copa cDNA ORF clone, Seriola dumerili(greater amberjack)

Gene
Clones
gRNAs

Summary

Gene Symbol	copa
Entrez Gene ID	111231054
Full Name	coatomer protein complex subunit alpha
Gene Type	protein-coding
Organism	Seriola dumerili(greater amberjack)

mRNA and Protein(s)

mRNA	Protein	Name
XM_022758019.1	XP_022613740.1	coatomer subunit alpha

Pathways from BioSystems
Gene Ontology

The following copa gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the copa 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
OSe203994	XM_022758019.1 Latest version!	Seriola dumerili coatomer protein complex subunit alpha (copa), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00

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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)

copa ( XM_022758019.1 ) cDNA ORF clone, Seriola dumerili(greater amberjack) -> XP_022613740.1 Seriola dumerili coatomer protein complex subunit alpha (copa), mRNA.

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CloneID	OSe203994
Clone ID Related Accession (Same CDS sequence)	XM_022758019.1
Accession Version	XM_022758019.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3669bp) 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	2017-10-03
Organism	Seriola dumerili(greater amberjack)
Product	coatomer subunit alpha
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019174546.1) 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 :: Seriola dumerili Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTAACGA AATTTGAAAC GAAGTCGGCC CGTGTTAAAG GCCTAAGTTT TCATCCCAAA 
AGGCCATGGG TTCTTGCAAG TTTGCACAAC GGAGTCATCC AGCTGTGGGA CTATCGGATG 
TGCACTCTGA TTGACAAGTT TGATGAGCAT GACGGTCCCG TCAGAGGCAT TGATTTCCAC 
AAACAGCAGC CTCTGTTTGT GTCTGGAGGA GATGATTACA AAATCAAGGT GTGGAACTAC 
AAGCTGAGAC GCTGCCTCTT CACCCTCCTT GGACACCTTG ACTACATCAG AACCACCTTC 
TTTCACCATG AGTACCCCTG GATTCTGAGT GCCTCAGATG ACCAGACTAT ACGCATCTGG 
AACTGGCAGT CCAGGACCTG CGTCTGTGTG CTGACCGGCC ACAATCACTA CGTGATGTGC 
GCCCAGTTCC ATCCATCCGA GGACCTGGTG GTTTCCGCCA GTCTGGACCA GACTGTGCGA 
GTGTGGGATA TCTCCGGTCT GAGGAAGAAG AACCTGTCTC CTGGTGCTGT GGAGACGGAA 
GTGCGCGGCA TCTCTGGCGT TGACTTGTTC GGTGCCTCAG ATGCTGTCGT CAAGCATGTC 
CTTGAGGGTC ACGACCGGGG GGTCAATTGG GCAGCCTTCC ACCCCAGCAT GCCTCTCATC 
GTGTCTGGAG CTGATGACAG GCAGGTCAAG ATCTGGAGAA TGAATGAATC CAAGGCATGG 
GAGCTGGATA CATGCCGCGG TCACTACAAC AACGTGTCCT GTGCCGTCTT CCACCCACGT 
CAGGAGCTCA TCCTGTCCAA CTCTGAGGAC AAGAGCATCC GGGTGTGGGA CATGTCCAAG 
AGGACTGGAG TGCAGACCTT CCGCCGGGAC CACGATCGCT TCTGGGTGCT GGGGGCTCAC 
CCAAACCTCA ACCTGTTTGC TGCAGGCCAT GACAGCGGCA TGATTGTGTT CAAGCTGGAG 
CGCGAGCGTC CGGCATACGC CGTGCACGGT AACATGCTGT ACTACGTCAA GGATCGCTTC 
CTTCGGCAGC TGGACTTCAA CAGCAGCAAG GACACTGCCG TCATGCAGCT ACGCAGTGGG 
TCGAAGTTTC CAGTGTTCAG CATGTCTTAC AACCCAGCTG AGAACGCCGT CCTGCTCTGC 
ACTAGGGCGA CCAACCTGGA GAACAGCACC TATGACTTGT ACTCTATTCC CAAAGAAAGT 
GACTCTCAGA ACCCTGATGC TCCGGAGGGG AAGAGATCCT CGGGTCTGAC AGCAGTTTGG 
GTGGCCAGGA ACAGATTCGC CGTCCTGGAC CGAATGCACT CTCTGCTGAT TAAGAACTTG 
AAGAACGAAA TTGTGAAGAA AGTTCAGGTG CCAAGCTGCG AGGAAATCTT CTACGCAGGG 
ACGGGCTCGC TGCTGCTGCG CGACGCCGAC GGCGTCACGC TGTTCGACGT TCAGCAGAAA 
CGCTCTTTGG CCACCGTCAA GATTGCCAAG GTCAAGTACG TGGTGTGGAG CGCCGACACC 
AGCCACGTGG CTCTGCTTGC TAAACACGCC ATCATGATCT GCAACCGTAA ACTGGAGAGC 
CTTTGCAACA TTCATGAGAA CATCAGAGTG AAGAGTGGAG CCTGGGACGA GAGTGGAGTC 
TTCATCTACA CCACCTCCAA CCACATCAAA TACGCCCTCA CCTCTGGTGA TCATGGCATC 
ATCAGGACCC TGGACCTGCC CATCTATGTG ACCCGTGTGA GAGGCAACAG TGTTTACTGC 
CTGGACAGGG AGTGTAGGCC GCGTGTCCTC ACCATCGACC CCACGGAGTA CCGCTTCAAA 
CTGGCCCTGG TCAACCGCAA ATATGATGAG GTGCTTCACA TGGTGCGTAA CGCCAAGCTG 
GTGGGCCAGT CCATCATTGC CTACCTGCAG AAGAAGGGCT ACCCTGAGGT GGCGCTGCAC 
TTTGTCAAAG ATGAGAAGAC ACGCTTTAGT CTGGCTCTGG AGTGTGGCAA CATTGAGGTG 
GCGCTGGAGG CAGCCAAGGC CCTGGATGAG CGCAGCTGCT GGGAGCGTCT GGGCGAGGCA 
GCGCTGCTGC AGGGTCACCA CCAGGTCGTG GAAATGTGCT ACCAGAGGAC CAAGAACTTT 
GACAAGCTCA CCTTCCTGTA CCTCATCACT GGCAACCTGG CCAAGCTGCG CAAGATGATG 
AAGATCGCTG AGATCAGAAA GGACATGAGC GGTCACTACC AGGCAGCTCT CTACCTGGGA 
GACGTCAGTG AGAGGGTCCG CATCTTGAAG AACTGTGGAC AGAAGTCTCT GGCTTACCTG 
ACTGCAGCCA CCCATGGGCT GGACGAAGAG GCTGAGGCGC TAAAGGAGAC CTTTGACCCA 
GAAAAGGAGA CGGTGCCAGA GGTTGATCCA AATGCACAGC TGCTGCAGCC TCCTCCACCC 
ATCAACCCTC TGGACACCAA CTGGCCTCTG CTGACTGTAT CAAAGGGCTT CTTTGAGGGA 
GCCATTGCAG CGAAGGGGAA GGCAGGTCAG ATGGCTGCCG ATCTGGACAT GGAAGCTCCA 
GGAGGCGAGG GCTGGGGAGA CGATGCTGAG CTTCAGCTGG ATGAAGATGG TTTCATGGAT 
GCCCAGGAAG GATTAGGGGA TGAAGGAGTG GTGAGAGAGG AGGGAGGAGG CTGGGAGGTG 
GAGGAAGACC TGGACCTTCC TCCAGAGCTG GACATTCCAG CTGGTGCAGG TGGAGGAGCA 
GAAGATGGCT TCTTTGTCCC ACCGACCAAG GGCATGAGTC CGACCCAGAT GTGGTGCAAC 
AACTCCCAGC TGCCAGTGGA CCACGTCCTG GCTGGCTCCT TCGAAACAGC CATGAGACTG 
CTCCACGACC AGGTGGGAGT TGTGAACTTT GGCCCATACA AGTCGCTGTT CATGCAGACT 
CTGTCCAGAG GCCGCACCTG TTACCTGGCA CTGCCTTCCC TGCCCTGCCT GCGCAGCCAT 
CCCCAGAGGA ACTGGAAGGA CTGTGGGGCG AAGCAGGGTC TGCCTGCCGT GGGCCTGCGC 
CTCTCCGACC TCATCTCCCG CCTGCAGCAG TGCTACCAGC TGACCACTGC TGGGCGCTTT 
GAGGAAGCTG TGGAGCGCTT TAGAGCCATC CTGCTTTCTG TGCCCCTGCT GGTGGTTGAT 
AACAAGCAGG AAATTGCAGA GGCTCAGCAG CTGATCACAA TTTGCAGAGA GTACATAGTG 
GGTCTGACCA TGGAGACAGA GAGGAAGAAG CTGCCTAAAG ACACACTGGA ACAGCAGAAG 
AGGCTGTGTG AGATGGCTGC TTATTTCACC CACTGTAATC TCCAGCCCGT CCACATGGTG 
CTGGTGTTGC GTACAGCTCT GAACCTCTTC TTCAAACTGC GTAACTTCAA GACAGCTGCC 
GGCTTTGCAC GACGCCTACT GGAACTGGGG CCGAAGCCAG ATGTTGCACA GCAGACCCGC 
AAGATTTTGG CTGCTTGTGA GAAGACCTTG ACAGACGCCC ACCAGTTGAA CTATGACCCC 
CACAATCCAT TTGACCTGTG CGCTGCCTCT TTTGTCCCCC TGTACCGTGG ACGCCCTGTT 
GAGAAGTGCC CTCTGTCTGG AGCCTGCTAC TGTCCTACAT ACAAAGGCCA AATCTGCAGG 
GTCACACAGG TGACAGAGAT TGGTAAGGAT GTGATCGGTC TGCGTGTGAG TCCACTTCAG 
TTCCGTTGA

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

RefSeq	XP_022613740.1
CDS	164..3832
Translation	MLTKFETKSARVKGLSFHPKRPWVLASLHNGVIQLWDYRMCTLIDKFDEHDGPVRGIDFHKQQPLFVSGGDDYKIKVWNYKLRRCLFTLLGHLDYIRTTFFHHEYPWILSASDDQTIRIWNWQSRTCVCVLTGHNHYVMCAQFHPSEDLVVSASLDQTVRVWDISGLRKKNLSPGAVETEVRGISGVDLFGASDAVVKHVLEGHDRGVNWAAFHPSMPLIVSGADDRQVKIWRMNESKAWELDTCRGHYNNVSCAVFHPRQELILSNSEDKSIRVWDMSKRTGVQTFRRDHDRFWVLGAHPNLNLFAAGHDSGMIVFKLERERPAYAVHGNMLYYVKDRFLRQLDFNSSKDTAVMQLRSGSKFPVFSMSYNPAENAVLLCTRATNLENSTYDLYSIPKESDSQNPDAPEGKRSSGLTAVWVARNRFAVLDRMHSLLIKNLKNEIVKKVQVPSCEEIFYAGTGSLLLRDADGVTLFDVQQKRSLATVKIAKVKYVVWSADTSHVALLAKHAIMICNRKLESLCNIHENIRVKSGAWDESGVFIYTTSNHIKYALTSGDHGIIRTLDLPIYVTRVRGNSVYCLDRECRPRVLTIDPTEYRFKLALVNRKYDEVLHMVRNAKLVGQSIIAYLQKKGYPEVALHFVKDEKTRFSLALECGNIEVALEAAKALDERSCWERLGEAALLQGHHQVVEMCYQRTKNFDKLTFLYLITGNLAKLRKMMKIAEIRKDMSGHYQAALYLGDVSERVRILKNCGQKSLAYLTAATHGLDEEAEALKETFDPEKETVPEVDPNAQLLQPPPPINPLDTNWPLLTVSKGFFEGAIAAKGKAGQMAADLDMEAPGGEGWGDDAELQLDEDGFMDAQEGLGDEGVVREEGGGWEVEEDLDLPPELDIPAGAGGGAEDGFFVPPTKGMSPTQMWCNNSQLPVDHVLAGSFETAMRLLHDQVGVVNFGPYKSLFMQTLSRGRTCYLALPSLPCLRSHPQRNWKDCGAKQGLPAVGLRLSDLISRLQQCYQLTTAGRFEEAVERFRAILLSVPLLVVDNKQEIAEAQQLITICREYIVGLTMETERKKLPKDTLEQQKRLCEMAAYFTHCNLQPVHMVLVLRTALNLFFKLRNFKTAAGFARRLLELGPKPDVAQQTRKILAACEKTLTDAHQLNYDPHNPFDLCAASFVPLYRGRPVEKCPLSGACYCPTYKGQICRVTQVTEIGKDVIGLRVSPLQFR

Target ORF information:

RefSeq Version	XM_022758019.1
Organism	Seriola dumerili(greater amberjack)
Definition	Seriola dumerili coatomer protein complex subunit alpha (copa), mRNA.

Target ORF information:

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

XM_022758019.1

ORF Insert Sequence:

ATGTTAACGA AATTTGAAAC GAAGTCGGCC CGTGTTAAAG GCCTAAGTTT TCATCCCAAA 
AGGCCATGGG TTCTTGCAAG TTTGCACAAC GGAGTCATCC AGCTGTGGGA CTATCGGATG 
TGCACTCTGA TTGACAAGTT TGATGAGCAT GACGGTCCCG TCAGAGGCAT TGATTTCCAC 
AAACAGCAGC CTCTGTTTGT GTCTGGAGGA GATGATTACA AAATCAAGGT GTGGAACTAC 
AAGCTGAGAC GCTGCCTCTT CACCCTCCTT GGACACCTTG ACTACATCAG AACCACCTTC 
TTTCACCATG AGTACCCCTG GATTCTGAGT GCCTCAGATG ACCAGACTAT ACGCATCTGG 
AACTGGCAGT CCAGGACCTG CGTCTGTGTG CTGACCGGCC ACAATCACTA CGTGATGTGC 
GCCCAGTTCC ATCCATCCGA GGACCTGGTG GTTTCCGCCA GTCTGGACCA GACTGTGCGA 
GTGTGGGATA TCTCCGGTCT GAGGAAGAAG AACCTGTCTC CTGGTGCTGT GGAGACGGAA 
GTGCGCGGCA TCTCTGGCGT TGACTTGTTC GGTGCCTCAG ATGCTGTCGT CAAGCATGTC 
CTTGAGGGTC ACGACCGGGG GGTCAATTGG GCAGCCTTCC ACCCCAGCAT GCCTCTCATC 
GTGTCTGGAG CTGATGACAG GCAGGTCAAG ATCTGGAGAA TGAATGAATC CAAGGCATGG 
GAGCTGGATA CATGCCGCGG TCACTACAAC AACGTGTCCT GTGCCGTCTT CCACCCACGT 
CAGGAGCTCA TCCTGTCCAA CTCTGAGGAC AAGAGCATCC GGGTGTGGGA CATGTCCAAG 
AGGACTGGAG TGCAGACCTT CCGCCGGGAC CACGATCGCT TCTGGGTGCT GGGGGCTCAC 
CCAAACCTCA ACCTGTTTGC TGCAGGCCAT GACAGCGGCA TGATTGTGTT CAAGCTGGAG 
CGCGAGCGTC CGGCATACGC CGTGCACGGT AACATGCTGT ACTACGTCAA GGATCGCTTC 
CTTCGGCAGC TGGACTTCAA CAGCAGCAAG GACACTGCCG TCATGCAGCT ACGCAGTGGG 
TCGAAGTTTC CAGTGTTCAG CATGTCTTAC AACCCAGCTG AGAACGCCGT CCTGCTCTGC 
ACTAGGGCGA CCAACCTGGA GAACAGCACC TATGACTTGT ACTCTATTCC CAAAGAAAGT 
GACTCTCAGA ACCCTGATGC TCCGGAGGGG AAGAGATCCT CGGGTCTGAC AGCAGTTTGG 
GTGGCCAGGA ACAGATTCGC CGTCCTGGAC CGAATGCACT CTCTGCTGAT TAAGAACTTG 
AAGAACGAAA TTGTGAAGAA AGTTCAGGTG CCAAGCTGCG AGGAAATCTT CTACGCAGGG 
ACGGGCTCGC TGCTGCTGCG CGACGCCGAC GGCGTCACGC TGTTCGACGT TCAGCAGAAA 
CGCTCTTTGG CCACCGTCAA GATTGCCAAG GTCAAGTACG TGGTGTGGAG CGCCGACACC 
AGCCACGTGG CTCTGCTTGC TAAACACGCC ATCATGATCT GCAACCGTAA ACTGGAGAGC 
CTTTGCAACA TTCATGAGAA CATCAGAGTG AAGAGTGGAG CCTGGGACGA GAGTGGAGTC 
TTCATCTACA CCACCTCCAA CCACATCAAA TACGCCCTCA CCTCTGGTGA TCATGGCATC 
ATCAGGACCC TGGACCTGCC CATCTATGTG ACCCGTGTGA GAGGCAACAG TGTTTACTGC 
CTGGACAGGG AGTGTAGGCC GCGTGTCCTC ACCATCGACC CCACGGAGTA CCGCTTCAAA 
CTGGCCCTGG TCAACCGCAA ATATGATGAG GTGCTTCACA TGGTGCGTAA CGCCAAGCTG 
GTGGGCCAGT CCATCATTGC CTACCTGCAG AAGAAGGGCT ACCCTGAGGT GGCGCTGCAC 
TTTGTCAAAG ATGAGAAGAC ACGCTTTAGT CTGGCTCTGG AGTGTGGCAA CATTGAGGTG 
GCGCTGGAGG CAGCCAAGGC CCTGGATGAG CGCAGCTGCT GGGAGCGTCT GGGCGAGGCA 
GCGCTGCTGC AGGGTCACCA CCAGGTCGTG GAAATGTGCT ACCAGAGGAC CAAGAACTTT 
GACAAGCTCA CCTTCCTGTA CCTCATCACT GGCAACCTGG CCAAGCTGCG CAAGATGATG 
AAGATCGCTG AGATCAGAAA GGACATGAGC GGTCACTACC AGGCAGCTCT CTACCTGGGA 
GACGTCAGTG AGAGGGTCCG CATCTTGAAG AACTGTGGAC AGAAGTCTCT GGCTTACCTG 
ACTGCAGCCA CCCATGGGCT GGACGAAGAG GCTGAGGCGC TAAAGGAGAC CTTTGACCCA 
GAAAAGGAGA CGGTGCCAGA GGTTGATCCA AATGCACAGC TGCTGCAGCC TCCTCCACCC 
ATCAACCCTC TGGACACCAA CTGGCCTCTG CTGACTGTAT CAAAGGGCTT CTTTGAGGGA 
GCCATTGCAG CGAAGGGGAA GGCAGGTCAG ATGGCTGCCG ATCTGGACAT GGAAGCTCCA 
GGAGGCGAGG GCTGGGGAGA CGATGCTGAG CTTCAGCTGG ATGAAGATGG TTTCATGGAT 
GCCCAGGAAG GATTAGGGGA TGAAGGAGTG GTGAGAGAGG AGGGAGGAGG CTGGGAGGTG 
GAGGAAGACC TGGACCTTCC TCCAGAGCTG GACATTCCAG CTGGTGCAGG TGGAGGAGCA 
GAAGATGGCT TCTTTGTCCC ACCGACCAAG GGCATGAGTC CGACCCAGAT GTGGTGCAAC 
AACTCCCAGC TGCCAGTGGA CCACGTCCTG GCTGGCTCCT TCGAAACAGC CATGAGACTG 
CTCCACGACC AGGTGGGAGT TGTGAACTTT GGCCCATACA AGTCGCTGTT CATGCAGACT 
CTGTCCAGAG GCCGCACCTG TTACCTGGCA CTGCCTTCCC TGCCCTGCCT GCGCAGCCAT 
CCCCAGAGGA ACTGGAAGGA CTGTGGGGCG AAGCAGGGTC TGCCTGCCGT GGGCCTGCGC 
CTCTCCGACC TCATCTCCCG CCTGCAGCAG TGCTACCAGC TGACCACTGC TGGGCGCTTT 
GAGGAAGCTG TGGAGCGCTT TAGAGCCATC CTGCTTTCTG TGCCCCTGCT GGTGGTTGAT 
AACAAGCAGG AAATTGCAGA GGCTCAGCAG CTGATCACAA TTTGCAGAGA GTACATAGTG 
GGTCTGACCA TGGAGACAGA GAGGAAGAAG CTGCCTAAAG ACACACTGGA ACAGCAGAAG 
AGGCTGTGTG AGATGGCTGC TTATTTCACC CACTGTAATC TCCAGCCCGT CCACATGGTG 
CTGGTGTTGC GTACAGCTCT GAACCTCTTC TTCAAACTGC GTAACTTCAA GACAGCTGCC 
GGCTTTGCAC GACGCCTACT GGAACTGGGG CCGAAGCCAG ATGTTGCACA GCAGACCCGC 
AAGATTTTGG CTGCTTGTGA GAAGACCTTG ACAGACGCCC ACCAGTTGAA CTATGACCCC 
CACAATCCAT TTGACCTGTG CGCTGCCTCT TTTGTCCCCC TGTACCGTGG ACGCCCTGTT 
GAGAAGTGCC CTCTGTCTGG AGCCTGCTAC TGTCCTACAT ACAAAGGCCA AATCTGCAGG 
GTCACACAGG TGACAGAGAT TGGTAAGGAT GTGATCGGTC TGCGTGTGAG TCCACTTCAG 
TTCCGTTGA