STAG2 cDNA ORF clone, Python bivittatus(Burmese python)

Gene
Clones
gRNAs

Summary

Gene Symbol	STAG2
Entrez Gene ID	103053432
Full Name	stromal antigen 2
Gene Type	protein-coding
Organism	Python bivittatus(Burmese python)

mRNA and Protein(s)

mRNA	Protein	Name
XM_007423631.2	XP_007423693.1	cohesin subunit SA-2
XM_007423631.3	XP_007423693.1	cohesin subunit SA-2

Pathways from BioSystems
Gene Ontology

The following STAG2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the STAG2 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)
OPy03314	XM_007423631.3 Latest version!	Python bivittatus stromal antigen 2 (STAG2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OPy03314	XM_007423631.2	Python bivittatus stromal antigen 2 (STAG2), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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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)

STAG2 ( XM_007423631.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007423693.1 Python bivittatus stromal antigen 2 (STAG2), mRNA.

Price & Availability↑

CloneID	OPy03314
Clone ID Related Accession (Same CDS sequence)	XM_007423631.2 , XM_007423631.3
Accession Version	XM_007423631.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3789bp) 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	2016-03-10
Organism	Python bivittatus(Burmese python)
Product	cohesin subunit SA-2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532332.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 11, 2016 this sequence version replaced XM_007423631.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATAGCAG CTCAAGAACC AACAACTAAT TTTGCTCTGA TTCAGGAATC TGAAACACAC 
TTTTCTTCAG ATACTGACTT CGAAGATATA GAAGGAAAAA ATCAGAAACC AGGAAAAGGA 
AAGACCTGCA AAAAGGGAAA AAAGGGTCCA GGAGAGAAAG CAAAAGTTGG AAATGGAGGA 
GGAAAGGCTG GTGGTCCAAA TCGAATGAAT GGGCATCATC AGCAGAATGG TGTGGAAAAC 
ATGATGCTGT TTGAAGTTGT TAAGATGGGC AAGAGTGCTA TGCAGTCTGT GGTGGATGAC 
TGGATAGAAT CCTACAAACA TGACAGAGAT ATAGCCCTCC TTGATCTCAT CAACTTCTTT 
ATTCAGTGCT CAGGTTGCAA AGGGGTTGTA ACAGCAGAGA TGTTTCGACA TATGCAAAAT 
TCAGAAATAA TTCGAAAAAT GACTGAAGAG TTTGATGAGG ACAGTGGGGA TTATCCGCTC 
ACCATGGCTG GTCCTCAGTG GAAGAAATTT AAATCAAGTT TTTGTGAGTT CATTGGAGTA 
TTGGTCCGGC AGTGTCAGTA TAGTATCATA TATGACGAAT ATATGATGGA TACAGTGATT 
TCACTACTCA CGGGACTATC AGACTCTCAA GTCAGGGCAT TTCGGCATAC TAGCACACTG 
GCAGCTATGA AGCTAATGAC TGCATTAGTA AATGTGGCAT TAAATTTGAG CATTAATATG 
GACAATACAC AACGACAATA TGAAGCGGAA CGAAATAAAA TAATTGGAAA ACGAGCTAAC 
GATAGACTGG AACTCTTACT GCAGAAAAGG AAGGAGCTTC AAGAAAATCA GGATGAAATA 
GAAAACATGA TGAATGCCAT TTTTAAGGGT GTATTTGTTC ATAGATACAG GGATGCAATT 
GCTGAGATTA GAGCAATATG TATTGAAGAA ATTGGAATTT GGATGAAAAT GTATAGTGAT 
GCCTTTCTCA ATGACAGCTA TTTAAAATAT GTGGGATGGA CAATGCATGA CAAGCAAGGG 
GAAGTGAGAC TCAAATGTCT TACAGCTTTG CAAGGACTTT ACTATAATAA AGAACTTAAT 
TCAAAATTGG AACTCTTCAC TAGTCGGTTC AAGGACAGAA TTGTGTCTAT GACTCTTGAC 
AAAGAATATG ATGTTGCAGT ACAAGCAATA AAACTACTTA CTCTTGTTTT ACAGAGTAGT 
GAAGAAGTTC TAACTGCAGA AGACTGTGAA AACGTCTATC ACCTGGTTTA CTCAGCTCAT 
CGGCCAGTGG CTGTAGCAGC AGGAGAATTT CTTTATAAAA AGCTTTTCAG TCGCAGAGAC 
CCTGAGGAAG ATGGAATTCT TAAAAGAAGA GGAAGGCAAG GTCCAAATGC TAATCTTGTC 
AAAACATTAG TATTTTTCTT TTTGGAAAGT GAGTTACATG AGCATGCTGC TTACTTGGTG 
GATAGCATGT GGGATTGTGC AACTGACCTT TTGAAGGACT GGGAATGTAT GAATAGTCTT 
CTGTTGGAAG AACCACTCAA TGGAGAAGAA CCTTTAACAG ACAAACAGGA AAGTGCACTA 
ATTGAAATAA TGCTGTGTAC AATTAGACAA GCAGCTGAAT GTCATCCCCC TGTAGGAAGA 
GGCACAGGAA AACGGGTGCT TACGGCAAAG GAGAAAAAAA CCCAGTTGGA TGACAGAACT 
AAGATCACAG AGCTTTTTGC TATTGCACTT CCTCAGCTCT TAGCAAAATA TTCTGTAGAT 
GCAGAGAAAG TCACCAACTT GTTACAGTTG CCACAATATT TTGATTTGGA AATCTACACA 
ACAGGGAGAT TAGAAAAGCA TTTGGATGCC TTATTGCGAC AGATCCGGGA TATTGTAGAA 
AAGCACACAG ACACTGATGT TTTGGAAGCT TGTTCTAAAA CTTACCATGC CCTCTGTAAT 
GAAGAGTTCA CAATCTTTAA CAGAGTAGAT ATTGCAAGAA GTCAGCTAAT AGATGAACTA 
GCAGACAAAT TCAACCGACT TCTTGAAGAT TTTCTGCAAG AGGGTGAAGA ACCTGATGAA 
GATGATGCTT ATCAGGTCTT ATCAACATTA AAGCGAATTA CTGCTTTTCA CAATGCCCAT 
GATCTGTCAA GATGGGACTT GTTTAGCTGT AACTACAAGT TACTAAAAAC AGGCATTGAG 
AATGGAGATA TGCCTGAACA GATAGTTATT CACGCACTGC AGTGTACTCA CTATGTAATC 
CTTTGGCAGC TAGCAAAAGT TACTGAGAGC AGTTCTACAA AGGAGGACCT TCTACGCTTA 
AAGAAACAGA TGAGAGTTTT TTGTCAAATC TGTCAGCACT ACCTTACCAA TGTAAATACT 
GCTGTTAAAG AACAGGCCTT CACTATTTTG TGTGATGTGT TAATGATCTT CAGCCATCAG 
ATCATGTCAG GAGGACGTGA CATGTTAGAG CCATTAGTTT ACACTCCTGA TTCTTCTTTA 
CAGTCTGAAC TCCTGAGTTT TATTCTTGAT CATGTTTTCA TTGATCAGGA TGAGGATAGC 
AACAGTGCAG ATGGACAGCA GGATGATGAA GCTAGTAAGA TAGAAGCTTT GCACAAAAGA 
AGAAATTTGC TTGCGGCTTT TTGTAAACTT ATTGTATATA CTGTGGTGGA AATGAACACT 
GCTGCAGATA TTTTTAAGCA ATATATGAAG TATTACAATG ACTACGGAGA TATTATCAAA 
GAAACAATGA GTAAAACAAG GCAAATAGAC AAAATTCAGT GTGCAAAGAC CTTGATTCTC 
AGTTTACAAC AGCTTTTCAA TGAGATGATC CAAGAAAACG GATATAATTT TGATAGATCA 
TCACCAACTT TCAGTGGAAT TAAGGAATTG GCTCGACGTT TTGCTTTAAC TTTTGGACTT 
GATCAGCTGA AAACAAGAGA AGCCATTGCT ATGTTACACA AGGATGGCAT AGAGTTTGCT 
TTTAAAGAGC CTAATCCACA AGGAGAAAGC CATCCACCTT TAAATTTGGC ATTTCTTGAT 
ATATTGAGTG AATTCTCTTC CAAACTTCTC AGGCAAGACA AAAAAACAGT GTACGTTTAT 
CTGGAGAAGT TCATGACCTT TCAGATGTCT CTTCGACGAG AAGATGTGTG GCTTCCACTC 
ATGTCTTACA GGAATTCTTT GCTAGCTGGG GGAGATGATG ACACTATGTC AGTCATCAGT 
GGAATTAGTA ATCGAGGGTC TACAGTAAGG AACAAGAAGA CAAAACCAGC CACAGGAAAG 
CGGAAACTAC CTGAAGCTGA GGAAAGTAGC AGCAGCGATA GCATGTGGAT GAACAGGGAG 
CAGACCATGC ACACGCCTGT CATGATTCAG ACGCCGCAGC TCACTTCCAC CATCATGAGG 
GAGCCCAAAA GGTTGCGGCC CGAGGAGAAT TACATGGGCG TCTACCCAAT GCAAGCCGAG 
CACCATCAGC CGCCAATCGA CTACAACACG CAGGTAACAT GGATGCTGGC TCAAAGACAG 
CAGGAGGAAG CAGCCAGGCA ACAGCAGGAG AGGGCAGCCA TGAATTACGT GAAACTGAGA 
ACCAACTTGC AGCATGCCAT TCGACGCGGC ACTAGTCTAA TGGAGGATGA TGAAGAGCCC 
ATTGTTGAAG ATGTTATGAT GTCATCGGAA GGGCGCATCG AGGATCTCAA CGAAGGCATG 
GATTTCGATA CCATGGACAT AGACCTACCA CCGTCAAAGA ACAGAAGAGA ACGAACAGAG 
TTAAAGCCAG ATTTCTTTGA CCCTGCATCA ATTATGGATG AATCTGTTCT TGGGGTATCA 
ATGTTTTAA

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

RefSeq	XP_007423693.1
CDS	547..4335
Translation	MIAAQEPTTNFALIQESETHFSSDTDFEDIEGKNQKPGKGKTCKKGKKGPGEKAKVGNGGGKAGGPNRMNGHHQQNGVENMMLFEVVKMGKSAMQSVVDDWIESYKHDRDIALLDLINFFIQCSGCKGVVTAEMFRHMQNSEIIRKMTEEFDEDSGDYPLTMAGPQWKKFKSSFCEFIGVLVRQCQYSIIYDEYMMDTVISLLTGLSDSQVRAFRHTSTLAAMKLMTALVNVALNLSINMDNTQRQYEAERNKIIGKRANDRLELLLQKRKELQENQDEIENMMNAIFKGVFVHRYRDAIAEIRAICIEEIGIWMKMYSDAFLNDSYLKYVGWTMHDKQGEVRLKCLTALQGLYYNKELNSKLELFTSRFKDRIVSMTLDKEYDVAVQAIKLLTLVLQSSEEVLTAEDCENVYHLVYSAHRPVAVAAGEFLYKKLFSRRDPEEDGILKRRGRQGPNANLVKTLVFFFLESELHEHAAYLVDSMWDCATDLLKDWECMNSLLLEEPLNGEEPLTDKQESALIEIMLCTIRQAAECHPPVGRGTGKRVLTAKEKKTQLDDRTKITELFAIALPQLLAKYSVDAEKVTNLLQLPQYFDLEIYTTGRLEKHLDALLRQIRDIVEKHTDTDVLEACSKTYHALCNEEFTIFNRVDIARSQLIDELADKFNRLLEDFLQEGEEPDEDDAYQVLSTLKRITAFHNAHDLSRWDLFSCNYKLLKTGIENGDMPEQIVIHALQCTHYVILWQLAKVTESSSTKEDLLRLKKQMRVFCQICQHYLTNVNTAVKEQAFTILCDVLMIFSHQIMSGGRDMLEPLVYTPDSSLQSELLSFILDHVFIDQDEDSNSADGQQDDEASKIEALHKRRNLLAAFCKLIVYTVVEMNTAADIFKQYMKYYNDYGDIIKETMSKTRQIDKIQCAKTLILSLQQLFNEMIQENGYNFDRSSPTFSGIKELARRFALTFGLDQLKTREAIAMLHKDGIEFAFKEPNPQGESHPPLNLAFLDILSEFSSKLLRQDKKTVYVYLEKFMTFQMSLRREDVWLPLMSYRNSLLAGGDDDTMSVISGISNRGSTVRNKKTKPATGKRKLPEAEESSSSDSMWMNREQTMHTPVMIQTPQLTSTIMREPKRLRPEENYMGVYPMQAEHHQPPIDYNTQVTWMLAQRQQEEAARQQQERAAMNYVKLRTNLQHAIRRGTSLMEDDEEPIVEDVMMSSEGRIEDLNEGMDFDTMDIDLPPSKNRRERTELKPDFFDPASIMDESVLGVSMF

Target ORF information:

RefSeq Version	XM_007423631.2
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus stromal antigen 2 (STAG2), mRNA.

Target ORF information:

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

XM_007423631.2

ORF Insert Sequence:

ATGATAGCAG CTCAAGAACC AACAACTAAT TTTGCTCTGA TTCAGGAATC TGAAACACAC 
TTTTCTTCAG ATACTGACTT CGAAGATATA GAAGGAAAAA ATCAGAAACC AGGAAAAGGA 
AAGACCTGCA AAAAGGGAAA AAAGGGTCCA GGAGAGAAAG CAAAAGTTGG AAATGGAGGA 
GGAAAGGCTG GTGGTCCAAA TCGAATGAAT GGGCATCATC AGCAGAATGG TGTGGAAAAC 
ATGATGCTGT TTGAAGTTGT TAAGATGGGC AAGAGTGCTA TGCAGTCTGT GGTGGATGAC 
TGGATAGAAT CCTACAAACA TGACAGAGAT ATAGCCCTCC TTGATCTCAT CAACTTCTTT 
ATTCAGTGCT CAGGTTGCAA AGGGGTTGTA ACAGCAGAGA TGTTTCGACA TATGCAAAAT 
TCAGAAATAA TTCGAAAAAT GACTGAAGAG TTTGATGAGG ACAGTGGGGA TTATCCGCTC 
ACCATGGCTG GTCCTCAGTG GAAGAAATTT AAATCAAGTT TTTGTGAGTT CATTGGAGTA 
TTGGTCCGGC AGTGTCAGTA TAGTATCATA TATGACGAAT ATATGATGGA TACAGTGATT 
TCACTACTCA CGGGACTATC AGACTCTCAA GTCAGGGCAT TTCGGCATAC TAGCACACTG 
GCAGCTATGA AGCTAATGAC TGCATTAGTA AATGTGGCAT TAAATTTGAG CATTAATATG 
GACAATACAC AACGACAATA TGAAGCGGAA CGAAATAAAA TAATTGGAAA ACGAGCTAAC 
GATAGACTGG AACTCTTACT GCAGAAAAGG AAGGAGCTTC AAGAAAATCA GGATGAAATA 
GAAAACATGA TGAATGCCAT TTTTAAGGGT GTATTTGTTC ATAGATACAG GGATGCAATT 
GCTGAGATTA GAGCAATATG TATTGAAGAA ATTGGAATTT GGATGAAAAT GTATAGTGAT 
GCCTTTCTCA ATGACAGCTA TTTAAAATAT GTGGGATGGA CAATGCATGA CAAGCAAGGG 
GAAGTGAGAC TCAAATGTCT TACAGCTTTG CAAGGACTTT ACTATAATAA AGAACTTAAT 
TCAAAATTGG AACTCTTCAC TAGTCGGTTC AAGGACAGAA TTGTGTCTAT GACTCTTGAC 
AAAGAATATG ATGTTGCAGT ACAAGCAATA AAACTACTTA CTCTTGTTTT ACAGAGTAGT 
GAAGAAGTTC TAACTGCAGA AGACTGTGAA AACGTCTATC ACCTGGTTTA CTCAGCTCAT 
CGGCCAGTGG CTGTAGCAGC AGGAGAATTT CTTTATAAAA AGCTTTTCAG TCGCAGAGAC 
CCTGAGGAAG ATGGAATTCT TAAAAGAAGA GGAAGGCAAG GTCCAAATGC TAATCTTGTC 
AAAACATTAG TATTTTTCTT TTTGGAAAGT GAGTTACATG AGCATGCTGC TTACTTGGTG 
GATAGCATGT GGGATTGTGC AACTGACCTT TTGAAGGACT GGGAATGTAT GAATAGTCTT 
CTGTTGGAAG AACCACTCAA TGGAGAAGAA CCTTTAACAG ACAAACAGGA AAGTGCACTA 
ATTGAAATAA TGCTGTGTAC AATTAGACAA GCAGCTGAAT GTCATCCCCC TGTAGGAAGA 
GGCACAGGAA AACGGGTGCT TACGGCAAAG GAGAAAAAAA CCCAGTTGGA TGACAGAACT 
AAGATCACAG AGCTTTTTGC TATTGCACTT CCTCAGCTCT TAGCAAAATA TTCTGTAGAT 
GCAGAGAAAG TCACCAACTT GTTACAGTTG CCACAATATT TTGATTTGGA AATCTACACA 
ACAGGGAGAT TAGAAAAGCA TTTGGATGCC TTATTGCGAC AGATCCGGGA TATTGTAGAA 
AAGCACACAG ACACTGATGT TTTGGAAGCT TGTTCTAAAA CTTACCATGC CCTCTGTAAT 
GAAGAGTTCA CAATCTTTAA CAGAGTAGAT ATTGCAAGAA GTCAGCTAAT AGATGAACTA 
GCAGACAAAT TCAACCGACT TCTTGAAGAT TTTCTGCAAG AGGGTGAAGA ACCTGATGAA 
GATGATGCTT ATCAGGTCTT ATCAACATTA AAGCGAATTA CTGCTTTTCA CAATGCCCAT 
GATCTGTCAA GATGGGACTT GTTTAGCTGT AACTACAAGT TACTAAAAAC AGGCATTGAG 
AATGGAGATA TGCCTGAACA GATAGTTATT CACGCACTGC AGTGTACTCA CTATGTAATC 
CTTTGGCAGC TAGCAAAAGT TACTGAGAGC AGTTCTACAA AGGAGGACCT TCTACGCTTA 
AAGAAACAGA TGAGAGTTTT TTGTCAAATC TGTCAGCACT ACCTTACCAA TGTAAATACT 
GCTGTTAAAG AACAGGCCTT CACTATTTTG TGTGATGTGT TAATGATCTT CAGCCATCAG 
ATCATGTCAG GAGGACGTGA CATGTTAGAG CCATTAGTTT ACACTCCTGA TTCTTCTTTA 
CAGTCTGAAC TCCTGAGTTT TATTCTTGAT CATGTTTTCA TTGATCAGGA TGAGGATAGC 
AACAGTGCAG ATGGACAGCA GGATGATGAA GCTAGTAAGA TAGAAGCTTT GCACAAAAGA 
AGAAATTTGC TTGCGGCTTT TTGTAAACTT ATTGTATATA CTGTGGTGGA AATGAACACT 
GCTGCAGATA TTTTTAAGCA ATATATGAAG TATTACAATG ACTACGGAGA TATTATCAAA 
GAAACAATGA GTAAAACAAG GCAAATAGAC AAAATTCAGT GTGCAAAGAC CTTGATTCTC 
AGTTTACAAC AGCTTTTCAA TGAGATGATC CAAGAAAACG GATATAATTT TGATAGATCA 
TCACCAACTT TCAGTGGAAT TAAGGAATTG GCTCGACGTT TTGCTTTAAC TTTTGGACTT 
GATCAGCTGA AAACAAGAGA AGCCATTGCT ATGTTACACA AGGATGGCAT AGAGTTTGCT 
TTTAAAGAGC CTAATCCACA AGGAGAAAGC CATCCACCTT TAAATTTGGC ATTTCTTGAT 
ATATTGAGTG AATTCTCTTC CAAACTTCTC AGGCAAGACA AAAAAACAGT GTACGTTTAT 
CTGGAGAAGT TCATGACCTT TCAGATGTCT CTTCGACGAG AAGATGTGTG GCTTCCACTC 
ATGTCTTACA GGAATTCTTT GCTAGCTGGG GGAGATGATG ACACTATGTC AGTCATCAGT 
GGAATTAGTA ATCGAGGGTC TACAGTAAGG AACAAGAAGA CAAAACCAGC CACAGGAAAG 
CGGAAACTAC CTGAAGCTGA GGAAAGTAGC AGCAGCGATA GCATGTGGAT GAACAGGGAG 
CAGACCATGC ACACGCCTGT CATGATTCAG ACGCCGCAGC TCACTTCCAC CATCATGAGG 
GAGCCCAAAA GGTTGCGGCC CGAGGAGAAT TACATGGGCG TCTACCCAAT GCAAGCCGAG 
CACCATCAGC CGCCAATCGA CTACAACACG CAGGTAACAT GGATGCTGGC TCAAAGACAG 
CAGGAGGAAG CAGCCAGGCA ACAGCAGGAG AGGGCAGCCA TGAATTACGT GAAACTGAGA 
ACCAACTTGC AGCATGCCAT TCGACGCGGC ACTAGTCTAA TGGAGGATGA TGAAGAGCCC 
ATTGTTGAAG ATGTTATGAT GTCATCGGAA GGGCGCATCG AGGATCTCAA CGAAGGCATG 
GATTTCGATA CCATGGACAT AGACCTACCA CCGTCAAAGA ACAGAAGAGA ACGAACAGAG 
TTAAAGCCAG ATTTCTTTGA CCCTGCATCA ATTATGGATG AATCTGTTCT TGGGGTATCA 
ATGTTTTAA

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

STAG2 ( XM_007423631.3 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007423693.1 Python bivittatus stromal antigen 2 (STAG2), mRNA.

Price & Availability↑

CloneID	OPy03314
Clone ID Related Accession (Same CDS sequence)	XM_007423631.2 , XM_007423631.3
Accession Version	XM_007423631.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3789bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-05-23
Organism	Python bivittatus(Burmese python)
Product	cohesin subunit SA-2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006532332.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007423631.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGATAGCAG CTCAAGAACC AACAACTAAT TTTGCTCTGA TTCAGGAATC TGAAACACAC 
TTTTCTTCAG ATACTGACTT CGAAGATATA GAAGGAAAAA ATCAGAAACC AGGAAAAGGA 
AAGACCTGCA AAAAGGGAAA AAAGGGTCCA GGAGAGAAAG CAAAAGTTGG AAATGGAGGA 
GGAAAGGCTG GTGGTCCAAA TCGAATGAAT GGGCATCATC AGCAGAATGG TGTGGAAAAC 
ATGATGCTGT TTGAAGTTGT TAAGATGGGC AAGAGTGCTA TGCAGTCTGT GGTGGATGAC 
TGGATAGAAT CCTACAAACA TGACAGAGAT ATAGCCCTCC TTGATCTCAT CAACTTCTTT 
ATTCAGTGCT CAGGTTGCAA AGGGGTTGTA ACAGCAGAGA TGTTTCGACA TATGCAAAAT 
TCAGAAATAA TTCGAAAAAT GACTGAAGAG TTTGATGAGG ACAGTGGGGA TTATCCGCTC 
ACCATGGCTG GTCCTCAGTG GAAGAAATTT AAATCAAGTT TTTGTGAGTT CATTGGAGTA 
TTGGTCCGGC AGTGTCAGTA TAGTATCATA TATGACGAAT ATATGATGGA TACAGTGATT 
TCACTACTCA CGGGACTATC AGACTCTCAA GTCAGGGCAT TTCGGCATAC TAGCACACTG 
GCAGCTATGA AGCTAATGAC TGCATTAGTA AATGTGGCAT TAAATTTGAG CATTAATATG 
GACAATACAC AACGACAATA TGAAGCGGAA CGAAATAAAA TAATTGGAAA ACGAGCTAAC 
GATAGACTGG AACTCTTACT GCAGAAAAGG AAGGAGCTTC AAGAAAATCA GGATGAAATA 
GAAAACATGA TGAATGCCAT TTTTAAGGGT GTATTTGTTC ATAGATACAG GGATGCAATT 
GCTGAGATTA GAGCAATATG TATTGAAGAA ATTGGAATTT GGATGAAAAT GTATAGTGAT 
GCCTTTCTCA ATGACAGCTA TTTAAAATAT GTGGGATGGA CAATGCATGA CAAGCAAGGG 
GAAGTGAGAC TCAAATGTCT TACAGCTTTG CAAGGACTTT ACTATAATAA AGAACTTAAT 
TCAAAATTGG AACTCTTCAC TAGTCGGTTC AAGGACAGAA TTGTGTCTAT GACTCTTGAC 
AAAGAATATG ATGTTGCAGT ACAAGCAATA AAACTACTTA CTCTTGTTTT ACAGAGTAGT 
GAAGAAGTTC TAACTGCAGA AGACTGTGAA AACGTCTATC ACCTGGTTTA CTCAGCTCAT 
CGGCCAGTGG CTGTAGCAGC AGGAGAATTT CTTTATAAAA AGCTTTTCAG TCGCAGAGAC 
CCTGAGGAAG ATGGAATTCT TAAAAGAAGA GGAAGGCAAG GTCCAAATGC TAATCTTGTC 
AAAACATTAG TATTTTTCTT TTTGGAAAGT GAGTTACATG AGCATGCTGC TTACTTGGTG 
GATAGCATGT GGGATTGTGC AACTGACCTT TTGAAGGACT GGGAATGTAT GAATAGTCTT 
CTGTTGGAAG AACCACTCAA TGGAGAAGAA CCTTTAACAG ACAAACAGGA AAGTGCACTA 
ATTGAAATAA TGCTGTGTAC AATTAGACAA GCAGCTGAAT GTCATCCCCC TGTAGGAAGA 
GGCACAGGAA AACGGGTGCT TACGGCAAAG GAGAAAAAAA CCCAGTTGGA TGACAGAACT 
AAGATCACAG AGCTTTTTGC TATTGCACTT CCTCAGCTCT TAGCAAAATA TTCTGTAGAT 
GCAGAGAAAG TCACCAACTT GTTACAGTTG CCACAATATT TTGATTTGGA AATCTACACA 
ACAGGGAGAT TAGAAAAGCA TTTGGATGCC TTATTGCGAC AGATCCGGGA TATTGTAGAA 
AAGCACACAG ACACTGATGT TTTGGAAGCT TGTTCTAAAA CTTACCATGC CCTCTGTAAT 
GAAGAGTTCA CAATCTTTAA CAGAGTAGAT ATTGCAAGAA GTCAGCTAAT AGATGAACTA 
GCAGACAAAT TCAACCGACT TCTTGAAGAT TTTCTGCAAG AGGGTGAAGA ACCTGATGAA 
GATGATGCTT ATCAGGTCTT ATCAACATTA AAGCGAATTA CTGCTTTTCA CAATGCCCAT 
GATCTGTCAA GATGGGACTT GTTTAGCTGT AACTACAAGT TACTAAAAAC AGGCATTGAG 
AATGGAGATA TGCCTGAACA GATAGTTATT CACGCACTGC AGTGTACTCA CTATGTAATC 
CTTTGGCAGC TAGCAAAAGT TACTGAGAGC AGTTCTACAA AGGAGGACCT TCTACGCTTA 
AAGAAACAGA TGAGAGTTTT TTGTCAAATC TGTCAGCACT ACCTTACCAA TGTAAATACT 
GCTGTTAAAG AACAGGCCTT CACTATTTTG TGTGATGTGT TAATGATCTT CAGCCATCAG 
ATCATGTCAG GAGGACGTGA CATGTTAGAG CCATTAGTTT ACACTCCTGA TTCTTCTTTA 
CAGTCTGAAC TCCTGAGTTT TATTCTTGAT CATGTTTTCA TTGATCAGGA TGAGGATAGC 
AACAGTGCAG ATGGACAGCA GGATGATGAA GCTAGTAAGA TAGAAGCTTT GCACAAAAGA 
AGAAATTTGC TTGCGGCTTT TTGTAAACTT ATTGTATATA CTGTGGTGGA AATGAACACT 
GCTGCAGATA TTTTTAAGCA ATATATGAAG TATTACAATG ACTACGGAGA TATTATCAAA 
GAAACAATGA GTAAAACAAG GCAAATAGAC AAAATTCAGT GTGCAAAGAC CTTGATTCTC 
AGTTTACAAC AGCTTTTCAA TGAGATGATC CAAGAAAACG GATATAATTT TGATAGATCA 
TCACCAACTT TCAGTGGAAT TAAGGAATTG GCTCGACGTT TTGCTTTAAC TTTTGGACTT 
GATCAGCTGA AAACAAGAGA AGCCATTGCT ATGTTACACA AGGATGGCAT AGAGTTTGCT 
TTTAAAGAGC CTAATCCACA AGGAGAAAGC CATCCACCTT TAAATTTGGC ATTTCTTGAT 
ATATTGAGTG AATTCTCTTC CAAACTTCTC AGGCAAGACA AAAAAACAGT GTACGTTTAT 
CTGGAGAAGT TCATGACCTT TCAGATGTCT CTTCGACGAG AAGATGTGTG GCTTCCACTC 
ATGTCTTACA GGAATTCTTT GCTAGCTGGG GGAGATGATG ACACTATGTC AGTCATCAGT 
GGAATTAGTA ATCGAGGGTC TACAGTAAGG AACAAGAAGA CAAAACCAGC CACAGGAAAG 
CGGAAACTAC CTGAAGCTGA GGAAAGTAGC AGCAGCGATA GCATGTGGAT GAACAGGGAG 
CAGACCATGC ACACGCCTGT CATGATTCAG ACGCCGCAGC TCACTTCCAC CATCATGAGG 
GAGCCCAAAA GGTTGCGGCC CGAGGAGAAT TACATGGGCG TCTACCCAAT GCAAGCCGAG 
CACCATCAGC CGCCAATCGA CTACAACACG CAGGTAACAT GGATGCTGGC TCAAAGACAG 
CAGGAGGAAG CAGCCAGGCA ACAGCAGGAG AGGGCAGCCA TGAATTACGT GAAACTGAGA 
ACCAACTTGC AGCATGCCAT TCGACGCGGC ACTAGTCTAA TGGAGGATGA TGAAGAGCCC 
ATTGTTGAAG ATGTTATGAT GTCATCGGAA GGGCGCATCG AGGATCTCAA CGAAGGCATG 
GATTTCGATA CCATGGACAT AGACCTACCA CCGTCAAAGA ACAGAAGAGA ACGAACAGAG 
TTAAAGCCAG ATTTCTTTGA CCCTGCATCA ATTATGGATG AATCTGTTCT TGGGGTATCA 
ATGTTTTAA

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

RefSeq	XP_007423693.1
CDS	551..4339
Translation	MIAAQEPTTNFALIQESETHFSSDTDFEDIEGKNQKPGKGKTCKKGKKGPGEKAKVGNGGGKAGGPNRMNGHHQQNGVENMMLFEVVKMGKSAMQSVVDDWIESYKHDRDIALLDLINFFIQCSGCKGVVTAEMFRHMQNSEIIRKMTEEFDEDSGDYPLTMAGPQWKKFKSSFCEFIGVLVRQCQYSIIYDEYMMDTVISLLTGLSDSQVRAFRHTSTLAAMKLMTALVNVALNLSINMDNTQRQYEAERNKIIGKRANDRLELLLQKRKELQENQDEIENMMNAIFKGVFVHRYRDAIAEIRAICIEEIGIWMKMYSDAFLNDSYLKYVGWTMHDKQGEVRLKCLTALQGLYYNKELNSKLELFTSRFKDRIVSMTLDKEYDVAVQAIKLLTLVLQSSEEVLTAEDCENVYHLVYSAHRPVAVAAGEFLYKKLFSRRDPEEDGILKRRGRQGPNANLVKTLVFFFLESELHEHAAYLVDSMWDCATDLLKDWECMNSLLLEEPLNGEEPLTDKQESALIEIMLCTIRQAAECHPPVGRGTGKRVLTAKEKKTQLDDRTKITELFAIALPQLLAKYSVDAEKVTNLLQLPQYFDLEIYTTGRLEKHLDALLRQIRDIVEKHTDTDVLEACSKTYHALCNEEFTIFNRVDIARSQLIDELADKFNRLLEDFLQEGEEPDEDDAYQVLSTLKRITAFHNAHDLSRWDLFSCNYKLLKTGIENGDMPEQIVIHALQCTHYVILWQLAKVTESSSTKEDLLRLKKQMRVFCQICQHYLTNVNTAVKEQAFTILCDVLMIFSHQIMSGGRDMLEPLVYTPDSSLQSELLSFILDHVFIDQDEDSNSADGQQDDEASKIEALHKRRNLLAAFCKLIVYTVVEMNTAADIFKQYMKYYNDYGDIIKETMSKTRQIDKIQCAKTLILSLQQLFNEMIQENGYNFDRSSPTFSGIKELARRFALTFGLDQLKTREAIAMLHKDGIEFAFKEPNPQGESHPPLNLAFLDILSEFSSKLLRQDKKTVYVYLEKFMTFQMSLRREDVWLPLMSYRNSLLAGGDDDTMSVISGISNRGSTVRNKKTKPATGKRKLPEAEESSSSDSMWMNREQTMHTPVMIQTPQLTSTIMREPKRLRPEENYMGVYPMQAEHHQPPIDYNTQVTWMLAQRQQEEAARQQQERAAMNYVKLRTNLQHAIRRGTSLMEDDEEPIVEDVMMSSEGRIEDLNEGMDFDTMDIDLPPSKNRRERTELKPDFFDPASIMDESVLGVSMF

Target ORF information:

RefSeq Version	XM_007423631.3
Organism	Python bivittatus(Burmese python)
Definition	Python bivittatus stromal antigen 2 (STAG2), mRNA.

Target ORF information:

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

XM_007423631.3

ORF Insert Sequence:

ATGATAGCAG CTCAAGAACC AACAACTAAT TTTGCTCTGA TTCAGGAATC TGAAACACAC 
TTTTCTTCAG ATACTGACTT CGAAGATATA GAAGGAAAAA ATCAGAAACC AGGAAAAGGA 
AAGACCTGCA AAAAGGGAAA AAAGGGTCCA GGAGAGAAAG CAAAAGTTGG AAATGGAGGA 
GGAAAGGCTG GTGGTCCAAA TCGAATGAAT GGGCATCATC AGCAGAATGG TGTGGAAAAC 
ATGATGCTGT TTGAAGTTGT TAAGATGGGC AAGAGTGCTA TGCAGTCTGT GGTGGATGAC 
TGGATAGAAT CCTACAAACA TGACAGAGAT ATAGCCCTCC TTGATCTCAT CAACTTCTTT 
ATTCAGTGCT CAGGTTGCAA AGGGGTTGTA ACAGCAGAGA TGTTTCGACA TATGCAAAAT 
TCAGAAATAA TTCGAAAAAT GACTGAAGAG TTTGATGAGG ACAGTGGGGA TTATCCGCTC 
ACCATGGCTG GTCCTCAGTG GAAGAAATTT AAATCAAGTT TTTGTGAGTT CATTGGAGTA 
TTGGTCCGGC AGTGTCAGTA TAGTATCATA TATGACGAAT ATATGATGGA TACAGTGATT 
TCACTACTCA CGGGACTATC AGACTCTCAA GTCAGGGCAT TTCGGCATAC TAGCACACTG 
GCAGCTATGA AGCTAATGAC TGCATTAGTA AATGTGGCAT TAAATTTGAG CATTAATATG 
GACAATACAC AACGACAATA TGAAGCGGAA CGAAATAAAA TAATTGGAAA ACGAGCTAAC 
GATAGACTGG AACTCTTACT GCAGAAAAGG AAGGAGCTTC AAGAAAATCA GGATGAAATA 
GAAAACATGA TGAATGCCAT TTTTAAGGGT GTATTTGTTC ATAGATACAG GGATGCAATT 
GCTGAGATTA GAGCAATATG TATTGAAGAA ATTGGAATTT GGATGAAAAT GTATAGTGAT 
GCCTTTCTCA ATGACAGCTA TTTAAAATAT GTGGGATGGA CAATGCATGA CAAGCAAGGG 
GAAGTGAGAC TCAAATGTCT TACAGCTTTG CAAGGACTTT ACTATAATAA AGAACTTAAT 
TCAAAATTGG AACTCTTCAC TAGTCGGTTC AAGGACAGAA TTGTGTCTAT GACTCTTGAC 
AAAGAATATG ATGTTGCAGT ACAAGCAATA AAACTACTTA CTCTTGTTTT ACAGAGTAGT 
GAAGAAGTTC TAACTGCAGA AGACTGTGAA AACGTCTATC ACCTGGTTTA CTCAGCTCAT 
CGGCCAGTGG CTGTAGCAGC AGGAGAATTT CTTTATAAAA AGCTTTTCAG TCGCAGAGAC 
CCTGAGGAAG ATGGAATTCT TAAAAGAAGA GGAAGGCAAG GTCCAAATGC TAATCTTGTC 
AAAACATTAG TATTTTTCTT TTTGGAAAGT GAGTTACATG AGCATGCTGC TTACTTGGTG 
GATAGCATGT GGGATTGTGC AACTGACCTT TTGAAGGACT GGGAATGTAT GAATAGTCTT 
CTGTTGGAAG AACCACTCAA TGGAGAAGAA CCTTTAACAG ACAAACAGGA AAGTGCACTA 
ATTGAAATAA TGCTGTGTAC AATTAGACAA GCAGCTGAAT GTCATCCCCC TGTAGGAAGA 
GGCACAGGAA AACGGGTGCT TACGGCAAAG GAGAAAAAAA CCCAGTTGGA TGACAGAACT 
AAGATCACAG AGCTTTTTGC TATTGCACTT CCTCAGCTCT TAGCAAAATA TTCTGTAGAT 
GCAGAGAAAG TCACCAACTT GTTACAGTTG CCACAATATT TTGATTTGGA AATCTACACA 
ACAGGGAGAT TAGAAAAGCA TTTGGATGCC TTATTGCGAC AGATCCGGGA TATTGTAGAA 
AAGCACACAG ACACTGATGT TTTGGAAGCT TGTTCTAAAA CTTACCATGC CCTCTGTAAT 
GAAGAGTTCA CAATCTTTAA CAGAGTAGAT ATTGCAAGAA GTCAGCTAAT AGATGAACTA 
GCAGACAAAT TCAACCGACT TCTTGAAGAT TTTCTGCAAG AGGGTGAAGA ACCTGATGAA 
GATGATGCTT ATCAGGTCTT ATCAACATTA AAGCGAATTA CTGCTTTTCA CAATGCCCAT 
GATCTGTCAA GATGGGACTT GTTTAGCTGT AACTACAAGT TACTAAAAAC AGGCATTGAG 
AATGGAGATA TGCCTGAACA GATAGTTATT CACGCACTGC AGTGTACTCA CTATGTAATC 
CTTTGGCAGC TAGCAAAAGT TACTGAGAGC AGTTCTACAA AGGAGGACCT TCTACGCTTA 
AAGAAACAGA TGAGAGTTTT TTGTCAAATC TGTCAGCACT ACCTTACCAA TGTAAATACT 
GCTGTTAAAG AACAGGCCTT CACTATTTTG TGTGATGTGT TAATGATCTT CAGCCATCAG 
ATCATGTCAG GAGGACGTGA CATGTTAGAG CCATTAGTTT ACACTCCTGA TTCTTCTTTA 
CAGTCTGAAC TCCTGAGTTT TATTCTTGAT CATGTTTTCA TTGATCAGGA TGAGGATAGC 
AACAGTGCAG ATGGACAGCA GGATGATGAA GCTAGTAAGA TAGAAGCTTT GCACAAAAGA 
AGAAATTTGC TTGCGGCTTT TTGTAAACTT ATTGTATATA CTGTGGTGGA AATGAACACT 
GCTGCAGATA TTTTTAAGCA ATATATGAAG TATTACAATG ACTACGGAGA TATTATCAAA 
GAAACAATGA GTAAAACAAG GCAAATAGAC AAAATTCAGT GTGCAAAGAC CTTGATTCTC 
AGTTTACAAC AGCTTTTCAA TGAGATGATC CAAGAAAACG GATATAATTT TGATAGATCA 
TCACCAACTT TCAGTGGAAT TAAGGAATTG GCTCGACGTT TTGCTTTAAC TTTTGGACTT 
GATCAGCTGA AAACAAGAGA AGCCATTGCT ATGTTACACA AGGATGGCAT AGAGTTTGCT 
TTTAAAGAGC CTAATCCACA AGGAGAAAGC CATCCACCTT TAAATTTGGC ATTTCTTGAT 
ATATTGAGTG AATTCTCTTC CAAACTTCTC AGGCAAGACA AAAAAACAGT GTACGTTTAT 
CTGGAGAAGT TCATGACCTT TCAGATGTCT CTTCGACGAG AAGATGTGTG GCTTCCACTC 
ATGTCTTACA GGAATTCTTT GCTAGCTGGG GGAGATGATG ACACTATGTC AGTCATCAGT 
GGAATTAGTA ATCGAGGGTC TACAGTAAGG AACAAGAAGA CAAAACCAGC CACAGGAAAG 
CGGAAACTAC CTGAAGCTGA GGAAAGTAGC AGCAGCGATA GCATGTGGAT GAACAGGGAG 
CAGACCATGC ACACGCCTGT CATGATTCAG ACGCCGCAGC TCACTTCCAC CATCATGAGG 
GAGCCCAAAA GGTTGCGGCC CGAGGAGAAT TACATGGGCG TCTACCCAAT GCAAGCCGAG 
CACCATCAGC CGCCAATCGA CTACAACACG CAGGTAACAT GGATGCTGGC TCAAAGACAG 
CAGGAGGAAG CAGCCAGGCA ACAGCAGGAG AGGGCAGCCA TGAATTACGT GAAACTGAGA 
ACCAACTTGC AGCATGCCAT TCGACGCGGC ACTAGTCTAA TGGAGGATGA TGAAGAGCCC 
ATTGTTGAAG ATGTTATGAT GTCATCGGAA GGGCGCATCG AGGATCTCAA CGAAGGCATG 
GATTTCGATA CCATGGACAT AGACCTACCA CCGTCAAAGA ACAGAAGAGA ACGAACAGAG 
TTAAAGCCAG ATTTCTTTGA CCCTGCATCA ATTATGGATG AATCTGTTCT TGGGGTATCA 
ATGTTTTAA