SORCS1 cDNA ORF clone, Taeniopygia guttata(zebra finch)

Gene
Clones
gRNAs

Summary

Gene Symbol	SORCS1
Entrez Gene ID	100226716
Full Name	sortilin related VPS10 domain containing receptor 1
Gene Type	protein-coding
Organism	Taeniopygia guttata(zebra finch)

mRNA and Protein(s)

mRNA	Protein	Name
XM_030276370.1	XP_030132230.1	VPS10 domain-containing receptor SorCS1 isoform X2
XM_012574577.1	XP_012430031.1	VPS10 domain-containing receptor SorCS1
XM_030276368.1	XP_030132228.1	VPS10 domain-containing receptor SorCS1 isoform X1

Pathways from BioSystems
Gene Ontology

The following SORCS1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the SORCS1 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)
OTd18003	XM_012574577.1 Latest version!	Taeniopygia guttata sortilin-related VPS10 domain containing receptor 1 (SORCS1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OTd48724	XM_030276368.1 Latest version!	Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OTd48725	XM_030276370.1 Latest version!	Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00

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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)

SORCS1 ( XM_012574577.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430031.1 Taeniopygia guttata sortilin-related VPS10 domain containing receptor 1 (SORCS1), mRNA.

Price & Availability↑

CloneID	OTd18003
Clone ID Related Accession (Same CDS sequence)	XM_012574577.1
Accession Version	XM_012574577.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3126bp) 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	VPS10 domain-containing receptor SorCS1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198841.1) 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 :: 4% of CDS bases ##RefSeq-Attributes-END##

ATGGATGCTT TACAGATGTT CTGGGTAGTC TGTCCAGGTG TTGAACTATT ACCCTTATTG 
AGATTTTTCC TGATGTCCAG CCAGTCCACT GGTGATCATT TGCTCGTGTC AAATCATCTG 
CTGCAACCAG TGATTCTAAT TCTGACAAAG CTCTATGACT ACAACCTGGG AAGCATCACA 
GAGAGCTCTC TTTGGAGGTC AACAGATTAT GGGACAACAT ATGAGAAACT GAATGATAAA 
GTTGGTCTGA AGACTATTTT GAGCTACTTG TATGTTTGCC CAACAAACAA ACGTAAGATT 
ATGCTGTTGA CTGATCCAGA AGTTGAAAGC AGCTTATTAA TCAGTTCTGA TGAAGGAGCC 
ACCTATCAAA AATACCGTCT GAACTTCTAC ATCCACAGTC TGCTCTTCCA CCCCAAACAG 
GAAGATTGGA TCTTAGCCTA CAGCCAAGAT CAGAAGTTAT TCAGTTCTGT GGAGTTTGGC 
AGAAGATGGC TGCTTCTTCA TGAGGGAGTT ACACCAAACA GGTTCTACTG GTCTATGATG 
GGGAATGGAA GAGAGCCTGA CCTTGTGCAC CTGGAGGCAA GGACAGTGGA TGGTCATGCC 
CAATATATCA CCTGCAAGAT GCAGAACTGC AGTGAAGCCA CTCGCAGCAA ACCCTTTCCA 
GGCTACATTG ACCATAACTC CCTGATCGTC CAGGGTGATT ATGTCTTTGT CCAGCTGACA 
TCAGGAGGAA GACCACATTA TTACGTTTCT TATAGGAGGA GCCCATTTGC ACAAATGAAG 
CTGCCAAAGT ACTCCTTGCC CAAGGACATG CATGTGATCA GCACAGATGA GAATCAGGTG 
TTTGCAGCTG TTCAGGAGTG GAACCAGAAC GACACGTACA ATCTGTACAT CTCTGACACC 
CGAGGGGTCT ACTTCACCCT GGCCTTGGAA AATGTCAAGA GTAGTCAAGG GCTGGAGGGG 
AATGTGATGA TTGACCTCTA TGAGGTAGCA GGGATAAAGG GAATGTTCTT GGCTAACAAG 
AAGATTGACA ACCAAGTGAA AACTTTCATC ACCTACAACA AAGGGAGAGA CTGGAGTTTG 
TTGCAGGCAC CACACACGGA TCTGAGGGGA AATCCCATTC ACTGTCTCCT ACCCTACTGC 
TCCCTTCATC TTCACTTGAA GGTCTCAGAC AACCCCTACA CCTCAGGAAA CATCGCCAGC 
CGAGACACTG CCCCCAGTAT TATTGTAGCT TCAGGTAATA TAGGCACTGA GCTATCAGAC 
AATGACATCA GCATGTTTGT TACTTCTGAT GCTGGGAACA CTTGGAGGCA GATCTTTGAG 
GAAGAGCACA GTGTTCTATA CCTGGATCAA GGTGGAGTAC TCGTTGCCAT GAAACACACA 
TCTCTGCCTA TCAGACACCT CTGGTTAAGT TTTGATGAAG GGAGATCTTG GAGCAAGTAC 
AGTTTCACAT CCCTCCCACT GTTTGTAGAT GGAGTTTTAG GGGAGCCTGG AGAGGAAACC 
CTCATCATGA CCGTGTTTGG ACATTTCAGC CACCGCTCAG AGTGGCAGCT GGTGAAAGTA 
GACTACAAGT CCATCTTTGA TCGGAGATGT GCAGAAGAGG ACTACAGGCC TTGGCAGCTT 
CATAGCCAGG GAGAAGCCTG CATCATGGGG GCAAAAAGGA TCTACAGGAA GCGCAAGTCA 
GAGAAGAAAT GCATGCAAGG GAAATATGCT GGGGCCATGA CCTCGGAGCC CTGCGTGTGC 
ACAGAGGCAG ACTTTGACTG TGATTATGGA TATGAACGCC ACAGCAATGG CCAGTGTTTA 
CCAGCATTTT GGTATAACCC ATCCTCCTTG TCAAAAGACT GCAGCCTTGG ACAGAGTTAC 
CTCAACAGCA CTGGGTACCG GAAGGTTGTT TCCAACAACT GCACGGACGG GGTGCGGGAG 
CGCTACACAG CCAAGCCCCA GCAGTGCCCG GGCAAACCTC CCCAGGGGCT CCGCATCCTG 
ACGGCCGACG GGCGGCTGAC GGCCCAGCAG GGCCACAACG TCACCTTCCT GCTGCAGCTG 
GAGGAGGGAG ACCTCCAGAG ATCCCTCATT CAGGTGGATT TTGGAGATGG CATTGCTGTG 
TCATATGCCA ACCTCAGCTC AACAGAAGAT GGGATCAAGC ACATCTACCA GAACGTGGGC 
ATATTCCGAG TGACCGTGCT GGTGGAAAAC AGCCTGGGTT CTGACAGCGC TGTTCTCTAC 
CTGCATGTAA CGTGCCCCTT GGAACACGTC CACTTATCTC TACCCTTTGT CACCACGAAG 
AACAAGGAGA TCAACGCCAC AGCAGTGCTG TGGCCAAGCC AAGTGGGAAC ACTTACTTAT 
GTCTGGTGGT TTGGGAACAA CACAGAGCCA CTGATCACAT TGGAAGGAAG CATCACATTC 
ACATTTTCTG TGGAAGGGAT GAACACCATC ACTGTTCAGG TCTCAGCAGG AAACACCATT 
CTTCAGGACA CAAAGACTAT TGCAGTGTAT GAGAAATTTC AGTCCCTGAG GTTATCGTTC 
TCTCCAAACC TCGATGACTA CAACCCAGAT ATCCCAGAGT GGAGAAGGGA CATCAGCAGA 
GTAGTCAAGA GAGCTCTGGT GGAGGCTACA GGTATTTCCA GCAAGCACGT TCTGGTTGCA 
GTGCTCCCTG GCCTGCCCAC ATCTGCTGAA CTCTTCATTT TACCATATCA AGATGCCACA 
GGAGAAAAAA AAAGAACAGC AGCAAACCTA GAGCAGATTT CAGAAATGCT GATCCAGAAA 
CTGAACCAAA ACCTGGTCCA TTTTGAGTTG AAGCCAGGAG TTCGAATCCT TGTCCATGCT 
GCCCATTTAA CAGCAGCTCC CCTGGTGGAC CTCACTCCCA GTCACAGTGG TTCAGCCATG 
CTGATGCTCC TCTCTGTTGT TTTTGTGGGA CTAGCTGTGT TTGTCATCTA CAAGTTCAAA 
AGAGCAACCT CAGGCCACAG TCCAGAACCC AAGGAAAGGA AATGCAACCA AGGTAGTCTG 
GACAGAGGAC TTCCAAAAAG CTTGTGGATC ACCAAGAGAT TTCAAGCCAA GACCCAGAGC 
GGAAGTATTT CCACAGCTGC TGAGCCCCAG AGTACAAAAG AAATCCCTAC CTATGTAAAT 
GGTTGA

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

RefSeq	XP_012430031.1
CDS	1..3126
Translation	MDALQMFWVVCPGVELLPLLRFFLMSSQSTGDHLLVSNHLLQPVILILTKLYDYNLGSITESSLWRSTDYGTTYEKLNDKVGLKTILSYLYVCPTNKRKIMLLTDPEVESSLLISSDEGATYQKYRLNFYIHSLLFHPKQEDWILAYSQDQKLFSSVEFGRRWLLLHEGVTPNRFYWSMMGNGREPDLVHLEARTVDGHAQYITCKMQNCSEATRSKPFPGYIDHNSLIVQGDYVFVQLTSGGRPHYYVSYRRSPFAQMKLPKYSLPKDMHVISTDENQVFAAVQEWNQNDTYNLYISDTRGVYFTLALENVKSSQGLEGNVMIDLYEVAGIKGMFLANKKIDNQVKTFITYNKGRDWSLLQAPHTDLRGNPIHCLLPYCSLHLHLKVSDNPYTSGNIASRDTAPSIIVASGNIGTELSDNDISMFVTSDAGNTWRQIFEEEHSVLYLDQGGVLVAMKHTSLPIRHLWLSFDEGRSWSKYSFTSLPLFVDGVLGEPGEETLIMTVFGHFSHRSEWQLVKVDYKSIFDRRCAEEDYRPWQLHSQGEACIMGAKRIYRKRKSEKKCMQGKYAGAMTSEPCVCTEADFDCDYGYERHSNGQCLPAFWYNPSSLSKDCSLGQSYLNSTGYRKVVSNNCTDGVRERYTAKPQQCPGKPPQGLRILTADGRLTAQQGHNVTFLLQLEEGDLQRSLIQVDFGDGIAVSYANLSSTEDGIKHIYQNVGIFRVTVLVENSLGSDSAVLYLHVTCPLEHVHLSLPFVTTKNKEINATAVLWPSQVGTLTYVWWFGNNTEPLITLEGSITFTFSVEGMNTITVQVSAGNTILQDTKTIAVYEKFQSLRLSFSPNLDDYNPDIPEWRRDISRVVKRALVEATGISSKHVLVAVLPGLPTSAELFILPYQDATGEKKRTAANLEQISEMLIQKLNQNLVHFELKPGVRILVHAAHLTAAPLVDLTPSHSGSAMLMLLSVVFVGLAVFVIYKFKRATSGHSPEPKERKCNQGSLDRGLPKSLWITKRFQAKTQSGSISTAAEPQSTKEIPTYVNG

Target ORF information:

RefSeq Version	XM_012574577.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata sortilin-related VPS10 domain containing receptor 1 (SORCS1), mRNA.

Target ORF information:

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

XM_012574577.1

ORF Insert Sequence:

ATGGATGCTT TACAGATGTT CTGGGTAGTC TGTCCAGGTG TTGAACTATT ACCCTTATTG 
AGATTTTTCC TGATGTCCAG CCAGTCCACT GGTGATCATT TGCTCGTGTC AAATCATCTG 
CTGCAACCAG TGATTCTAAT TCTGACAAAG CTCTATGACT ACAACCTGGG AAGCATCACA 
GAGAGCTCTC TTTGGAGGTC AACAGATTAT GGGACAACAT ATGAGAAACT GAATGATAAA 
GTTGGTCTGA AGACTATTTT GAGCTACTTG TATGTTTGCC CAACAAACAA ACGTAAGATT 
ATGCTGTTGA CTGATCCAGA AGTTGAAAGC AGCTTATTAA TCAGTTCTGA TGAAGGAGCC 
ACCTATCAAA AATACCGTCT GAACTTCTAC ATCCACAGTC TGCTCTTCCA CCCCAAACAG 
GAAGATTGGA TCTTAGCCTA CAGCCAAGAT CAGAAGTTAT TCAGTTCTGT GGAGTTTGGC 
AGAAGATGGC TGCTTCTTCA TGAGGGAGTT ACACCAAACA GGTTCTACTG GTCTATGATG 
GGGAATGGAA GAGAGCCTGA CCTTGTGCAC CTGGAGGCAA GGACAGTGGA TGGTCATGCC 
CAATATATCA CCTGCAAGAT GCAGAACTGC AGTGAAGCCA CTCGCAGCAA ACCCTTTCCA 
GGCTACATTG ACCATAACTC CCTGATCGTC CAGGGTGATT ATGTCTTTGT CCAGCTGACA 
TCAGGAGGAA GACCACATTA TTACGTTTCT TATAGGAGGA GCCCATTTGC ACAAATGAAG 
CTGCCAAAGT ACTCCTTGCC CAAGGACATG CATGTGATCA GCACAGATGA GAATCAGGTG 
TTTGCAGCTG TTCAGGAGTG GAACCAGAAC GACACGTACA ATCTGTACAT CTCTGACACC 
CGAGGGGTCT ACTTCACCCT GGCCTTGGAA AATGTCAAGA GTAGTCAAGG GCTGGAGGGG 
AATGTGATGA TTGACCTCTA TGAGGTAGCA GGGATAAAGG GAATGTTCTT GGCTAACAAG 
AAGATTGACA ACCAAGTGAA AACTTTCATC ACCTACAACA AAGGGAGAGA CTGGAGTTTG 
TTGCAGGCAC CACACACGGA TCTGAGGGGA AATCCCATTC ACTGTCTCCT ACCCTACTGC 
TCCCTTCATC TTCACTTGAA GGTCTCAGAC AACCCCTACA CCTCAGGAAA CATCGCCAGC 
CGAGACACTG CCCCCAGTAT TATTGTAGCT TCAGGTAATA TAGGCACTGA GCTATCAGAC 
AATGACATCA GCATGTTTGT TACTTCTGAT GCTGGGAACA CTTGGAGGCA GATCTTTGAG 
GAAGAGCACA GTGTTCTATA CCTGGATCAA GGTGGAGTAC TCGTTGCCAT GAAACACACA 
TCTCTGCCTA TCAGACACCT CTGGTTAAGT TTTGATGAAG GGAGATCTTG GAGCAAGTAC 
AGTTTCACAT CCCTCCCACT GTTTGTAGAT GGAGTTTTAG GGGAGCCTGG AGAGGAAACC 
CTCATCATGA CCGTGTTTGG ACATTTCAGC CACCGCTCAG AGTGGCAGCT GGTGAAAGTA 
GACTACAAGT CCATCTTTGA TCGGAGATGT GCAGAAGAGG ACTACAGGCC TTGGCAGCTT 
CATAGCCAGG GAGAAGCCTG CATCATGGGG GCAAAAAGGA TCTACAGGAA GCGCAAGTCA 
GAGAAGAAAT GCATGCAAGG GAAATATGCT GGGGCCATGA CCTCGGAGCC CTGCGTGTGC 
ACAGAGGCAG ACTTTGACTG TGATTATGGA TATGAACGCC ACAGCAATGG CCAGTGTTTA 
CCAGCATTTT GGTATAACCC ATCCTCCTTG TCAAAAGACT GCAGCCTTGG ACAGAGTTAC 
CTCAACAGCA CTGGGTACCG GAAGGTTGTT TCCAACAACT GCACGGACGG GGTGCGGGAG 
CGCTACACAG CCAAGCCCCA GCAGTGCCCG GGCAAACCTC CCCAGGGGCT CCGCATCCTG 
ACGGCCGACG GGCGGCTGAC GGCCCAGCAG GGCCACAACG TCACCTTCCT GCTGCAGCTG 
GAGGAGGGAG ACCTCCAGAG ATCCCTCATT CAGGTGGATT TTGGAGATGG CATTGCTGTG 
TCATATGCCA ACCTCAGCTC AACAGAAGAT GGGATCAAGC ACATCTACCA GAACGTGGGC 
ATATTCCGAG TGACCGTGCT GGTGGAAAAC AGCCTGGGTT CTGACAGCGC TGTTCTCTAC 
CTGCATGTAA CGTGCCCCTT GGAACACGTC CACTTATCTC TACCCTTTGT CACCACGAAG 
AACAAGGAGA TCAACGCCAC AGCAGTGCTG TGGCCAAGCC AAGTGGGAAC ACTTACTTAT 
GTCTGGTGGT TTGGGAACAA CACAGAGCCA CTGATCACAT TGGAAGGAAG CATCACATTC 
ACATTTTCTG TGGAAGGGAT GAACACCATC ACTGTTCAGG TCTCAGCAGG AAACACCATT 
CTTCAGGACA CAAAGACTAT TGCAGTGTAT GAGAAATTTC AGTCCCTGAG GTTATCGTTC 
TCTCCAAACC TCGATGACTA CAACCCAGAT ATCCCAGAGT GGAGAAGGGA CATCAGCAGA 
GTAGTCAAGA GAGCTCTGGT GGAGGCTACA GGTATTTCCA GCAAGCACGT TCTGGTTGCA 
GTGCTCCCTG GCCTGCCCAC ATCTGCTGAA CTCTTCATTT TACCATATCA AGATGCCACA 
GGAGAAAAAA AAAGAACAGC AGCAAACCTA GAGCAGATTT CAGAAATGCT GATCCAGAAA 
CTGAACCAAA ACCTGGTCCA TTTTGAGTTG AAGCCAGGAG TTCGAATCCT TGTCCATGCT 
GCCCATTTAA CAGCAGCTCC CCTGGTGGAC CTCACTCCCA GTCACAGTGG TTCAGCCATG 
CTGATGCTCC TCTCTGTTGT TTTTGTGGGA CTAGCTGTGT TTGTCATCTA CAAGTTCAAA 
AGAGCAACCT CAGGCCACAG TCCAGAACCC AAGGAAAGGA AATGCAACCA AGGTAGTCTG 
GACAGAGGAC TTCCAAAAAG CTTGTGGATC ACCAAGAGAT TTCAAGCCAA GACCCAGAGC 
GGAAGTATTT CCACAGCTGC TGAGCCCCAG AGTACAAAAG AAATCCCTAC CTATGTAAAT 
GGTTGA

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

SORCS1 ( XM_030276368.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132228.1 Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OTd48724
Clone ID Related Accession (Same CDS sequence)	XM_030276368.1
Accession Version	XM_030276368.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3780bp) 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	VPS10 domain-containing receptor SorCS1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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 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##

ATGGAAAAAG TTGCTGGCTG GTACCCAGCC TGGCACATTG CTCTCCTGTA CTGGACATGG 
CTTTTTCTCT TCACTTACGG CTTTACCGGT GCAGAAATAA CTTGCAGATC CTGCCGTTCC 
CAGGTGCAGC CGCAGCAGCA GCCGCAGCAG GGATTACTGA TGCACTTGAG GACCGACAGA 
GGAGAAAAGG AGCAAAGGAG ATTCCTCGGG GAGAAGGGAG GTGAGAGAGG GCAAGAGGCC 
GGCACGGAGG ATGCCGGGCA GCAAGCGACC CTCGCTCCTG CTCCGGGGAT GCAATTCAGC 
GGCTGGGAGG CACGGCGAGT GACGAGGGAG CCAGAGAAAG TGGCCGGGGA GCGCCGTCCC 
CGGGCGGCAG CGGCGGCAGC GGCCGAGGAC CCCGGGCTCC GGGGCTCCCG CGGCCGGCCG 
CGCTCGGTGC GGCGGCGCCG GGGCCGCAGC CCGCGGGGCT CGGCGGGGCC GGGCCCGGGC 
CCGGGCGGCG CCGCGGGGCG GGAGCCGGGG GACGGCGGCG CCGCCCGCTT CGGGCTGGAG 
GAGCTGCGGC TGGCCAGCAC CACCTTCGCC CTGGCCGGAG ACTCGGCGCA CAACCAGGCC 
ATGGTGCACT GGTCCGGCCA CAACAGCAGC GTGATTCTAA TTCTGACAAA GCTCTATGAC 
TACAACCTGG GAAGCATCAC AGAGAGCTCT CTTTGGAGGT CAACAGATTA TGGGACAACA 
TATGAGAAAC TGAATGATAA AGTTGGTCTG AAGACTATTT TGAGCTACTT GTATGTTTGC 
CCAACAAACA AACGTAAGAT TATGCTGTTG ACTGATCCAG AAGTTGAAAG CAGCTTATTA 
ATCAGTTCCG ATGAAGGAGC CACCTATCAA AAATACCGTC TGAACTTCTA CATCCACAGT 
CTGCTCTTCC ACCCCAAACA GGAAGATTGG ATCTTAGCCT ACAGCCAAGA TCAGAAGTTA 
TTCAGTTCTG TGGAGTTTGG CAGAAGATGG CTGCTTCTTC ATGAGGGAGT TACACCAAAC 
AGGTTCTATT GGTCTATGAT GGGGAATGGA AGAGAGCCTG ACCTTGTGCA CCTGGAGGCA 
AGGACAGTGG ATGGTTATGC CCAATACATC ACCTGCAAGA TGCAGAACTG CAGTGAAGCC 
ACTCGCAGCA AACCCTTTCC AGGCTACATT GACCATAACT CCCTGATCGT CCAGGGTGAT 
TATGTCTTTG TCCAGCTGAC ATCAGGAGGA AGACCACATT ATTACGTTTC TTATAGGAGG 
AGCCCATTTG CACAAATGAA GCTGCCAAAG TACTCCTTGC CCAAGGACAT GCATGTGATC 
AGCACAGATG AGAATCAGGT GTTTGCAGCT GTTCAGGAGT GGAACCAGAA CGACACGTAC 
AATCTGTACA TCTCTGACAC CCGAGGGGTC TACTTCACCC TGGCCTTGGA AAATGTCAAG 
AGTAGTCAAG GGCTGGAGGG GAATGTGATG ATTGACCTCT ATGAGGTAGC AGGGATAAAG 
GGAATGTTCT TGGCTAACAA GAAGATTGAC AACCAAGTGA AAACTTTCAT CACCTACAAC 
AAAGGGAGAG ACTGGAGTTT GTTGCAGGCA CCACACACGG ATCTGAGGGG AAATCCCATT 
CACTGTCTCC TACCCTACTG CTCCCTTCAT CTTCACTTGA AGGTCTCAGA CAACCCCTAC 
ACCTCAGGAA ACATCGCCAG CCGAGACACT GCCCCCAGTA TTATTGTAGC TTCAGGTAAT 
ATAGGCGCTG AGCTATCAGA CAATGACATC AGCATGTTTG TTACTTCTGA TGCTGGGAAC 
ACTTGGAGGC AGATCTTTGA GGAAGAGCAC AGTGTTCTAT ACCTGGATCA AGGTGGAGTA 
CTCGTTGCCA TGAAACACAC ATCTCTGCCT ATCAGACACC TCTGGTTAAG TTTTGATGAA 
GGGAGATCTT GGAGCAAGTA CAGTTTCACA TCCCTCCCAC TGTTTGTAGA TGGAGTTTTA 
GGGGAGCCTG GAGAGGAAAC CCTCATCATG ACCGTGTTTG GACATTTCAG CCACCGCTCA 
GAGTGGCAGC TGGTGAAAGT AGACTACAAG TCCATCTTTG ATCGGAGATG TGCGGAAGAG 
GACTACAGGC CTTGGCAGCT TCATAGCCAG GGAGAAGCCT GCATCATGGG GGCAAAAAGG 
ATCTACAGGA AGCGCAAGTC AGAGAAGAAA TGCATGCAAG GGAAATACGC TGGGGCCATG 
ACCTCGGAGC CCTGCGTGTG CACAGAGGCA GACTTTGACT GTGATTATGG ATATGAACGC 
CACAGCAATG GCCAGTGTTT ACCAGCATTT TGGTATAACC CATCCTCCTT GTCAAAGGAC 
TGCAGCCTTG GACAGAGTTA CCTCAACAGC ACTGGGTACC GGAAGGTTGT TTCCAACAAC 
TGCACGGACG GGGTGCGGGA GCGCTACACG GCCAAGCCCC AGCAGTGCCC GGGCAAACCT 
CCCCAGGGGC TCCGCATCCT CACGGCCGAC GGGCGGCTGA CGGCCCAGCA GGGCCACAAC 
GTCACCTTCC TGCTGCAGCT GGAGGAGGGA GACCTCCAGA GATCCCTCAT TCAGGTGGAT 
TTTGGAGATG GCATTGCTGT GTCATATGCC AACCTCAGCT CAACAGAAGA TGGGATCAAG 
CACATCTACC AGAACGTGGG CATATTCCGA GTGACCGTGC TGGTGGAAAA CAGCCTGGGT 
TCTGACAGCG CTGTTCTCTA CCTGCATGTA ACGTGTCCCT TGGAACACGT TCACTTATCT 
CTACCCTTTG TCACCACGAA GAACAAGGAG ATCAACGCCA CAGCAGTGCT GTGGCCAAGC 
CAAGTGGGAA CACTTACTTA TGTCTGGTGG TTTGGGAACA ACACAGAGCC ACTGATCACA 
TTGGAAGGAA GCATCACATT CACATTTTCT GTGGAAGGGA TGAACACCAT CACTGTTCAG 
GTCTCAGCAG GAAACACCAT TCTTCAGGAC ACAAAGACTA TTGCAGTGTA TGAGAAATTT 
CAGTCCCTGA GGTTATCGTT CTCTCCAAAC CTCGATGACT ACAACCCAGA TATCCCAGAG 
TGGAGAAGGG ACATCAGCAG AGTAGTCAAG AGAGCTCTGG TGGAGGCTAC AGGTATTTCC 
AGCAAGCACG TTCTGGTTGC AGTGCTCCCT GGCCTGCCCA CATCTGCTGA ACTCTTCATT 
TTACCATATC AAGATGCTAC AGGAGAAAAA AAAAGAACAG CAGCAAACCT AGAGCAGATT 
TCAGAAATGC TGATCCAGAA ACTGAACCAA AACCTGGTCC ATTTTGAGTT GAAGCCAGGA 
GTTCGAATCC TTGTCCATGC TGCCCATTTA ACAGCAGCTC CCCTGGTGGA CCTCACTCCC 
AGTCACAGTG GTTCAGCCAT GCTGATGCTC CTCTCTGTTG TTTTTGTGGG ACTAGCTGTG 
TTTGTCATCT ACAAGTTCAA AAGGAAGATT CCTGGCCTTA ATATATATGC ACAGATGCAG 
AATGAAAAAG ATCAAGAGAT GGTCAGTCCA GTCAGTCAGA GGGAAAGCAT ACCTAATGTC 
CCTCAAAGTG AGCTGATGAG CCCTGAGCAA CTAGTAGATG AGAAGTTGGA AGTCCACCCC 
ATAGAGCAAC CTCAGGCCAC AGTCCAGAAC CCAAGGAAAG GAAATGCAAC CAAGGTAGTC 
TGGACAGAGG ACTTCCAAAA AGCTTGTGGA TCACCAAGAG ATTTCAAGCC AAGACCCAGA 
GCGGAAGTAT TTCCACAGCT GCTGAGCCCC AGAGTACAAA AGAAATCCCT ACCTATGTAA

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

RefSeq	XP_030132228.1
CDS	960..4739
Translation	MEKVAGWYPAWHIALLYWTWLFLFTYGFTGAEITCRSCRSQVQPQQQPQQGLLMHLRTDRGEKEQRRFLGEKGGERGQEAGTEDAGQQATLAPAPGMQFSGWEARRVTREPEKVAGERRPRAAAAAAAEDPGLRGSRGRPRSVRRRRGRSPRGSAGPGPGPGGAAGREPGDGGAARFGLEELRLASTTFALAGDSAHNQAMVHWSGHNSSVILILTKLYDYNLGSITESSLWRSTDYGTTYEKLNDKVGLKTILSYLYVCPTNKRKIMLLTDPEVESSLLISSDEGATYQKYRLNFYIHSLLFHPKQEDWILAYSQDQKLFSSVEFGRRWLLLHEGVTPNRFYWSMMGNGREPDLVHLEARTVDGYAQYITCKMQNCSEATRSKPFPGYIDHNSLIVQGDYVFVQLTSGGRPHYYVSYRRSPFAQMKLPKYSLPKDMHVISTDENQVFAAVQEWNQNDTYNLYISDTRGVYFTLALENVKSSQGLEGNVMIDLYEVAGIKGMFLANKKIDNQVKTFITYNKGRDWSLLQAPHTDLRGNPIHCLLPYCSLHLHLKVSDNPYTSGNIASRDTAPSIIVASGNIGAELSDNDISMFVTSDAGNTWRQIFEEEHSVLYLDQGGVLVAMKHTSLPIRHLWLSFDEGRSWSKYSFTSLPLFVDGVLGEPGEETLIMTVFGHFSHRSEWQLVKVDYKSIFDRRCAEEDYRPWQLHSQGEACIMGAKRIYRKRKSEKKCMQGKYAGAMTSEPCVCTEADFDCDYGYERHSNGQCLPAFWYNPSSLSKDCSLGQSYLNSTGYRKVVSNNCTDGVRERYTAKPQQCPGKPPQGLRILTADGRLTAQQGHNVTFLLQLEEGDLQRSLIQVDFGDGIAVSYANLSSTEDGIKHIYQNVGIFRVTVLVENSLGSDSAVLYLHVTCPLEHVHLSLPFVTTKNKEINATAVLWPSQVGTLTYVWWFGNNTEPLITLEGSITFTFSVEGMNTITVQVSAGNTILQDTKTIAVYEKFQSLRLSFSPNLDDYNPDIPEWRRDISRVVKRALVEATGISSKHVLVAVLPGLPTSAELFILPYQDATGEKKRTAANLEQISEMLIQKLNQNLVHFELKPGVRILVHAAHLTAAPLVDLTPSHSGSAMLMLLSVVFVGLAVFVIYKFKRKIPGLNIYAQMQNEKDQEMVSPVSQRESIPNVPQSELMSPEQLVDEKLEVHPIEQPQATVQNPRKGNATKVVWTEDFQKACGSPRDFKPRPRAEVFPQLLSPRVQKKSLPM

Target ORF information:

RefSeq Version	XM_030276368.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X1, mRNA.

Target ORF information:

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

XM_030276368.1

ORF Insert Sequence:

ATGGAAAAAG TTGCTGGCTG GTACCCAGCC TGGCACATTG CTCTCCTGTA CTGGACATGG 
CTTTTTCTCT TCACTTACGG CTTTACCGGT GCAGAAATAA CTTGCAGATC CTGCCGTTCC 
CAGGTGCAGC CGCAGCAGCA GCCGCAGCAG GGATTACTGA TGCACTTGAG GACCGACAGA 
GGAGAAAAGG AGCAAAGGAG ATTCCTCGGG GAGAAGGGAG GTGAGAGAGG GCAAGAGGCC 
GGCACGGAGG ATGCCGGGCA GCAAGCGACC CTCGCTCCTG CTCCGGGGAT GCAATTCAGC 
GGCTGGGAGG CACGGCGAGT GACGAGGGAG CCAGAGAAAG TGGCCGGGGA GCGCCGTCCC 
CGGGCGGCAG CGGCGGCAGC GGCCGAGGAC CCCGGGCTCC GGGGCTCCCG CGGCCGGCCG 
CGCTCGGTGC GGCGGCGCCG GGGCCGCAGC CCGCGGGGCT CGGCGGGGCC GGGCCCGGGC 
CCGGGCGGCG CCGCGGGGCG GGAGCCGGGG GACGGCGGCG CCGCCCGCTT CGGGCTGGAG 
GAGCTGCGGC TGGCCAGCAC CACCTTCGCC CTGGCCGGAG ACTCGGCGCA CAACCAGGCC 
ATGGTGCACT GGTCCGGCCA CAACAGCAGC GTGATTCTAA TTCTGACAAA GCTCTATGAC 
TACAACCTGG GAAGCATCAC AGAGAGCTCT CTTTGGAGGT CAACAGATTA TGGGACAACA 
TATGAGAAAC TGAATGATAA AGTTGGTCTG AAGACTATTT TGAGCTACTT GTATGTTTGC 
CCAACAAACA AACGTAAGAT TATGCTGTTG ACTGATCCAG AAGTTGAAAG CAGCTTATTA 
ATCAGTTCCG ATGAAGGAGC CACCTATCAA AAATACCGTC TGAACTTCTA CATCCACAGT 
CTGCTCTTCC ACCCCAAACA GGAAGATTGG ATCTTAGCCT ACAGCCAAGA TCAGAAGTTA 
TTCAGTTCTG TGGAGTTTGG CAGAAGATGG CTGCTTCTTC ATGAGGGAGT TACACCAAAC 
AGGTTCTATT GGTCTATGAT GGGGAATGGA AGAGAGCCTG ACCTTGTGCA CCTGGAGGCA 
AGGACAGTGG ATGGTTATGC CCAATACATC ACCTGCAAGA TGCAGAACTG CAGTGAAGCC 
ACTCGCAGCA AACCCTTTCC AGGCTACATT GACCATAACT CCCTGATCGT CCAGGGTGAT 
TATGTCTTTG TCCAGCTGAC ATCAGGAGGA AGACCACATT ATTACGTTTC TTATAGGAGG 
AGCCCATTTG CACAAATGAA GCTGCCAAAG TACTCCTTGC CCAAGGACAT GCATGTGATC 
AGCACAGATG AGAATCAGGT GTTTGCAGCT GTTCAGGAGT GGAACCAGAA CGACACGTAC 
AATCTGTACA TCTCTGACAC CCGAGGGGTC TACTTCACCC TGGCCTTGGA AAATGTCAAG 
AGTAGTCAAG GGCTGGAGGG GAATGTGATG ATTGACCTCT ATGAGGTAGC AGGGATAAAG 
GGAATGTTCT TGGCTAACAA GAAGATTGAC AACCAAGTGA AAACTTTCAT CACCTACAAC 
AAAGGGAGAG ACTGGAGTTT GTTGCAGGCA CCACACACGG ATCTGAGGGG AAATCCCATT 
CACTGTCTCC TACCCTACTG CTCCCTTCAT CTTCACTTGA AGGTCTCAGA CAACCCCTAC 
ACCTCAGGAA ACATCGCCAG CCGAGACACT GCCCCCAGTA TTATTGTAGC TTCAGGTAAT 
ATAGGCGCTG AGCTATCAGA CAATGACATC AGCATGTTTG TTACTTCTGA TGCTGGGAAC 
ACTTGGAGGC AGATCTTTGA GGAAGAGCAC AGTGTTCTAT ACCTGGATCA AGGTGGAGTA 
CTCGTTGCCA TGAAACACAC ATCTCTGCCT ATCAGACACC TCTGGTTAAG TTTTGATGAA 
GGGAGATCTT GGAGCAAGTA CAGTTTCACA TCCCTCCCAC TGTTTGTAGA TGGAGTTTTA 
GGGGAGCCTG GAGAGGAAAC CCTCATCATG ACCGTGTTTG GACATTTCAG CCACCGCTCA 
GAGTGGCAGC TGGTGAAAGT AGACTACAAG TCCATCTTTG ATCGGAGATG TGCGGAAGAG 
GACTACAGGC CTTGGCAGCT TCATAGCCAG GGAGAAGCCT GCATCATGGG GGCAAAAAGG 
ATCTACAGGA AGCGCAAGTC AGAGAAGAAA TGCATGCAAG GGAAATACGC TGGGGCCATG 
ACCTCGGAGC CCTGCGTGTG CACAGAGGCA GACTTTGACT GTGATTATGG ATATGAACGC 
CACAGCAATG GCCAGTGTTT ACCAGCATTT TGGTATAACC CATCCTCCTT GTCAAAGGAC 
TGCAGCCTTG GACAGAGTTA CCTCAACAGC ACTGGGTACC GGAAGGTTGT TTCCAACAAC 
TGCACGGACG GGGTGCGGGA GCGCTACACG GCCAAGCCCC AGCAGTGCCC GGGCAAACCT 
CCCCAGGGGC TCCGCATCCT CACGGCCGAC GGGCGGCTGA CGGCCCAGCA GGGCCACAAC 
GTCACCTTCC TGCTGCAGCT GGAGGAGGGA GACCTCCAGA GATCCCTCAT TCAGGTGGAT 
TTTGGAGATG GCATTGCTGT GTCATATGCC AACCTCAGCT CAACAGAAGA TGGGATCAAG 
CACATCTACC AGAACGTGGG CATATTCCGA GTGACCGTGC TGGTGGAAAA CAGCCTGGGT 
TCTGACAGCG CTGTTCTCTA CCTGCATGTA ACGTGTCCCT TGGAACACGT TCACTTATCT 
CTACCCTTTG TCACCACGAA GAACAAGGAG ATCAACGCCA CAGCAGTGCT GTGGCCAAGC 
CAAGTGGGAA CACTTACTTA TGTCTGGTGG TTTGGGAACA ACACAGAGCC ACTGATCACA 
TTGGAAGGAA GCATCACATT CACATTTTCT GTGGAAGGGA TGAACACCAT CACTGTTCAG 
GTCTCAGCAG GAAACACCAT TCTTCAGGAC ACAAAGACTA TTGCAGTGTA TGAGAAATTT 
CAGTCCCTGA GGTTATCGTT CTCTCCAAAC CTCGATGACT ACAACCCAGA TATCCCAGAG 
TGGAGAAGGG ACATCAGCAG AGTAGTCAAG AGAGCTCTGG TGGAGGCTAC AGGTATTTCC 
AGCAAGCACG TTCTGGTTGC AGTGCTCCCT GGCCTGCCCA CATCTGCTGA ACTCTTCATT 
TTACCATATC AAGATGCTAC AGGAGAAAAA AAAAGAACAG CAGCAAACCT AGAGCAGATT 
TCAGAAATGC TGATCCAGAA ACTGAACCAA AACCTGGTCC ATTTTGAGTT GAAGCCAGGA 
GTTCGAATCC TTGTCCATGC TGCCCATTTA ACAGCAGCTC CCCTGGTGGA CCTCACTCCC 
AGTCACAGTG GTTCAGCCAT GCTGATGCTC CTCTCTGTTG TTTTTGTGGG ACTAGCTGTG 
TTTGTCATCT ACAAGTTCAA AAGGAAGATT CCTGGCCTTA ATATATATGC ACAGATGCAG 
AATGAAAAAG ATCAAGAGAT GGTCAGTCCA GTCAGTCAGA GGGAAAGCAT ACCTAATGTC 
CCTCAAAGTG AGCTGATGAG CCCTGAGCAA CTAGTAGATG AGAAGTTGGA AGTCCACCCC 
ATAGAGCAAC CTCAGGCCAC AGTCCAGAAC CCAAGGAAAG GAAATGCAAC CAAGGTAGTC 
TGGACAGAGG ACTTCCAAAA AGCTTGTGGA TCACCAAGAG ATTTCAAGCC AAGACCCAGA 
GCGGAAGTAT TTCCACAGCT GCTGAGCCCC AGAGTACAAA AGAAATCCCT ACCTATGTAA

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

SORCS1 ( XM_030276370.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132230.1 Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X2, mRNA.

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CloneID	OTd48725
Clone ID Related Accession (Same CDS sequence)	XM_030276370.1
Accession Version	XM_030276370.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3027bp) 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	VPS10 domain-containing receptor SorCS1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044218.1) 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##

ATGGTGCACT GGTCCGGCCA CAACAGCAGC GTGATTCTAA TTCTGACAAA GCTCTATGAC 
TACAACCTGG GAAGCATCAC AGAGAGCTCT CTTTGGAGGT CAACAGATTA TGGGACAACA 
TATGAGAAAC TGAATGATAA AGTTGGTCTG AAGACTATTT TGAGCTACTT GTATGTTTGC 
CCAACAAACA AACGTAAGAT TATGCTGTTG ACTGATCCAG AAGTTGAAAG CAGCTTATTA 
ATCAGTTCCG ATGAAGGAGC CACCTATCAA AAATACCGTC TGAACTTCTA CATCCACAGT 
CTGCTCTTCC ACCCCAAACA GGAAGATTGG ATCTTAGCCT ACAGCCAAGA TCAGAAGTTA 
TTCAGTTCTG TGGAGTTTGG CAGAAGATGG CTGCTTCTTC ATGAGGGAGT TACACCAAAC 
AGGTTCTATT GGTCTATGAT GGGGAATGGA AGAGAGCCTG ACCTTGTGCA CCTGGAGGCA 
AGGACAGTGG ATGGTTATGC CCAATACATC ACCTGCAAGA TGCAGAACTG CAGTGAAGCC 
ACTCGCAGCA AACCCTTTCC AGGCTACATT GACCATAACT CCCTGATCGT CCAGGGTGAT 
TATGTCTTTG TCCAGCTGAC ATCAGGAGGA AGACCACATT ATTACGTTTC TTATAGGAGG 
AGCCCATTTG CACAAATGAA GCTGCCAAAG TACTCCTTGC CCAAGGACAT GCATGTGATC 
AGCACAGATG AGAATCAGGT GTTTGCAGCT GTTCAGGAGT GGAACCAGAA CGACACGTAC 
AATCTGTACA TCTCTGACAC CCGAGGGGTC TACTTCACCC TGGCCTTGGA AAATGTCAAG 
AGTAGTCAAG GGCTGGAGGG GAATGTGATG ATTGACCTCT ATGAGGTAGC AGGGATAAAG 
GGAATGTTCT TGGCTAACAA GAAGATTGAC AACCAAGTGA AAACTTTCAT CACCTACAAC 
AAAGGGAGAG ACTGGAGTTT GTTGCAGGCA CCACACACGG ATCTGAGGGG AAATCCCATT 
CACTGTCTCC TACCCTACTG CTCCCTTCAT CTTCACTTGA AGGTCTCAGA CAACCCCTAC 
ACCTCAGGAA ACATCGCCAG CCGAGACACT GCCCCCAGTA TTATTGTAGC TTCAGGTAAT 
ATAGGCGCTG AGCTATCAGA CAATGACATC AGCATGTTTG TTACTTCTGA TGCTGGGAAC 
ACTTGGAGGC AGATCTTTGA GGAAGAGCAC AGTGTTCTAT ACCTGGATCA AGGTGGAGTA 
CTCGTTGCCA TGAAACACAC ATCTCTGCCT ATCAGACACC TCTGGTTAAG TTTTGATGAA 
GGGAGATCTT GGAGCAAGTA CAGTTTCACA TCCCTCCCAC TGTTTGTAGA TGGAGTTTTA 
GGGGAGCCTG GAGAGGAAAC CCTCATCATG ACCGTGTTTG GACATTTCAG CCACCGCTCA 
GAGTGGCAGC TGGTGAAAGT AGACTACAAG TCCATCTTTG ATCGGAGATG TGCGGAAGAG 
GACTACAGGC CTTGGCAGCT TCATAGCCAG GGAGAAGCCT GCATCATGGG GGCAAAAAGG 
ATCTACAGGA AGCGCAAGTC AGAGAAGAAA TGCATGCAAG GGAAATACGC TGGGGCCATG 
ACCTCGGAGC CCTGCGTGTG CACAGAGGCA GACTTTGACT GTGATTATGG ATATGAACGC 
CACAGCAATG GCCAGTGTTT ACCAGCATTT TGGTATAACC CATCCTCCTT GTCAAAGGAC 
TGCAGCCTTG GACAGAGTTA CCTCAACAGC ACTGGGTACC GGAAGGTTGT TTCCAACAAC 
TGCACGGACG GGGTGCGGGA GCGCTACACG GCCAAGCCCC AGCAGTGCCC GGGCAAACCT 
CCCCAGGGGC TCCGCATCCT CACGGCCGAC GGGCGGCTGA CGGCCCAGCA GGGCCACAAC 
GTCACCTTCC TGCTGCAGCT GGAGGAGGGA GACCTCCAGA GATCCCTCAT TCAGGTGGAT 
TTTGGAGATG GCATTGCTGT GTCATATGCC AACCTCAGCT CAACAGAAGA TGGGATCAAG 
CACATCTACC AGAACGTGGG CATATTCCGA GTGACCGTGC TGGTGGAAAA CAGCCTGGGT 
TCTGACAGCG CTGTTCTCTA CCTGCATGTA ACGTGTCCCT TGGAACACGT TCACTTATCT 
CTACCCTTTG TCACCACGAA GAACAAGGAG ATCAACGCCA CAGCAGTGCT GTGGCCAAGC 
CAAGTGGGAA CACTTACTTA TGTCTGGTGG TTTGGGAACA ACACAGAGCC ACTGATCACA 
TTGGAAGGAA GCATCACATT CACATTTTCT GTGGAAGGGA TGAACACCAT CACTGTTCAG 
GTCTCAGCAG GAAACACCAT TCTTCAGGAC ACAAAGACTA TTGCAGTGTA TGAGAAATTT 
CAGTCCCTGA GGTTATCGTT CTCTCCAAAC CTCGATGACT ACAACCCAGA TATCCCAGAG 
TGGAGAAGGG ACATCAGCAG AGTAGTCAAG AGAGCTCTGG TGGAGGCTAC AGGTATTTCC 
AGCAAGCACG TTCTGGTTGC AGTGCTCCCT GGCCTGCCCA CATCTGCTGA ACTCTTCATT 
TTACCATATC AAGATGCTAC AGGAGAAAAA AAAAGAACAG CAGCAAACCT AGAGCAGATT 
TCAGAAATGC TGATCCAGAA ACTGAACCAA AACCTGGTCC ATTTTGAGTT GAAGCCAGGA 
GTTCGAATCC TTGTCCATGC TGCCCATTTA ACAGCAGCTC CCCTGGTGGA CCTCACTCCC 
AGTCACAGTG GTTCAGCCAT GCTGATGCTC CTCTCTGTTG TTTTTGTGGG ACTAGCTGTG 
TTTGTCATCT ACAAGTTCAA AAGAGCAACC TCAGGCCACA GTCCAGAACC CAAGGAAAGG 
AAATGCAACC AAGGTAGTCT GGACAGAGGA CTTCCAAAAA GCTTGTGGAT CACCAAGAGA 
TTTCAAGCCA AGACCCAGAG CGGAAGTATT TCCACAGCTG CTGAGCCCCA GAGTACAAAA 
GAAATCCCTA CCTATGTAAA TGGTTGA

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

RefSeq	XP_030132230.1
CDS	92..3118
Translation	MVHWSGHNSSVILILTKLYDYNLGSITESSLWRSTDYGTTYEKLNDKVGLKTILSYLYVCPTNKRKIMLLTDPEVESSLLISSDEGATYQKYRLNFYIHSLLFHPKQEDWILAYSQDQKLFSSVEFGRRWLLLHEGVTPNRFYWSMMGNGREPDLVHLEARTVDGYAQYITCKMQNCSEATRSKPFPGYIDHNSLIVQGDYVFVQLTSGGRPHYYVSYRRSPFAQMKLPKYSLPKDMHVISTDENQVFAAVQEWNQNDTYNLYISDTRGVYFTLALENVKSSQGLEGNVMIDLYEVAGIKGMFLANKKIDNQVKTFITYNKGRDWSLLQAPHTDLRGNPIHCLLPYCSLHLHLKVSDNPYTSGNIASRDTAPSIIVASGNIGAELSDNDISMFVTSDAGNTWRQIFEEEHSVLYLDQGGVLVAMKHTSLPIRHLWLSFDEGRSWSKYSFTSLPLFVDGVLGEPGEETLIMTVFGHFSHRSEWQLVKVDYKSIFDRRCAEEDYRPWQLHSQGEACIMGAKRIYRKRKSEKKCMQGKYAGAMTSEPCVCTEADFDCDYGYERHSNGQCLPAFWYNPSSLSKDCSLGQSYLNSTGYRKVVSNNCTDGVRERYTAKPQQCPGKPPQGLRILTADGRLTAQQGHNVTFLLQLEEGDLQRSLIQVDFGDGIAVSYANLSSTEDGIKHIYQNVGIFRVTVLVENSLGSDSAVLYLHVTCPLEHVHLSLPFVTTKNKEINATAVLWPSQVGTLTYVWWFGNNTEPLITLEGSITFTFSVEGMNTITVQVSAGNTILQDTKTIAVYEKFQSLRLSFSPNLDDYNPDIPEWRRDISRVVKRALVEATGISSKHVLVAVLPGLPTSAELFILPYQDATGEKKRTAANLEQISEMLIQKLNQNLVHFELKPGVRILVHAAHLTAAPLVDLTPSHSGSAMLMLLSVVFVGLAVFVIYKFKRATSGHSPEPKERKCNQGSLDRGLPKSLWITKRFQAKTQSGSISTAAEPQSTKEIPTYVNG

Target ORF information:

RefSeq Version	XM_030276370.1
Organism	Taeniopygia guttata(zebra finch)
Definition	Taeniopygia guttata sortilin related VPS10 domain containing receptor 1 (SORCS1), transcript variant X2, mRNA.

Target ORF information:

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

XM_030276370.1

ORF Insert Sequence:

ATGGTGCACT GGTCCGGCCA CAACAGCAGC GTGATTCTAA TTCTGACAAA GCTCTATGAC 
TACAACCTGG GAAGCATCAC AGAGAGCTCT CTTTGGAGGT CAACAGATTA TGGGACAACA 
TATGAGAAAC TGAATGATAA AGTTGGTCTG AAGACTATTT TGAGCTACTT GTATGTTTGC 
CCAACAAACA AACGTAAGAT TATGCTGTTG ACTGATCCAG AAGTTGAAAG CAGCTTATTA 
ATCAGTTCCG ATGAAGGAGC CACCTATCAA AAATACCGTC TGAACTTCTA CATCCACAGT 
CTGCTCTTCC ACCCCAAACA GGAAGATTGG ATCTTAGCCT ACAGCCAAGA TCAGAAGTTA 
TTCAGTTCTG TGGAGTTTGG CAGAAGATGG CTGCTTCTTC ATGAGGGAGT TACACCAAAC 
AGGTTCTATT GGTCTATGAT GGGGAATGGA AGAGAGCCTG ACCTTGTGCA CCTGGAGGCA 
AGGACAGTGG ATGGTTATGC CCAATACATC ACCTGCAAGA TGCAGAACTG CAGTGAAGCC 
ACTCGCAGCA AACCCTTTCC AGGCTACATT GACCATAACT CCCTGATCGT CCAGGGTGAT 
TATGTCTTTG TCCAGCTGAC ATCAGGAGGA AGACCACATT ATTACGTTTC TTATAGGAGG 
AGCCCATTTG CACAAATGAA GCTGCCAAAG TACTCCTTGC CCAAGGACAT GCATGTGATC 
AGCACAGATG AGAATCAGGT GTTTGCAGCT GTTCAGGAGT GGAACCAGAA CGACACGTAC 
AATCTGTACA TCTCTGACAC CCGAGGGGTC TACTTCACCC TGGCCTTGGA AAATGTCAAG 
AGTAGTCAAG GGCTGGAGGG GAATGTGATG ATTGACCTCT ATGAGGTAGC AGGGATAAAG 
GGAATGTTCT TGGCTAACAA GAAGATTGAC AACCAAGTGA AAACTTTCAT CACCTACAAC 
AAAGGGAGAG ACTGGAGTTT GTTGCAGGCA CCACACACGG ATCTGAGGGG AAATCCCATT 
CACTGTCTCC TACCCTACTG CTCCCTTCAT CTTCACTTGA AGGTCTCAGA CAACCCCTAC 
ACCTCAGGAA ACATCGCCAG CCGAGACACT GCCCCCAGTA TTATTGTAGC TTCAGGTAAT 
ATAGGCGCTG AGCTATCAGA CAATGACATC AGCATGTTTG TTACTTCTGA TGCTGGGAAC 
ACTTGGAGGC AGATCTTTGA GGAAGAGCAC AGTGTTCTAT ACCTGGATCA AGGTGGAGTA 
CTCGTTGCCA TGAAACACAC ATCTCTGCCT ATCAGACACC TCTGGTTAAG TTTTGATGAA 
GGGAGATCTT GGAGCAAGTA CAGTTTCACA TCCCTCCCAC TGTTTGTAGA TGGAGTTTTA 
GGGGAGCCTG GAGAGGAAAC CCTCATCATG ACCGTGTTTG GACATTTCAG CCACCGCTCA 
GAGTGGCAGC TGGTGAAAGT AGACTACAAG TCCATCTTTG ATCGGAGATG TGCGGAAGAG 
GACTACAGGC CTTGGCAGCT TCATAGCCAG GGAGAAGCCT GCATCATGGG GGCAAAAAGG 
ATCTACAGGA AGCGCAAGTC AGAGAAGAAA TGCATGCAAG GGAAATACGC TGGGGCCATG 
ACCTCGGAGC CCTGCGTGTG CACAGAGGCA GACTTTGACT GTGATTATGG ATATGAACGC 
CACAGCAATG GCCAGTGTTT ACCAGCATTT TGGTATAACC CATCCTCCTT GTCAAAGGAC 
TGCAGCCTTG GACAGAGTTA CCTCAACAGC ACTGGGTACC GGAAGGTTGT TTCCAACAAC 
TGCACGGACG GGGTGCGGGA GCGCTACACG GCCAAGCCCC AGCAGTGCCC GGGCAAACCT 
CCCCAGGGGC TCCGCATCCT CACGGCCGAC GGGCGGCTGA CGGCCCAGCA GGGCCACAAC 
GTCACCTTCC TGCTGCAGCT GGAGGAGGGA GACCTCCAGA GATCCCTCAT TCAGGTGGAT 
TTTGGAGATG GCATTGCTGT GTCATATGCC AACCTCAGCT CAACAGAAGA TGGGATCAAG 
CACATCTACC AGAACGTGGG CATATTCCGA GTGACCGTGC TGGTGGAAAA CAGCCTGGGT 
TCTGACAGCG CTGTTCTCTA CCTGCATGTA ACGTGTCCCT TGGAACACGT TCACTTATCT 
CTACCCTTTG TCACCACGAA GAACAAGGAG ATCAACGCCA CAGCAGTGCT GTGGCCAAGC 
CAAGTGGGAA CACTTACTTA TGTCTGGTGG TTTGGGAACA ACACAGAGCC ACTGATCACA 
TTGGAAGGAA GCATCACATT CACATTTTCT GTGGAAGGGA TGAACACCAT CACTGTTCAG 
GTCTCAGCAG GAAACACCAT TCTTCAGGAC ACAAAGACTA TTGCAGTGTA TGAGAAATTT 
CAGTCCCTGA GGTTATCGTT CTCTCCAAAC CTCGATGACT ACAACCCAGA TATCCCAGAG 
TGGAGAAGGG ACATCAGCAG AGTAGTCAAG AGAGCTCTGG TGGAGGCTAC AGGTATTTCC 
AGCAAGCACG TTCTGGTTGC AGTGCTCCCT GGCCTGCCCA CATCTGCTGA ACTCTTCATT 
TTACCATATC AAGATGCTAC AGGAGAAAAA AAAAGAACAG CAGCAAACCT AGAGCAGATT 
TCAGAAATGC TGATCCAGAA ACTGAACCAA AACCTGGTCC ATTTTGAGTT GAAGCCAGGA 
GTTCGAATCC TTGTCCATGC TGCCCATTTA ACAGCAGCTC CCCTGGTGGA CCTCACTCCC 
AGTCACAGTG GTTCAGCCAT GCTGATGCTC CTCTCTGTTG TTTTTGTGGG ACTAGCTGTG 
TTTGTCATCT ACAAGTTCAA AAGAGCAACC TCAGGCCACA GTCCAGAACC CAAGGAAAGG 
AAATGCAACC AAGGTAGTCT GGACAGAGGA CTTCCAAAAA GCTTGTGGAT CACCAAGAGA 
TTTCAAGCCA AGACCCAGAG CGGAAGTATT TCCACAGCTG CTGAGCCCCA GAGTACAAAA 
GAAATCCCTA CCTATGTAAA TGGTTGA

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

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SORCS1 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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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