LOC107590712 cDNA ORF clone, Sinocyclocheilus grahami

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC107590712
Entrez Gene ID	107590712
Full Name	uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like
Gene Type	protein-coding
Organism	Sinocyclocheilus grahami

mRNA and Protein(s)

mRNA	Protein	Name
XM_016279619.1	XP_016135105.1	uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like isoform X1
XM_016279620.1	XP_016135106.1	uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like isoform X2

Pathways from BioSystems
Gene Ontology

The following LOC107590712 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC107590712 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
OSi21908	XM_016279619.1 Latest version!	Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OSi21909	XM_016279620.1 Latest version!	Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X2, 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)

LOC107590712 ( XM_016279619.1 ) cDNA ORF clone, Sinocyclocheilus grahami -> XP_016135105.1 Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OSi21908
Clone ID Related Accession (Same CDS sequence)	XM_016279619.1
Accession Version	XM_016279619.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3819bp) 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	2016-04-18
Organism	Sinocyclocheilus grahami
Product	uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015505311.1) 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 :: Sinocyclocheilus grahami Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGTTTTGGC TCGCAAAATG CGTCGTTTTG TGTATCTTTT CTTATTTATT TTCTCTCCAG 
GTGACGGTGA TGATGTTTTC TGTAGGAAAC ACACTGTTGA ACTTGAGGCA AGGCTGTGGA 
GGTAAAATTC TTGGAGAGAG GACCGGCTCA ATTCGGTACT CTTTACACCC AAACAGCCTT 
TTATTTAACA GAATTACCAG CGACAGCACA GAAAAACTTT TGGACGTTAC CTGCACATGG 
ATTATTGATG CACATGAAAA TCAGACTGTT TGTATAGAGG TCATTTCTGT TGGGGAAGGT 
GCTCATATTG GAATTAAATT TGGGAATGGG AATACACTGA CCTATGAAAG AGAGGAGCGG 
GCGCTATTCT CTGGCACTGG GAAAACCATC ATTGAATGGA GCGCGAGAAG AACTGATGAA 
ACCTTTGCCA CATTACAGCT GAAATGGAAC ACGTCAGAGG ACAATCACAC TCTTGCTTTG 
ATTCCTTACA CCCACTCTGA TGCTGACCCA GTGTCTCCCT CTCCGAATGG CTCAAACGAT 
GTAACTAACA CCTCTGACAT TGCAATGAGC AGCAATGTAA CCTCCAAAAC ACACTCTCTC 
AGGGGTGAGA GTATACAGCA GGGCAGAGGT GTGTCTGACC TGGACGATAA GCACAGACCC 
CTCTTTCCGC AGGAAATCAC CAACAATGGA AAGGAAACGG CTGGAGCCTG GATCTCTGAC 
CTTCCACTCA ATGGCACACA TTCTTATTCT GATACACAAA CCAGCTCTGC CCTTGACACA 
CACGTGAACA CGCTCGCAAT ATTGTCCACT GAACCTTCTA TGGCTCAGTC ATCCACTGAA 
ATTCAATTAC CACTGCTGTC TGTACAAACT ACACCCCGAC AGGCAACTGA TGTGGCTACA 
ACAAGTGCAC TTTTAGCCAC AAATGATGTT GCCCACACTG AATTACATAG AGGAAGTTCA 
CAGCACATGC ACACACAAGC ACATGAATTG CACAAAATTC ACTCCAAAAC AAGTCAAAGA 
GGTGATCCAA GTTCAATGTT TCCGACTTCC AGCTTTATGA CAGCAAGTCC ACAATATATT 
CAGCCATTCA ACGCAACTTC TAAACATAAA GACTTCCTTA GTGACAGTTC TTACAAGGCT 
AAAGCAACCA CAGTGACGGT CCAAAATAAA GATTTGTTTA CAATATCAGA GAACACTGGG 
ACGAGTCAAA TTGATTCAAT TTTTTGGAGT TCAAACTCCA GACGACAATC TCAGTCAATC 
TCAGACGACA ACCAACCTAT ATCATCAGTG ATGGACAGGA CAGATCGCTC TCCAAGGTCA 
ACTAATCCAG ATCAAAACAT TACTAATCAA ACAATCTATG ATGATTCAGT ACTCACTACT 
AGTACGCCTG CTACAGTATC AAAGTTTCTA GATATTAATC AAACCAACAC ATTAGCGTTT 
TCTGAAAACG ACACGGCTGA ATACTCAGGT TACTCCATGT CTCCAAGTGA GCCACCAATA 
AATGTTACCA GTGAGAATGA GCCAACAACT TCAGACGAGT TCATGCGCAC TTCACGGAAA 
ACACTTGCAA CTCCAACTTT AACGTCTTTG GGAACATCAA CCACCCACAT TTCACACACC 
ATCAAAAGTC AGCACGATAC AAGCACCCAA GAAATCAGCT CTGTATCTTC ATCAATCTCT 
TACTGGACTT CTCACAACAA TAAAAATATC AGTGCCTTCA CCACCTTCCC AACTACCATC 
CCTCAAGACC TGACCCCTAC TAAGAGTCCT AGTACACCAG AAGGGGACAA GGGTCTGCTA 
CCATCTGAAA GTGATTGCCT CGGTCATGCA TGCACCTCGT ATTTACCATC TACAGTAAGA 
GGCAAACAAG AAATCCCCAT CACCAGCTCT CCATCAATCT CTTTGTCGAG TCCTCAGATT 
AGTCCTAATG TGACTTCTGA CCTCACGGTG GAAGATAGCA CTACAGTGAG ATTTGAGAAC 
CGCACTGATT TAGAGGAACC TGGTGTGTCC CCATCACAAG TCCAGAATAC CAACACAAAA 
TCAAGTATGC ATACTGAATT CCCTATATAC ACATCTACAC CCCAGTATTC ACATCCATCT 
TCTGAAAACA CGCAGAGCAA TGTAGGATTT TCCGATGTAA GTGATATCAA TGAGATGAGT 
AGTGATCAAA CAGAGGGTAG AAGTCATCTG AGTCCTACTC AGACTAGTGC GACAAGTTCA 
AAGATGACTG TTGGCTTATC TCCTTTTAAT GACATTCATA CTGGATCAAC AGACATCACT 
AATAGCTTTA CTGCCCACAC TACTGTCACA CTGAGGACTT CATCTGACAT CACAACTCCT 
TACATCTCAC AGGCCAGTAC AGCTGATCGT GGCATTCGAA CCAGCACATC TATTAGTATG 
ACCACTCCAC ATTGGGAAAG CAGTCAGACC TCTGCGGTCC ATCCAACCTC AATAACTACC 
CCGCAGATTA ATCCACACGC CAAGTCCACA GAAACGACTT CGTTCCAGGT CCAGACACAC 
TTTCCAGTGC ATAAGCCCAG CACTGTCAGA CCTCCCCAAC ATATGACCAC AAGCTCTTAT 
CTTATCCAAA CAAAAGCACA CACAGTATCT ACACAAGCAG TCACTCAGAC ATCTTGGACC 
CATTCTACCG CATCCAGCTT TGACAGGAAG TGGCCACATG GACGGCATTA TTTTATAGTG 
AAGGACCAGC CAGCAATCAT CAAGGAGAAA ACATTTCAAG TACTCTTACA AATCGTCCTG 
GAAAGAGATT ATGCCCCTAG TATGAGGTTG CATGAGGTGG AGACATTCCT GCAGATCCTT 
TCTGGATTTC AGAATCAACA TGTGACCTGG CACAGTGGTC CAATTCTGCA AACAGTAGTC 
CAGTTCCAGA CAGTGGAAGC GCTGTCCTGG CTGGGAAGGG TGGAGTCTCT GTTACAGCAG 
GCGGGGTTAA ACCCACTGCC AAAGAAAGGA ATATTTGTGG GTGGAGTTAG AGTGAAGAAT 
ATTACTGTGG GAGGTTTGCA GACAGATGTT TGTGAATGGC TGTTTGAATG TCTATCTGGG 
TTCCAGTGTG TTTCTTCAAA GGGCAATGCC ACCTGTACAT CTGTGTGCCA CTCTGAATAC 
TGTAAACATC AGGGAATCTG TGTCCATCGC TTCGGGCAAC AGCCTATTTG TCAGTGTCCT 
GTTGGGGAGG ATTACTGGTT TATGGGTCAG CGTTGTGACT TCCGCATGAC CCGGCCGCGT 
TTGGTGGGCG TGTGCTTTGG TGTACTGGTT GCTGTTGCAG CAGTCATGGC TCTTCTGTCT 
TATCTCACGG TGCGCCGTTT TAAAACCATG CTAATGCAAG CCAAAGTGGA ACAAACACGC 
AGCAGTTATC GCAGATTTAA TCACTTTGAT GAGCTTTCGG CTCGTTTTTG GGGAAGGTCC 
TGGCCGGGTT CTCAGGATTC GTTGGACAAC CCTGCCTTCA CCCGCTCTGA TGAATTATTA 
CACTTGCGAG CACTAGACCG TACCTGCTGT TACCATGACG ACACTCTTTC TGTGGTATCC 
ACATACCACA GTAGTGCAAC ACACCTCAAC ACCATCTATC CTCATGGTTC TCAGTATGGT 
TGGGATCTCA GCAACTGCAG CTTGGCAGAT GGTGTGGTGG ATTCTGGGAA GGCTAGTGAC 
CTGTCAGTCT GTAGCTGGCC GATCGAGCCG ATTCAGTGGA CACCATTCCC TTTGCTGCAA 
CAGCTCAACA GGAATACCAC CACAGTGAAA GTGTTTCGTC CTCACTCTTA CTGTGAAGGC 
ATGGAACTTG TGGATTTAGA GAAGAGTTGG ACAGCTTAA

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

RefSeq	XP_016135105.1
CDS	181..3999
Translation	MFWLAKCVVLCIFSYLFSLQVTVMMFSVGNTLLNLRQGCGGKILGERTGSIRYSLHPNSLLFNRITSDSTEKLLDVTCTWIIDAHENQTVCIEVISVGEGAHIGIKFGNGNTLTYEREERALFSGTGKTIIEWSARRTDETFATLQLKWNTSEDNHTLALIPYTHSDADPVSPSPNGSNDVTNTSDIAMSSNVTSKTHSLRGESIQQGRGVSDLDDKHRPLFPQEITNNGKETAGAWISDLPLNGTHSYSDTQTSSALDTHVNTLAILSTEPSMAQSSTEIQLPLLSVQTTPRQATDVATTSALLATNDVAHTELHRGSSQHMHTQAHELHKIHSKTSQRGDPSSMFPTSSFMTASPQYIQPFNATSKHKDFLSDSSYKAKATTVTVQNKDLFTISENTGTSQIDSIFWSSNSRRQSQSISDDNQPISSVMDRTDRSPRSTNPDQNITNQTIYDDSVLTTSTPATVSKFLDINQTNTLAFSENDTAEYSGYSMSPSEPPINVTSENEPTTSDEFMRTSRKTLATPTLTSLGTSTTHISHTIKSQHDTSTQEISSVSSSISYWTSHNNKNISAFTTFPTTIPQDLTPTKSPSTPEGDKGLLPSESDCLGHACTSYLPSTVRGKQEIPITSSPSISLSSPQISPNVTSDLTVEDSTTVRFENRTDLEEPGVSPSQVQNTNTKSSMHTEFPIYTSTPQYSHPSSENTQSNVGFSDVSDINEMSSDQTEGRSHLSPTQTSATSSKMTVGLSPFNDIHTGSTDITNSFTAHTTVTLRTSSDITTPYISQASTADRGIRTSTSISMTTPHWESSQTSAVHPTSITTPQINPHAKSTETTSFQVQTHFPVHKPSTVRPPQHMTTSSYLIQTKAHTVSTQAVTQTSWTHSTASSFDRKWPHGRHYFIVKDQPAIIKEKTFQVLLQIVLERDYAPSMRLHEVETFLQILSGFQNQHVTWHSGPILQTVVQFQTVEALSWLGRVESLLQQAGLNPLPKKGIFVGGVRVKNITVGGLQTDVCEWLFECLSGFQCVSSKGNATCTSVCHSEYCKHQGICVHRFGQQPICQCPVGEDYWFMGQRCDFRMTRPRLVGVCFGVLVAVAAVMALLSYLTVRRFKTMLMQAKVEQTRSSYRRFNHFDELSARFWGRSWPGSQDSLDNPAFTRSDELLHLRALDRTCCYHDDTLSVVSTYHSSATHLNTIYPHGSQYGWDLSNCSLADGVVDSGKASDLSVCSWPIEPIQWTPFPLLQQLNRNTTTVKVFRPHSYCEGMELVDLEKSWTA

Target ORF information:

RefSeq Version	XM_016279619.1
Organism	Sinocyclocheilus grahami
Definition	Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X1, mRNA.

Target ORF information:

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

XM_016279619.1

ORF Insert Sequence:

ATGTTTTGGC TCGCAAAATG CGTCGTTTTG TGTATCTTTT CTTATTTATT TTCTCTCCAG 
GTGACGGTGA TGATGTTTTC TGTAGGAAAC ACACTGTTGA ACTTGAGGCA AGGCTGTGGA 
GGTAAAATTC TTGGAGAGAG GACCGGCTCA ATTCGGTACT CTTTACACCC AAACAGCCTT 
TTATTTAACA GAATTACCAG CGACAGCACA GAAAAACTTT TGGACGTTAC CTGCACATGG 
ATTATTGATG CACATGAAAA TCAGACTGTT TGTATAGAGG TCATTTCTGT TGGGGAAGGT 
GCTCATATTG GAATTAAATT TGGGAATGGG AATACACTGA CCTATGAAAG AGAGGAGCGG 
GCGCTATTCT CTGGCACTGG GAAAACCATC ATTGAATGGA GCGCGAGAAG AACTGATGAA 
ACCTTTGCCA CATTACAGCT GAAATGGAAC ACGTCAGAGG ACAATCACAC TCTTGCTTTG 
ATTCCTTACA CCCACTCTGA TGCTGACCCA GTGTCTCCCT CTCCGAATGG CTCAAACGAT 
GTAACTAACA CCTCTGACAT TGCAATGAGC AGCAATGTAA CCTCCAAAAC ACACTCTCTC 
AGGGGTGAGA GTATACAGCA GGGCAGAGGT GTGTCTGACC TGGACGATAA GCACAGACCC 
CTCTTTCCGC AGGAAATCAC CAACAATGGA AAGGAAACGG CTGGAGCCTG GATCTCTGAC 
CTTCCACTCA ATGGCACACA TTCTTATTCT GATACACAAA CCAGCTCTGC CCTTGACACA 
CACGTGAACA CGCTCGCAAT ATTGTCCACT GAACCTTCTA TGGCTCAGTC ATCCACTGAA 
ATTCAATTAC CACTGCTGTC TGTACAAACT ACACCCCGAC AGGCAACTGA TGTGGCTACA 
ACAAGTGCAC TTTTAGCCAC AAATGATGTT GCCCACACTG AATTACATAG AGGAAGTTCA 
CAGCACATGC ACACACAAGC ACATGAATTG CACAAAATTC ACTCCAAAAC AAGTCAAAGA 
GGTGATCCAA GTTCAATGTT TCCGACTTCC AGCTTTATGA CAGCAAGTCC ACAATATATT 
CAGCCATTCA ACGCAACTTC TAAACATAAA GACTTCCTTA GTGACAGTTC TTACAAGGCT 
AAAGCAACCA CAGTGACGGT CCAAAATAAA GATTTGTTTA CAATATCAGA GAACACTGGG 
ACGAGTCAAA TTGATTCAAT TTTTTGGAGT TCAAACTCCA GACGACAATC TCAGTCAATC 
TCAGACGACA ACCAACCTAT ATCATCAGTG ATGGACAGGA CAGATCGCTC TCCAAGGTCA 
ACTAATCCAG ATCAAAACAT TACTAATCAA ACAATCTATG ATGATTCAGT ACTCACTACT 
AGTACGCCTG CTACAGTATC AAAGTTTCTA GATATTAATC AAACCAACAC ATTAGCGTTT 
TCTGAAAACG ACACGGCTGA ATACTCAGGT TACTCCATGT CTCCAAGTGA GCCACCAATA 
AATGTTACCA GTGAGAATGA GCCAACAACT TCAGACGAGT TCATGCGCAC TTCACGGAAA 
ACACTTGCAA CTCCAACTTT AACGTCTTTG GGAACATCAA CCACCCACAT TTCACACACC 
ATCAAAAGTC AGCACGATAC AAGCACCCAA GAAATCAGCT CTGTATCTTC ATCAATCTCT 
TACTGGACTT CTCACAACAA TAAAAATATC AGTGCCTTCA CCACCTTCCC AACTACCATC 
CCTCAAGACC TGACCCCTAC TAAGAGTCCT AGTACACCAG AAGGGGACAA GGGTCTGCTA 
CCATCTGAAA GTGATTGCCT CGGTCATGCA TGCACCTCGT ATTTACCATC TACAGTAAGA 
GGCAAACAAG AAATCCCCAT CACCAGCTCT CCATCAATCT CTTTGTCGAG TCCTCAGATT 
AGTCCTAATG TGACTTCTGA CCTCACGGTG GAAGATAGCA CTACAGTGAG ATTTGAGAAC 
CGCACTGATT TAGAGGAACC TGGTGTGTCC CCATCACAAG TCCAGAATAC CAACACAAAA 
TCAAGTATGC ATACTGAATT CCCTATATAC ACATCTACAC CCCAGTATTC ACATCCATCT 
TCTGAAAACA CGCAGAGCAA TGTAGGATTT TCCGATGTAA GTGATATCAA TGAGATGAGT 
AGTGATCAAA CAGAGGGTAG AAGTCATCTG AGTCCTACTC AGACTAGTGC GACAAGTTCA 
AAGATGACTG TTGGCTTATC TCCTTTTAAT GACATTCATA CTGGATCAAC AGACATCACT 
AATAGCTTTA CTGCCCACAC TACTGTCACA CTGAGGACTT CATCTGACAT CACAACTCCT 
TACATCTCAC AGGCCAGTAC AGCTGATCGT GGCATTCGAA CCAGCACATC TATTAGTATG 
ACCACTCCAC ATTGGGAAAG CAGTCAGACC TCTGCGGTCC ATCCAACCTC AATAACTACC 
CCGCAGATTA ATCCACACGC CAAGTCCACA GAAACGACTT CGTTCCAGGT CCAGACACAC 
TTTCCAGTGC ATAAGCCCAG CACTGTCAGA CCTCCCCAAC ATATGACCAC AAGCTCTTAT 
CTTATCCAAA CAAAAGCACA CACAGTATCT ACACAAGCAG TCACTCAGAC ATCTTGGACC 
CATTCTACCG CATCCAGCTT TGACAGGAAG TGGCCACATG GACGGCATTA TTTTATAGTG 
AAGGACCAGC CAGCAATCAT CAAGGAGAAA ACATTTCAAG TACTCTTACA AATCGTCCTG 
GAAAGAGATT ATGCCCCTAG TATGAGGTTG CATGAGGTGG AGACATTCCT GCAGATCCTT 
TCTGGATTTC AGAATCAACA TGTGACCTGG CACAGTGGTC CAATTCTGCA AACAGTAGTC 
CAGTTCCAGA CAGTGGAAGC GCTGTCCTGG CTGGGAAGGG TGGAGTCTCT GTTACAGCAG 
GCGGGGTTAA ACCCACTGCC AAAGAAAGGA ATATTTGTGG GTGGAGTTAG AGTGAAGAAT 
ATTACTGTGG GAGGTTTGCA GACAGATGTT TGTGAATGGC TGTTTGAATG TCTATCTGGG 
TTCCAGTGTG TTTCTTCAAA GGGCAATGCC ACCTGTACAT CTGTGTGCCA CTCTGAATAC 
TGTAAACATC AGGGAATCTG TGTCCATCGC TTCGGGCAAC AGCCTATTTG TCAGTGTCCT 
GTTGGGGAGG ATTACTGGTT TATGGGTCAG CGTTGTGACT TCCGCATGAC CCGGCCGCGT 
TTGGTGGGCG TGTGCTTTGG TGTACTGGTT GCTGTTGCAG CAGTCATGGC TCTTCTGTCT 
TATCTCACGG TGCGCCGTTT TAAAACCATG CTAATGCAAG CCAAAGTGGA ACAAACACGC 
AGCAGTTATC GCAGATTTAA TCACTTTGAT GAGCTTTCGG CTCGTTTTTG GGGAAGGTCC 
TGGCCGGGTT CTCAGGATTC GTTGGACAAC CCTGCCTTCA CCCGCTCTGA TGAATTATTA 
CACTTGCGAG CACTAGACCG TACCTGCTGT TACCATGACG ACACTCTTTC TGTGGTATCC 
ACATACCACA GTAGTGCAAC ACACCTCAAC ACCATCTATC CTCATGGTTC TCAGTATGGT 
TGGGATCTCA GCAACTGCAG CTTGGCAGAT GGTGTGGTGG ATTCTGGGAA GGCTAGTGAC 
CTGTCAGTCT GTAGCTGGCC GATCGAGCCG ATTCAGTGGA CACCATTCCC TTTGCTGCAA 
CAGCTCAACA GGAATACCAC CACAGTGAAA GTGTTTCGTC CTCACTCTTA CTGTGAAGGC 
ATGGAACTTG TGGATTTAGA GAAGAGTTGG ACAGCTTAA

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

LOC107590712 ( XM_016279620.1 ) cDNA ORF clone, Sinocyclocheilus grahami -> XP_016135106.1 Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OSi21909
Clone ID Related Accession (Same CDS sequence)	XM_016279620.1
Accession Version	XM_016279620.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3777bp) 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	2016-04-18
Organism	Sinocyclocheilus grahami
Product	uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015505311.1) 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 :: Sinocyclocheilus grahami Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCGTCGTT TTGTGTATCT TTTCTTATTT ATTTTCTCTC CAGGAAACAC ACTGTTGAAC 
TTGAGGCAAG GCTGTGGAGG TAAAATTCTT GGAGAGAGGA CCGGCTCAAT TCGGTACTCT 
TTACACCCAA ACAGCCTTTT ATTTAACAGA ATTACCAGCG ACAGCACAGA AAAACTTTTG 
GACGTTACCT GCACATGGAT TATTGATGCA CATGAAAATC AGACTGTTTG TATAGAGGTC 
ATTTCTGTTG GGGAAGGTGC TCATATTGGA ATTAAATTTG GGAATGGGAA TACACTGACC 
TATGAAAGAG AGGAGCGGGC GCTATTCTCT GGCACTGGGA AAACCATCAT TGAATGGAGC 
GCGAGAAGAA CTGATGAAAC CTTTGCCACA TTACAGCTGA AATGGAACAC GTCAGAGGAC 
AATCACACTC TTGCTTTGAT TCCTTACACC CACTCTGATG CTGACCCAGT GTCTCCCTCT 
CCGAATGGCT CAAACGATGT AACTAACACC TCTGACATTG CAATGAGCAG CAATGTAACC 
TCCAAAACAC ACTCTCTCAG GGGTGAGAGT ATACAGCAGG GCAGAGGTGT GTCTGACCTG 
GACGATAAGC ACAGACCCCT CTTTCCGCAG GAAATCACCA ACAATGGAAA GGAAACGGCT 
GGAGCCTGGA TCTCTGACCT TCCACTCAAT GGCACACATT CTTATTCTGA TACACAAACC 
AGCTCTGCCC TTGACACACA CGTGAACACG CTCGCAATAT TGTCCACTGA ACCTTCTATG 
GCTCAGTCAT CCACTGAAAT TCAATTACCA CTGCTGTCTG TACAAACTAC ACCCCGACAG 
GCAACTGATG TGGCTACAAC AAGTGCACTT TTAGCCACAA ATGATGTTGC CCACACTGAA 
TTACATAGAG GAAGTTCACA GCACATGCAC ACACAAGCAC ATGAATTGCA CAAAATTCAC 
TCCAAAACAA GTCAAAGAGG TGATCCAAGT TCAATGTTTC CGACTTCCAG CTTTATGACA 
GCAAGTCCAC AATATATTCA GCCATTCAAC GCAACTTCTA AACATAAAGA CTTCCTTAGT 
GACAGTTCTT ACAAGGCTAA AGCAACCACA GTGACGGTCC AAAATAAAGA TTTGTTTACA 
ATATCAGAGA ACACTGGGAC GAGTCAAATT GATTCAATTT TTTGGAGTTC AAACTCCAGA 
CGACAATCTC AGTCAATCTC AGACGACAAC CAACCTATAT CATCAGTGAT GGACAGGACA 
GATCGCTCTC CAAGGTCAAC TAATCCAGAT CAAAACATTA CTAATCAAAC AATCTATGAT 
GATTCAGTAC TCACTACTAG TACGCCTGCT ACAGTATCAA AGTTTCTAGA TATTAATCAA 
ACCAACACAT TAGCGTTTTC TGAAAACGAC ACGGCTGAAT ACTCAGGTTA CTCCATGTCT 
CCAAGTGAGC CACCAATAAA TGTTACCAGT GAGAATGAGC CAACAACTTC AGACGAGTTC 
ATGCGCACTT CACGGAAAAC ACTTGCAACT CCAACTTTAA CGTCTTTGGG AACATCAACC 
ACCCACATTT CACACACCAT CAAAAGTCAG CACGATACAA GCACCCAAGA AATCAGCTCT 
GTATCTTCAT CAATCTCTTA CTGGACTTCT CACAACAATA AAAATATCAG TGCCTTCACC 
ACCTTCCCAA CTACCATCCC TCAAGACCTG ACCCCTACTA AGAGTCCTAG TACACCAGAA 
GGGGACAAGG GTCTGCTACC ATCTGAAAGT GATTGCCTCG GTCATGCATG CACCTCGTAT 
TTACCATCTA CAGTAAGAGG CAAACAAGAA ATCCCCATCA CCAGCTCTCC ATCAATCTCT 
TTGTCGAGTC CTCAGATTAG TCCTAATGTG ACTTCTGACC TCACGGTGGA AGATAGCACT 
ACAGTGAGAT TTGAGAACCG CACTGATTTA GAGGAACCTG GTGTGTCCCC ATCACAAGTC 
CAGAATACCA ACACAAAATC AAGTATGCAT ACTGAATTCC CTATATACAC ATCTACACCC 
CAGTATTCAC ATCCATCTTC TGAAAACACG CAGAGCAATG TAGGATTTTC CGATGTAAGT 
GATATCAATG AGATGAGTAG TGATCAAACA GAGGGTAGAA GTCATCTGAG TCCTACTCAG 
ACTAGTGCGA CAAGTTCAAA GATGACTGTT GGCTTATCTC CTTTTAATGA CATTCATACT 
GGATCAACAG ACATCACTAA TAGCTTTACT GCCCACACTA CTGTCACACT GAGGACTTCA 
TCTGACATCA CAACTCCTTA CATCTCACAG GCCAGTACAG CTGATCGTGG CATTCGAACC 
AGCACATCTA TTAGTATGAC CACTCCACAT TGGGAAAGCA GTCAGACCTC TGCGGTCCAT 
CCAACCTCAA TAACTACCCC GCAGATTAAT CCACACGCCA AGTCCACAGA AACGACTTCG 
TTCCAGGTCC AGACACACTT TCCAGTGCAT AAGCCCAGCA CTGTCAGACC TCCCCAACAT 
ATGACCACAA GCTCTTATCT TATCCAAACA AAAGCACACA CAGTATCTAC ACAAGCAGTC 
ACTCAGACAT CTTGGACCCA TTCTACCGCA TCCAGCTTTG ACAGGAAGTG GCCACATGGA 
CGGCATTATT TTATAGTGAA GGACCAGCCA GCAATCATCA AGGAGAAAAC ATTTCAAGTA 
CTCTTACAAA TCGTCCTGGA AAGAGATTAT GCCCCTAGTA TGAGGTTGCA TGAGGTGGAG 
ACATTCCTGC AGATCCTTTC TGGATTTCAG AATCAACATG TGACCTGGCA CAGTGGTCCA 
ATTCTGCAAA CAGTAGTCCA GTTCCAGACA GTGGAAGCGC TGTCCTGGCT GGGAAGGGTG 
GAGTCTCTGT TACAGCAGGC GGGGTTAAAC CCACTGCCAA AGAAAGGAAT ATTTGTGGGT 
GGAGTTAGAG TGAAGAATAT TACTGTGGGA GGTTTGCAGA CAGATGTTTG TGAATGGCTG 
TTTGAATGTC TATCTGGGTT CCAGTGTGTT TCTTCAAAGG GCAATGCCAC CTGTACATCT 
GTGTGCCACT CTGAATACTG TAAACATCAG GGAATCTGTG TCCATCGCTT CGGGCAACAG 
CCTATTTGTC AGTGTCCTGT TGGGGAGGAT TACTGGTTTA TGGGTCAGCG TTGTGACTTC 
CGCATGACCC GGCCGCGTTT GGTGGGCGTG TGCTTTGGTG TACTGGTTGC TGTTGCAGCA 
GTCATGGCTC TTCTGTCTTA TCTCACGGTG CGCCGTTTTA AAACCATGCT AATGCAAGCC 
AAAGTGGAAC AAACACGCAG CAGTTATCGC AGATTTAATC ACTTTGATGA GCTTTCGGCT 
CGTTTTTGGG GAAGGTCCTG GCCGGGTTCT CAGGATTCGT TGGACAACCC TGCCTTCACC 
CGCTCTGATG AATTATTACA CTTGCGAGCA CTAGACCGTA CCTGCTGTTA CCATGACGAC 
ACTCTTTCTG TGGTATCCAC ATACCACAGT AGTGCAACAC ACCTCAACAC CATCTATCCT 
CATGGTTCTC AGTATGGTTG GGATCTCAGC AACTGCAGCT TGGCAGATGG TGTGGTGGAT 
TCTGGGAAGG CTAGTGACCT GTCAGTCTGT AGCTGGCCGA TCGAGCCGAT TCAGTGGACA 
CCATTCCCTT TGCTGCAACA GCTCAACAGG AATACCACCA CAGTGAAAGT GTTTCGTCCT 
CACTCTTACT GTGAAGGCAT GGAACTTGTG GATTTAGAGA AGAGTTGGAC AGCTTAA

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

RefSeq	XP_016135106.1
CDS	201..3977
Translation	MRRFVYLFLFIFSPGNTLLNLRQGCGGKILGERTGSIRYSLHPNSLLFNRITSDSTEKLLDVTCTWIIDAHENQTVCIEVISVGEGAHIGIKFGNGNTLTYEREERALFSGTGKTIIEWSARRTDETFATLQLKWNTSEDNHTLALIPYTHSDADPVSPSPNGSNDVTNTSDIAMSSNVTSKTHSLRGESIQQGRGVSDLDDKHRPLFPQEITNNGKETAGAWISDLPLNGTHSYSDTQTSSALDTHVNTLAILSTEPSMAQSSTEIQLPLLSVQTTPRQATDVATTSALLATNDVAHTELHRGSSQHMHTQAHELHKIHSKTSQRGDPSSMFPTSSFMTASPQYIQPFNATSKHKDFLSDSSYKAKATTVTVQNKDLFTISENTGTSQIDSIFWSSNSRRQSQSISDDNQPISSVMDRTDRSPRSTNPDQNITNQTIYDDSVLTTSTPATVSKFLDINQTNTLAFSENDTAEYSGYSMSPSEPPINVTSENEPTTSDEFMRTSRKTLATPTLTSLGTSTTHISHTIKSQHDTSTQEISSVSSSISYWTSHNNKNISAFTTFPTTIPQDLTPTKSPSTPEGDKGLLPSESDCLGHACTSYLPSTVRGKQEIPITSSPSISLSSPQISPNVTSDLTVEDSTTVRFENRTDLEEPGVSPSQVQNTNTKSSMHTEFPIYTSTPQYSHPSSENTQSNVGFSDVSDINEMSSDQTEGRSHLSPTQTSATSSKMTVGLSPFNDIHTGSTDITNSFTAHTTVTLRTSSDITTPYISQASTADRGIRTSTSISMTTPHWESSQTSAVHPTSITTPQINPHAKSTETTSFQVQTHFPVHKPSTVRPPQHMTTSSYLIQTKAHTVSTQAVTQTSWTHSTASSFDRKWPHGRHYFIVKDQPAIIKEKTFQVLLQIVLERDYAPSMRLHEVETFLQILSGFQNQHVTWHSGPILQTVVQFQTVEALSWLGRVESLLQQAGLNPLPKKGIFVGGVRVKNITVGGLQTDVCEWLFECLSGFQCVSSKGNATCTSVCHSEYCKHQGICVHRFGQQPICQCPVGEDYWFMGQRCDFRMTRPRLVGVCFGVLVAVAAVMALLSYLTVRRFKTMLMQAKVEQTRSSYRRFNHFDELSARFWGRSWPGSQDSLDNPAFTRSDELLHLRALDRTCCYHDDTLSVVSTYHSSATHLNTIYPHGSQYGWDLSNCSLADGVVDSGKASDLSVCSWPIEPIQWTPFPLLQQLNRNTTTVKVFRPHSYCEGMELVDLEKSWTA

Target ORF information:

RefSeq Version	XM_016279620.1
Organism	Sinocyclocheilus grahami
Definition	Sinocyclocheilus grahami uncharacterized threonine-rich GPI-anchored glycoprotein PJ4664.02-like (LOC107590712), transcript variant X2, mRNA.

Target ORF information:

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

XM_016279620.1

ORF Insert Sequence:

ATGCGTCGTT TTGTGTATCT TTTCTTATTT ATTTTCTCTC CAGGAAACAC ACTGTTGAAC 
TTGAGGCAAG GCTGTGGAGG TAAAATTCTT GGAGAGAGGA CCGGCTCAAT TCGGTACTCT 
TTACACCCAA ACAGCCTTTT ATTTAACAGA ATTACCAGCG ACAGCACAGA AAAACTTTTG 
GACGTTACCT GCACATGGAT TATTGATGCA CATGAAAATC AGACTGTTTG TATAGAGGTC 
ATTTCTGTTG GGGAAGGTGC TCATATTGGA ATTAAATTTG GGAATGGGAA TACACTGACC 
TATGAAAGAG AGGAGCGGGC GCTATTCTCT GGCACTGGGA AAACCATCAT TGAATGGAGC 
GCGAGAAGAA CTGATGAAAC CTTTGCCACA TTACAGCTGA AATGGAACAC GTCAGAGGAC 
AATCACACTC TTGCTTTGAT TCCTTACACC CACTCTGATG CTGACCCAGT GTCTCCCTCT 
CCGAATGGCT CAAACGATGT AACTAACACC TCTGACATTG CAATGAGCAG CAATGTAACC 
TCCAAAACAC ACTCTCTCAG GGGTGAGAGT ATACAGCAGG GCAGAGGTGT GTCTGACCTG 
GACGATAAGC ACAGACCCCT CTTTCCGCAG GAAATCACCA ACAATGGAAA GGAAACGGCT 
GGAGCCTGGA TCTCTGACCT TCCACTCAAT GGCACACATT CTTATTCTGA TACACAAACC 
AGCTCTGCCC TTGACACACA CGTGAACACG CTCGCAATAT TGTCCACTGA ACCTTCTATG 
GCTCAGTCAT CCACTGAAAT TCAATTACCA CTGCTGTCTG TACAAACTAC ACCCCGACAG 
GCAACTGATG TGGCTACAAC AAGTGCACTT TTAGCCACAA ATGATGTTGC CCACACTGAA 
TTACATAGAG GAAGTTCACA GCACATGCAC ACACAAGCAC ATGAATTGCA CAAAATTCAC 
TCCAAAACAA GTCAAAGAGG TGATCCAAGT TCAATGTTTC CGACTTCCAG CTTTATGACA 
GCAAGTCCAC AATATATTCA GCCATTCAAC GCAACTTCTA AACATAAAGA CTTCCTTAGT 
GACAGTTCTT ACAAGGCTAA AGCAACCACA GTGACGGTCC AAAATAAAGA TTTGTTTACA 
ATATCAGAGA ACACTGGGAC GAGTCAAATT GATTCAATTT TTTGGAGTTC AAACTCCAGA 
CGACAATCTC AGTCAATCTC AGACGACAAC CAACCTATAT CATCAGTGAT GGACAGGACA 
GATCGCTCTC CAAGGTCAAC TAATCCAGAT CAAAACATTA CTAATCAAAC AATCTATGAT 
GATTCAGTAC TCACTACTAG TACGCCTGCT ACAGTATCAA AGTTTCTAGA TATTAATCAA 
ACCAACACAT TAGCGTTTTC TGAAAACGAC ACGGCTGAAT ACTCAGGTTA CTCCATGTCT 
CCAAGTGAGC CACCAATAAA TGTTACCAGT GAGAATGAGC CAACAACTTC AGACGAGTTC 
ATGCGCACTT CACGGAAAAC ACTTGCAACT CCAACTTTAA CGTCTTTGGG AACATCAACC 
ACCCACATTT CACACACCAT CAAAAGTCAG CACGATACAA GCACCCAAGA AATCAGCTCT 
GTATCTTCAT CAATCTCTTA CTGGACTTCT CACAACAATA AAAATATCAG TGCCTTCACC 
ACCTTCCCAA CTACCATCCC TCAAGACCTG ACCCCTACTA AGAGTCCTAG TACACCAGAA 
GGGGACAAGG GTCTGCTACC ATCTGAAAGT GATTGCCTCG GTCATGCATG CACCTCGTAT 
TTACCATCTA CAGTAAGAGG CAAACAAGAA ATCCCCATCA CCAGCTCTCC ATCAATCTCT 
TTGTCGAGTC CTCAGATTAG TCCTAATGTG ACTTCTGACC TCACGGTGGA AGATAGCACT 
ACAGTGAGAT TTGAGAACCG CACTGATTTA GAGGAACCTG GTGTGTCCCC ATCACAAGTC 
CAGAATACCA ACACAAAATC AAGTATGCAT ACTGAATTCC CTATATACAC ATCTACACCC 
CAGTATTCAC ATCCATCTTC TGAAAACACG CAGAGCAATG TAGGATTTTC CGATGTAAGT 
GATATCAATG AGATGAGTAG TGATCAAACA GAGGGTAGAA GTCATCTGAG TCCTACTCAG 
ACTAGTGCGA CAAGTTCAAA GATGACTGTT GGCTTATCTC CTTTTAATGA CATTCATACT 
GGATCAACAG ACATCACTAA TAGCTTTACT GCCCACACTA CTGTCACACT GAGGACTTCA 
TCTGACATCA CAACTCCTTA CATCTCACAG GCCAGTACAG CTGATCGTGG CATTCGAACC 
AGCACATCTA TTAGTATGAC CACTCCACAT TGGGAAAGCA GTCAGACCTC TGCGGTCCAT 
CCAACCTCAA TAACTACCCC GCAGATTAAT CCACACGCCA AGTCCACAGA AACGACTTCG 
TTCCAGGTCC AGACACACTT TCCAGTGCAT AAGCCCAGCA CTGTCAGACC TCCCCAACAT 
ATGACCACAA GCTCTTATCT TATCCAAACA AAAGCACACA CAGTATCTAC ACAAGCAGTC 
ACTCAGACAT CTTGGACCCA TTCTACCGCA TCCAGCTTTG ACAGGAAGTG GCCACATGGA 
CGGCATTATT TTATAGTGAA GGACCAGCCA GCAATCATCA AGGAGAAAAC ATTTCAAGTA 
CTCTTACAAA TCGTCCTGGA AAGAGATTAT GCCCCTAGTA TGAGGTTGCA TGAGGTGGAG 
ACATTCCTGC AGATCCTTTC TGGATTTCAG AATCAACATG TGACCTGGCA CAGTGGTCCA 
ATTCTGCAAA CAGTAGTCCA GTTCCAGACA GTGGAAGCGC TGTCCTGGCT GGGAAGGGTG 
GAGTCTCTGT TACAGCAGGC GGGGTTAAAC CCACTGCCAA AGAAAGGAAT ATTTGTGGGT 
GGAGTTAGAG TGAAGAATAT TACTGTGGGA GGTTTGCAGA CAGATGTTTG TGAATGGCTG 
TTTGAATGTC TATCTGGGTT CCAGTGTGTT TCTTCAAAGG GCAATGCCAC CTGTACATCT 
GTGTGCCACT CTGAATACTG TAAACATCAG GGAATCTGTG TCCATCGCTT CGGGCAACAG 
CCTATTTGTC AGTGTCCTGT TGGGGAGGAT TACTGGTTTA TGGGTCAGCG TTGTGACTTC 
CGCATGACCC GGCCGCGTTT GGTGGGCGTG TGCTTTGGTG TACTGGTTGC TGTTGCAGCA 
GTCATGGCTC TTCTGTCTTA TCTCACGGTG CGCCGTTTTA AAACCATGCT AATGCAAGCC 
AAAGTGGAAC AAACACGCAG CAGTTATCGC AGATTTAATC ACTTTGATGA GCTTTCGGCT 
CGTTTTTGGG GAAGGTCCTG GCCGGGTTCT CAGGATTCGT TGGACAACCC TGCCTTCACC 
CGCTCTGATG AATTATTACA CTTGCGAGCA CTAGACCGTA CCTGCTGTTA CCATGACGAC 
ACTCTTTCTG TGGTATCCAC ATACCACAGT AGTGCAACAC ACCTCAACAC CATCTATCCT 
CATGGTTCTC AGTATGGTTG GGATCTCAGC AACTGCAGCT TGGCAGATGG TGTGGTGGAT 
TCTGGGAAGG CTAGTGACCT GTCAGTCTGT AGCTGGCCGA TCGAGCCGAT TCAGTGGACA 
CCATTCCCTT TGCTGCAACA GCTCAACAGG AATACCACCA CAGTGAAAGT GTTTCGTCCT 
CACTCTTACT GTGAAGGCAT GGAACTTGTG GATTTAGAGA AGAGTTGGAC AGCTTAA