGGCCG TCATCGCGGG CAGCGCGCTG 
AACCCAGACT GGAGCAAGTA CGATGACAGG CTGATGAAGG CAGCGGAGAG GGGCGATGTG 
GACAAGGTTT CATCCATCCT GGCCAAGAAG GGGGTCAGCC CCACCAAGCT GGACGTGGAG 
GGGAGATCCG CATTCCATGT TGTAGCATCA AAGGGAAATC TGGATTGCTT GAATACCATC 
CTGGTGCACG GAGTTGATAT CACAGCCACT GATGCTGCAG GCAGAAACGC CCTGCACTTG 
GCTGCAAAGT ATGGCCACGC TTTGTGCTTG CAGAAGCTCT TGCAGTACAA TTGCCCGACA 
GAGAATGTGG ATCTCCAGGG AAGAACTGCT CTTCATGATG CAGCCATGTC CGACTGCTCT 
GCCAGCATCC AGCTGCTCTG CGACCACGGC GCCGCCGTCA ACTGCAAGGA CGGGGACGGG 
AGGACACCGC TGGTGCTGGC CACCCAGATG TGCCGCCCCG CGCTCTGCCA GCTGCTCCTG 
GACAGGGGGG CCGACGTCAA TGCCAGGGAC AAGCAGAGCA GGACTGCCCT CATGCTGGGC 
TGTGAATATG GCTGCAAGGA TGCTGTGGAG GTGTTGCTCA GGAATGGTGC TGATGCTGCC 
TTGACTGATG GCCTTGGGCA CGACTGTGCT TACTATGCCA GGATTGGGGA CAATATTGAC 
ATTTTGGCTT TAATAAAAGC TGCCCTTGAG GACTCCAGCA GAGGAAGAGA CAGCATGAAC 
AGAGGGCAGG CTGAGCAGAA GGTCACCAGC GTGTCCCAGA GGTGGGGCCG GGGCTGTGGA 
GCACAGGAGG AGCCCAGAGT GTCCCAGAAG GAGCCCAGCA CTCAGGACTT GGAGCTGGAA 
AACCAAGATT TGAAGGACCG GATGAGGGAA GTGCAGGAGG AGCAGAGGAT GCTGCTGGAC 
AGGATCAGTG GGCTGCAGCT GCAGCTCAGT GAGAAAGACG AGTTGAAGAA AATCCTGACT 
ACCAAGGAAA AGCAGCAGGA AGAAAGTTTA AGGACTATTG AAGCTCTCAA AGCTAAACTC 
AAGTATTATG AAGGTGACTC TGCGGGGTCT GGAGGTAACT TTGGAAACAG AAAAGAAGAT 
TTATTACTTA AACAAGGCCA AGCGTTTGCA GTGGAATCCC AGTCCAGGTC TCTGCTGAGG 
CCCCTGGAGC TCTCCCTGCC TGCCCAAGCG CCCAGCTGCG AGAAGGAGGC TCTGAAGAAA 
GAGCTGGAGA GCCTGAGGAG CTGCTTTGGG GCAGCCAAGG AGGAGATCAG CAAGCTGCAG 
AGGGAGCTGG CCCTGAAGGG CTCGGAGTGC AGGGCTCTGG CCTCAGAGTG CGAGAGGAGC 
AAGGCAGAGT CGGACAGCCA GGTCAGGCAG CTGGAGGACG CCCTGAAGGA CGTGCAGAAG 
AGGATGTTCG ACTCGGAGGG CAAAGTGAAG CAGATGCAGA GCCACTTCCT GGCGCTCAAG 
GAGCACCTGG CCAGCGAGGT GGCCTCGGGG AGCGCCAAGG TGGCGGAGGA GCTCAAGGAG 
CAGCTCCGGG AGATGAAAGC CAAGTACGAG GGAGCCTCGG CCGAGGTGGG GAAACTGAGG 
AACCAGATCA AGCAGAACGA ATTGCTGGTG GCAGAGTTCC AGAGGGACGA GGGCAGGCTG 
GTGGAGGAAA ACAAAAGGTT GCAGAAGGAG CTGGTGAAGG TGGAGATGGA GCGAGATAAA 
AGGGGCAGGA ATGTCACGGA GTTGGAAGGG CAGCTCAGGG AGACGGCAGC CAAATTGGCG 
CAGTCTGTGA GCGCAGAGCA GTTTGAGAAC ATGAAGGGTT TGCTGTCAGA CGAGGTGAAT 
GAGAAAGCAA GGAGGCTGGC AGAGGTGGAA GGGGAGCTGG AGAAGCTGCA GGCGGAGGTT 
GTGCTGTTAC AGAGGGAGGC TGAGAGTCAG AGAGCTCAGC TGGCACGGCA TGTGAAGGCA 
GAGGAGCACG AGCAAATGAG GAGTGGGTTT GAGCAGAGGG AGGTGGAGCT GGGGAAGGCA 
ATTTCTGAGC TATCACACAA GAATGAGACT CTGCAGAAGG AACTTGAAAG ATTGCAGGCT 
GATAACAAGG TGCTGAAGCA GCAAGTCCAA ATGCTAAAAA CTGAAATTAA AAGCCAGAAT 
GTGCCTTTAA AAATTCATGA GGAGTTGAAG AAAGCAAATG ATCTGGCTGT GGGTGACCTG 
ACAAAAAAGC TTTTTGAAAT AACAAAGAAG TACAATGAAA GCAAAGCAGA AGCTGAAAAG 
TTGCTGGCAG AGAAGAACGA CTTAAATGAG AATATCAGCC ACTTGCAAGC TGTGTACCTG 
TCTCCAGAGC AGCACAAGAA AGAGGTGGAA GCTTTAAAAT CGAATGGGAT TGAGCTTGAA 
AAGCAGCTTG CTGAGCTTCA GAAGAAATAC GATGAGGAGC AAGCAAAAGC AGGCAAACTG 
GTGACTGAGG TCACCGGCCT GAGGGAGACC CTGAGGGATC AGTACGTGCT GGCCACCACA 
CATGAGGAGG TTAAAACTGT CCTGAACAGC ACCCTGGAAA AAACCAACGG GGAGCTGTCA 
GATCTGAGGG GCAAAATTGG AGAGATAAAG CAAGAGTTCC TGAGGGTAAA CGAAGAAAAT 
GGAGCTTTAA AAAACAAGGT GAAACTCTTA CAGAACCAAT TAAAGACGGA GTATATCAGT 
TTAAAAGATC ACGAAGCCAC GGTGAATACT TTAAATAAAA GCGTGCAAGA GCTGCAGGAG 
AGCAACGCTG CCATCAGGGC TGAGCACCAG AGGGGGCAGG ATGAAATCTC ACAGCTGCAC 
GCGGAAATCG AGGCCCAGAA GAAGGAGCTG GACACCATTC AGGAGTGCAT CAAGTCCAAG 
TACGCCGCGG TGGGCGCCTT GGAGGACAGG GAGCAGAGCT TGGAGGGCAC GGTGAGGGAG 
CTGAGGGCGC AGCTGCAGGA GCAGGAGCAG CGGCGCAGAG CGAGCGAGGA GGAGAAGGAG 
CAGCTCAGGA GCGGCGTGCT GTCCATCCAG AGCGACCTGC AGCAGAGCCA GGCGCTGGCA 
GAGCAGTCCC GCCGGCTGGA GAGGCTGTGT GCCAGCAGCA TGGAGGGGCT GAGCCGGCAG 
CTCAGGGCTC TGCTGAGGAA GCACACGGGG CAGGAGGGGC GGCAGGACGC GGCCGCGGCT 
CCGCAGCCGC CGGCGGAGCA GCTGGAGGCG CTGAGGGAGG CTCTGGGCCG CACCGTGGAG 
GAGCTGCAGG AGGCCCTGAG CAAGAAGGAG CAGCGGTACC ACGAGGAAAC CCTCCGGGTC 
GGGGAGCTGC AGCGGGAGCT GGCCCAGCTG AAGGAGTCCT CGGTGCCGCT GGTGGAGTTC 
ACCCAGCTGA GGGAAGGGCT GCAGGGGGAA ATGGCGGCCC TCAGGCGCAG CCTGCAGGAG 
AAGGAGGCAG AAAGCCAAGG CAGGAGCGAG GAGGTGCTGA GGCTGCAGGC GGAGCTGCAG 
CTGAGCCAGC AGGCCTTGGC AGAGCTGCGG AGCCAGGAGG TGGTGGCCGT GGCAGAGTAC 
AGCTCCATGA AGGCGGCCCT GGAGGCCCAG GTGAGCAGCA TGGCTGGGCA CCTGGCCAGC 
ATGAGCCACA AGTACGAGCA GGCCTGCGAG GAGGCCCTGC AGGCCAGGAG GAGCGAGCTG 
TCCCTCAAGG ACGAGAAGGA GCTGCTCCAG CTCAGGAGCT GCAGCATCGA GCAGGAGATC 
AAGGACCAGA AGGAGAGGTG TGACAAATCC CTGACGACCA TTATTGACCT GCAGAAGAGG 
ATCCAGGAGT CTGCAAAGCA GGTGGAAGCC AAGGACAACA AGATAACAGA GCTGCTGAAC 
GACGTGGAGC GGCTGAAGCA GGCTCTCAAC GGCTTGTCCC AGCTGACATA CACCACTGGG 
ATCCCCTCCA AGAGGCACAA CCAGCAGGTG GAACTGCTCC AGAGCCAAGT GAAAACACTC 
CAGCAGCAGC TGGCTGACGC GGCGCGGCAG CACCAGGAGG TGGTGGCGGT GTACAGGACA 
CACCTGCTCA GCGCCGTGCA GGGACACATG GATGAAGATG TGCAGGCTGC CCTGCTGCAG 
ATCATCCGCA TGCGGCAGGG CCTGGTGTGC TGA

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

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UACA 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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