BKCO1_830003 cDNA ORF clone, Diplodia corticola

Gene
Clones
gRNAs

Summary

Gene Symbol	BKCO1_830003
Entrez Gene ID	31019787
Full Name	hypothetical protein
Gene Type	protein-coding
Organism	Diplodia corticola

mRNA and Protein(s)

mRNA	Protein	Name
XM_020279524.1	XP_020125603.1	hypothetical protein

Pathways from BioSystems
Gene Ontology

The following BKCO1_830003 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the BKCO1_830003 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
ODi96995	XM_020279524.1 Latest version!	Diplodia corticola hypothetical protein (BKCO1_830003), partial mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

BKCO1_830003 ( XM_020279524.1 ) cDNA ORF clone, Diplodia corticola -> XP_020125603.1 Diplodia corticola hypothetical protein (BKCO1_830003), partial mRNA.

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CloneID	ODi96995
Clone ID Related Accession (Same CDS sequence)	XM_020279524.1
Accession Version	XM_020279524.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2844bp) 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	2017-08-27
Organism	Diplodia corticola
Product	hypothetical protein
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. This record is derived from an annotated genomic sequence (NW_017971562). COMPLETENESS: incomplete on both ends.

ATGTCCGTCC ACAGCGACAC GGACTCGATC GTATCCCTCT CCGACGACAA CCCGGCCGGA 
CCGGGTTTCG CCCCCTCGCG CTCACCATCC CCGACCCAAC TCCCCTTTCC ACTCCCCCTC 
CCCATCGCAC GCCTCGACCC AGCGCCCACC CCCACGATCC TCGACCACTG GGAAGCCCAA 
CGCACCTACA TCGCCCTCGG CCCCACCGCC ACCGACCTGA GCCGCGTCGG GGCGGCGCCA 
TCCAACAGTA CCACCACCGC TGAGACCCCA GCCTCGCGTT CCGCGGCGCG CGACACCGCT 
CGAGCAGTAG CTCGGGCGAC GCAACAGCAC GCGCTGAACG GCGGGTACGG CTGCGCCGTG 
CGGCTGGATG CGTGTCTGAC CGCTAATCGT GGGCAAGGCG GCGAGTATGC GGCCGTTGCC 
GACGACATCT TGCCGCTGCT GCCGCTGCGG GCGTGGGACG CGGTGTGGTT GAAGCAGAAG 
CGGGATGCGC ATGCGGGGGC GCCGCGGGCG GTGCTCGATT TGCTGGAGGA GCAGATGGGG 
TGGGCGAGCG CGGCGCGGCG GGCGGATGGG GCGGTGGGCG GGATGAGGAC GGAGCGGGAG 
AGGAGGAGGA GGGGGGAGCA GTGCGAGTGG GATTGCGAGA GGCTGGATGG GATTGGCGAG 
GGGGCTGCGG ACCCGGAGGG TGATGAGGCG GAGATGATGT CGAGGCCGGC GGCGTGGTAT 
GCCAATGTCG ACATGTTGGA GGATGTGACG ATGGAGGTGG ATGAGTGGTA TCAGGACTTT 
GTTGAGGGGA TGCGGGAGTC TTATCATGAT GACAACGAGG TCATGATGGA GGACGAGGAC 
AGCGTAAGCG ATGATGGCGA GGGCGCCGAT GACGATCAGA TGGCTGACGA TGGGGAGCAC 
AGCGACGACA GCTCGGAGCA GAAGATCTTC AGGGGCATCC AGGACGCGCT GGAGAAGCCG 
ACGACAGCGC ACATGGCTCT CATGAATGTG CTCTGCTGGA CCGAGGCGGA CCTGGAGCTT 
ATGAGCCGGT TTGCTGTCAT TCCTGCGGCG ACGCCCAACC TCCCTGGCAC TGCATGGCAC 
GAGCTCATGC TCCAAAGCAT CACCTATGCC GGCCGCACTA TTGAGGCGCT CCACAACGCT 
CTCCACAACC TCAAGCACCA GAACGACCTT CATGGTGTTC CGATCGGAGA CACCAGCGCT 
ATCAACCGTG TTGGAGCCAT CGCCACCCTT TACAAGGACT GGCTTCTTTC CAGATCGGCC 
ATCCTGGCTA CGCACATCTC CCAGAGGCTG ACCCAGATGC GGGCTGATCA CGATGCCATC 
AAGGCTGTGC CGGCGCACGC CAGCATCCGC GAGGCCTATG CCATGATCAT CCCGGCATTG 
ATGAACGGCA CCGCTGCCTC CCTAAACGGC GTGAACTTCG CCGAACAGGC CGAAGTGGTC 
GCCGAGAACC TCGAGGTTGA CCCCTTCAGC TTCCGGGACG ACTACAACAC CCTATTGGGT 
GTGCGTTGTC TTTTGGGTCT GCTTCGGTGC GCCCTGCACT GGCGAGACCG GGCCATGTGG 
CTCCAGGGCA ACATGAGCCA GGAGTCTGTG CATGCATATC GCACAAGGGC GATGCGTGCT 
GCCACGGGCC GCTGGGTGCA CTGGAGCCAC AAGCTGCGGT TTACACTCGA CTCCGCTCAA 
GACGCTGCAC TGGGCCTGGA GCAGCACAGC ACCGCAGCCA GGGACATCCT GCGGGCTTTG 
CGTGGAAGTC CTGGCAGCTT TGACCTGCTC CGACTTCTCA AGCTGGCCAG GTTTGGGCGC 
CTCGTGGGCT TTGATGGCGG GTACGTGGCA GAGCACTTGT ACTACGCAGC CTTGTGGAGC 
AGGAAGACGG ATGCTGCGAG CAGGCACTCG AGATCGGTGA TGCTCCACCA TACGCCGGCT 
GAGATGGACT ATCTGGCGGC TACGCTGCCC GGCATTGTGA AGTCGATGAC CGACAGCCCG 
CAGTGGGGTG GGGTTGGGGA GGAGGACATG GCAGTCAGGA TAGGCGAGTG GGTGGTGCCG 
AGCCTGAAGG AGTGGAGGAA ACGGCCGTGG GACGATAGGC CTGTCGGCGC CAGCACTGTC 
TTGGTGCTCC ACTATGCCAA GCTGGTCGAG AGGCTGGCAA GCATGCCGAC GCGACTGGGA 
ACCGCGCCCG TGTCAGGGTC CCTGGAGAGA TCACTGCCGC ACCTGCAATG GCAACTCCGC 
TATGACGACT GCGACGAATC GACTTTCCGT TCAATGGCCG ATCGTTGGCA GAACGCTCGC 
CTCAGGCTGA CTGGAAGGCT TCGGGAGTTT GTGCTGAAGT ACAAAGACGC CATGGCTGAG 
CGTGCTTCGG CGAGCGTGGC AGCGAAGACG ATCGCGTTGC TGAACGAGAT TGAGGCCACG 
CATCCCCCTG GCGCCGTGGT TGTCCAGAGG CTGCAGGAGC GTCGCCTGCT GTCCCCCGAG 
GCGTACAGAG GCCTCTGCTT GGCGGTGAAT CAGGGCTCGG AGGACACGAT CTATGGCTTC 
TTGCGGATCA ACCGCGATGT TATGATCCGA GTCTCCCAGC TGATGATGAA GCAGGCAACG 
GAGACGGTCT TGTTGCGCAT TGGCACTCCG GACCGGGACA TGAAGTTGAG CTTGCACCAC 
CTGAACCACC GCAACTGGGT CTCGCCGGAC AAGAGCAGCG CGGAGTATCA GGAGCACCGG 
CTCATCATCG CCGACTGGGA TGACCTCGTC CGCGCCGAGT TGATCCTGAC CCACGTGTGC 
GAAATTGTCG GTACCGCCTG GAGGCCCCTT CCGGCCTATG TTGGGCGGTC ATTGATCCAA 
GCGTTCGACG ACTTCTGTCC TTGA

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

RefSeq	XP_020125603.1
CDS	1..2844
Translation	MSVHSDTDSIVSLSDDNPAGPGFAPSRSPSPTQLPFPLPLPIARLDPAPTPTILDHWEAQRTYIALGPTATDLSRVGAAPSNSTTTAETPASRSAARDTARAVARATQQHALNGGYGCAVRLDACLTANRGQGGEYAAVADDILPLLPLRAWDAVWLKQKRDAHAGAPRAVLDLLEEQMGWASAARRADGAVGGMRTERERRRRGEQCEWDCERLDGIGEGAADPEGDEAEMMSRPAAWYANVDMLEDVTMEVDEWYQDFVEGMRESYHDDNEVMMEDEDSVSDDGEGADDDQMADDGEHSDDSSEQKIFRGIQDALEKPTTAHMALMNVLCWTEADLELMSRFAVIPAATPNLPGTAWHELMLQSITYAGRTIEALHNALHNLKHQNDLHGVPIGDTSAINRVGAIATLYKDWLLSRSAILATHISQRLTQMRADHDAIKAVPAHASIREAYAMIIPALMNGTAASLNGVNFAEQAEVVAENLEVDPFSFRDDYNTLLGVRCLLGLLRCALHWRDRAMWLQGNMSQESVHAYRTRAMRAATGRWVHWSHKLRFTLDSAQDAALGLEQHSTAARDILRALRGSPGSFDLLRLLKLARFGRLVGFDGGYVAEHLYYAALWSRKTDAASRHSRSVMLHHTPAEMDYLAATLPGIVKSMTDSPQWGGVGEEDMAVRIGEWVVPSLKEWRKRPWDDRPVGASTVLVLHYAKLVERLASMPTRLGTAPVSGSLERSLPHLQWQLRYDDCDESTFRSMADRWQNARLRLTGRLREFVLKYKDAMAERASASVAAKTIALLNEIEATHPPGAVVVQRLQERRLLSPEAYRGLCLAVNQGSEDTIYGFLRINRDVMIRVSQLMMKQATETVLLRIGTPDRDMKLSLHHLNHRNWVSPDKSSAEYQEHRLIIADWDDLVRAELILTHVCEIVGTAWRPLPAYVGRSLIQAFDDFCP

Target ORF information:

RefSeq Version	XM_020279524.1
Organism	Diplodia corticola
Definition	Diplodia corticola hypothetical protein (BKCO1_830003), partial mRNA.

Target ORF information:

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

XM_020279524.1

ORF Insert Sequence:

ATGTCCGTCC ACAGCGACAC GGACTCGATC GTATCCCTCT CCGACGACAA CCCGGCCGGA 
CCGGGTTTCG CCCCCTCGCG CTCACCATCC CCGACCCAAC TCCCCTTTCC ACTCCCCCTC 
CCCATCGCAC GCCTCGACCC AGCGCCCACC CCCACGATCC TCGACCACTG GGAAGCCCAA 
CGCACCTACA TCGCCCTCGG CCCCACCGCC ACCGACCTGA GCCGCGTCGG GGCGGCGCCA 
TCCAACAGTA CCACCACCGC TGAGACCCCA GCCTCGCGTT CCGCGGCGCG CGACACCGCT 
CGAGCAGTAG CTCGGGCGAC GCAACAGCAC GCGCTGAACG GCGGGTACGG CTGCGCCGTG 
CGGCTGGATG CGTGTCTGAC CGCTAATCGT GGGCAAGGCG GCGAGTATGC GGCCGTTGCC 
GACGACATCT TGCCGCTGCT GCCGCTGCGG GCGTGGGACG CGGTGTGGTT GAAGCAGAAG 
CGGGATGCGC ATGCGGGGGC GCCGCGGGCG GTGCTCGATT TGCTGGAGGA GCAGATGGGG 
TGGGCGAGCG CGGCGCGGCG GGCGGATGGG GCGGTGGGCG GGATGAGGAC GGAGCGGGAG 
AGGAGGAGGA GGGGGGAGCA GTGCGAGTGG GATTGCGAGA GGCTGGATGG GATTGGCGAG 
GGGGCTGCGG ACCCGGAGGG TGATGAGGCG GAGATGATGT CGAGGCCGGC GGCGTGGTAT 
GCCAATGTCG ACATGTTGGA GGATGTGACG ATGGAGGTGG ATGAGTGGTA TCAGGACTTT 
GTTGAGGGGA TGCGGGAGTC TTATCATGAT GACAACGAGG TCATGATGGA GGACGAGGAC 
AGCGTAAGCG ATGATGGCGA GGGCGCCGAT GACGATCAGA TGGCTGACGA TGGGGAGCAC 
AGCGACGACA GCTCGGAGCA GAAGATCTTC AGGGGCATCC AGGACGCGCT GGAGAAGCCG 
ACGACAGCGC ACATGGCTCT CATGAATGTG CTCTGCTGGA CCGAGGCGGA CCTGGAGCTT 
ATGAGCCGGT TTGCTGTCAT TCCTGCGGCG ACGCCCAACC TCCCTGGCAC TGCATGGCAC 
GAGCTCATGC TCCAAAGCAT CACCTATGCC GGCCGCACTA TTGAGGCGCT CCACAACGCT 
CTCCACAACC TCAAGCACCA GAACGACCTT CATGGTGTTC CGATCGGAGA CACCAGCGCT 
ATCAACCGTG TTGGAGCCAT CGCCACCCTT TACAAGGACT GGCTTCTTTC CAGATCGGCC 
ATCCTGGCTA CGCACATCTC CCAGAGGCTG ACCCAGATGC GGGCTGATCA CGATGCCATC 
AAGGCTGTGC CGGCGCACGC CAGCATCCGC GAGGCCTATG CCATGATCAT CCCGGCATTG 
ATGAACGGCA CCGCTGCCTC CCTAAACGGC GTGAACTTCG CCGAACAGGC CGAAGTGGTC 
GCCGAGAACC TCGAGGTTGA CCCCTTCAGC TTCCGGGACG ACTACAACAC CCTATTGGGT 
GTGCGTTGTC TTTTGGGTCT GCTTCGGTGC GCCCTGCACT GGCGAGACCG GGCCATGTGG 
CTCCAGGGCA ACATGAGCCA GGAGTCTGTG CATGCATATC GCACAAGGGC GATGCGTGCT 
GCCACGGGCC GCTGGGTGCA CTGGAGCCAC AAGCTGCGGT TTACACTCGA CTCCGCTCAA 
GACGCTGCAC TGGGCCTGGA GCAGCACAGC ACCGCAGCCA GGGACATCCT GCGGGCTTTG 
CGTGGAAGTC CTGGCAGCTT TGACCTGCTC CGACTTCTCA AGCTGGCCAG GTTTGGGCGC 
CTCGTGGGCT TTGATGGCGG GTACGTGGCA GAGCACTTGT ACTACGCAGC CTTGTGGAGC 
AGGAAGACGG ATGCTGCGAG CAGGCACTCG AGATCGGTGA TGCTCCACCA TACGCCGGCT 
GAGATGGACT ATCTGGCGGC TACGCTGCCC GGCATTGTGA AGTCGATGAC CGACAGCCCG 
CAGTGGGGTG GGGTTGGGGA GGAGGACATG GCAGTCAGGA TAGGCGAGTG GGTGGTGCCG 
AGCCTGAAGG AGTGGAGGAA ACGGCCGTGG GACGATAGGC CTGTCGGCGC CAGCACTGTC 
TTGGTGCTCC ACTATGCCAA GCTGGTCGAG AGGCTGGCAA GCATGCCGAC GCGACTGGGA 
ACCGCGCCCG TGTCAGGGTC CCTGGAGAGA TCACTGCCGC ACCTGCAATG GCAACTCCGC 
TATGACGACT GCGACGAATC GACTTTCCGT TCAATGGCCG ATCGTTGGCA GAACGCTCGC 
CTCAGGCTGA CTGGAAGGCT TCGGGAGTTT GTGCTGAAGT ACAAAGACGC CATGGCTGAG 
CGTGCTTCGG CGAGCGTGGC AGCGAAGACG ATCGCGTTGC TGAACGAGAT TGAGGCCACG 
CATCCCCCTG GCGCCGTGGT TGTCCAGAGG CTGCAGGAGC GTCGCCTGCT GTCCCCCGAG 
GCGTACAGAG GCCTCTGCTT GGCGGTGAAT CAGGGCTCGG AGGACACGAT CTATGGCTTC 
TTGCGGATCA ACCGCGATGT TATGATCCGA GTCTCCCAGC TGATGATGAA GCAGGCAACG 
GAGACGGTCT TGTTGCGCAT TGGCACTCCG GACCGGGACA TGAAGTTGAG CTTGCACCAC 
CTGAACCACC GCAACTGGGT CTCGCCGGAC AAGAGCAGCG CGGAGTATCA GGAGCACCGG 
CTCATCATCG CCGACTGGGA TGACCTCGTC CGCGCCGAGT TGATCCTGAC CCACGTGTGC 
GAAATTGTCG GTACCGCCTG GAGGCCCCTT CCGGCCTATG TTGGGCGGTC ATTGATCCAA 
GCGTTCGACG ACTTCTGTCC TTGA