LOC101234197 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC101234197
Entrez Gene ID	101234197
Full Name	von Willebrand factor D and EGF domain-containing protein-like
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_012575019.1	XP_012430473.1	LOW QUALITY PROTEIN: von Willebrand factor D and EGF domain-containing protein-like
XM_030278455.1	XP_030134315.1	von Willebrand factor D and EGF domain-containing protein-like

Pathways from BioSystems
Gene Ontology

The following LOC101234197 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC101234197 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
OTd20937	XM_012575019.1 Latest version!	Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00
OTd50385	XM_030278455.1 Latest version!	Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

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)

LOC101234197 ( XM_012575019.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430473.1 Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.

Price & Availability↑

CloneID	OTd20937
Clone ID Related Accession (Same CDS sequence)	XM_012575019.1
Accession Version	XM_012575019.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4437bp) 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	LOW QUALITY PROTEIN: von Willebrand factor D and EGF domain-containing protein-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198920.1) 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 :: 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 :: 45% of CDS bases internal stop codons :: corrected 1 genomic stop codon ##RefSeq-Attributes-END##

ATGGCACTGA CATGCTGCAA GCTTCAGAAA CTCTTACCTG AGCTTTTCTA CGTCACTGAA 
GTCCAGCCCC TGAGCATGGA AGTGGCTGCT CCCGAGTGCT GGCCAGGGGG ACACCGCATC 
CTCCGCAACC CCCGCAGGAG CACCAGCTTC GACTCCCTGG AGCTGCAGCG AGTGTCCAGC 
CAGGACCTGG TGTGTGACCA CTCCTTGCCA CCAGCGTGGT ACCGCCTCAT GCTCGGCCAG 
CGGCCCGTGG AAATGCCCAC CAGATGTGTC GAGATGAACA AATGTGGGAC ACAAGCTCCG 
GTGTGGCTGT CACTGAAGTC TGAATCCCTG CCAGCTCCTG GGGAGAGCAA GAGGCTGACG 
GGCTGTGCCA CCTGGCAGGT TTTTGGGGGC ACCAGGGACT GCTGCCTGTT CCGGATCCCC 
ATCGCCGTCA GGAACTGCGG CGCATTCTTT GTGTATCTCC TGCAGCCCAC CCCAGGATGC 
ATGGGCTACT GTGCAGAAGA CAAGCCCACG AGCCTGACTG TGCAACCGGT GATCACTCCC 
GAGCTCGTGC AAGGCCGAGT CCACCTGAAG TGCAGCTACA GCCCCGCTCC CCCTGAGCCC 
CCAGCCCAGT TCAGGGTGCT CTGGTCTCGC CTCTCCAGCC CTGGCAAGAG GGAGCAGATC 
CATCAGGAGA CAACCCCGCA GCCGTTCTCC TACGTGGAGA TGGACGGCGC CAATCTCCGC 
CTGGGAGACA CGGTCTTTTG CACCGTCACA GCTTTTAGGA GGGGCACTCC TGAGCAGCAG 
TCACTGCCTG AGGACAGCAA AGGTTTCTAT GCTGGGATTA AGTTTTTACC AGAATCACTA 
GAAATTGCAG AGGATGGCAA GGAGCATGTT TTGACTGTCC TGAGCACGGT ACCCATTGCC 
TGTCCTGGGC AGGATGATTC CTGTAAAATG ACTTTGCAAC TAAGTACTGA GGACTTGGGC 
AGGCAGGTCC CAGGGCCCCC AGACATCGCC CTCTCAGCCT GCCAGGTGGA TCTGCTGCCG 
GGGCCCTGCT CGGGGAGCAG CTGTGCAGCA GCCACGGTGA CGGTGACAGC TGTGACGGAC 
TTCGCGCAGG ACGGGGACCG CGTCAGCCGC ATCAGCGCCC GCCCAGCCGC ACCAAGGGAT 
TCGCTCTGGA GGGATTACAC ACCCAGGGAT GTGAAGGTCA CAGTTCGAGA CCTCCCAACA 
GGGAACTGCT ACTCTTTCAC TGATCCACAC ATTATCACAT TTGATGGATG GCGCTACGAC 
AGCCATAAAA TCGGGACGTT CCTGCTGTGC CGCAGCGAGT CGCGGGCGTT CGAGGTGCAC 
GTCCGGCAGT GGGACTGCGG CGGCCACCGC TCCGCCACCG CCCGCAACTG CGGGGTAGCT 
GCACGAGAAG GGGGTGACAC CGTGGTGCTG GACACCTGTA ATGGCCACTT TCAGGACAGC 
AGGCCCCAGC TGACCATCAA AAGCACCGAA ACATCGCCAC AAGTCAAAAT CCTGAAGTCG 
TACGGAGGCA GGAAAATAAC AATCCTGTTC CCTTCAGGAG CATTTGTTCG AGCAGACCTG 
AGCGAGTGGG GAATGGGTGT GACAGTGAGG ACGCCGGGCA GGGACTTCAA CAACACGCGG 
GGCTTGTGCG GCCTCTTTGA TGGGATGGCT CACAACGATC TCAACAACGT GCCCGAGGAA 
GACTTCATAG AGGAGTGGAG AATTCCTCCA GGGAAGAGTT TATTTGACAA GACTCCAGCA 
CCCTCCAAGA GGAAGCAAAG GAAAAGTTTC TGCAGATGCC AGAAGGGGAG CACCAAGCCT 
GTCCCCATGG TAAACACAAA AAATGCCTTT CAGATGCCTT CCCCTGAGCC CTCTGGTTGC 
CATGATGAAC ATGTGGACCA CAGCTTTGCA ATCCCACATC TGGATGTTAC ATCTGAGTTT 
GTCACTCACA CAGTAACAGA GTCAACTTTG AGAAAAGATG CCGAACCACC ACCCAAGACT 
TTGGGTCAAA GATATTTTTC TAAATCAGTC CAAAAGCGCA GAAGCCCCGA GGTCCCACTA 
AAGCCTCTCC CACACAATGT TTCCATGAAT AGCAACAGTT CCATCAACTC TACCAAGCCA 
ACAGGAGACC TAAGGAAAGC AAAGAGGCAA GACAAGTATT TTAAATACTC ATCCTTTCAC 
CCACTGCATG GCCCTGCCCA GAGACACTCA GAGAGCTTTG CATATTTTTT CCCCGAGGAC 
TACTTTGAAG GAGTTCGGAT GAAATTTCCA CTGTCATGGC CCACGCCCAA TGGCCTGACT 
GCCACCAAAG CTCAGGAGAT TTGCCACCAA ATTCTTGCAC ATTCCACCAT TGGCTTGGCA 
TGTAAAGGCC TCCTGGCAAA ACACCTGGAT GAGGCAATTG ATATTTGCCT ACTGGACCTG 
CAGCTCAAAG ATGACGTGGC TTGGGTGAGG GCACTGATAG CCCTTTTGGA AAATGAGTGT 
GAAAGGAGAG TGCTGGGGAG CAGGAAGGGA GAGTTCCCTG TTGGAAACCA GCCATCTGCT 
TCCTGGGAGG AGATCCTGGC TGCTCTCCGG TGTCCCGCGC TCTGCAGCGG CCGCGGGCGC 
TGCACAGAGC TGGGCTGCCG GTGCCTTGGA GGGCACAGCT CCTACGACTG CAGCATTGCC 
CAAAAGCAAG CTTTGGAAAT CACAGCCTTG GAGAACGGGG GCCTCTGCGA CGTCCGAGCC 
TCAGACTGCA GCAGGATCCG GGCGTTTGGC CTCGGCTTCA AGGAGTCTCC CAGCCTGCAC 
TGCCAGGTCA CCAGGCTAAT CCATCTCAAT GGAAAATGGA TGTCAAGAGA AGAAGAAAGC 
ACAAAAGCAG ATTTTCTGAG CTCTGAGGCT GTTGACTGCC AGATCCCCCT CCTGAACATC 
ACAGAGGCTG TGCACTTCGT GGCTGGTGAC GAGCCATTGG CAAGATGGCA AGTGAAAATC 
ACTAACGATG GCTTGCAGTA CAGCAATTCC CGAGTGCTGA CCCTGTACGA CGCGGTCTGC 
CAGGTCTGCC AATTCCACCC CGCCGGACTT TGTAAATTAA AGGCCCCCTC CAGCCAGCTG 
CTGACATTTA TTGGTGAGAA TTTTGTTTAC CAGCTAATAG CAGTGGATCC AGAAGGGTCA 
GCTGTGCTAT TCATCTTGGA GGCTGGGCCA CGGGGTGCCC GGCTCTCTCC TGCTGGCCTG 
CTGCTCTGGA AGGTTGAGTC AGAAGAAGTG CAGACCTTTG AATTCACTGT GTCAGATGAG 
TGCAATGCAC AGAGAAGGTA CTCTGTTGAG GTTGGAGTGA AGCCCTGCAG CTGCCTCAAT 
GGTGGCACAT GTGTCACCAA CATTAAATAC CCTCCAGGCC TTGGTGAATA CCTGTGCTTG 
TGTCCAAATG GATTTGATGG AGAATTCTGC CAGGAAGACA TCAGGGACTG CAAATCAAAC 
CCCTGTGGCA GTGGAACCTG CGTGGACAGC GTGGGGAGCT ACTTTTCTGT GCTTGCTGCT 
GATGTTACAG AAGCTTTAAA CAGTGGCAAA GGTGAATTGA ACAGGACTGA GGTTAAGCAG 
CCACTGCAAT CCTCAGAGAC AAAGGATTCT CCTGTAATTA AGAATTTTAA CATAAGTGAT 
AGACACGGAG CTGTGGCACA CAGCTGTGCC AGCCGGCCGT GCTTCCCCGG AGCGCCGTGC 
TTCGACCGCA AGCCGCCCTA CGTTGGGTAC CTCTGTGGCC GCTGCCCTGC TGGCTTTTTT 
GGAAATGGTC GGAGCTGTGC CAAAGTCCCC AGAGCAGCGC AGTGTGAGCC CCCGTGTGAG 
CATGGAGGAA CTTGCCTGCC TCACAACACC TGTTCTTGTG CTTATGGATT TGTAGGGCCT 
CGGTGTGAAA CAATGGTGTG CAGCAGGCAC TGTCACAACG GGGGGGTGTG TGTGTCACCA 
GATGAGTGCC AGTGCAGGCA CGGGTGGAGC AGCCCCTCTT GTGAGACAGC TGTGTGCAAT 
CCTGTGTGCC TGAATGGAGG AGTCTGTGTA CGGCCAAACA CGTGCTCGTG TCCTTCTGGT 
TTCTATGGGC CACAGTGCCA GAGAGCTCTT TGCATTCCCC CCTGTAAGAA TGGTGGTCAC 
TGTGTCCGGA CCAATGTCTG CTCCTGTGCC GAGGGCTACA CTGGAAGAAG GTGCCAGAAA 
AGTGTCTGTG AGCCCACGTG CATGAACGGG GGGAGATGAT GTGTGCACCC CAATGTCTGT 
GACTGCCCGT CTGGCTGGAG GGGAAAGCAC TGCAGCAAAC CTGTGTGCCT GCAGAGGTGC 
CTCAATGGAG GGGAGTGTGT CGCCCCCAAC GCCTGCCAGT GCCCCGGAGG ATGGGTGGGA 
ACGCTGTGCC AGACCCGTTT GTGCCTGAAG TCAATCATCT TAAAGGTCTT TTCCAAGCTA 
AAAGATTCCA TGATTCTATT ACGTGTAAAA GTCAACCATA ACACGATTAT CACCTAA

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

RefSeq	XP_012430473.1
CDS	1..4437
Translation	MALTCCKLQKLLPELFYVTEVQPLSMEVAAPECWPGGHRILRNPRRSTSFDSLELQRVSSQDLVCDHSLPPAWYRLMLGQRPVEMPTRCVEMNKCGTQAPVWLSLKSESLPAPGESKRLTGCATWQVFGGTRDCCLFRIPIAVRNCGAFFVYLLQPTPGCMGYCAEDKPTSLTVQPVITPELVQGRVHLKCSYSPAPPEPPAQFRVLWSRLSSPGKREQIHQETTPQPFSYVEMDGANLRLGDTVFCTVTAFRRGTPEQQSLPEDSKGFYAGIKFLPESLEIAEDGKEHVLTVLSTVPIACPGQDDSCKMTLQLSTEDLGRQVPGPPDIALSACQVDLLPGPCSGSSCAAATVTVTAVTDFAQDGDRVSRISARPAAPRDSLWRDYTPRDVKVTVRDLPTGNCYSFTDPHIITFDGWRYDSHKIGTFLLCRSESRAFEVHVRQWDCGGHRSATARNCGVAAREGGDTVVLDTCNGHFQDSRPQLTIKSTETSPQVKILKSYGGRKITILFPSGAFVRADLSEWGMGVTVRTPGRDFNNTRGLCGLFDGMAHNDLNNVPEEDFIEEWRIPPGKSLFDKTPAPSKRKQRKSFCRCQKGSTKPVPMVNTKNAFQMPSPEPSGCHDEHVDHSFAIPHLDVTSEFVTHTVTESTLRKDAEPPPKTLGQRYFSKSVQKRRSPEVPLKPLPHNVSMNSNSSINSTKPTGDLRKAKRQDKYFKYSSFHPLHGPAQRHSESFAYFFPEDYFEGVRMKFPLSWPTPNGLTATKAQEICHQILAHSTIGLACKGLLAKHLDEAIDICLLDLQLKDDVAWVRALIALLENECERRVLGSRKGEFPVGNQPSASWEEILAALRCPALCSGRGRCTELGCRCLGGHSSYDCSIAQKQALEITALENGGLCDVRASDCSRIRAFGLGFKESPSLHCQVTRLIHLNGKWMSREEESTKADFLSSEAVDCQIPLLNITEAVHFVAGDEPLARWQVKITNDGLQYSNSRVLTLYDAVCQVCQFHPAGLCKLKAPSSQLLTFIGENFVYQLIAVDPEGSAVLFILEAGPRGARLSPAGLLLWKVESEEVQTFEFTVSDECNAQRRYSVEVGVKPCSCLNGGTCVTNIKYPPGLGEYLCLCPNGFDGEFCQEDIRDCKSNPCGSGTCVDSVGSYFSVLAADVTEALNSGKGELNRTEVKQPLQSSETKDSPVIKNFNISDRHGAVAHSCASRPCFPGAPCFDRKPPYVGYLCGRCPAGFFGNGRSCAKVPRAAQCEPPCEHGGTCLPHNTCSCAYGFVGPRCETMVCSRHCHNGGVCVSPDECQCRHGWSSPSCETAVCNPVCLNGGVCVRPNTCSCPSGFYGPQCQRALCIPPCKNGGHCVRTNVCSCAEGYTGRRCQKSVCEPTCMNGGR*CVHPNVCDCPSGWRGKHCSKPVCLQRCLNGGECVAPNACQCPGGWVGTLCQTRLCLKSIILKVFSKLKDSMILLRVKVNHNTIIT

Target ORF information:

RefSeq Version	XM_012575019.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.

Target ORF information:

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

XM_012575019.1

ORF Insert Sequence:

ATGGCACTGA CATGCTGCAA GCTTCAGAAA CTCTTACCTG AGCTTTTCTA CGTCACTGAA 
GTCCAGCCCC TGAGCATGGA AGTGGCTGCT CCCGAGTGCT GGCCAGGGGG ACACCGCATC 
CTCCGCAACC CCCGCAGGAG CACCAGCTTC GACTCCCTGG AGCTGCAGCG AGTGTCCAGC 
CAGGACCTGG TGTGTGACCA CTCCTTGCCA CCAGCGTGGT ACCGCCTCAT GCTCGGCCAG 
CGGCCCGTGG AAATGCCCAC CAGATGTGTC GAGATGAACA AATGTGGGAC ACAAGCTCCG 
GTGTGGCTGT CACTGAAGTC TGAATCCCTG CCAGCTCCTG GGGAGAGCAA GAGGCTGACG 
GGCTGTGCCA CCTGGCAGGT TTTTGGGGGC ACCAGGGACT GCTGCCTGTT CCGGATCCCC 
ATCGCCGTCA GGAACTGCGG CGCATTCTTT GTGTATCTCC TGCAGCCCAC CCCAGGATGC 
ATGGGCTACT GTGCAGAAGA CAAGCCCACG AGCCTGACTG TGCAACCGGT GATCACTCCC 
GAGCTCGTGC AAGGCCGAGT CCACCTGAAG TGCAGCTACA GCCCCGCTCC CCCTGAGCCC 
CCAGCCCAGT TCAGGGTGCT CTGGTCTCGC CTCTCCAGCC CTGGCAAGAG GGAGCAGATC 
CATCAGGAGA CAACCCCGCA GCCGTTCTCC TACGTGGAGA TGGACGGCGC CAATCTCCGC 
CTGGGAGACA CGGTCTTTTG CACCGTCACA GCTTTTAGGA GGGGCACTCC TGAGCAGCAG 
TCACTGCCTG AGGACAGCAA AGGTTTCTAT GCTGGGATTA AGTTTTTACC AGAATCACTA 
GAAATTGCAG AGGATGGCAA GGAGCATGTT TTGACTGTCC TGAGCACGGT ACCCATTGCC 
TGTCCTGGGC AGGATGATTC CTGTAAAATG ACTTTGCAAC TAAGTACTGA GGACTTGGGC 
AGGCAGGTCC CAGGGCCCCC AGACATCGCC CTCTCAGCCT GCCAGGTGGA TCTGCTGCCG 
GGGCCCTGCT CGGGGAGCAG CTGTGCAGCA GCCACGGTGA CGGTGACAGC TGTGACGGAC 
TTCGCGCAGG ACGGGGACCG CGTCAGCCGC ATCAGCGCCC GCCCAGCCGC ACCAAGGGAT 
TCGCTCTGGA GGGATTACAC ACCCAGGGAT GTGAAGGTCA CAGTTCGAGA CCTCCCAACA 
GGGAACTGCT ACTCTTTCAC TGATCCACAC ATTATCACAT TTGATGGATG GCGCTACGAC 
AGCCATAAAA TCGGGACGTT CCTGCTGTGC CGCAGCGAGT CGCGGGCGTT CGAGGTGCAC 
GTCCGGCAGT GGGACTGCGG CGGCCACCGC TCCGCCACCG CCCGCAACTG CGGGGTAGCT 
GCACGAGAAG GGGGTGACAC CGTGGTGCTG GACACCTGTA ATGGCCACTT TCAGGACAGC 
AGGCCCCAGC TGACCATCAA AAGCACCGAA ACATCGCCAC AAGTCAAAAT CCTGAAGTCG 
TACGGAGGCA GGAAAATAAC AATCCTGTTC CCTTCAGGAG CATTTGTTCG AGCAGACCTG 
AGCGAGTGGG GAATGGGTGT GACAGTGAGG ACGCCGGGCA GGGACTTCAA CAACACGCGG 
GGCTTGTGCG GCCTCTTTGA TGGGATGGCT CACAACGATC TCAACAACGT GCCCGAGGAA 
GACTTCATAG AGGAGTGGAG AATTCCTCCA GGGAAGAGTT TATTTGACAA GACTCCAGCA 
CCCTCCAAGA GGAAGCAAAG GAAAAGTTTC TGCAGATGCC AGAAGGGGAG CACCAAGCCT 
GTCCCCATGG TAAACACAAA AAATGCCTTT CAGATGCCTT CCCCTGAGCC CTCTGGTTGC 
CATGATGAAC ATGTGGACCA CAGCTTTGCA ATCCCACATC TGGATGTTAC ATCTGAGTTT 
GTCACTCACA CAGTAACAGA GTCAACTTTG AGAAAAGATG CCGAACCACC ACCCAAGACT 
TTGGGTCAAA GATATTTTTC TAAATCAGTC CAAAAGCGCA GAAGCCCCGA GGTCCCACTA 
AAGCCTCTCC CACACAATGT TTCCATGAAT AGCAACAGTT CCATCAACTC TACCAAGCCA 
ACAGGAGACC TAAGGAAAGC AAAGAGGCAA GACAAGTATT TTAAATACTC ATCCTTTCAC 
CCACTGCATG GCCCTGCCCA GAGACACTCA GAGAGCTTTG CATATTTTTT CCCCGAGGAC 
TACTTTGAAG GAGTTCGGAT GAAATTTCCA CTGTCATGGC CCACGCCCAA TGGCCTGACT 
GCCACCAAAG CTCAGGAGAT TTGCCACCAA ATTCTTGCAC ATTCCACCAT TGGCTTGGCA 
TGTAAAGGCC TCCTGGCAAA ACACCTGGAT GAGGCAATTG ATATTTGCCT ACTGGACCTG 
CAGCTCAAAG ATGACGTGGC TTGGGTGAGG GCACTGATAG CCCTTTTGGA AAATGAGTGT 
GAAAGGAGAG TGCTGGGGAG CAGGAAGGGA GAGTTCCCTG TTGGAAACCA GCCATCTGCT 
TCCTGGGAGG AGATCCTGGC TGCTCTCCGG TGTCCCGCGC TCTGCAGCGG CCGCGGGCGC 
TGCACAGAGC TGGGCTGCCG GTGCCTTGGA GGGCACAGCT CCTACGACTG CAGCATTGCC 
CAAAAGCAAG CTTTGGAAAT CACAGCCTTG GAGAACGGGG GCCTCTGCGA CGTCCGAGCC 
TCAGACTGCA GCAGGATCCG GGCGTTTGGC CTCGGCTTCA AGGAGTCTCC CAGCCTGCAC 
TGCCAGGTCA CCAGGCTAAT CCATCTCAAT GGAAAATGGA TGTCAAGAGA AGAAGAAAGC 
ACAAAAGCAG ATTTTCTGAG CTCTGAGGCT GTTGACTGCC AGATCCCCCT CCTGAACATC 
ACAGAGGCTG TGCACTTCGT GGCTGGTGAC GAGCCATTGG CAAGATGGCA AGTGAAAATC 
ACTAACGATG GCTTGCAGTA CAGCAATTCC CGAGTGCTGA CCCTGTACGA CGCGGTCTGC 
CAGGTCTGCC AATTCCACCC CGCCGGACTT TGTAAATTAA AGGCCCCCTC CAGCCAGCTG 
CTGACATTTA TTGGTGAGAA TTTTGTTTAC CAGCTAATAG CAGTGGATCC AGAAGGGTCA 
GCTGTGCTAT TCATCTTGGA GGCTGGGCCA CGGGGTGCCC GGCTCTCTCC TGCTGGCCTG 
CTGCTCTGGA AGGTTGAGTC AGAAGAAGTG CAGACCTTTG AATTCACTGT GTCAGATGAG 
TGCAATGCAC AGAGAAGGTA CTCTGTTGAG GTTGGAGTGA AGCCCTGCAG CTGCCTCAAT 
GGTGGCACAT GTGTCACCAA CATTAAATAC CCTCCAGGCC TTGGTGAATA CCTGTGCTTG 
TGTCCAAATG GATTTGATGG AGAATTCTGC CAGGAAGACA TCAGGGACTG CAAATCAAAC 
CCCTGTGGCA GTGGAACCTG CGTGGACAGC GTGGGGAGCT ACTTTTCTGT GCTTGCTGCT 
GATGTTACAG AAGCTTTAAA CAGTGGCAAA GGTGAATTGA ACAGGACTGA GGTTAAGCAG 
CCACTGCAAT CCTCAGAGAC AAAGGATTCT CCTGTAATTA AGAATTTTAA CATAAGTGAT 
AGACACGGAG CTGTGGCACA CAGCTGTGCC AGCCGGCCGT GCTTCCCCGG AGCGCCGTGC 
TTCGACCGCA AGCCGCCCTA CGTTGGGTAC CTCTGTGGCC GCTGCCCTGC TGGCTTTTTT 
GGAAATGGTC GGAGCTGTGC CAAAGTCCCC AGAGCAGCGC AGTGTGAGCC CCCGTGTGAG 
CATGGAGGAA CTTGCCTGCC TCACAACACC TGTTCTTGTG CTTATGGATT TGTAGGGCCT 
CGGTGTGAAA CAATGGTGTG CAGCAGGCAC TGTCACAACG GGGGGGTGTG TGTGTCACCA 
GATGAGTGCC AGTGCAGGCA CGGGTGGAGC AGCCCCTCTT GTGAGACAGC TGTGTGCAAT 
CCTGTGTGCC TGAATGGAGG AGTCTGTGTA CGGCCAAACA CGTGCTCGTG TCCTTCTGGT 
TTCTATGGGC CACAGTGCCA GAGAGCTCTT TGCATTCCCC CCTGTAAGAA TGGTGGTCAC 
TGTGTCCGGA CCAATGTCTG CTCCTGTGCC GAGGGCTACA CTGGAAGAAG GTGCCAGAAA 
AGTGTCTGTG AGCCCACGTG CATGAACGGG GGGAGATGAT GTGTGCACCC CAATGTCTGT 
GACTGCCCGT CTGGCTGGAG GGGAAAGCAC TGCAGCAAAC CTGTGTGCCT GCAGAGGTGC 
CTCAATGGAG GGGAGTGTGT CGCCCCCAAC GCCTGCCAGT GCCCCGGAGG ATGGGTGGGA 
ACGCTGTGCC AGACCCGTTT GTGCCTGAAG TCAATCATCT TAAAGGTCTT TTCCAAGCTA 
AAAGATTCCA TGATTCTATT ACGTGTAAAA GTCAACCATA ACACGATTAT CACCTAA

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

LOC101234197 ( XM_030278455.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030134315.1 Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.

Price & Availability↑

CloneID	OTd50385
Clone ID Related Accession (Same CDS sequence)	XM_030278455.1
Accession Version	XM_030278455.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5295bp) 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	von Willebrand factor D and EGF domain-containing protein-like
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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 :: 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## ##RefSeq-Attributes-START## ab initio :: 15% of CDS bases ##RefSeq-Attributes-END##

ATGAGCAGGA GGGACAGACC TTCAGCAAAA AGACTCAAAG CAGCATTTTT CCCACCAATA 
CTTCTGCCCA AAAAGTGTAC AGCTCCCGAG TGCTGGCCAG GGGGACACCG CATCCTCCGC 
AACCCCCGCA GGAGCACCAG CTTCGACTCC CTGGAGCTGC AGCGAGTGTC CAGCCAGGAC 
CTGGTGTGTG ACCACTCCTT GCCACCAGCG TGGTACCGCC TCATGCTCGG CCAGCGGCCC 
GTGGAAATGC CCACCAGATG TGTCGAGATG AACAAATGTG GGACACAAGC TCCGGTGTGG 
CTGTCACTGA AGTCTGAATC CCTGCCAGCT CCTGGGGAGA GCAAGAGGCT GACGGGCTGT 
GCCACCTGGC AGGTTTTTGG GGGCACCAGG GACTGCTGCC TGTTCCGCAT CCCCATCGCC 
GTCAGGAACT GCGGCGCGTT CTTTGTGTAT CTCCTGCAGC CCACCCCAGG ATGCATGGGC 
TACTGTGCAG AAGACAAGCC CACGAGCCTG ACTGTGCAAC CGGTGATCAC TCCCGAGCTC 
GTGCAAGGCC GAGTCCACCT GAAGTGCAGC TACAGCCCCG CTCCCCCTGA GCCCCCAGCC 
CAGTTCAGGG TGCTCTGGTC TCGCCTCTCC AGCCCTGGCA AGAGGGAGCA GATCCATCAG 
GAGACAACCC CGCAGCCGTT CTCCTACGTG GAGATGGACG GCGCCAATCT CCGCCTGGGA 
GACACGGTCT TTTGCACCGT CACAGCTTTT AGGAGGGGCA CTCCTGAGCA GCAGTCACTG 
CCTGAGGACA GCAAAGGTTT CTATGCTGGG ATTAAGTTTT TACCAGAATC ACTAGAAATT 
GCAGAGGATG GCAAGGAGCA TGTTTTGACT GTCCTGAGCA CGGTACCCAT TGCCTGTCCT 
GGGCAGGATG ATTCCTGTAA AATGACTTTG CAACTAAGTA CTGAGGACTT GGGCAGGCAG 
GTCCCAGGGC CCCCAGACAT CGCCCTCTCA GCCTGCCAGG TGGATCTGCT GCCGGAGCCC 
TGCTCGGGGA GCAGCTGTGC AGCGGCCACG GTGACGGTGA CAGCTGTGAC GGACTTCGCG 
CAGGACGGGG ACCGCGTCAG CCGCATCAGC GCCCGCCCAG CCGCACCAAG GGATTCGCTC 
TGGAGGGATT ACACACCCAG GGATGTGAAG GTCACAGTTC GAGACCTCCC AACAGGGAAC 
TGCTACTCTT TCACTGATCC ACATATTATC ACATTTGATG GATGGCGCTA CGACAGCCAT 
AAAATCGGGA CGTTCCTGCT GTGCCGCAGC GAGTCGCGGG CGTTCGAGGT GCACGTCCGG 
CAGTGGGACT GCGGCGGCCA CCGCTCCGCC ACCGCCTGCA ACTGCGGGGT AGCTGCACGA 
GAAGGGGGTG ACACCGTGGT GCTGGACACC TGTAATGGCC ACTTTCAGGA TAGCAGGCCC 
CAGCTGACCA TCAAAAGCAC CGAAACATCG CCACAAGTCA AAATCCTGAA GTCGTACGGA 
GGCAGGAAAA TAACAATCCT GTTCCCTTCA GGAGCATTTG TTCGAGCAGA CCTGAGCGAG 
TGGGGAATGG GTGTGACAGT GAGGACGCCG GGCAGGGACT TCAACAACAC GCGGGGCTTG 
TGCGGCCTCT TTGATGGGAT GGCTCACAAC GATCTCAACA ACGTGCCCGA GGAAGACTTC 
ATAGAGGAGT GGAGAATTCC TCCAGGGAAG AGTTTATTTG ACAAGACTCC AGCACCCTCC 
AAGAGGAAGC AAAGGAAAAG TTTCTGCAGA TGCCAGAAGG GGAGCACCAA GCCTGTCCCC 
ATGGTAAACA CAAAAAATGC CTTTCAGATG CCTTCCCCTG AGCCCTCTGG TTGCCATGAT 
GAACATGTGG ACCACAGCTT TGCAATCCCA CATCTGGATG TTACATCTGA GTTTGTCACT 
CACACAGTAA CAGAGTCAAC TTTGAGAAAA GATGCCGAAC CACCACCCAA GACTTTGGGT 
CAAAGATATT TTTCTAAATC AGTCCAAAAG CGCAGAAGCC CCGAGGTCCC ACTAAAGCCT 
CTCCCACACA ATGTTTCCAT GAATAGCAAC AGTTCCATCA ACTCTACCAA GCCAACAGGA 
GACCTAAGGA AAGCAAAGAG GCAAGACAAG TATTTTAAAT ACTCATCCTT TCACCCACTG 
CATGGCCCTG CCCAGAGACA CTCAGAGAGC TTTGCATATT TTTTCCCCGA GGACTACTTT 
GAAGGAGTTC GGATGAAATT TCCACTGTCA TGGCCCACGC CCAATGGCCT GACTGCCACC 
AAAGCTCAGG AGATTTGCCA CCAAATTCTT GCACATTCCA CCATTGGCTT GGCATGTAAA 
GGCCTCCTGG CAAAACACCT GGATGAGGCA ATTGATATTT GCCTACTGGA CCTGCAGCTC 
AAAGATGACG TGGCTTGGGT GAGGGCACTG ATAGCCCTTT TGGAAAATGA GTGTGAAAGG 
AGAGTGCTGG GGAGCAGGAA GGGAGAGTTC CCTGTTGGAA ACCAGCCATC TGCTTCCTGG 
GAGGAGATCC TGGCTGCTCT CCGGTGTCCC GCGCTCTGCA GCGGCCGCGG GCGCTGCACA 
GAGCTGGGCT GCCGGTGCCT TGGAGGGCAC AGCTCCTACG ACTGCAGCAT TGCCCAAAAG 
CAAGCTTTGG AAATCACAGC CTTGGAGAAC GGGGGCCTCT GCGACGTCCG AGCCTCAGAC 
TGCAGCAGGA TCCGGGCGTT TGGCCTCGGC TTCAAGGAGT CTCCCAGCCT GCACTGCCAG 
GTCACCAGGC TAATCCATCT CAATGGAAAA TGGATGTCAA GAGAAGAAGA AAGCACAAAA 
GCAGATTTTC TGAGCTCTGA GGCTGTTGAC TGCCAGATCC CCCTCCTGAA CATCACAGAG 
GCTGTGCACT TCGTGGCTGG TGACGAGCCA TTGGCAAGAT GGCAAGTGAA AAGGAACCAG 
ACTGACGGCT ACGCAGCGAA TGCTCAATTA AATCATCTCC GTCTGCACAT CACTAACGAT 
GGCTTGCAGT ACAGCAATTC CCGAGTGCTG ACCCTGTACG ACGCGGTCTG CCAGGTCTGC 
CAATTCCACC CCGCCGGACT TTGTAAATTA AAGGCCCCCT CCAGCCAGCT GCTGACATTT 
ATTGGTGAGA ATTTTGTTTA CCAGCTAATA GCAGTGGATC CAGAAGGGTC AGCTGTGCTA 
TTCATCTTGG AGGCTGGGCC ACGGGGTGCC CGGCTCTCTC CTGCTGGCCT GCTGCTCTGG 
AAGGTTGAGT CAGAAGAAAT GCAAACCTTT GAATTCACTG TGTCAGATGA GTGCAATGCA 
CAGAGCAGAT ACTCTGTTGA GGTTGGAGTG AAGCCCTGCA GCTGCCTCAA TGGTGGCACA 
TGTGTCACCA ACATTAAATA CCCTCCAGGC CTTGGTGAAT ACCTGTGCTT GTGTCCAAAT 
GGATTTGATG GAGAATTCTG CCAGGAAGAC ATCAGGGACT GCAAATCAAA CCCCTGTGGC 
AGTGGAACCT GCGTGGACAG CGTGGGGAGC TACTTTTGTA AATGCCCCCC TGGTTTGGGA 
GGGCTTACTT GTCAGGAGGA CAAGAACGAA TGTGAAGAGA GCCTTTGTTT TCCTGGAGTG 
TCTTGTATGA ATACCTTTGG ATCTTATGCG TGTGGAATTT GCCCCACTGG GATGGAGGGA 
AATGGTAAAA CTTGCAAATC TGTGCTTGCT GCTGATGTTA CAGAAGCTTT AAACAGTGGC 
AAAGGTGAAT TGAACAGGAC TGAGGTTAAG CAGCCACTGC AATCCTCAGA GACAAAGGAT 
TCTCCTGTAA TTAAGAATTT TAACATAAGT GATAGACACG GAGCTGTGGC ACACAGCTGT 
GCCAGCCGGC CGTGCTTCCC CGGAGCGCCG TGCTTCGACC GCAAGCCGCC CTACGTTGGG 
TACCTCTGTG GCCGCTGCCC TGCTGGCTTT TTTGGAAATG GTCGGAGCTG TGCCAAAGTC 
CCCAGAGCAG TTTCAAGATC TTTCCAAAGC CATGTGGACT TTCCTGGAAG AAACATTGAA 
GATGCTAGAG ACTCTCACCA AGAAGATGCA TCTAAGACAT CAAGAAATGC ATTTCCCCTT 
CTTTCTCAAC CCCAAATTCC AAGACAAAAT ATTACATTCC TTTTGGAGAG AAACCCCGCA 
GCCATTCACA CTCCATCCCT TACAATGGAA AGGGAGACTT CCCAAGCTCA GATGTCACCA 
GAAAAACAAC CTGACATGGA GTTCACAGCA CCTGAGAAAC ATCTTTTTCT TGAGAAAAGT 
GGCACACCCC TTCTGCATGA GGAGCCAGAG CCCAGAGCTC CAGGTGTCAG TGTGACCTCC 
CACCCCTCTC TCCGTGTTAG GCAGCACAAA GAAACTTCAG CACGGACTGT TCCTCCTCAT 
ACCAACACAA ACTCAGATTC ATTCCCTGCA AGCTCACAGA CTCATTCCAG GCATGGTTAT 
TCTCCCAGGA GATGGCCCAG CCGAGTCTCA GTCTTGAGGA ACAAACCACC CCAGGGTTTC 
CCAGCAGAGC AGCCCAGAGC ATCTCCTGTG GGCACACATC GGCTGGGCCC TTCCCGGGAT 
GCTGCATCCC TGTGTGCTGA CCTGCCATGT TTCACTGGAG TGCATTGCAA ACCAGCTGGA 
GATGGGGAGT TTCAATGTGG TCCTTGTCCC CCTGGGTACA GTGGTGATGG AATTACGTGT 
GAAGCGCAGT GTGAGCCCCC GTGTGAGCAT GGAGGAACTT GCCTGCCTCA CAACACCTGT 
TCTTGTGCTT ATGGATTTGT AGGGCCTCGG TGTGAAACAA TGGTGTGCAG CAGGCACTGT 
CACAACGGGG GGGTGTGTGT GTCACCAGAT GAGTGCCAGT GCAGGCACGG GTGGAGCAGC 
CCCTCTTGTG AGACAGCTGT GTGCAATCCT GTGTGCCTGA ATGGAGGAGT CTGTGTACGG 
CCAAACACGT GCTCGTGTCC TTCTGGTTTC TATGGGCCAC AGTGCCAGAG AGCTCTTTGC 
ATTCCCCCCT GTAAGAATGG TGGTCACTGT GTCCGGACCA ATGTCTGCTC CTGTGCCGAG 
GGCTACACTG GAAGAAGGTG CCAGAAAAGT GTCTGTGAGC CCACGTGCAT GAACGGGGGG 
AGATGTGTGC ACCCCAATGT CTGTGACTGC CCGTCTGGCT GGAGGGGAAA GCACTGCAGC 
AAACCTGTGT GCCTGCAGAG GTGCCTCAAT GGAGGGGAGT GTGTCGCCCC CAACGCCTGC 
CAGTGCCCTG GAGGATGGGT GGGAACGCTG TGCCAGACCC CTCTCAATAG GATGAAGAGA 
GCAGCAGGAC AATGA

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

RefSeq	XP_030134315.1
CDS	1..5295
Translation	MSRRDRPSAKRLKAAFFPPILLPKKCTAPECWPGGHRILRNPRRSTSFDSLELQRVSSQDLVCDHSLPPAWYRLMLGQRPVEMPTRCVEMNKCGTQAPVWLSLKSESLPAPGESKRLTGCATWQVFGGTRDCCLFRIPIAVRNCGAFFVYLLQPTPGCMGYCAEDKPTSLTVQPVITPELVQGRVHLKCSYSPAPPEPPAQFRVLWSRLSSPGKREQIHQETTPQPFSYVEMDGANLRLGDTVFCTVTAFRRGTPEQQSLPEDSKGFYAGIKFLPESLEIAEDGKEHVLTVLSTVPIACPGQDDSCKMTLQLSTEDLGRQVPGPPDIALSACQVDLLPEPCSGSSCAAATVTVTAVTDFAQDGDRVSRISARPAAPRDSLWRDYTPRDVKVTVRDLPTGNCYSFTDPHIITFDGWRYDSHKIGTFLLCRSESRAFEVHVRQWDCGGHRSATACNCGVAAREGGDTVVLDTCNGHFQDSRPQLTIKSTETSPQVKILKSYGGRKITILFPSGAFVRADLSEWGMGVTVRTPGRDFNNTRGLCGLFDGMAHNDLNNVPEEDFIEEWRIPPGKSLFDKTPAPSKRKQRKSFCRCQKGSTKPVPMVNTKNAFQMPSPEPSGCHDEHVDHSFAIPHLDVTSEFVTHTVTESTLRKDAEPPPKTLGQRYFSKSVQKRRSPEVPLKPLPHNVSMNSNSSINSTKPTGDLRKAKRQDKYFKYSSFHPLHGPAQRHSESFAYFFPEDYFEGVRMKFPLSWPTPNGLTATKAQEICHQILAHSTIGLACKGLLAKHLDEAIDICLLDLQLKDDVAWVRALIALLENECERRVLGSRKGEFPVGNQPSASWEEILAALRCPALCSGRGRCTELGCRCLGGHSSYDCSIAQKQALEITALENGGLCDVRASDCSRIRAFGLGFKESPSLHCQVTRLIHLNGKWMSREEESTKADFLSSEAVDCQIPLLNITEAVHFVAGDEPLARWQVKRNQTDGYAANAQLNHLRLHITNDGLQYSNSRVLTLYDAVCQVCQFHPAGLCKLKAPSSQLLTFIGENFVYQLIAVDPEGSAVLFILEAGPRGARLSPAGLLLWKVESEEMQTFEFTVSDECNAQSRYSVEVGVKPCSCLNGGTCVTNIKYPPGLGEYLCLCPNGFDGEFCQEDIRDCKSNPCGSGTCVDSVGSYFCKCPPGLGGLTCQEDKNECEESLCFPGVSCMNTFGSYACGICPTGMEGNGKTCKSVLAADVTEALNSGKGELNRTEVKQPLQSSETKDSPVIKNFNISDRHGAVAHSCASRPCFPGAPCFDRKPPYVGYLCGRCPAGFFGNGRSCAKVPRAVSRSFQSHVDFPGRNIEDARDSHQEDASKTSRNAFPLLSQPQIPRQNITFLLERNPAAIHTPSLTMERETSQAQMSPEKQPDMEFTAPEKHLFLEKSGTPLLHEEPEPRAPGVSVTSHPSLRVRQHKETSARTVPPHTNTNSDSFPASSQTHSRHGYSPRRWPSRVSVLRNKPPQGFPAEQPRASPVGTHRLGPSRDAASLCADLPCFTGVHCKPAGDGEFQCGPCPPGYSGDGITCEAQCEPPCEHGGTCLPHNTCSCAYGFVGPRCETMVCSRHCHNGGVCVSPDECQCRHGWSSPSCETAVCNPVCLNGGVCVRPNTCSCPSGFYGPQCQRALCIPPCKNGGHCVRTNVCSCAEGYTGRRCQKSVCEPTCMNGGRCVHPNVCDCPSGWRGKHCSKPVCLQRCLNGGECVAPNACQCPGGWVGTLCQTPLNRMKRAAGQ

Target ORF information:

RefSeq Version	XM_030278455.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata von Willebrand factor D and EGF domain-containing protein-like (LOC101234197), mRNA.

Target ORF information:

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

XM_030278455.1

ORF Insert Sequence:

ATGAGCAGGA GGGACAGACC TTCAGCAAAA AGACTCAAAG CAGCATTTTT CCCACCAATA 
CTTCTGCCCA AAAAGTGTAC AGCTCCCGAG TGCTGGCCAG GGGGACACCG CATCCTCCGC 
AACCCCCGCA GGAGCACCAG CTTCGACTCC CTGGAGCTGC AGCGAGTGTC CAGCCAGGAC 
CTGGTGTGTG ACCACTCCTT GCCACCAGCG TGGTACCGCC TCATGCTCGG CCAGCGGCCC 
GTGGAAATGC CCACCAGATG TGTCGAGATG AACAAATGTG GGACACAAGC TCCGGTGTGG 
CTGTCACTGA AGTCTGAATC CCTGCCAGCT CCTGGGGAGA GCAAGAGGCT GACGGGCTGT 
GCCACCTGGC AGGTTTTTGG GGGCACCAGG GACTGCTGCC TGTTCCGCAT CCCCATCGCC 
GTCAGGAACT GCGGCGCGTT CTTTGTGTAT CTCCTGCAGC CCACCCCAGG ATGCATGGGC 
TACTGTGCAG AAGACAAGCC CACGAGCCTG ACTGTGCAAC CGGTGATCAC TCCCGAGCTC 
GTGCAAGGCC GAGTCCACCT GAAGTGCAGC TACAGCCCCG CTCCCCCTGA GCCCCCAGCC 
CAGTTCAGGG TGCTCTGGTC TCGCCTCTCC AGCCCTGGCA AGAGGGAGCA GATCCATCAG 
GAGACAACCC CGCAGCCGTT CTCCTACGTG GAGATGGACG GCGCCAATCT CCGCCTGGGA 
GACACGGTCT TTTGCACCGT CACAGCTTTT AGGAGGGGCA CTCCTGAGCA GCAGTCACTG 
CCTGAGGACA GCAAAGGTTT CTATGCTGGG ATTAAGTTTT TACCAGAATC ACTAGAAATT 
GCAGAGGATG GCAAGGAGCA TGTTTTGACT GTCCTGAGCA CGGTACCCAT TGCCTGTCCT 
GGGCAGGATG ATTCCTGTAA AATGACTTTG CAACTAAGTA CTGAGGACTT GGGCAGGCAG 
GTCCCAGGGC CCCCAGACAT CGCCCTCTCA GCCTGCCAGG TGGATCTGCT GCCGGAGCCC 
TGCTCGGGGA GCAGCTGTGC AGCGGCCACG GTGACGGTGA CAGCTGTGAC GGACTTCGCG 
CAGGACGGGG ACCGCGTCAG CCGCATCAGC GCCCGCCCAG CCGCACCAAG GGATTCGCTC 
TGGAGGGATT ACACACCCAG GGATGTGAAG GTCACAGTTC GAGACCTCCC AACAGGGAAC 
TGCTACTCTT TCACTGATCC ACATATTATC ACATTTGATG GATGGCGCTA CGACAGCCAT 
AAAATCGGGA CGTTCCTGCT GTGCCGCAGC GAGTCGCGGG CGTTCGAGGT GCACGTCCGG 
CAGTGGGACT GCGGCGGCCA CCGCTCCGCC ACCGCCTGCA ACTGCGGGGT AGCTGCACGA 
GAAGGGGGTG ACACCGTGGT GCTGGACACC TGTAATGGCC ACTTTCAGGA TAGCAGGCCC 
CAGCTGACCA TCAAAAGCAC CGAAACATCG CCACAAGTCA AAATCCTGAA GTCGTACGGA 
GGCAGGAAAA TAACAATCCT GTTCCCTTCA GGAGCATTTG TTCGAGCAGA CCTGAGCGAG 
TGGGGAATGG GTGTGACAGT GAGGACGCCG GGCAGGGACT TCAACAACAC GCGGGGCTTG 
TGCGGCCTCT TTGATGGGAT GGCTCACAAC GATCTCAACA ACGTGCCCGA GGAAGACTTC 
ATAGAGGAGT GGAGAATTCC TCCAGGGAAG AGTTTATTTG ACAAGACTCC AGCACCCTCC 
AAGAGGAAGC AAAGGAAAAG TTTCTGCAGA TGCCAGAAGG GGAGCACCAA GCCTGTCCCC 
ATGGTAAACA CAAAAAATGC CTTTCAGATG CCTTCCCCTG AGCCCTCTGG TTGCCATGAT 
GAACATGTGG ACCACAGCTT TGCAATCCCA CATCTGGATG TTACATCTGA GTTTGTCACT 
CACACAGTAA CAGAGTCAAC TTTGAGAAAA GATGCCGAAC CACCACCCAA GACTTTGGGT 
CAAAGATATT TTTCTAAATC AGTCCAAAAG CGCAGAAGCC CCGAGGTCCC ACTAAAGCCT 
CTCCCACACA ATGTTTCCAT GAATAGCAAC AGTTCCATCA ACTCTACCAA GCCAACAGGA 
GACCTAAGGA AAGCAAAGAG GCAAGACAAG TATTTTAAAT ACTCATCCTT TCACCCACTG 
CATGGCCCTG CCCAGAGACA CTCAGAGAGC TTTGCATATT TTTTCCCCGA GGACTACTTT 
GAAGGAGTTC GGATGAAATT TCCACTGTCA TGGCCCACGC CCAATGGCCT GACTGCCACC 
AAAGCTCAGG AGATTTGCCA CCAAATTCTT GCACATTCCA CCATTGGCTT GGCATGTAAA 
GGCCTCCTGG CAAAACACCT GGATGAGGCA ATTGATATTT GCCTACTGGA CCTGCAGCTC 
AAAGATGACG TGGCTTGGGT GAGGGCACTG ATAGCCCTTT TGGAAAATGA GTGTGAAAGG 
AGAGTGCTGG GGAGCAGGAA GGGAGAGTTC CCTGTTGGAA ACCAGCCATC TGCTTCCTGG 
GAGGAGATCC TGGCTGCTCT CCGGTGTCCC GCGCTCTGCA GCGGCCGCGG GCGCTGCACA 
GAGCTGGGCT GCCGGTGCCT TGGAGGGCAC AGCTCCTACG ACTGCAGCAT TGCCCAAAAG 
CAAGCTTTGG AAATCACAGC CTTGGAGAAC GGGGGCCTCT GCGACGTCCG AGCCTCAGAC 
TGCAGCAGGA TCCGGGCGTT TGGCCTCGGC TTCAAGGAGT CTCCCAGCCT GCACTGCCAG 
GTCACCAGGC TAATCCATCT CAATGGAAAA TGGATGTCAA GAGAAGAAGA AAGCACAAAA 
GCAGATTTTC TGAGCTCTGA GGCTGTTGAC TGCCAGATCC CCCTCCTGAA CATCACAGAG 
GCTGTGCACT TCGTGGCTGG TGACGAGCCA TTGGCAAGAT GGCAAGTGAA AAGGAACCAG 
ACTGACGGCT ACGCAGCGAA TGCTCAATTA AATCATCTCC GTCTGCACAT CACTAACGAT 
GGCTTGCAGT ACAGCAATTC CCGAGTGCTG ACCCTGTACG ACGCGGTCTG CCAGGTCTGC 
CAATTCCACC CCGCCGGACT TTGTAAATTA AAGGCCCCCT CCAGCCAGCT GCTGACATTT 
ATTGGTGAGA ATTTTGTTTA CCAGCTAATA GCAGTGGATC CAGAAGGGTC AGCTGTGCTA 
TTCATCTTGG AGGCTGGGCC ACGGGGTGCC CGGCTCTCTC CTGCTGGCCT GCTGCTCTGG 
AAGGTTGAGT CAGAAGAAAT GCAAACCTTT GAATTCACTG TGTCAGATGA GTGCAATGCA 
CAGAGCAGAT ACTCTGTTGA GGTTGGAGTG AAGCCCTGCA GCTGCCTCAA TGGTGGCACA 
TGTGTCACCA ACATTAAATA CCCTCCAGGC CTTGGTGAAT ACCTGTGCTT GTGTCCAAAT 
GGATTTGATG GAGAATTCTG CCAGGAAGAC ATCAGGGACT GCAAATCAAA CCCCTGTGGC 
AGTGGAACCT GCGTGGACAG CGTGGGGAGC TACTTTTGTA AATGCCCCCC TGGTTTGGGA 
GGGCTTACTT GTCAGGAGGA CAAGAACGAA TGTGAAGAGA GCCTTTGTTT TCCTGGAGTG 
TCTTGTATGA ATACCTTTGG ATCTTATGCG TGTGGAATTT GCCCCACTGG GATGGAGGGA 
AATGGTAAAA CTTGCAAATC TGTGCTTGCT GCTGATGTTA CAGAAGCTTT AAACAGTGGC 
AAAGGTGAAT TGAACAGGAC TGAGGTTAAG CAGCCACTGC AATCCTCAGA GACAAAGGAT 
TCTCCTGTAA TTAAGAATTT TAACATAAGT GATAGACACG GAGCTGTGGC ACACAGCTGT 
GCCAGCCGGC CGTGCTTCCC CGGAGCGCCG TGCTTCGACC GCAAGCCGCC CTACGTTGGG 
TACCTCTGTG GCCGCTGCCC TGCTGGCTTT TTTGGAAATG GTCGGAGCTG TGCCAAAGTC 
CCCAGAGCAG TTTCAAGATC TTTCCAAAGC CATGTGGACT TTCCTGGAAG AAACATTGAA 
GATGCTAGAG ACTCTCACCA AGAAGATGCA TCTAAGACAT CAAGAAATGC ATTTCCCCTT 
CTTTCTCAAC CCCAAATTCC AAGACAAAAT ATTACATTCC TTTTGGAGAG AAACCCCGCA 
GCCATTCACA CTCCATCCCT TACAATGGAA AGGGAGACTT CCCAAGCTCA GATGTCACCA 
GAAAAACAAC CTGACATGGA GTTCACAGCA CCTGAGAAAC ATCTTTTTCT TGAGAAAAGT 
GGCACACCCC TTCTGCATGA GGAGCCAGAG CCCAGAGCTC CAGGTGTCAG TGTGACCTCC 
CACCCCTCTC TCCGTGTTAG GCAGCACAAA GAAACTTCAG CACGGACTGT TCCTCCTCAT 
ACCAACACAA ACTCAGATTC ATTCCCTGCA AGCTCACAGA CTCATTCCAG GCATGGTTAT 
TCTCCCAGGA GATGGCCCAG CCGAGTCTCA GTCTTGAGGA ACAAACCACC CCAGGGTTTC 
CCAGCAGAGC AGCCCAGAGC ATCTCCTGTG GGCACACATC GGCTGGGCCC TTCCCGGGAT 
GCTGCATCCC TGTGTGCTGA CCTGCCATGT TTCACTGGAG TGCATTGCAA ACCAGCTGGA 
GATGGGGAGT TTCAATGTGG TCCTTGTCCC CCTGGGTACA GTGGTGATGG AATTACGTGT 
GAAGCGCAGT GTGAGCCCCC GTGTGAGCAT GGAGGAACTT GCCTGCCTCA CAACACCTGT 
TCTTGTGCTT ATGGATTTGT AGGGCCTCGG TGTGAAACAA TGGTGTGCAG CAGGCACTGT 
CACAACGGGG GGGTGTGTGT GTCACCAGAT GAGTGCCAGT GCAGGCACGG GTGGAGCAGC 
CCCTCTTGTG AGACAGCTGT GTGCAATCCT GTGTGCCTGA ATGGAGGAGT CTGTGTACGG 
CCAAACACGT GCTCGTGTCC TTCTGGTTTC TATGGGCCAC AGTGCCAGAG AGCTCTTTGC 
ATTCCCCCCT GTAAGAATGG TGGTCACTGT GTCCGGACCA ATGTCTGCTC CTGTGCCGAG 
GGCTACACTG GAAGAAGGTG CCAGAAAAGT GTCTGTGAGC CCACGTGCAT GAACGGGGGG 
AGATGTGTGC ACCCCAATGT CTGTGACTGC CCGTCTGGCT GGAGGGGAAA GCACTGCAGC 
AAACCTGTGT GCCTGCAGAG GTGCCTCAAT GGAGGGGAGT GTGTCGCCCC CAACGCCTGC 
CAGTGCCCTG GAGGATGGGT GGGAACGCTG TGCCAGACCC CTCTCAATAG GATGAAGAGA 
GCAGCAGGAC AATGA

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

PubMed

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1-877-436-7274

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LOC101234197 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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