TNRC6B cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	TNRC6B
Entrez Gene ID	23112
Full Name	trinucleotide repeat containing 6B
General protein information	Preferred Names trinucleotide repeat containing 6B Names trinucleotide repeat-containing gene 6B protein
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 22 Map Location: 22q13.1
Disorder MIM:	610740

mRNA and Protein(s)

mRNA	Protein	Name
NM_001162501.2	NP_001155973.1	trinucleotide repeat-containing gene 6B protein isoform 1
NM_001162501.1	NP_001155973.1	trinucleotide repeat-containing gene 6B protein isoform 1
NM_001024843.1	NP_001020014.1	trinucleotide repeat-containing gene 6B protein isoform 3
NM_015088.3	NP_055903.2	trinucleotide repeat-containing gene 6B protein isoform 2
NM_015088.2	NP_055903.2	trinucleotide repeat-containing gene 6B protein isoform 2

Pathways from BioSystems

Homologies

	TNRC6B	XP_001101111.2
Canis lupus familiaris (dog)	TNRC6B	XP_005625909.1
Bos taurus (cattle)	TNRC6B	NP_001179584.1
Gallus gallus (chicken)	TNRC6B	XP_004937779.1
Danio rerio (zebrafish)	tnrc6b	XP_002663990.3
Xenopus tropicalis (tropical clawed frog)	tnrc6b	XP_002934255.2
Homo sapiens (human)	TNRC6B	NP_001155973.1
Pan troglodytes (chimpanzee)	TNRC6B	XP_003317299.1
Mus musculus (house mouse)	Tnrc6b	NP_659061.2
Rattus norvegicus (Norway rat)	Tnrc6b	NP_620200.2

Gene Ontology
Bibliography

Related articles in PubMed

Replication of GWAS loci revealed the moderate effect of TNRC6B locus on susceptibility of Saudi women to develop uterine leiomyomas.
Bondagji NS, Morad FA, Al-Nefaei AA, Khan IA, Elango R, Abdullah LS, M Al-Mansouri N, Sabir J, Banaganapalli B, Edris S, Shaik NA
The journal of obstetrics and gynaecology research43(2)330-338(2017 Feb)

Genome-wide association study identifies multiple loci associated with both mammographic density and breast cancer risk.
Lindstr?m S, Thompson DJ, Paterson AD, Li J, Gierach GL, Scott C, Stone J, Douglas JA, dos-Santos-Silva I, Fernandez-Navarro P, Verghase J, Smith P, Brown J, Luben R, Wareham NJ, Loos RJ, Heit JA, Pankratz VS, Norman A, Goode EL, Cunningham JM, deAndrade M, Vierkant RA, Czene K, Fasching PA, Baglietto L, Southey MC, Giles GG, Shah KP, Chan HP, Helvie MA, Beck AH, Knoblauch NW, Hazra A, Hunter DJ, Kraft P, Pollan M, Figueroa JD, Couch FJ, Hopper JL, Hall P, Easton DF, Boyd NF, Vachon CM, Tamimi RM
Nature communications55303(2014 Oct)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

The rs12484776 significantly contributes to uterine myoma risk among Saudi women, both in single and also in synergistic cooperation with rs2280543, rs7913069, and rs1056836 markers.
Title: Replication of GWAS loci revealed the moderate effect of TNRC6B locus on susceptibility of Saudi women to develop uterine leiomyomas.

Trinucleotide repeat containing 6B (TNRC6B) rs12484776 associated with uterine fibroid volume in european americans.
Title: Variants in BET1L and TNRC6B associate with increasing fibroid volume and fibroid type among European Americans.

single nucleotide polymorphisms in the TNRC6B gene is associated with uterine fibroid.
Title: BET1L and TNRC6B associate with uterine fibroid risk among European Americans.

Meta-analysis and genome-wide association study of gene-disease association. (HuGE Navigator)
Title: Meta-analysis of genome-wide and replication association studies on prostate cancer.

Observational study of gene-disease association. (HuGE Navigator)
Title: Prostate cancer risk associated loci in African Americans.

The following TNRC6B gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TNRC6B 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)
OHu09601	NM_015088.3 Latest version!	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
OHu09670	NM_001024843.1 Latest version!	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$69.30 $99.00
OHu09849	NM_001162501.2 Latest version!	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
View Old Accession Versions >>
OHu09849	NM_001162501.1	Homo sapiens trinucleotide repeat containing 6B (TNRC6B), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
OHu09601	NM_015088.2	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$923.30 $1319.00
Hide Old Accession Versions >>

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** 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)

TNRC6B ( NM_015088.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_055903.2 Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu09601
Clone ID Related Accession (Same CDS sequence)	NM_015088.3 , NM_015088.2
Accession Version	NM_015088.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5172bp) 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	2019-10-13
Organism	Homo sapiens(human)
Product	trinucleotide repeat-containing gene 6B protein isoform 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BG942870.1, AB029016.2, BC028626.2, AL022238.1 and CA312515.1. On May 31, 2019 this sequence version replaced NM_015088.2. Transcript Variant: This variant (2) is missing two in-frame coding exons compared to variant 1, resulting in a shorter isoform (2) lacking two internal protein segments compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803614.71426.1, SRR1803611.84002.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGATTC CAAATCTATG 
CAAGACGGCT GGGGGGAGAG TGACGGGCCA GTCACAGGAG CTCGCCATCC CAGCTGGGAA 
GAGGAGGAGG ATGGAGGAGT CTGGAACACC ACTGGCTCTC AGGGCAGTGC TTCCTCCCAC 
AACTCAGCAA GCTGGGGACA AGGAGGAAAG AAACAAATGA AGTGCTCACT CAAAGGAGGA 
AACAATGATT CATGGATGAA TCCTCTTGCC AAACAGTTTT CAAATATGGG ATTGCTGAGT 
CAGACTGAAG ATAATCCAAG CAGCAAAATG GATTTGTCTG TAGGAAGCCT TTCAGATAAA 
AAATTTGATG TGGACAAGCG AGCGATGAAT CTCGGGGATT TTAATGATAT CATGAGGAAG 
GATCGATCTG GGTTCCGTCC ACCTAATTCC AAAGACATGG GAACCACAGA TAGTGGGCCT 
TATTTTGAGA AGGGCGGTAG TCATGGTTTG TTTGGAAACA GCACAGCACA ATCGAGAGGT 
CTGCACACAC CCGTGCAGCC ACTAAATTCT TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC 
CAGTTTATTT CCCCCCAGGT TTCTGCCTCA ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG 
AGTCCAGGTC TTTTCAATGT GGGGCCCCAG TTATCTCCTC AACAAATTGC CATGCTGAGC 
CAGCTTCCAC AAATTCCCCA GTTTCAGTTG GCATGTCAGC TTCTCTTGCA GCAGCAGCAA 
CAGCAGCAGT TGTTACAGAA CCAGAGAAAG ATTTCTCAAG CTGTACGCCA ACAGCAAGAG 
CAGCAGCTGG CTCGAATGGT GAGTGCACTG CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG 
CCAGGCATGA AGCACTCGCC CTCTCATCCT GTTGGGCCCA AGCCGCATCT GGACAACATG 
GTACCCAACG CATTGAATGT GGGGCTCCCA GACCTTCAAA CCAAAGGGCC AATACCTGGA 
TATGGTTCTG GCTTCAGCTC TGGCGGCATG GACTATGGCA TGGTTGGTGG GAAGGAGGCT 
GGAACCGAGT CTCGCTTTAA ACAGTGGACC TCCATGATGG AGGGGCTGCC CTCTGTAGCC 
ACACAGGAAG CCAATATGCA CAAAAATGGC GCTATAGTGG CCCCTGGTAA AACCCGGGGA 
GGGTCACCGT ACAACCAGTT TGATATCATC CCTGGTGACA CACTGGGTGG CCATACGGGT 
CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA TCTCCACCAA CAAATAAAAT CGGAAGTAAA 
TCCAGCAATG CCAGTTGGCC TCCAGAATTC CAACCAGGAG TGCCATGGAA AGGTATCCAA 
AACATTGACC CTGAATCTGA CCCCTATGTC ACCCCAGGAA GTGTGCTGGG GGGTACAGCC 
ACATCTCCCA TTGTAGATAC TGACCACCAA CTGCTGCGGG ATAACACCAC AGGGTCTAAT 
TCTTCCCTCA ACACCTCGCT GCCTTCACCT GGTGCCTGGC CCTACAGTGC CTCTGACAAC 
TCCTTTACCA ACGTTCATAG CACTTCAGCA AAGTTCCCTG ATTACAAATC AACATGGTCC 
CCAGATCCCA TAGGACACAA CCCCACTCAT CTCTCCAACA AGATGTGGAA AAACCATATT 
TCCTCCAGGA ACACTACACC GCTGCCCCGC CCACCTCCTG GTCTGACCAA CCCCAAACCA 
TCATCTCCCT GGAGCAGCAC AGCACCCCGA TCAGTCAGGG GGTGGGGGAC ACAGGACTCA 
CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT GGTGGCTCAG TTCGTCCTAG TTACTGGCTG 
GTTCTTCACA ATCTCACCCC ACAGATTGAT GGGTCAACCT TGAGAACGAT CTGCATGCAG 
CATGGCCCAC TGCTGACATT CCATCTGAAT CTAACCCAGG GCACTGCCCT GATCCGATAC 
AGCACCAAAC AGGAGGCGGC CAAGGCCCAA ACTGCACTGC ACATGTGTGT GTTGGGAAAC 
ACTACCATCC TTGCTGAGTT TGCCACTGAT GATGAAGTCA GCCGCTTTCT GGCACAAGCT 
CAGCCCCCTA CACCTGCAGC AACCCCAAGT GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG 
ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA CCTGCTCTGA ATCTTTTTGG TGGGTCCACT 
GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT GGCAGCAGCG GGGCCGATCT TGCTGGCGCT 
TCATTGTGGG GGCCCCCAAA CTATTCTTCT AGCTTATGGG GAGTCCCAAC GGTGGAAGAT 
CCCCATAGGA TGGGCAGCCC TGCTCCTTTA CTACCTGGTG ACCTTCTGGG AGGAGGGTCG 
GATTCAATCT GA

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

RefSeq	NP_055903.2
CDS	212..5383
Translation	MREKEQEREEQLMEDKKRKKEDKKKKEATQKVTEQKTKVPEVTKPSLSQPTAASPIGSSPSPPVNGGNNAKRVAVPNGQPPSAARYMPREVPPRFRCQQDHKVLLKRGQPPPPSCMLLGGGAGPPPCTAPGANPNNAQVTGALLQSESGTAPDSTLGGAAASNYANSTWGSGASSNNGTSPNPIHIWDKVIVDGSDMEEWPCIASKDTESSSENTTDNNSASNPGSEKSTLPGSTTSNKGKGSQCQSASSGNECNLGVWKSDPKAKSVQSSNSTTENNNGLGNWRNVSGQDRIGPGSGFSNFNPNSNPSAWPALVQEGTSRKGALETDNSNSSAQVSTVGQTSREQQSKMENAGVNFVVSGREQAQIHNTDGPKNGNTNSLNLSSPNPMENKGMPFGMGLGNTSRSTDAPSQSTGDRKTGSVGSWGAARGPSGTDTVSGQSNSGNNGNNGKEREDSWKGASVQKSTGSKNDSWDNNNRSTGGSWNFGPQDSNDNKWGEGNKMTSGVSQGEWKQPTGSDELKIGEWSGPNQPNSSTGAWDNQKGHPLPENQGNAQAPCWGRSSSSTGSEVGGQSTGSNHKAGSSDSHNSGRRSYRPTHPDCQAVLQTLLSRTDLDPRVLSNTGWGQTQIKQDTVWDIEEVPRPEGKSDKGTEGWESAATQTKNSGGWGDAPSQSNQMKSGWGELSASTEWKDPKNTGGWNDYKNNNSSNWGGGRPDEKTPSSWNENPSKDQGWGGGRQPNQGWSSGKNGWGEEVDQTKNSNWESSASKPVSGWGEGGQNEIGTWGNGGNASLASKGGWEDCKRSPAWNETGRQPNSWNKQHQQQQPPQQPPPPQPEASGSWGGPPPPPPGNVRPSNSSWSSGPQPATPKDEEPSGWEEPSPQSISRKMDIDDGTSAWGDPNSYNYKNVNLWDKNSQGGPAPREPNLPTPMTSKSASDSKSMQDGWGESDGPVTGARHPSWEEEEDGGVWNTTGSQGSASSHNSASWGQGGKKQMKCSLKGGNNDSWMNPLAKQFSNMGLLSQTEDNPSSKMDLSVGSLSDKKFDVDKRAMNLGDFNDIMRKDRSGFRPPNSKDMGTTDSGPYFEKGGSHGLFGNSTAQSRGLHTPVQPLNSSPSLRAQVPPQFISPQVSASMLKQFPNSGLSPGLFNVGPQLSPQQIAMLSQLPQIPQFQLACQLLLQQQQQQQLLQNQRKISQAVRQQQEQQLARMVSALQQQQQQQQRQPGMKHSPSHPVGPKPHLDNMVPNALNVGLPDLQTKGPIPGYGSGFSSGGMDYGMVGGKEAGTESRFKQWTSMMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKSPPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQLLRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHLSNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASASTWSDGGSVRPSYWLVLHNLTPQIDGSTLRTICMQHGPLLTFHLNLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATPSAPAAGWQSLETGQNQSDPVGPALNLFGGSTGLGQWSSSAGGSSGADLAGASLWGPPNYSSSLWGVPTVEDPHRMGSPAPLLPGDLLGGGSDSI

Target ORF information:

RefSeq Version	NM_015088.3
Organism	Homo sapiens(human)
Definition	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.

Target ORF information:

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

NM_015088.3

ORF Insert Sequence:

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGATTC CAAATCTATG 
CAAGACGGCT GGGGGGAGAG TGACGGGCCA GTCACAGGAG CTCGCCATCC CAGCTGGGAA 
GAGGAGGAGG ATGGAGGAGT CTGGAACACC ACTGGCTCTC AGGGCAGTGC TTCCTCCCAC 
AACTCAGCAA GCTGGGGACA AGGAGGAAAG AAACAAATGA AGTGCTCACT CAAAGGAGGA 
AACAATGATT CATGGATGAA TCCTCTTGCC AAACAGTTTT CAAATATGGG ATTGCTGAGT 
CAGACTGAAG ATAATCCAAG CAGCAAAATG GATTTGTCTG TAGGAAGCCT TTCAGATAAA 
AAATTTGATG TGGACAAGCG AGCGATGAAT CTCGGGGATT TTAATGATAT CATGAGGAAG 
GATCGATCTG GGTTCCGTCC ACCTAATTCC AAAGACATGG GAACCACAGA TAGTGGGCCT 
TATTTTGAGA AGGGCGGTAG TCATGGTTTG TTTGGAAACA GCACAGCACA ATCGAGAGGT 
CTGCACACAC CCGTGCAGCC ACTAAATTCT TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC 
CAGTTTATTT CCCCCCAGGT TTCTGCCTCA ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG 
AGTCCAGGTC TTTTCAATGT GGGGCCCCAG TTATCTCCTC AACAAATTGC CATGCTGAGC 
CAGCTTCCAC AAATTCCCCA GTTTCAGTTG GCATGTCAGC TTCTCTTGCA GCAGCAGCAA 
CAGCAGCAGT TGTTACAGAA CCAGAGAAAG ATTTCTCAAG CTGTACGCCA ACAGCAAGAG 
CAGCAGCTGG CTCGAATGGT GAGTGCACTG CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG 
CCAGGCATGA AGCACTCGCC CTCTCATCCT GTTGGGCCCA AGCCGCATCT GGACAACATG 
GTACCCAACG CATTGAATGT GGGGCTCCCA GACCTTCAAA CCAAAGGGCC AATACCTGGA 
TATGGTTCTG GCTTCAGCTC TGGCGGCATG GACTATGGCA TGGTTGGTGG GAAGGAGGCT 
GGAACCGAGT CTCGCTTTAA ACAGTGGACC TCCATGATGG AGGGGCTGCC CTCTGTAGCC 
ACACAGGAAG CCAATATGCA CAAAAATGGC GCTATAGTGG CCCCTGGTAA AACCCGGGGA 
GGGTCACCGT ACAACCAGTT TGATATCATC CCTGGTGACA CACTGGGTGG CCATACGGGT 
CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA TCTCCACCAA CAAATAAAAT CGGAAGTAAA 
TCCAGCAATG CCAGTTGGCC TCCAGAATTC CAACCAGGAG TGCCATGGAA AGGTATCCAA 
AACATTGACC CTGAATCTGA CCCCTATGTC ACCCCAGGAA GTGTGCTGGG GGGTACAGCC 
ACATCTCCCA TTGTAGATAC TGACCACCAA CTGCTGCGGG ATAACACCAC AGGGTCTAAT 
TCTTCCCTCA ACACCTCGCT GCCTTCACCT GGTGCCTGGC CCTACAGTGC CTCTGACAAC 
TCCTTTACCA ACGTTCATAG CACTTCAGCA AAGTTCCCTG ATTACAAATC AACATGGTCC 
CCAGATCCCA TAGGACACAA CCCCACTCAT CTCTCCAACA AGATGTGGAA AAACCATATT 
TCCTCCAGGA ACACTACACC GCTGCCCCGC CCACCTCCTG GTCTGACCAA CCCCAAACCA 
TCATCTCCCT GGAGCAGCAC AGCACCCCGA TCAGTCAGGG GGTGGGGGAC ACAGGACTCA 
CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT GGTGGCTCAG TTCGTCCTAG TTACTGGCTG 
GTTCTTCACA ATCTCACCCC ACAGATTGAT GGGTCAACCT TGAGAACGAT CTGCATGCAG 
CATGGCCCAC TGCTGACATT CCATCTGAAT CTAACCCAGG GCACTGCCCT GATCCGATAC 
AGCACCAAAC AGGAGGCGGC CAAGGCCCAA ACTGCACTGC ACATGTGTGT GTTGGGAAAC 
ACTACCATCC TTGCTGAGTT TGCCACTGAT GATGAAGTCA GCCGCTTTCT GGCACAAGCT 
CAGCCCCCTA CACCTGCAGC AACCCCAAGT GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG 
ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA CCTGCTCTGA ATCTTTTTGG TGGGTCCACT 
GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT GGCAGCAGCG GGGCCGATCT TGCTGGCGCT 
TCATTGTGGG GGCCCCCAAA CTATTCTTCT AGCTTATGGG GAGTCCCAAC GGTGGAAGAT 
CCCCATAGGA TGGGCAGCCC TGCTCCTTTA CTACCTGGTG ACCTTCTGGG AGGAGGGTCG 
GATTCAATCT GA

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

TNRC6B ( NM_015088.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_055903.2 Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.

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CloneID	OHu09601
Clone ID Related Accession (Same CDS sequence)	NM_015088.3 , NM_015088.2
Accession Version	NM_015088.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5172bp) 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	2019-01-13
Organism	Homo sapiens(human)
Product	trinucleotide repeat-containing gene 6B protein isoform 2
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BG942870.1, AB029016.2, BC028626.2, AL022238.1 and CA312515.1. On May 31, 2007 this sequence version replaced NM_015088.1. Transcript Variant: This variant (2) is missing two in-frame coding exons compared to variant 1, resulting in a shorter isoform (2) lacking two internal protein segments compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.150184.1, SRR1803611.84002.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1968540 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGATTC CAAATCTATG 
CAAGACGGCT GGGGGGAGAG TGACGGGCCA GTCACAGGAG CTCGCCATCC CAGCTGGGAA 
GAGGAGGAGG ATGGAGGAGT CTGGAACACC ACTGGCTCTC AGGGCAGTGC TTCCTCCCAC 
AACTCAGCAA GCTGGGGACA AGGAGGAAAG AAACAAATGA AGTGCTCACT CAAAGGAGGA 
AACAATGATT CATGGATGAA TCCTCTTGCC AAACAGTTTT CAAATATGGG ATTGCTGAGT 
CAGACTGAAG ATAATCCAAG CAGCAAAATG GATTTGTCTG TAGGAAGCCT TTCAGATAAA 
AAATTTGATG TGGACAAGCG AGCGATGAAT CTCGGGGATT TTAATGATAT CATGAGGAAG 
GATCGATCTG GGTTCCGTCC ACCTAATTCC AAAGACATGG GAACCACAGA TAGTGGGCCT 
TATTTTGAGA AGGGCGGTAG TCATGGTTTG TTTGGAAACA GCACAGCACA ATCGAGAGGT 
CTGCACACAC CCGTGCAGCC ACTAAATTCT TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC 
CAGTTTATTT CCCCCCAGGT TTCTGCCTCA ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG 
AGTCCAGGTC TTTTCAATGT GGGGCCCCAG TTATCTCCTC AACAAATTGC CATGCTGAGC 
CAGCTTCCAC AAATTCCCCA GTTTCAGTTG GCATGTCAGC TTCTCTTGCA GCAGCAGCAA 
CAGCAGCAGT TGTTACAGAA CCAGAGAAAG ATTTCTCAAG CTGTACGCCA ACAGCAAGAG 
CAGCAGCTGG CTCGAATGGT GAGTGCACTG CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG 
CCAGGCATGA AGCACTCGCC CTCTCATCCT GTTGGGCCCA AGCCGCATCT GGACAACATG 
GTACCCAACG CATTGAATGT GGGGCTCCCA GACCTTCAAA CCAAAGGGCC AATACCTGGA 
TATGGTTCTG GCTTCAGCTC TGGCGGCATG GACTATGGCA TGGTTGGTGG GAAGGAGGCT 
GGAACCGAGT CTCGCTTTAA ACAGTGGACC TCCATGATGG AGGGGCTGCC CTCTGTAGCC 
ACACAGGAAG CCAATATGCA CAAAAATGGC GCTATAGTGG CCCCTGGTAA AACCCGGGGA 
GGGTCACCGT ACAACCAGTT TGATATCATC CCTGGTGACA CACTGGGTGG CCATACGGGT 
CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA TCTCCACCAA CAAATAAAAT CGGAAGTAAA 
TCCAGCAATG CCAGTTGGCC TCCAGAATTC CAACCAGGAG TGCCATGGAA AGGTATCCAA 
AACATTGACC CTGAATCTGA CCCCTATGTC ACCCCAGGAA GTGTGCTGGG GGGTACAGCC 
ACATCTCCCA TTGTAGATAC TGACCACCAA CTGCTGCGGG ATAACACCAC AGGGTCTAAT 
TCTTCCCTCA ACACCTCGCT GCCTTCACCT GGTGCCTGGC CCTACAGTGC CTCTGACAAC 
TCCTTTACCA ACGTTCATAG CACTTCAGCA AAGTTCCCTG ATTACAAATC AACATGGTCC 
CCAGATCCCA TAGGACACAA CCCCACTCAT CTCTCCAACA AGATGTGGAA AAACCATATT 
TCCTCCAGGA ACACTACACC GCTGCCCCGC CCACCTCCTG GTCTGACCAA CCCCAAACCA 
TCATCTCCCT GGAGCAGCAC AGCACCCCGA TCAGTCAGGG GGTGGGGGAC ACAGGACTCA 
CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT GGTGGCTCAG TTCGTCCTAG TTACTGGCTG 
GTTCTTCACA ATCTCACCCC ACAGATTGAT GGGTCAACCT TGAGAACGAT CTGCATGCAG 
CATGGCCCAC TGCTGACATT CCATCTGAAT CTAACCCAGG GCACTGCCCT GATCCGATAC 
AGCACCAAAC AGGAGGCGGC CAAGGCCCAA ACTGCACTGC ACATGTGTGT GTTGGGAAAC 
ACTACCATCC TTGCTGAGTT TGCCACTGAT GATGAAGTCA GCCGCTTTCT GGCACAAGCT 
CAGCCCCCTA CACCTGCAGC AACCCCAAGT GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG 
ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA CCTGCTCTGA ATCTTTTTGG TGGGTCCACT 
GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT GGCAGCAGCG GGGCCGATCT TGCTGGCGCT 
TCATTGTGGG GGCCCCCAAA CTATTCTTCT AGCTTATGGG GAGTCCCAAC GGTGGAAGAT 
CCCCATAGGA TGGGCAGCCC TGCTCCTTTA CTACCTGGTG ACCTTCTGGG AGGAGGGTCG 
GATTCAATCT GA

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

RefSeq	NP_055903.2
CDS	212..5383
Translation	MREKEQEREEQLMEDKKRKKEDKKKKEATQKVTEQKTKVPEVTKPSLSQPTAASPIGSSPSPPVNGGNNAKRVAVPNGQPPSAARYMPREVPPRFRCQQDHKVLLKRGQPPPPSCMLLGGGAGPPPCTAPGANPNNAQVTGALLQSESGTAPDSTLGGAAASNYANSTWGSGASSNNGTSPNPIHIWDKVIVDGSDMEEWPCIASKDTESSSENTTDNNSASNPGSEKSTLPGSTTSNKGKGSQCQSASSGNECNLGVWKSDPKAKSVQSSNSTTENNNGLGNWRNVSGQDRIGPGSGFSNFNPNSNPSAWPALVQEGTSRKGALETDNSNSSAQVSTVGQTSREQQSKMENAGVNFVVSGREQAQIHNTDGPKNGNTNSLNLSSPNPMENKGMPFGMGLGNTSRSTDAPSQSTGDRKTGSVGSWGAARGPSGTDTVSGQSNSGNNGNNGKEREDSWKGASVQKSTGSKNDSWDNNNRSTGGSWNFGPQDSNDNKWGEGNKMTSGVSQGEWKQPTGSDELKIGEWSGPNQPNSSTGAWDNQKGHPLPENQGNAQAPCWGRSSSSTGSEVGGQSTGSNHKAGSSDSHNSGRRSYRPTHPDCQAVLQTLLSRTDLDPRVLSNTGWGQTQIKQDTVWDIEEVPRPEGKSDKGTEGWESAATQTKNSGGWGDAPSQSNQMKSGWGELSASTEWKDPKNTGGWNDYKNNNSSNWGGGRPDEKTPSSWNENPSKDQGWGGGRQPNQGWSSGKNGWGEEVDQTKNSNWESSASKPVSGWGEGGQNEIGTWGNGGNASLASKGGWEDCKRSPAWNETGRQPNSWNKQHQQQQPPQQPPPPQPEASGSWGGPPPPPPGNVRPSNSSWSSGPQPATPKDEEPSGWEEPSPQSISRKMDIDDGTSAWGDPNSYNYKNVNLWDKNSQGGPAPREPNLPTPMTSKSASDSKSMQDGWGESDGPVTGARHPSWEEEEDGGVWNTTGSQGSASSHNSASWGQGGKKQMKCSLKGGNNDSWMNPLAKQFSNMGLLSQTEDNPSSKMDLSVGSLSDKKFDVDKRAMNLGDFNDIMRKDRSGFRPPNSKDMGTTDSGPYFEKGGSHGLFGNSTAQSRGLHTPVQPLNSSPSLRAQVPPQFISPQVSASMLKQFPNSGLSPGLFNVGPQLSPQQIAMLSQLPQIPQFQLACQLLLQQQQQQQLLQNQRKISQAVRQQQEQQLARMVSALQQQQQQQQRQPGMKHSPSHPVGPKPHLDNMVPNALNVGLPDLQTKGPIPGYGSGFSSGGMDYGMVGGKEAGTESRFKQWTSMMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKSPPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQLLRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHLSNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASASTWSDGGSVRPSYWLVLHNLTPQIDGSTLRTICMQHGPLLTFHLNLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATPSAPAAGWQSLETGQNQSDPVGPALNLFGGSTGLGQWSSSAGGSSGADLAGASLWGPPNYSSSLWGVPTVEDPHRMGSPAPLLPGDLLGGGSDSI

Target ORF information:

RefSeq Version	NM_015088.2
Organism	Homo sapiens(human)
Definition	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 2, mRNA.

Target ORF information:

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

NM_015088.2

ORF Insert Sequence:

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGATTC CAAATCTATG 
CAAGACGGCT GGGGGGAGAG TGACGGGCCA GTCACAGGAG CTCGCCATCC CAGCTGGGAA 
GAGGAGGAGG ATGGAGGAGT CTGGAACACC ACTGGCTCTC AGGGCAGTGC TTCCTCCCAC 
AACTCAGCAA GCTGGGGACA AGGAGGAAAG AAACAAATGA AGTGCTCACT CAAAGGAGGA 
AACAATGATT CATGGATGAA TCCTCTTGCC AAACAGTTTT CAAATATGGG ATTGCTGAGT 
CAGACTGAAG ATAATCCAAG CAGCAAAATG GATTTGTCTG TAGGAAGCCT TTCAGATAAA 
AAATTTGATG TGGACAAGCG AGCGATGAAT CTCGGGGATT TTAATGATAT CATGAGGAAG 
GATCGATCTG GGTTCCGTCC ACCTAATTCC AAAGACATGG GAACCACAGA TAGTGGGCCT 
TATTTTGAGA AGGGCGGTAG TCATGGTTTG TTTGGAAACA GCACAGCACA ATCGAGAGGT 
CTGCACACAC CCGTGCAGCC ACTAAATTCT TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC 
CAGTTTATTT CCCCCCAGGT TTCTGCCTCA ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG 
AGTCCAGGTC TTTTCAATGT GGGGCCCCAG TTATCTCCTC AACAAATTGC CATGCTGAGC 
CAGCTTCCAC AAATTCCCCA GTTTCAGTTG GCATGTCAGC TTCTCTTGCA GCAGCAGCAA 
CAGCAGCAGT TGTTACAGAA CCAGAGAAAG ATTTCTCAAG CTGTACGCCA ACAGCAAGAG 
CAGCAGCTGG CTCGAATGGT GAGTGCACTG CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG 
CCAGGCATGA AGCACTCGCC CTCTCATCCT GTTGGGCCCA AGCCGCATCT GGACAACATG 
GTACCCAACG CATTGAATGT GGGGCTCCCA GACCTTCAAA CCAAAGGGCC AATACCTGGA 
TATGGTTCTG GCTTCAGCTC TGGCGGCATG GACTATGGCA TGGTTGGTGG GAAGGAGGCT 
GGAACCGAGT CTCGCTTTAA ACAGTGGACC TCCATGATGG AGGGGCTGCC CTCTGTAGCC 
ACACAGGAAG CCAATATGCA CAAAAATGGC GCTATAGTGG CCCCTGGTAA AACCCGGGGA 
GGGTCACCGT ACAACCAGTT TGATATCATC CCTGGTGACA CACTGGGTGG CCATACGGGT 
CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA TCTCCACCAA CAAATAAAAT CGGAAGTAAA 
TCCAGCAATG CCAGTTGGCC TCCAGAATTC CAACCAGGAG TGCCATGGAA AGGTATCCAA 
AACATTGACC CTGAATCTGA CCCCTATGTC ACCCCAGGAA GTGTGCTGGG GGGTACAGCC 
ACATCTCCCA TTGTAGATAC TGACCACCAA CTGCTGCGGG ATAACACCAC AGGGTCTAAT 
TCTTCCCTCA ACACCTCGCT GCCTTCACCT GGTGCCTGGC CCTACAGTGC CTCTGACAAC 
TCCTTTACCA ACGTTCATAG CACTTCAGCA AAGTTCCCTG ATTACAAATC AACATGGTCC 
CCAGATCCCA TAGGACACAA CCCCACTCAT CTCTCCAACA AGATGTGGAA AAACCATATT 
TCCTCCAGGA ACACTACACC GCTGCCCCGC CCACCTCCTG GTCTGACCAA CCCCAAACCA 
TCATCTCCCT GGAGCAGCAC AGCACCCCGA TCAGTCAGGG GGTGGGGGAC ACAGGACTCA 
CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT GGTGGCTCAG TTCGTCCTAG TTACTGGCTG 
GTTCTTCACA ATCTCACCCC ACAGATTGAT GGGTCAACCT TGAGAACGAT CTGCATGCAG 
CATGGCCCAC TGCTGACATT CCATCTGAAT CTAACCCAGG GCACTGCCCT GATCCGATAC 
AGCACCAAAC AGGAGGCGGC CAAGGCCCAA ACTGCACTGC ACATGTGTGT GTTGGGAAAC 
ACTACCATCC TTGCTGAGTT TGCCACTGAT GATGAAGTCA GCCGCTTTCT GGCACAAGCT 
CAGCCCCCTA CACCTGCAGC AACCCCAAGT GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG 
ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA CCTGCTCTGA ATCTTTTTGG TGGGTCCACT 
GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT GGCAGCAGCG GGGCCGATCT TGCTGGCGCT 
TCATTGTGGG GGCCCCCAAA CTATTCTTCT AGCTTATGGG GAGTCCCAAC GGTGGAAGAT 
CCCCATAGGA TGGGCAGCCC TGCTCCTTTA CTACCTGGTG ACCTTCTGGG AGGAGGGTCG 
GATTCAATCT GA

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

TNRC6B ( NM_001024843.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001020014.1 Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu09670
Clone ID Related Accession (Same CDS sequence)	NM_001024843.1
Accession Version	NM_001024843.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3090bp) 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	2019-10-13
Organism	Homo sapiens(human)
Product	trinucleotide repeat-containing gene 6B protein isoform 3
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BE501815.1, BC028626.2, BX647630.1, AL022238.1 and CA312515.1. On Jun 17, 2005 this sequence version replaced XM_039385.3. Transcript Variant: This variant (3) uses an alternate promoter, has a different translation start site, and is missing two in-frame coding exons compared to variant 1. This results in a shorter isoform (3) with a distinct N-terminus and lacking two internal protein segments compared to isoform 1. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## CDS exon combination :: BC028626.2 [ECO:0000331] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148874 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGCAAACCA ATGAGGGAGA AGTATCGGAA GAAAGCAGTT CCAAGGTGGA ACAGGAGGAT 
TTTGTAATGG AAGGGCATGG CAAGACTCCA CCTCCTGGTG AAGAAAGCAA ACAAGAGAAG 
GAGCAAGAAA GGGAAGAACA GTTAATGGAA GACAAGAAAA GGAAGAAAGA GGATAAAAAG 
AAAAAAGAAG CCACTCAGAA GGTCACGGAA CAAAAAACCA AAGTGCCCGA AGTGACGAAA 
CCAAGTTTAA GCCAACCAAC GGCCGCCAGC CCAATTGGCA GCTCTCCATC GCCACCAGTC 
AATGGTGGCA ACAATGCCAA AAGGGTGGCA GTGCCGAACG GACAACCGCC AAGCGCCGCC 
CGCTACATGC CTCGGGAGGT GCCGCCGCGA TTCCGTTGCC AGCAGGACCA CAAAGTGTTA 
CTAAAACGTG GGCAGCCCCC TCCACCGTCC TGCATGCTCC TTGGGGGTGG GGCAGGGCCT 
CCTCCCTGCA CAGCACCTGG AGCAAACCCA AACAACGCAC AAGTGACAGG AGCGCTGCTG 
CAGAGTGAGA GTGGGACTGC GCCAGTCTGG AGCAAAAGCA CACCACCTGC TCCAGATAAT 
GGTACTTCCG CTTGGGGTGA GCCAAATGAA AGCAGTCCTG GGTGGGGCGA GATGGATGAT 
ACAGGAGCAT CGACCACAGG CTGGGGGAAC ACGCCCGCCA ACGCTCCCAA TGCCATGAAG 
CCTAATTCCA AATCTATGCA AGACGGCTGG GGGGAGAGTG ACGGGCCAGT CACAGGAGCT 
CGCCATCCCA GCTGGGAAGA GGAGGAGGAT GGAGGAGTCT GGAACACCAC TGGCTCTCAG 
GGCAGTGCTT CCTCCCACAA CTCAGCAAGC TGGGGACAAG GAGGAAAGAA ACAAATGAAG 
TGCTCACTCA AAGGAGGAAA CAATGATTCA TGGATGAATC CTCTTGCCAA ACAGTTTTCA 
AATATGGGAT TGCTGAGTCA GACTGAAGAT AATCCAAGCA GCAAAATGGA TTTGTCTGTA 
GGAAGCCTTT CAGATAAAAA ATTTGATGTG GACAAGCGAG CGATGAATCT CGGGGATTTT 
AATGATATCA TGAGGAAGGA TCGATCTGGG TTCCGTCCAC CTAATTCCAA AGACATGGGA 
ACCACAGATA GTGGGCCTTA TTTTGAGAAG GGCGGTAGTC ATGGTTTGTT TGGAAACAGC 
ACAGCACAAT CGAGAGGTCT GCACACACCC GTGCAGCCAC TAAATTCTTC TCCCAGTCTC 
CGGGCGCAAG TGCCTCCCCA GTTTATTTCC CCCCAGGTTT CTGCCTCAAT GCTCAAGCAG 
TTTCCCAACA GTGGCCTGAG TCCAGGTCTT TTCAATGTGG GGCCCCAGTT ATCTCCTCAA 
CAAATTGCCA TGCTGAGCCA GCTTCCACAA ATTCCCCAGT TTCAGTTGGC ATGTCAGCTT 
CTCTTGCAGC AGCAGCAACA GCAGCAGTTG TTACAGAACC AGAGAAAGAT TTCTCAAGCT 
GTACGCCAAC AGCAAGAGCA GCAGCTGGCT CGAATGGTGA GTGCACTGCA GCAGCAGCAG 
CAGCAGCAGC AGAGGCAGCC AGGCATGAAG CACTCGCCCT CTCATCCTGT TGGGCCCAAG 
CCGCATCTGG ACAACATGGT ACCCAACGCA TTGAATGTGG GGCTCCCAGA CCTTCAAACC 
AAAGGGCCAA TACCTGGATA TGGTTCTGGC TTCAGCTCTG GCGGCATGGA CTATGGCATG 
GTTGGTGGGA AGGAGGCTGG AACCGAGTCT CGCTTTAAAC AGTGGACCTC CATGATGGAG 
GGGCTGCCCT CTGTAGCCAC ACAGGAAGCC AATATGCACA AAAATGGCGC TATAGTGGCC 
CCTGGTAAAA CCCGGGGAGG GTCACCGTAC AACCAGTTTG ATATCATCCC TGGTGACACA 
CTGGGTGGCC ATACGGGTCC TGCTGGTGAT AGCTGGTTAC CTGCCAAATC TCCACCAACA 
AATAAAATCG GAAGTAAATC CAGCAATGCC AGTTGGCCTC CAGAATTCCA ACCAGGAGTG 
CCATGGAAAG GTATCCAAAA CATTGACCCT GAATCTGACC CCTATGTCAC CCCAGGAAGT 
GTGCTGGGGG GTACAGCCAC ATCTCCCATT GTAGATACTG ACCACCAACT GCTGCGGGAT 
AACACCACAG GGTCTAATTC TTCCCTCAAC ACCTCGCTGC CTTCACCTGG TGCCTGGCCC 
TACAGTGCCT CTGACAACTC CTTTACCAAC GTTCATAGCA CTTCAGCAAA GTTCCCTGAT 
TACAAATCAA CATGGTCCCC AGATCCCATA GGACACAACC CCACTCATCT CTCCAACAAG 
ATGTGGAAAA ACCATATTTC CTCCAGGAAC ACTACACCGC TGCCCCGCCC ACCTCCTGGT 
CTGACCAACC CCAAACCATC ATCTCCCTGG AGCAGCACAG CACCCCGATC AGTCAGGGGG 
TGGGGGACAC AGGACTCACG GCTCGCCTCG GCCTCTACCT GGAGTGATGG TGGCTCAGTT 
CGTCCTAGTT ACTGGCTGGT TCTTCACAAT CTCACCCCAC AGATTGATGG GTCAACCTTG 
AGAACGATCT GCATGCAGCA TGGCCCACTG CTGACATTCC ATCTGAATCT AACCCAGGGC 
ACTGCCCTGA TCCGATACAG CACCAAACAG GAGGCGGCCA AGGCCCAAAC TGCACTGCAC 
ATGTGTGTGT TGGGAAACAC TACCATCCTT GCTGAGTTTG CCACTGATGA TGAAGTCAGC 
CGCTTTCTGG CACAAGCTCA GCCCCCTACA CCTGCAGCAA CCCCAAGTGC GCCAGCTGCG 
GGGTGGCAGT CGCTGGAGAC CGGCCAGAAC CAGTCAGATC CCGTGGGACC TGCTCTGAAT 
CTTTTTGGTG GGTCCACTGG GCTCGGGCAG TGGAGCAGCA GCGCTGGTGG CAGCAGCGGG 
GCCGATCTTG CTGGCGCTTC ATTGTGGGGG CCCCCAAACT ATTCTTCTAG CTTATGGGGA 
GTCCCAACGG TGGAAGATCC CCATAGGATG GGCAGCCCTG CTCCTTTACT ACCTGGTGAC 
CTTCTGGGAG GAGGGTCGGA TTCAATCTGA

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

RefSeq	NP_001020014.1
CDS	303..3392
Translation	MQTNEGEVSEESSSKVEQEDFVMEGHGKTPPPGEESKQEKEQEREEQLMEDKKRKKEDKKKKEATQKVTEQKTKVPEVTKPSLSQPTAASPIGSSPSPPVNGGNNAKRVAVPNGQPPSAARYMPREVPPRFRCQQDHKVLLKRGQPPPPSCMLLGGGAGPPPCTAPGANPNNAQVTGALLQSESGTAPVWSKSTPPAPDNGTSAWGEPNESSPGWGEMDDTGASTTGWGNTPANAPNAMKPNSKSMQDGWGESDGPVTGARHPSWEEEEDGGVWNTTGSQGSASSHNSASWGQGGKKQMKCSLKGGNNDSWMNPLAKQFSNMGLLSQTEDNPSSKMDLSVGSLSDKKFDVDKRAMNLGDFNDIMRKDRSGFRPPNSKDMGTTDSGPYFEKGGSHGLFGNSTAQSRGLHTPVQPLNSSPSLRAQVPPQFISPQVSASMLKQFPNSGLSPGLFNVGPQLSPQQIAMLSQLPQIPQFQLACQLLLQQQQQQQLLQNQRKISQAVRQQQEQQLARMVSALQQQQQQQQRQPGMKHSPSHPVGPKPHLDNMVPNALNVGLPDLQTKGPIPGYGSGFSSGGMDYGMVGGKEAGTESRFKQWTSMMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKSPPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQLLRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHLSNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASASTWSDGGSVRPSYWLVLHNLTPQIDGSTLRTICMQHGPLLTFHLNLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATPSAPAAGWQSLETGQNQSDPVGPALNLFGGSTGLGQWSSSAGGSSGADLAGASLWGPPNYSSSLWGVPTVEDPHRMGSPAPLLPGDLLGGGSDSI

Target ORF information:

RefSeq Version	NM_001024843.1
Organism	Homo sapiens(human)
Definition	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 3, mRNA.

Target ORF information:

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

NM_001024843.1

ORF Insert Sequence:

ATGCAAACCA ATGAGGGAGA AGTATCGGAA GAAAGCAGTT CCAAGGTGGA ACAGGAGGAT 
TTTGTAATGG AAGGGCATGG CAAGACTCCA CCTCCTGGTG AAGAAAGCAA ACAAGAGAAG 
GAGCAAGAAA GGGAAGAACA GTTAATGGAA GACAAGAAAA GGAAGAAAGA GGATAAAAAG 
AAAAAAGAAG CCACTCAGAA GGTCACGGAA CAAAAAACCA AAGTGCCCGA AGTGACGAAA 
CCAAGTTTAA GCCAACCAAC GGCCGCCAGC CCAATTGGCA GCTCTCCATC GCCACCAGTC 
AATGGTGGCA ACAATGCCAA AAGGGTGGCA GTGCCGAACG GACAACCGCC AAGCGCCGCC 
CGCTACATGC CTCGGGAGGT GCCGCCGCGA TTCCGTTGCC AGCAGGACCA CAAAGTGTTA 
CTAAAACGTG GGCAGCCCCC TCCACCGTCC TGCATGCTCC TTGGGGGTGG GGCAGGGCCT 
CCTCCCTGCA CAGCACCTGG AGCAAACCCA AACAACGCAC AAGTGACAGG AGCGCTGCTG 
CAGAGTGAGA GTGGGACTGC GCCAGTCTGG AGCAAAAGCA CACCACCTGC TCCAGATAAT 
GGTACTTCCG CTTGGGGTGA GCCAAATGAA AGCAGTCCTG GGTGGGGCGA GATGGATGAT 
ACAGGAGCAT CGACCACAGG CTGGGGGAAC ACGCCCGCCA ACGCTCCCAA TGCCATGAAG 
CCTAATTCCA AATCTATGCA AGACGGCTGG GGGGAGAGTG ACGGGCCAGT CACAGGAGCT 
CGCCATCCCA GCTGGGAAGA GGAGGAGGAT GGAGGAGTCT GGAACACCAC TGGCTCTCAG 
GGCAGTGCTT CCTCCCACAA CTCAGCAAGC TGGGGACAAG GAGGAAAGAA ACAAATGAAG 
TGCTCACTCA AAGGAGGAAA CAATGATTCA TGGATGAATC CTCTTGCCAA ACAGTTTTCA 
AATATGGGAT TGCTGAGTCA GACTGAAGAT AATCCAAGCA GCAAAATGGA TTTGTCTGTA 
GGAAGCCTTT CAGATAAAAA ATTTGATGTG GACAAGCGAG CGATGAATCT CGGGGATTTT 
AATGATATCA TGAGGAAGGA TCGATCTGGG TTCCGTCCAC CTAATTCCAA AGACATGGGA 
ACCACAGATA GTGGGCCTTA TTTTGAGAAG GGCGGTAGTC ATGGTTTGTT TGGAAACAGC 
ACAGCACAAT CGAGAGGTCT GCACACACCC GTGCAGCCAC TAAATTCTTC TCCCAGTCTC 
CGGGCGCAAG TGCCTCCCCA GTTTATTTCC CCCCAGGTTT CTGCCTCAAT GCTCAAGCAG 
TTTCCCAACA GTGGCCTGAG TCCAGGTCTT TTCAATGTGG GGCCCCAGTT ATCTCCTCAA 
CAAATTGCCA TGCTGAGCCA GCTTCCACAA ATTCCCCAGT TTCAGTTGGC ATGTCAGCTT 
CTCTTGCAGC AGCAGCAACA GCAGCAGTTG TTACAGAACC AGAGAAAGAT TTCTCAAGCT 
GTACGCCAAC AGCAAGAGCA GCAGCTGGCT CGAATGGTGA GTGCACTGCA GCAGCAGCAG 
CAGCAGCAGC AGAGGCAGCC AGGCATGAAG CACTCGCCCT CTCATCCTGT TGGGCCCAAG 
CCGCATCTGG ACAACATGGT ACCCAACGCA TTGAATGTGG GGCTCCCAGA CCTTCAAACC 
AAAGGGCCAA TACCTGGATA TGGTTCTGGC TTCAGCTCTG GCGGCATGGA CTATGGCATG 
GTTGGTGGGA AGGAGGCTGG AACCGAGTCT CGCTTTAAAC AGTGGACCTC CATGATGGAG 
GGGCTGCCCT CTGTAGCCAC ACAGGAAGCC AATATGCACA AAAATGGCGC TATAGTGGCC 
CCTGGTAAAA CCCGGGGAGG GTCACCGTAC AACCAGTTTG ATATCATCCC TGGTGACACA 
CTGGGTGGCC ATACGGGTCC TGCTGGTGAT AGCTGGTTAC CTGCCAAATC TCCACCAACA 
AATAAAATCG GAAGTAAATC CAGCAATGCC AGTTGGCCTC CAGAATTCCA ACCAGGAGTG 
CCATGGAAAG GTATCCAAAA CATTGACCCT GAATCTGACC CCTATGTCAC CCCAGGAAGT 
GTGCTGGGGG GTACAGCCAC ATCTCCCATT GTAGATACTG ACCACCAACT GCTGCGGGAT 
AACACCACAG GGTCTAATTC TTCCCTCAAC ACCTCGCTGC CTTCACCTGG TGCCTGGCCC 
TACAGTGCCT CTGACAACTC CTTTACCAAC GTTCATAGCA CTTCAGCAAA GTTCCCTGAT 
TACAAATCAA CATGGTCCCC AGATCCCATA GGACACAACC CCACTCATCT CTCCAACAAG 
ATGTGGAAAA ACCATATTTC CTCCAGGAAC ACTACACCGC TGCCCCGCCC ACCTCCTGGT 
CTGACCAACC CCAAACCATC ATCTCCCTGG AGCAGCACAG CACCCCGATC AGTCAGGGGG 
TGGGGGACAC AGGACTCACG GCTCGCCTCG GCCTCTACCT GGAGTGATGG TGGCTCAGTT 
CGTCCTAGTT ACTGGCTGGT TCTTCACAAT CTCACCCCAC AGATTGATGG GTCAACCTTG 
AGAACGATCT GCATGCAGCA TGGCCCACTG CTGACATTCC ATCTGAATCT AACCCAGGGC 
ACTGCCCTGA TCCGATACAG CACCAAACAG GAGGCGGCCA AGGCCCAAAC TGCACTGCAC 
ATGTGTGTGT TGGGAAACAC TACCATCCTT GCTGAGTTTG CCACTGATGA TGAAGTCAGC 
CGCTTTCTGG CACAAGCTCA GCCCCCTACA CCTGCAGCAA CCCCAAGTGC GCCAGCTGCG 
GGGTGGCAGT CGCTGGAGAC CGGCCAGAAC CAGTCAGATC CCGTGGGACC TGCTCTGAAT 
CTTTTTGGTG GGTCCACTGG GCTCGGGCAG TGGAGCAGCA GCGCTGGTGG CAGCAGCGGG 
GCCGATCTTG CTGGCGCTTC ATTGTGGGGG CCCCCAAACT ATTCTTCTAG CTTATGGGGA 
GTCCCAACGG TGGAAGATCC CCATAGGATG GGCAGCCCTG CTCCTTTACT ACCTGGTGAC 
CTTCTGGGAG GAGGGTCGGA TTCAATCTGA

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

TNRC6B ( NM_001162501.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001155973.1 Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 1, mRNA.

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CloneID	OHu09849
Clone ID Related Accession (Same CDS sequence)	NM_001162501.2 , NM_001162501.1
Accession Version	NM_001162501.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5502bp) 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	2019-10-13
Organism	Homo sapiens(human)
Product	trinucleotide repeat-containing gene 6B protein isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX952326.1, AK294519.1, BQ009349.1, AL022238.1, BX537577.1, DB147781.1, AL831862.1, BU584176.1 and CA312515.1. On Nov 22, 2018 this sequence version replaced NM_001162501.1. Transcript Variant: This variant (1) encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.62021.1, SRR1803611.74886.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2149004 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000454349.7/ ENSP00000401946.2 RefSeq Select criteria :: based on conservation, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGTCTG GAGCAAAAGC 
ACACCACCTG CTCCAGATAA TGGTACTTCC GCTTGGGGTG AGCCAAATGA AAGCAGTCCT 
GGGTGGGGCG AGATGGATGA TACAGGAGCA TCGACCACAG GCTGGGGGAA CACGCCCGCC 
AACGCTCCCA ATGCCATGAA GCCTAATTCC AAATCTATGC AAGACGGCTG GGGGGAGAGT 
GACGGGCCAG TCACAGGAGC TCGCCATCCC AGCTGGGAAG AGGAGGAGGA TGGAGGAGTC 
TGGAACACCA CTGGCTCTCA GGGCAGTGCT TCCTCCCACA ACTCAGCAAG CTGGGGACAA 
GGAGGAAAGA AACAAATGAA GTGCTCACTC AAAGGAGGAA ACAATGATTC ATGGATGAAT 
CCTCTTGCCA AACAGTTTTC AAATATGGGA TTGCTGAGTC AGACTGAAGA TAATCCAAGC 
AGCAAAATGG ATTTGTCTGT AGGAAGCCTT TCAGATAAAA AATTTGATGT GGACAAGCGA 
GCGATGAATC TCGGGGATTT TAATGATATC ATGAGGAAGG ATCGATCTGG GTTCCGTCCA 
CCTAATTCCA AAGACATGGG AACCACAGAT AGTGGGCCTT ATTTTGAGAA GCTGACTTTG 
CCTTTCTCCA ATCAAGATGG GTGCCTTGGG GATGAGGCTC CCTGCTCTCC CTTCTCCCCT 
TCTCCCAGCT ACAAGCTGTC TCCCTCTGGT TCCACACTAC CCAACGTCAG CCTTGGAGCA 
ATCGGCACAG GGCTCAACCC CCAAAACTTC GCTGCTAGAC AAGGCGGTAG TCATGGTTTG 
TTTGGAAACA GCACAGCACA ATCGAGAGGT CTGCACACAC CCGTGCAGCC ACTAAATTCT 
TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC CAGTTTATTT CCCCCCAGGT TTCTGCCTCA 
ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG AGTCCAGGTC TTTTCAATGT GGGGCCCCAG 
TTATCTCCTC AACAAATTGC CATGCTGAGC CAGCTTCCAC AAATTCCCCA GTTTCAGTTG 
GCATGTCAGC TTCTCTTGCA GCAGCAGCAA CAGCAGCAGT TGTTACAGAA CCAGAGAAAG 
ATTTCTCAAG CTGTACGCCA ACAGCAAGAG CAGCAGCTGG CTCGAATGGT GAGTGCACTG 
CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG CCAGGCATGA AGCACTCGCC CTCTCATCCT 
GTTGGGCCCA AGCCGCATCT GGACAACATG GTACCCAACG CATTGAATGT GGGGCTCCCA 
GACCTTCAAA CCAAAGGGCC AATACCTGGA TATGGTTCTG GCTTCAGCTC TGGCGGCATG 
GACTATGGCA TGGTTGGTGG GAAGGAGGCT GGAACCGAGT CTCGCTTTAA ACAGTGGACC 
TCCATGATGG AGGGGCTGCC CTCTGTAGCC ACACAGGAAG CCAATATGCA CAAAAATGGC 
GCTATAGTGG CCCCTGGTAA AACCCGGGGA GGGTCACCGT ACAACCAGTT TGATATCATC 
CCTGGTGACA CACTGGGTGG CCATACGGGT CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA 
TCTCCACCAA CAAATAAAAT CGGAAGTAAA TCCAGCAATG CCAGTTGGCC TCCAGAATTC 
CAACCAGGAG TGCCATGGAA AGGTATCCAA AACATTGACC CTGAATCTGA CCCCTATGTC 
ACCCCAGGAA GTGTGCTGGG GGGTACAGCC ACATCTCCCA TTGTAGATAC TGACCACCAA 
CTGCTGCGGG ATAACACCAC AGGGTCTAAT TCTTCCCTCA ACACCTCGCT GCCTTCACCT 
GGTGCCTGGC CCTACAGTGC CTCTGACAAC TCCTTTACCA ACGTTCATAG CACTTCAGCA 
AAGTTCCCTG ATTACAAATC AACATGGTCC CCAGATCCCA TAGGACACAA CCCCACTCAT 
CTCTCCAACA AGATGTGGAA AAACCATATT TCCTCCAGGA ACACTACACC GCTGCCCCGC 
CCACCTCCTG GTCTGACCAA CCCCAAACCA TCATCTCCCT GGAGCAGCAC AGCACCCCGA 
TCAGTCAGGG GGTGGGGGAC ACAGGACTCA CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT 
GGTGGCTCAG TTCGTCCTAG TTACTGGCTG GTTCTTCACA ATCTCACCCC ACAGATTGAT 
GGGTCAACCT TGAGAACGAT CTGCATGCAG CATGGCCCAC TGCTGACATT CCATCTGAAT 
CTAACCCAGG GCACTGCCCT GATCCGATAC AGCACCAAAC AGGAGGCGGC CAAGGCCCAA 
ACTGCACTGC ACATGTGTGT GTTGGGAAAC ACTACCATCC TTGCTGAGTT TGCCACTGAT 
GATGAAGTCA GCCGCTTTCT GGCACAAGCT CAGCCCCCTA CACCTGCAGC AACCCCAAGT 
GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA 
CCTGCTCTGA ATCTTTTTGG TGGGTCCACT GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT 
GGCAGCAGCG GGGCCGATCT TGCTGGCGCT TCATTGTGGG GGCCCCCAAA CTATTCTTCT 
AGCTTATGGG GAGTCCCAAC GGTGGAAGAT CCCCATAGGA TGGGCAGCCC TGCTCCTTTA 
CTACCTGGTG ACCTTCTGGG AGGAGGGTCG GATTCAATCT GA

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

RefSeq	NP_001155973.1
CDS	212..5713
Translation	MREKEQEREEQLMEDKKRKKEDKKKKEATQKVTEQKTKVPEVTKPSLSQPTAASPIGSSPSPPVNGGNNAKRVAVPNGQPPSAARYMPREVPPRFRCQQDHKVLLKRGQPPPPSCMLLGGGAGPPPCTAPGANPNNAQVTGALLQSESGTAPDSTLGGAAASNYANSTWGSGASSNNGTSPNPIHIWDKVIVDGSDMEEWPCIASKDTESSSENTTDNNSASNPGSEKSTLPGSTTSNKGKGSQCQSASSGNECNLGVWKSDPKAKSVQSSNSTTENNNGLGNWRNVSGQDRIGPGSGFSNFNPNSNPSAWPALVQEGTSRKGALETDNSNSSAQVSTVGQTSREQQSKMENAGVNFVVSGREQAQIHNTDGPKNGNTNSLNLSSPNPMENKGMPFGMGLGNTSRSTDAPSQSTGDRKTGSVGSWGAARGPSGTDTVSGQSNSGNNGNNGKEREDSWKGASVQKSTGSKNDSWDNNNRSTGGSWNFGPQDSNDNKWGEGNKMTSGVSQGEWKQPTGSDELKIGEWSGPNQPNSSTGAWDNQKGHPLPENQGNAQAPCWGRSSSSTGSEVGGQSTGSNHKAGSSDSHNSGRRSYRPTHPDCQAVLQTLLSRTDLDPRVLSNTGWGQTQIKQDTVWDIEEVPRPEGKSDKGTEGWESAATQTKNSGGWGDAPSQSNQMKSGWGELSASTEWKDPKNTGGWNDYKNNNSSNWGGGRPDEKTPSSWNENPSKDQGWGGGRQPNQGWSSGKNGWGEEVDQTKNSNWESSASKPVSGWGEGGQNEIGTWGNGGNASLASKGGWEDCKRSPAWNETGRQPNSWNKQHQQQQPPQQPPPPQPEASGSWGGPPPPPPGNVRPSNSSWSSGPQPATPKDEEPSGWEEPSPQSISRKMDIDDGTSAWGDPNSYNYKNVNLWDKNSQGGPAPREPNLPTPMTSKSASVWSKSTPPAPDNGTSAWGEPNESSPGWGEMDDTGASTTGWGNTPANAPNAMKPNSKSMQDGWGESDGPVTGARHPSWEEEEDGGVWNTTGSQGSASSHNSASWGQGGKKQMKCSLKGGNNDSWMNPLAKQFSNMGLLSQTEDNPSSKMDLSVGSLSDKKFDVDKRAMNLGDFNDIMRKDRSGFRPPNSKDMGTTDSGPYFEKLTLPFSNQDGCLGDEAPCSPFSPSPSYKLSPSGSTLPNVSLGAIGTGLNPQNFAARQGGSHGLFGNSTAQSRGLHTPVQPLNSSPSLRAQVPPQFISPQVSASMLKQFPNSGLSPGLFNVGPQLSPQQIAMLSQLPQIPQFQLACQLLLQQQQQQQLLQNQRKISQAVRQQQEQQLARMVSALQQQQQQQQRQPGMKHSPSHPVGPKPHLDNMVPNALNVGLPDLQTKGPIPGYGSGFSSGGMDYGMVGGKEAGTESRFKQWTSMMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKSPPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQLLRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHLSNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASASTWSDGGSVRPSYWLVLHNLTPQIDGSTLRTICMQHGPLLTFHLNLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATPSAPAAGWQSLETGQNQSDPVGPALNLFGGSTGLGQWSSSAGGSSGADLAGASLWGPPNYSSSLWGVPTVEDPHRMGSPAPLLPGDLLGGGSDSI

Target ORF information:

RefSeq Version	NM_001162501.2
Organism	Homo sapiens(human)
Definition	Homo sapiens trinucleotide repeat containing adaptor 6B (TNRC6B), transcript variant 1, mRNA.

Target ORF information:

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

NM_001162501.2

ORF Insert Sequence:

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGTCTG GAGCAAAAGC 
ACACCACCTG CTCCAGATAA TGGTACTTCC GCTTGGGGTG AGCCAAATGA AAGCAGTCCT 
GGGTGGGGCG AGATGGATGA TACAGGAGCA TCGACCACAG GCTGGGGGAA CACGCCCGCC 
AACGCTCCCA ATGCCATGAA GCCTAATTCC AAATCTATGC AAGACGGCTG GGGGGAGAGT 
GACGGGCCAG TCACAGGAGC TCGCCATCCC AGCTGGGAAG AGGAGGAGGA TGGAGGAGTC 
TGGAACACCA CTGGCTCTCA GGGCAGTGCT TCCTCCCACA ACTCAGCAAG CTGGGGACAA 
GGAGGAAAGA AACAAATGAA GTGCTCACTC AAAGGAGGAA ACAATGATTC ATGGATGAAT 
CCTCTTGCCA AACAGTTTTC AAATATGGGA TTGCTGAGTC AGACTGAAGA TAATCCAAGC 
AGCAAAATGG ATTTGTCTGT AGGAAGCCTT TCAGATAAAA AATTTGATGT GGACAAGCGA 
GCGATGAATC TCGGGGATTT TAATGATATC ATGAGGAAGG ATCGATCTGG GTTCCGTCCA 
CCTAATTCCA AAGACATGGG AACCACAGAT AGTGGGCCTT ATTTTGAGAA GCTGACTTTG 
CCTTTCTCCA ATCAAGATGG GTGCCTTGGG GATGAGGCTC CCTGCTCTCC CTTCTCCCCT 
TCTCCCAGCT ACAAGCTGTC TCCCTCTGGT TCCACACTAC CCAACGTCAG CCTTGGAGCA 
ATCGGCACAG GGCTCAACCC CCAAAACTTC GCTGCTAGAC AAGGCGGTAG TCATGGTTTG 
TTTGGAAACA GCACAGCACA ATCGAGAGGT CTGCACACAC CCGTGCAGCC ACTAAATTCT 
TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC CAGTTTATTT CCCCCCAGGT TTCTGCCTCA 
ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG AGTCCAGGTC TTTTCAATGT GGGGCCCCAG 
TTATCTCCTC AACAAATTGC CATGCTGAGC CAGCTTCCAC AAATTCCCCA GTTTCAGTTG 
GCATGTCAGC TTCTCTTGCA GCAGCAGCAA CAGCAGCAGT TGTTACAGAA CCAGAGAAAG 
ATTTCTCAAG CTGTACGCCA ACAGCAAGAG CAGCAGCTGG CTCGAATGGT GAGTGCACTG 
CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG CCAGGCATGA AGCACTCGCC CTCTCATCCT 
GTTGGGCCCA AGCCGCATCT GGACAACATG GTACCCAACG CATTGAATGT GGGGCTCCCA 
GACCTTCAAA CCAAAGGGCC AATACCTGGA TATGGTTCTG GCTTCAGCTC TGGCGGCATG 
GACTATGGCA TGGTTGGTGG GAAGGAGGCT GGAACCGAGT CTCGCTTTAA ACAGTGGACC 
TCCATGATGG AGGGGCTGCC CTCTGTAGCC ACACAGGAAG CCAATATGCA CAAAAATGGC 
GCTATAGTGG CCCCTGGTAA AACCCGGGGA GGGTCACCGT ACAACCAGTT TGATATCATC 
CCTGGTGACA CACTGGGTGG CCATACGGGT CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA 
TCTCCACCAA CAAATAAAAT CGGAAGTAAA TCCAGCAATG CCAGTTGGCC TCCAGAATTC 
CAACCAGGAG TGCCATGGAA AGGTATCCAA AACATTGACC CTGAATCTGA CCCCTATGTC 
ACCCCAGGAA GTGTGCTGGG GGGTACAGCC ACATCTCCCA TTGTAGATAC TGACCACCAA 
CTGCTGCGGG ATAACACCAC AGGGTCTAAT TCTTCCCTCA ACACCTCGCT GCCTTCACCT 
GGTGCCTGGC CCTACAGTGC CTCTGACAAC TCCTTTACCA ACGTTCATAG CACTTCAGCA 
AAGTTCCCTG ATTACAAATC AACATGGTCC CCAGATCCCA TAGGACACAA CCCCACTCAT 
CTCTCCAACA AGATGTGGAA AAACCATATT TCCTCCAGGA ACACTACACC GCTGCCCCGC 
CCACCTCCTG GTCTGACCAA CCCCAAACCA TCATCTCCCT GGAGCAGCAC AGCACCCCGA 
TCAGTCAGGG GGTGGGGGAC ACAGGACTCA CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT 
GGTGGCTCAG TTCGTCCTAG TTACTGGCTG GTTCTTCACA ATCTCACCCC ACAGATTGAT 
GGGTCAACCT TGAGAACGAT CTGCATGCAG CATGGCCCAC TGCTGACATT CCATCTGAAT 
CTAACCCAGG GCACTGCCCT GATCCGATAC AGCACCAAAC AGGAGGCGGC CAAGGCCCAA 
ACTGCACTGC ACATGTGTGT GTTGGGAAAC ACTACCATCC TTGCTGAGTT TGCCACTGAT 
GATGAAGTCA GCCGCTTTCT GGCACAAGCT CAGCCCCCTA CACCTGCAGC AACCCCAAGT 
GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA 
CCTGCTCTGA ATCTTTTTGG TGGGTCCACT GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT 
GGCAGCAGCG GGGCCGATCT TGCTGGCGCT TCATTGTGGG GGCCCCCAAA CTATTCTTCT 
AGCTTATGGG GAGTCCCAAC GGTGGAAGAT CCCCATAGGA TGGGCAGCCC TGCTCCTTTA 
CTACCTGGTG ACCTTCTGGG AGGAGGGTCG GATTCAATCT GA

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

TNRC6B ( NM_001162501.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001155973.1 Homo sapiens trinucleotide repeat containing 6B (TNRC6B), transcript variant 1, mRNA.

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CloneID	OHu09849
Clone ID Related Accession (Same CDS sequence)	NM_001162501.2 , NM_001162501.1
Accession Version	NM_001162501.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5502bp) 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	2017-12-26
Organism	Homo sapiens(human)
Product	trinucleotide repeat-containing gene 6B protein isoform 1
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from BX952326.1, AK294519.1, BQ009349.1, AL022238.1, BX537577.1, DB147781.1, AL831862.1, BU584176.1 and CA312515.1. Transcript Variant: This variant (1) encodes the longest isoform (1). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: SRR1803613.62021.1, SRR1803611.74886.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2148093, SAMEA2149004 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGTCTG GAGCAAAAGC 
ACACCACCTG CTCCAGATAA TGGTACTTCC GCTTGGGGTG AGCCAAATGA AAGCAGTCCT 
GGGTGGGGCG AGATGGATGA TACAGGAGCA TCGACCACAG GCTGGGGGAA CACGCCCGCC 
AACGCTCCCA ATGCCATGAA GCCTAATTCC AAATCTATGC AAGACGGCTG GGGGGAGAGT 
GACGGGCCAG TCACAGGAGC TCGCCATCCC AGCTGGGAAG AGGAGGAGGA TGGAGGAGTC 
TGGAACACCA CTGGCTCTCA GGGCAGTGCT TCCTCCCACA ACTCAGCAAG CTGGGGACAA 
GGAGGAAAGA AACAAATGAA GTGCTCACTC AAAGGAGGAA ACAATGATTC ATGGATGAAT 
CCTCTTGCCA AACAGTTTTC AAATATGGGA TTGCTGAGTC AGACTGAAGA TAATCCAAGC 
AGCAAAATGG ATTTGTCTGT AGGAAGCCTT TCAGATAAAA AATTTGATGT GGACAAGCGA 
GCGATGAATC TCGGGGATTT TAATGATATC ATGAGGAAGG ATCGATCTGG GTTCCGTCCA 
CCTAATTCCA AAGACATGGG AACCACAGAT AGTGGGCCTT ATTTTGAGAA GCTGACTTTG 
CCTTTCTCCA ATCAAGATGG GTGCCTTGGG GATGAGGCTC CCTGCTCTCC CTTCTCCCCT 
TCTCCCAGCT ACAAGCTGTC TCCCTCTGGT TCCACACTAC CCAACGTCAG CCTTGGAGCA 
ATCGGCACAG GGCTCAACCC CCAAAACTTC GCTGCTAGAC AAGGCGGTAG TCATGGTTTG 
TTTGGAAACA GCACAGCACA ATCGAGAGGT CTGCACACAC CCGTGCAGCC ACTAAATTCT 
TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC CAGTTTATTT CCCCCCAGGT TTCTGCCTCA 
ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG AGTCCAGGTC TTTTCAATGT GGGGCCCCAG 
TTATCTCCTC AACAAATTGC CATGCTGAGC CAGCTTCCAC AAATTCCCCA GTTTCAGTTG 
GCATGTCAGC TTCTCTTGCA GCAGCAGCAA CAGCAGCAGT TGTTACAGAA CCAGAGAAAG 
ATTTCTCAAG CTGTACGCCA ACAGCAAGAG CAGCAGCTGG CTCGAATGGT GAGTGCACTG 
CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG CCAGGCATGA AGCACTCGCC CTCTCATCCT 
GTTGGGCCCA AGCCGCATCT GGACAACATG GTACCCAACG CATTGAATGT GGGGCTCCCA 
GACCTTCAAA CCAAAGGGCC AATACCTGGA TATGGTTCTG GCTTCAGCTC TGGCGGCATG 
GACTATGGCA TGGTTGGTGG GAAGGAGGCT GGAACCGAGT CTCGCTTTAA ACAGTGGACC 
TCCATGATGG AGGGGCTGCC CTCTGTAGCC ACACAGGAAG CCAATATGCA CAAAAATGGC 
GCTATAGTGG CCCCTGGTAA AACCCGGGGA GGGTCACCGT ACAACCAGTT TGATATCATC 
CCTGGTGACA CACTGGGTGG CCATACGGGT CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA 
TCTCCACCAA CAAATAAAAT CGGAAGTAAA TCCAGCAATG CCAGTTGGCC TCCAGAATTC 
CAACCAGGAG TGCCATGGAA AGGTATCCAA AACATTGACC CTGAATCTGA CCCCTATGTC 
ACCCCAGGAA GTGTGCTGGG GGGTACAGCC ACATCTCCCA TTGTAGATAC TGACCACCAA 
CTGCTGCGGG ATAACACCAC AGGGTCTAAT TCTTCCCTCA ACACCTCGCT GCCTTCACCT 
GGTGCCTGGC CCTACAGTGC CTCTGACAAC TCCTTTACCA ACGTTCATAG CACTTCAGCA 
AAGTTCCCTG ATTACAAATC AACATGGTCC CCAGATCCCA TAGGACACAA CCCCACTCAT 
CTCTCCAACA AGATGTGGAA AAACCATATT TCCTCCAGGA ACACTACACC GCTGCCCCGC 
CCACCTCCTG GTCTGACCAA CCCCAAACCA TCATCTCCCT GGAGCAGCAC AGCACCCCGA 
TCAGTCAGGG GGTGGGGGAC ACAGGACTCA CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT 
GGTGGCTCAG TTCGTCCTAG TTACTGGCTG GTTCTTCACA ATCTCACCCC ACAGATTGAT 
GGGTCAACCT TGAGAACGAT CTGCATGCAG CATGGCCCAC TGCTGACATT CCATCTGAAT 
CTAACCCAGG GCACTGCCCT GATCCGATAC AGCACCAAAC AGGAGGCGGC CAAGGCCCAA 
ACTGCACTGC ACATGTGTGT GTTGGGAAAC ACTACCATCC TTGCTGAGTT TGCCACTGAT 
GATGAAGTCA GCCGCTTTCT GGCACAAGCT CAGCCCCCTA CACCTGCAGC AACCCCAAGT 
GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA 
CCTGCTCTGA ATCTTTTTGG TGGGTCCACT GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT 
GGCAGCAGCG GGGCCGATCT TGCTGGCGCT TCATTGTGGG GGCCCCCAAA CTATTCTTCT 
AGCTTATGGG GAGTCCCAAC GGTGGAAGAT CCCCATAGGA TGGGCAGCCC TGCTCCTTTA 
CTACCTGGTG ACCTTCTGGG AGGAGGGTCG GATTCAATCT GA

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

RefSeq	NP_001155973.1
CDS	212..5713
Translation	MREKEQEREEQLMEDKKRKKEDKKKKEATQKVTEQKTKVPEVTKPSLSQPTAASPIGSSPSPPVNGGNNAKRVAVPNGQPPSAARYMPREVPPRFRCQQDHKVLLKRGQPPPPSCMLLGGGAGPPPCTAPGANPNNAQVTGALLQSESGTAPDSTLGGAAASNYANSTWGSGASSNNGTSPNPIHIWDKVIVDGSDMEEWPCIASKDTESSSENTTDNNSASNPGSEKSTLPGSTTSNKGKGSQCQSASSGNECNLGVWKSDPKAKSVQSSNSTTENNNGLGNWRNVSGQDRIGPGSGFSNFNPNSNPSAWPALVQEGTSRKGALETDNSNSSAQVSTVGQTSREQQSKMENAGVNFVVSGREQAQIHNTDGPKNGNTNSLNLSSPNPMENKGMPFGMGLGNTSRSTDAPSQSTGDRKTGSVGSWGAARGPSGTDTVSGQSNSGNNGNNGKEREDSWKGASVQKSTGSKNDSWDNNNRSTGGSWNFGPQDSNDNKWGEGNKMTSGVSQGEWKQPTGSDELKIGEWSGPNQPNSSTGAWDNQKGHPLPENQGNAQAPCWGRSSSSTGSEVGGQSTGSNHKAGSSDSHNSGRRSYRPTHPDCQAVLQTLLSRTDLDPRVLSNTGWGQTQIKQDTVWDIEEVPRPEGKSDKGTEGWESAATQTKNSGGWGDAPSQSNQMKSGWGELSASTEWKDPKNTGGWNDYKNNNSSNWGGGRPDEKTPSSWNENPSKDQGWGGGRQPNQGWSSGKNGWGEEVDQTKNSNWESSASKPVSGWGEGGQNEIGTWGNGGNASLASKGGWEDCKRSPAWNETGRQPNSWNKQHQQQQPPQQPPPPQPEASGSWGGPPPPPPGNVRPSNSSWSSGPQPATPKDEEPSGWEEPSPQSISRKMDIDDGTSAWGDPNSYNYKNVNLWDKNSQGGPAPREPNLPTPMTSKSASVWSKSTPPAPDNGTSAWGEPNESSPGWGEMDDTGASTTGWGNTPANAPNAMKPNSKSMQDGWGESDGPVTGARHPSWEEEEDGGVWNTTGSQGSASSHNSASWGQGGKKQMKCSLKGGNNDSWMNPLAKQFSNMGLLSQTEDNPSSKMDLSVGSLSDKKFDVDKRAMNLGDFNDIMRKDRSGFRPPNSKDMGTTDSGPYFEKLTLPFSNQDGCLGDEAPCSPFSPSPSYKLSPSGSTLPNVSLGAIGTGLNPQNFAARQGGSHGLFGNSTAQSRGLHTPVQPLNSSPSLRAQVPPQFISPQVSASMLKQFPNSGLSPGLFNVGPQLSPQQIAMLSQLPQIPQFQLACQLLLQQQQQQQLLQNQRKISQAVRQQQEQQLARMVSALQQQQQQQQRQPGMKHSPSHPVGPKPHLDNMVPNALNVGLPDLQTKGPIPGYGSGFSSGGMDYGMVGGKEAGTESRFKQWTSMMEGLPSVATQEANMHKNGAIVAPGKTRGGSPYNQFDIIPGDTLGGHTGPAGDSWLPAKSPPTNKIGSKSSNASWPPEFQPGVPWKGIQNIDPESDPYVTPGSVLGGTATSPIVDTDHQLLRDNTTGSNSSLNTSLPSPGAWPYSASDNSFTNVHSTSAKFPDYKSTWSPDPIGHNPTHLSNKMWKNHISSRNTTPLPRPPPGLTNPKPSSPWSSTAPRSVRGWGTQDSRLASASTWSDGGSVRPSYWLVLHNLTPQIDGSTLRTICMQHGPLLTFHLNLTQGTALIRYSTKQEAAKAQTALHMCVLGNTTILAEFATDDEVSRFLAQAQPPTPAATPSAPAAGWQSLETGQNQSDPVGPALNLFGGSTGLGQWSSSAGGSSGADLAGASLWGPPNYSSSLWGVPTVEDPHRMGSPAPLLPGDLLGGGSDSI

Target ORF information:

RefSeq Version	NM_001162501.1
Organism	Homo sapiens(human)
Definition	Homo sapiens trinucleotide repeat containing 6B (TNRC6B), transcript variant 1, mRNA.

Target ORF information:

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

NM_001162501.1

ORF Insert Sequence:

ATGAGAGAGA AGGAGCAAGA AAGGGAAGAA CAGTTAATGG AAGACAAGAA AAGGAAGAAA 
GAGGATAAAA AGAAAAAAGA AGCCACTCAG AAGGTCACGG AACAAAAAAC CAAAGTGCCC 
GAAGTGACGA AACCAAGTTT AAGCCAACCA ACGGCCGCCA GCCCAATTGG CAGCTCTCCA 
TCGCCACCAG TCAATGGTGG CAACAATGCC AAAAGGGTGG CAGTGCCGAA CGGACAACCG 
CCAAGCGCCG CCCGCTACAT GCCTCGGGAG GTGCCGCCGC GATTCCGTTG CCAGCAGGAC 
CACAAAGTGT TACTAAAACG TGGGCAGCCC CCTCCACCGT CCTGCATGCT CCTTGGGGGT 
GGGGCAGGGC CTCCTCCCTG CACAGCACCT GGAGCAAACC CAAACAACGC ACAAGTGACA 
GGAGCGCTGC TGCAGAGTGA GAGTGGGACT GCGCCAGACT CAACCCTTGG AGGTGCTGCT 
GCTTCAAATT ATGCAAATTC CACTTGGGGC TCGGGAGCCT CCTCCAACAA CGGCACCTCC 
CCCAACCCAA TTCACATCTG GGACAAGGTG ATTGTAGACG GGTCTGACAT GGAAGAGTGG 
CCTTGTATTG CCAGCAAAGA CACTGAATCT TCTTCCGAAA ACACCACCGA TAACAACAGT 
GCCTCGAACC CTGGCTCTGA GAAGAGCACT CTGCCAGGAA GCACCACTAG TAACAAAGGA 
AAAGGGAGCC AGTGCCAGTC TGCAAGTTCT GGGAACGAAT GTAATCTTGG GGTCTGGAAA 
TCTGACCCTA AGGCTAAATC TGTTCAATCT TCCAACTCTA CTACAGAGAA CAACAATGGA 
CTAGGAAATT GGAGGAATGT GAGTGGTCAG GATAGAATTG GACCTGGCTC TGGCTTCAGC 
AACTTTAACC CAAATAGCAA CCCATCTGCC TGGCCAGCAC TGGTCCAAGA AGGAACTTCT 
AGGAAAGGGG CATTGGAAAC AGATAATAGT AATTCCAGTG CACAGGTTAG CACAGTAGGT 
CAGACATCCA GGGAACAGCA GTCAAAGATG GAAAATGCGG GTGTTAATTT TGTTGTCTCT 
GGCAGAGAAC AGGCTCAAAT TCATAACACT GATGGACCAA AAAATGGAAA CACTAACTCC 
TTGAACTTAA GTTCACCAAA CCCCATGGAG AATAAGGGAA TGCCCTTTGG AATGGGCTTG 
GGGAACACCT CCAGGAGCAC TGATGCCCCT TCACAAAGCA CTGGAGATCG AAAGACTGGG 
AGTGTTGGAT CTTGGGGTGC AGCTAGGGGG CCTTCTGGAA CTGACACAGT CTCTGGACAA 
AGCAATTCTG GAAACAATGG GAACAATGGA AAAGAGAGAG AGGACTCCTG GAAAGGAGCT 
TCTGTTCAGA AATCAACTGG GTCAAAAAAT GACTCTTGGG ACAACAATAA CAGGTCTACG 
GGTGGGTCCT GGAACTTTGG CCCCCAGGAC TCTAATGACA ACAAATGGGG TGAAGGGAAC 
AAAATGACAT CTGGGGTCTC TCAGGGAGAA TGGAAACAGC CGACTGGGTC TGATGAGTTG 
AAAATTGGAG AATGGAGTGG TCCAAACCAA CCAAATTCTA GCACTGGAGC ATGGGACAAT 
CAAAAGGGCC ACCCCCTCCC TGAAAACCAA GGCAATGCCC AGGCTCCCTG TTGGGGAAGA 
TCTTCCAGCT CCACAGGAAG TGAAGTTGGA GGTCAAAGCA CTGGAAGCAA CCACAAAGCA 
GGAAGTAGTG ACAGTCATAA CTCTGGCCGT CGGTCGTACA GGCCCACACA TCCTGATTGT 
CAGGCTGTCT TGCAGACTCT TTTGAGCCGA ACTGATTTGG ACCCCAGGGT GCTCTCAAAC 
ACTGGCTGGG GCCAAACTCA AATTAAGCAG GACACAGTGT GGGACATTGA AGAGGTGCCA 
AGGCCTGAGG GGAAATCTGA CAAAGGAACT GAGGGGTGGG AGAGCGCTGC CACACAGACC 
AAGAACTCAG GGGGCTGGGG AGATGCACCC AGCCAAAGCA ATCAAATGAA GTCTGGATGG 
GGGGAGCTCT CAGCCTCTAC AGAGTGGAAA GACCCCAAGA ACACAGGAGG CTGGAATGAC 
TACAAGAACA ACAACTCTTC CAACTGGGGA GGAGGACGAC CTGATGAAAA GACACCTTCC 
TCTTGGAATG AGAATCCCAG CAAGGATCAG GGGTGGGGAG GTGGACGCCA GCCCAATCAA 
GGATGGTCTT CTGGAAAGAA TGGTTGGGGG GAGGAAGTCG ATCAGACAAA AAACAGCAAT 
TGGGAAAGTT CTGCAAGTAA ACCTGTGTCT GGGTGGGGTG AAGGAGGGCA GAATGAAATC 
GGGACTTGGG GTAATGGTGG CAATGCAAGC CTAGCTTCAA AAGGTGGGTG GGAGGATTGC 
AAAAGATCCC CAGCATGGAA TGAGACGGGC CGACAGCCCA ATTCCTGGAA TAAACAACAC 
CAACAGCAGC AGCCCCCACA GCAGCCGCCG CCACCACAAC CAGAGGCTTC TGGTTCGTGG 
GGAGGCCCAC CCCCACCACC TCCAGGCAAC GTTCGACCTT CCAATTCCAG CTGGAGCAGC 
GGGCCACAGC CTGCAACACC TAAGGATGAG GAACCCAGTG GTTGGGAAGA GCCATCCCCA 
CAGTCAATTA GTCGGAAAAT GGACATTGAT GATGGCACTT CAGCATGGGG AGACCCTAAC 
AGTTATAACT ACAAGAATGT GAATCTGTGG GATAAGAATT CCCAAGGGGG CCCAGCACCT 
CGAGAACCAA ACCTGCCCAC CCCAATGACC AGTAAATCGG CATCAGTCTG GAGCAAAAGC 
ACACCACCTG CTCCAGATAA TGGTACTTCC GCTTGGGGTG AGCCAAATGA AAGCAGTCCT 
GGGTGGGGCG AGATGGATGA TACAGGAGCA TCGACCACAG GCTGGGGGAA CACGCCCGCC 
AACGCTCCCA ATGCCATGAA GCCTAATTCC AAATCTATGC AAGACGGCTG GGGGGAGAGT 
GACGGGCCAG TCACAGGAGC TCGCCATCCC AGCTGGGAAG AGGAGGAGGA TGGAGGAGTC 
TGGAACACCA CTGGCTCTCA GGGCAGTGCT TCCTCCCACA ACTCAGCAAG CTGGGGACAA 
GGAGGAAAGA AACAAATGAA GTGCTCACTC AAAGGAGGAA ACAATGATTC ATGGATGAAT 
CCTCTTGCCA AACAGTTTTC AAATATGGGA TTGCTGAGTC AGACTGAAGA TAATCCAAGC 
AGCAAAATGG ATTTGTCTGT AGGAAGCCTT TCAGATAAAA AATTTGATGT GGACAAGCGA 
GCGATGAATC TCGGGGATTT TAATGATATC ATGAGGAAGG ATCGATCTGG GTTCCGTCCA 
CCTAATTCCA AAGACATGGG AACCACAGAT AGTGGGCCTT ATTTTGAGAA GCTGACTTTG 
CCTTTCTCCA ATCAAGATGG GTGCCTTGGG GATGAGGCTC CCTGCTCTCC CTTCTCCCCT 
TCTCCCAGCT ACAAGCTGTC TCCCTCTGGT TCCACACTAC CCAACGTCAG CCTTGGAGCA 
ATCGGCACAG GGCTCAACCC CCAAAACTTC GCTGCTAGAC AAGGCGGTAG TCATGGTTTG 
TTTGGAAACA GCACAGCACA ATCGAGAGGT CTGCACACAC CCGTGCAGCC ACTAAATTCT 
TCTCCCAGTC TCCGGGCGCA AGTGCCTCCC CAGTTTATTT CCCCCCAGGT TTCTGCCTCA 
ATGCTCAAGC AGTTTCCCAA CAGTGGCCTG AGTCCAGGTC TTTTCAATGT GGGGCCCCAG 
TTATCTCCTC AACAAATTGC CATGCTGAGC CAGCTTCCAC AAATTCCCCA GTTTCAGTTG 
GCATGTCAGC TTCTCTTGCA GCAGCAGCAA CAGCAGCAGT TGTTACAGAA CCAGAGAAAG 
ATTTCTCAAG CTGTACGCCA ACAGCAAGAG CAGCAGCTGG CTCGAATGGT GAGTGCACTG 
CAGCAGCAGC AGCAGCAGCA GCAGAGGCAG CCAGGCATGA AGCACTCGCC CTCTCATCCT 
GTTGGGCCCA AGCCGCATCT GGACAACATG GTACCCAACG CATTGAATGT GGGGCTCCCA 
GACCTTCAAA CCAAAGGGCC AATACCTGGA TATGGTTCTG GCTTCAGCTC TGGCGGCATG 
GACTATGGCA TGGTTGGTGG GAAGGAGGCT GGAACCGAGT CTCGCTTTAA ACAGTGGACC 
TCCATGATGG AGGGGCTGCC CTCTGTAGCC ACACAGGAAG CCAATATGCA CAAAAATGGC 
GCTATAGTGG CCCCTGGTAA AACCCGGGGA GGGTCACCGT ACAACCAGTT TGATATCATC 
CCTGGTGACA CACTGGGTGG CCATACGGGT CCTGCTGGTG ATAGCTGGTT ACCTGCCAAA 
TCTCCACCAA CAAATAAAAT CGGAAGTAAA TCCAGCAATG CCAGTTGGCC TCCAGAATTC 
CAACCAGGAG TGCCATGGAA AGGTATCCAA AACATTGACC CTGAATCTGA CCCCTATGTC 
ACCCCAGGAA GTGTGCTGGG GGGTACAGCC ACATCTCCCA TTGTAGATAC TGACCACCAA 
CTGCTGCGGG ATAACACCAC AGGGTCTAAT TCTTCCCTCA ACACCTCGCT GCCTTCACCT 
GGTGCCTGGC CCTACAGTGC CTCTGACAAC TCCTTTACCA ACGTTCATAG CACTTCAGCA 
AAGTTCCCTG ATTACAAATC AACATGGTCC CCAGATCCCA TAGGACACAA CCCCACTCAT 
CTCTCCAACA AGATGTGGAA AAACCATATT TCCTCCAGGA ACACTACACC GCTGCCCCGC 
CCACCTCCTG GTCTGACCAA CCCCAAACCA TCATCTCCCT GGAGCAGCAC AGCACCCCGA 
TCAGTCAGGG GGTGGGGGAC ACAGGACTCA CGGCTCGCCT CGGCCTCTAC CTGGAGTGAT 
GGTGGCTCAG TTCGTCCTAG TTACTGGCTG GTTCTTCACA ATCTCACCCC ACAGATTGAT 
GGGTCAACCT TGAGAACGAT CTGCATGCAG CATGGCCCAC TGCTGACATT CCATCTGAAT 
CTAACCCAGG GCACTGCCCT GATCCGATAC AGCACCAAAC AGGAGGCGGC CAAGGCCCAA 
ACTGCACTGC ACATGTGTGT GTTGGGAAAC ACTACCATCC TTGCTGAGTT TGCCACTGAT 
GATGAAGTCA GCCGCTTTCT GGCACAAGCT CAGCCCCCTA CACCTGCAGC AACCCCAAGT 
GCGCCAGCTG CGGGGTGGCA GTCGCTGGAG ACCGGCCAGA ACCAGTCAGA TCCCGTGGGA 
CCTGCTCTGA ATCTTTTTGG TGGGTCCACT GGGCTCGGGC AGTGGAGCAG CAGCGCTGGT 
GGCAGCAGCG GGGCCGATCT TGCTGGCGCT TCATTGTGGG GGCCCCCAAA CTATTCTTCT 
AGCTTATGGG GAGTCCCAAC GGTGGAAGAT CCCCATAGGA TGGGCAGCCC TGCTCCTTTA 
CTACCTGGTG ACCTTCTGGG AGGAGGGTCG GATTCAATCT GA

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

PubMed

Replication of GWAS loci revealed the moderate effect of TNRC6B locus on susceptibility of Saudi women to develop uterine leiomyomas.
The journal of obstetrics and gynaecology research43(2)330-338(2017 Feb)
Bondagji NS,Morad FA,Al-Nefaei AA,Khan IA,Elango R,Abdullah LS,M Al-Mansouri N,Sabir J,Banaganapalli B,Edris S,Shaik NA

Genome-wide association study identifies multiple loci associated with both mammographic density and breast cancer risk.
Nature communications55303(2014 Oct)
Lindstr?m S,Thompson DJ,Paterson AD,Li J,Gierach GL,Scott C,Stone J,Douglas JA,dos-Santos-Silva I,Fernandez-Navarro P,Verghase J,Smith P,Brown J,Luben R,Wareham NJ,Loos RJ,Heit JA,Pankratz VS,Norman A,Goode EL,Cunningham JM,deAndrade M,Vierkant RA,Czene K,Fasching PA,Baglietto L,Southey MC,Giles GG,Shah KP,Chan HP,Helvie MA,Beck AH,Knoblauch NW,Hazra A,Hunter DJ,Kraft P,Pollan M,Figueroa JD,Couch FJ,Hopper JL,Hall P,Easton DF,Boyd NF,Vachon CM,Tamimi RM

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オンライン注文

TNRC6B cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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