Tbc1d31 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Tbc1d31
Entrez Gene ID	299949
Full Name	TBC1 domain family, member 31
Synonyms	Wdr67
General protein information	Preferred Names TBC1 domain family, member 31 Names TBC1 domain family member 31 WD repeat domain 67 WD repeat-containing protein 67
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 7 Map Location: 7q33

mRNA and Protein(s)

mRNA	Protein	Name
NM_001134842.1	NP_001128314.1	TBC1 domain family member 31
XM_017594757.1	XP_017450246.1	TBC1 domain family member 31 isoform X1

Pathways from BioSystems

Homologies

Homo sapiens (human)	TBC1D31	NP_663622.2
Gallus gallus (chicken)	WDR67	XP_004940076.1
Pan troglodytes (chimpanzee)	WDR67	XP_001146960.1
Bos taurus (cattle)	TBC1D31	NP_001039538.1
Xenopus tropicalis (tropical clawed frog)	tbc1d31	NP_001005061.1
Canis lupus familiaris (dog)	TBC1D31	XP_850449.1
	WDR67	XP_002805527.1
Mus musculus (house mouse)	Tbc1d31	NP_001074865.2
Rattus norvegicus (Norway rat)	Tbc1d31	NP_001128314.1
Danio rerio (zebrafish)	tbc1d31	XP_695006.1

Gene Ontology
Bibliography

Related articles in PubMed

Novel asymmetrically localizing components of human centrosomes identified by complementary proteomics methods.
Jakobsen L, Vanselow K, Skogs M, Toyoda Y, Lundberg E, Poser I, Falkenby LG, Bennetzen M, Westendorf J, Nigg EA, Uhlen M, Hyman AA, Andersen JS
The EMBO journal30(8)1520-35(2011 Apr)

Gene and alternative splicing annotation with AIR.
Florea L, Di Francesco V, Miller J, Turner R, Yao A, Harris M, Walenz B, Mobarry C, Merkulov GV, Charlab R, Dew I, Deng Z, Istrail S, Li P, Sutton G
Genome research15(1)54-66(2005 Jan)

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

The following Tbc1d31 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tbc1d31 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
ORa61950	XM_017594757.1 Latest version!	Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$475.30 $679.00
ORa03649	NM_001134842.1 Latest version!	Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$559.30 $799.00

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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)

Tbc1d31 ( XM_017594757.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_017450246.1 Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa61950
Clone ID Related Accession (Same CDS sequence)	XM_017594757.1
Accession Version	XM_017594757.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2919bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	TBC1 domain family member 31 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005106.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCTCAGG AGATTCCTTC ATTGCTGGGG ACCATCAGGG GAACATCTAT GTTTTTGACT 
TGCATGGAAA CAGTCACTAA GGAGCTGGTT AGCTGGATGA GAGGACATGA ATCGTCTGTG 
CGTTCCATTT CTGTGCACAC ATCTGGGAGA TACGCCATTA CGACTTCCTC TGATACAGCT 
CAGCTCTGGG ACTTGGATAC CTTCCAGAGG AAAAGGAAGC TGAACGTCCG CCAGTCCGTG 
GGGATCCAGA AGGTTTTCTT TCTACCATTA AGTAACACCA TCCTCAGTTG TTTTAAGGAC 
AACTCCATCT TCGCCTGGGA ATGTGACACT CTGTTTTGCA AGTACCAATT GCCAGGTCCA 
CCTGAAGGCT GTAACATCTT ATACAAAGTG TTTGCGGTGA CCAGAGATGG CCGAATCTTG 
GCTGCTGGAG GCAAATCCAA TCACGTGCAT CTGTGGTGCT TGGAGGCCAC ACAGCTCTTC 
AGAATCATTC AGATGCCTAC GAAGGTACGA GCTGTTCGCC ATCTGGAATT CCTGCCTGAT 
AGCTTTGATG CTGGCTCCAA TCAGGTGCTT GGTGTGCTAA GTCAAGATGG GATTATGAGG 
TTTGTCAACA TACAGACTTG TAAACTTCTC TTTCAAATCG GGACTGTTGA AGAAGGAGTT 
AGCTCATCAG TAATTAGCCC ACACGGTCGC TACATAACAG CTATCATGGA AAATGGAAGT 
CTGAATGTGT ATTCAGTCCA GGCTTTAACA CAAGAAATAA ATAAGCCTCC TCCTCCTCTA 
GTTAAGGTGA TTGAAGATTT GCCTAACAAT ACAGTGAGTT CCAATAATCT GAAGGTAAAA 
GTAATGTCAG GAAGGGTACA GCGCCCAGCA AGATGTAAAG AGAGGAAAAA TCAAACTAGA 
GTACTCAAGC AGGACCTGAC TGGGAACTTA GAAAACAAGG AGAACGAATT GTCAGAAGGA 
CTAAATAAAA AGCGCTTGCA AGTCTTATTA AAAGGCTATG GGGAATATCC AACAAAATAC 
AGGATGTTTA TTTGGCGTTC CTTGCTACAG CTGCCTGAAA ACCACACTGC GTTTAGTAGC 
CTGATGGATA AAGGGACCCA CGCGGCCTAT CTCGACCTTC AGAAGAAATA CCCCATCAAA 
AGTAGAAGGC TGCTGAGAGT ACTACAGAGA ACCCTGTCTG CATTAGCTCA CTGGTCTGCA 
ATCTTCAGTG ACATGCCGTA TCTTCCACTT TTGGCATTTC CATTTGTAAA ATTATTCCAG 
AACAATCAGC TCATCTGTTT TGAAGTTGTT GCTACTCTCA TAATCAATTG GTGTCAACAT 
TGGTTTGAGT ACTTTCCCAA TCCTCCCATC AATATTCTTA CTATGATAGA AAATGTTTTG 
GCATTTCATG ACAAGGAACT GCTACAGCAC TTCATAGACC GTGATATAAC TTCCCAGGTG 
TATGCCTGGC CTCTCCTTGA AACGTTGTTC TCTGAAGTGC TGACAAGAGA GGAGTGGCTT 
CGGTTGTTCG ATAATATCTT CTCCAGTCAC CCTTCCTTCC TCCTGATGAC CGTGGTGGCC 
TACAATACCT GTTCTAGAGC GCCTTTGCTC AACTGCACTC TTAAGGATGA TTTTGAGTAC 
TTTTTTCACC ATCGGAATAA CCTGGACTTA AATGTTGTAA TTAGAGAAGT TTATCATCTC 
ATGGAGACCA CGCCTGCTGA TATTCATCCA AATAGCATGC TGGATGCTTT TGTTGCACTA 
ACAAAAGGGC AGTATCCTAT ATTTAATCAA TATCCAAAGT TCATTGTGGA CTATCAGACA 
AAGGAACGGG AAAGGATAAG GAACGATGAA CTGGACTTTT TGAGAGAGAG GCAGACAGTT 
GAAAATATGC AAGCTGAAGT GGATGAGCAG AGAGCTAAGG ATGAGGCGTG GTACCAGAAG 
CAAGAGATGC TCCGTAGAGC TGAGGAGACA AGAAGAGAGA TGCTTCTTCA AGAGGAGGAG 
AAGATGGCCC AGCAGAGACA CAGGCTAGCT GCTGTGAAAA GGGAACTGGA GATAAAGGAA 
ATACACTTAC AGGATGCTGC AAGAAGACGT TTGCTAAAGC TTCAGCAAGA TCAACGTGAA 
ATGGAGCTAC GCAGGCTGGA AGATGAAATT GAGAGAAAGG TACAAATGAG AGATCAAGAA 
ATTGCTGCCA CAGCCAAAGA CCTGGAAATG AGACAGCTGG AACTGGAAGC ACGGAAACGA 
CTTTATGAAA AGGATCTTAC TGCAAGTCAG GAGGCCATTG CCAAGGGAAT TCGAGAAGAC 
ACAGATGCGC ACAGGCGGAA AATGGTTCTC GAAGAACACG TGTTCCAGAA GCTGCTAGAG 
AACAGCCAGA TGGGGAGCAG AAGGACTCCG AGGGTGATGG AGGACAATTT GGCAAAGGCG 
GAACAAGCCT GTCTGAATGC TGACTGGCAG ATTCAGACTT TACATAAGCA GAATCGTGAG 
GATCGACAGC GCAGCGAGGG CTACTATGAG GTCGCCACTC TCCTCCGCAA GGACAGACAG 
AAAGAAATCC AAGTGTTAGA TGCAATGATG GAGGAGGAGG CTAAGAAGTG GAAGGAAGCC 
AGAGAGAAGG AATTCCATTT GCAATCAGAA AAGAAAGCCT CTGCCCTTTC AGATGCCTCT 
AGAAAGTGGT TTTTAGGGCA GGAGACAAAT GCAGCTTTGG AACATGAAGA AGTGCCTTGG 
TTACAAAAGC AACACATGGA CTCAACCTGC TTGCCTCAAA CCTTACGATT AAATGATGTT 
TCCGACATGG ATTCCTCGAC ACAGATTTTT TCAAGAGATA AGCCAACAGA ATGGAACCAC 
ACGGAATCCG ATCTTCTCAA GAATGTGCGA GATCTTCGCA GGGGACTCAC AGCCCGGGCT 
CGGAGCAGCT GTCCGCGCCC TCATCTTTTG GTGACATAG

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

RefSeq	XP_017450246.1
CDS	12..2930
Translation	MAQEIPSLLGTIRGTSMFLTCMETVTKELVSWMRGHESSVRSISVHTSGRYAITTSSDTAQLWDLDTFQRKRKLNVRQSVGIQKVFFLPLSNTILSCFKDNSIFAWECDTLFCKYQLPGPPEGCNILYKVFAVTRDGRILAAGGKSNHVHLWCLEATQLFRIIQMPTKVRAVRHLEFLPDSFDAGSNQVLGVLSQDGIMRFVNIQTCKLLFQIGTVEEGVSSSVISPHGRYITAIMENGSLNVYSVQALTQEINKPPPPLVKVIEDLPNNTVSSNNLKVKVMSGRVQRPARCKERKNQTRVLKQDLTGNLENKENELSEGLNKKRLQVLLKGYGEYPTKYRMFIWRSLLQLPENHTAFSSLMDKGTHAAYLDLQKKYPIKSRRLLRVLQRTLSALAHWSAIFSDMPYLPLLAFPFVKLFQNNQLICFEVVATLIINWCQHWFEYFPNPPINILTMIENVLAFHDKELLQHFIDRDITSQVYAWPLLETLFSEVLTREEWLRLFDNIFSSHPSFLLMTVVAYNTCSRAPLLNCTLKDDFEYFFHHRNNLDLNVVIREVYHLMETTPADIHPNSMLDAFVALTKGQYPIFNQYPKFIVDYQTKERERIRNDELDFLRERQTVENMQAEVDEQRAKDEAWYQKQEMLRRAEETRREMLLQEEEKMAQQRHRLAAVKRELEIKEIHLQDAARRRLLKLQQDQREMELRRLEDEIERKVQMRDQEIAATAKDLEMRQLELEARKRLYEKDLTASQEAIAKGIREDTDAHRRKMVLEEHVFQKLLENSQMGSRRTPRVMEDNLAKAEQACLNADWQIQTLHKQNREDRQRSEGYYEVATLLRKDRQKEIQVLDAMMEEEAKKWKEAREKEFHLQSEKKASALSDASRKWFLGQETNAALEHEEVPWLQKQHMDSTCLPQTLRLNDVSDMDSSTQIFSRDKPTEWNHTESDLLKNVRDLRRGLTARARSSCPRPHLLVT

Target ORF information:

RefSeq Version	XM_017594757.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), transcript variant X1, mRNA.

Target ORF information:

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

XM_017594757.1

ORF Insert Sequence:

ATGGCTCAGG AGATTCCTTC ATTGCTGGGG ACCATCAGGG GAACATCTAT GTTTTTGACT 
TGCATGGAAA CAGTCACTAA GGAGCTGGTT AGCTGGATGA GAGGACATGA ATCGTCTGTG 
CGTTCCATTT CTGTGCACAC ATCTGGGAGA TACGCCATTA CGACTTCCTC TGATACAGCT 
CAGCTCTGGG ACTTGGATAC CTTCCAGAGG AAAAGGAAGC TGAACGTCCG CCAGTCCGTG 
GGGATCCAGA AGGTTTTCTT TCTACCATTA AGTAACACCA TCCTCAGTTG TTTTAAGGAC 
AACTCCATCT TCGCCTGGGA ATGTGACACT CTGTTTTGCA AGTACCAATT GCCAGGTCCA 
CCTGAAGGCT GTAACATCTT ATACAAAGTG TTTGCGGTGA CCAGAGATGG CCGAATCTTG 
GCTGCTGGAG GCAAATCCAA TCACGTGCAT CTGTGGTGCT TGGAGGCCAC ACAGCTCTTC 
AGAATCATTC AGATGCCTAC GAAGGTACGA GCTGTTCGCC ATCTGGAATT CCTGCCTGAT 
AGCTTTGATG CTGGCTCCAA TCAGGTGCTT GGTGTGCTAA GTCAAGATGG GATTATGAGG 
TTTGTCAACA TACAGACTTG TAAACTTCTC TTTCAAATCG GGACTGTTGA AGAAGGAGTT 
AGCTCATCAG TAATTAGCCC ACACGGTCGC TACATAACAG CTATCATGGA AAATGGAAGT 
CTGAATGTGT ATTCAGTCCA GGCTTTAACA CAAGAAATAA ATAAGCCTCC TCCTCCTCTA 
GTTAAGGTGA TTGAAGATTT GCCTAACAAT ACAGTGAGTT CCAATAATCT GAAGGTAAAA 
GTAATGTCAG GAAGGGTACA GCGCCCAGCA AGATGTAAAG AGAGGAAAAA TCAAACTAGA 
GTACTCAAGC AGGACCTGAC TGGGAACTTA GAAAACAAGG AGAACGAATT GTCAGAAGGA 
CTAAATAAAA AGCGCTTGCA AGTCTTATTA AAAGGCTATG GGGAATATCC AACAAAATAC 
AGGATGTTTA TTTGGCGTTC CTTGCTACAG CTGCCTGAAA ACCACACTGC GTTTAGTAGC 
CTGATGGATA AAGGGACCCA CGCGGCCTAT CTCGACCTTC AGAAGAAATA CCCCATCAAA 
AGTAGAAGGC TGCTGAGAGT ACTACAGAGA ACCCTGTCTG CATTAGCTCA CTGGTCTGCA 
ATCTTCAGTG ACATGCCGTA TCTTCCACTT TTGGCATTTC CATTTGTAAA ATTATTCCAG 
AACAATCAGC TCATCTGTTT TGAAGTTGTT GCTACTCTCA TAATCAATTG GTGTCAACAT 
TGGTTTGAGT ACTTTCCCAA TCCTCCCATC AATATTCTTA CTATGATAGA AAATGTTTTG 
GCATTTCATG ACAAGGAACT GCTACAGCAC TTCATAGACC GTGATATAAC TTCCCAGGTG 
TATGCCTGGC CTCTCCTTGA AACGTTGTTC TCTGAAGTGC TGACAAGAGA GGAGTGGCTT 
CGGTTGTTCG ATAATATCTT CTCCAGTCAC CCTTCCTTCC TCCTGATGAC CGTGGTGGCC 
TACAATACCT GTTCTAGAGC GCCTTTGCTC AACTGCACTC TTAAGGATGA TTTTGAGTAC 
TTTTTTCACC ATCGGAATAA CCTGGACTTA AATGTTGTAA TTAGAGAAGT TTATCATCTC 
ATGGAGACCA CGCCTGCTGA TATTCATCCA AATAGCATGC TGGATGCTTT TGTTGCACTA 
ACAAAAGGGC AGTATCCTAT ATTTAATCAA TATCCAAAGT TCATTGTGGA CTATCAGACA 
AAGGAACGGG AAAGGATAAG GAACGATGAA CTGGACTTTT TGAGAGAGAG GCAGACAGTT 
GAAAATATGC AAGCTGAAGT GGATGAGCAG AGAGCTAAGG ATGAGGCGTG GTACCAGAAG 
CAAGAGATGC TCCGTAGAGC TGAGGAGACA AGAAGAGAGA TGCTTCTTCA AGAGGAGGAG 
AAGATGGCCC AGCAGAGACA CAGGCTAGCT GCTGTGAAAA GGGAACTGGA GATAAAGGAA 
ATACACTTAC AGGATGCTGC AAGAAGACGT TTGCTAAAGC TTCAGCAAGA TCAACGTGAA 
ATGGAGCTAC GCAGGCTGGA AGATGAAATT GAGAGAAAGG TACAAATGAG AGATCAAGAA 
ATTGCTGCCA CAGCCAAAGA CCTGGAAATG AGACAGCTGG AACTGGAAGC ACGGAAACGA 
CTTTATGAAA AGGATCTTAC TGCAAGTCAG GAGGCCATTG CCAAGGGAAT TCGAGAAGAC 
ACAGATGCGC ACAGGCGGAA AATGGTTCTC GAAGAACACG TGTTCCAGAA GCTGCTAGAG 
AACAGCCAGA TGGGGAGCAG AAGGACTCCG AGGGTGATGG AGGACAATTT GGCAAAGGCG 
GAACAAGCCT GTCTGAATGC TGACTGGCAG ATTCAGACTT TACATAAGCA GAATCGTGAG 
GATCGACAGC GCAGCGAGGG CTACTATGAG GTCGCCACTC TCCTCCGCAA GGACAGACAG 
AAAGAAATCC AAGTGTTAGA TGCAATGATG GAGGAGGAGG CTAAGAAGTG GAAGGAAGCC 
AGAGAGAAGG AATTCCATTT GCAATCAGAA AAGAAAGCCT CTGCCCTTTC AGATGCCTCT 
AGAAAGTGGT TTTTAGGGCA GGAGACAAAT GCAGCTTTGG AACATGAAGA AGTGCCTTGG 
TTACAAAAGC AACACATGGA CTCAACCTGC TTGCCTCAAA CCTTACGATT AAATGATGTT 
TCCGACATGG ATTCCTCGAC ACAGATTTTT TCAAGAGATA AGCCAACAGA ATGGAACCAC 
ACGGAATCCG ATCTTCTCAA GAATGTGCGA GATCTTCGCA GGGGACTCAC AGCCCGGGCT 
CGGAGCAGCT GTCCGCGCCC TCATCTTTTG GTGACATAG

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

Tbc1d31 ( NM_001134842.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001128314.1 Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), mRNA.

Price & Availability↑

CloneID	ORa03649
Clone ID Related Accession (Same CDS sequence)	NM_001134842.1
Accession Version	NM_001134842.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3186bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-05-31
Organism	Rattus norvegicus(Norway rat)
Product	TBC1 domain family member 31
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from AABR07058002.1. On Sep 9, 2008 this sequence version replaced XM_216928.4. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

ATGCAGAGCA CTAACCTGGG CAACAAGGAG AGCGGCAAGA TATGGCACCG CAAGCCATCG 
CCAGCCACTC ACAACGGAAT TATAGTGAAT GTTGTTCACA GCACCTCTGA ATACCATCCG 
AAAGTCTTGC GGTTCTTGAA TGTGGCTTTT GATGGCTCAG GAGATTCCTT CATTGCTGGG 
GACCATCAGG GGAACATCTA TGTTTTTGAC TTGCATGGAA ACAGGTTTAA TCTTGTTCAG 
CGAACAGCAC AAGCATGCAC AGCTCTGGCC TTTAATCTTC GTAGGAAGTC TGAGTTCCTT 
GTGGCATTAG CTGATTATTC TATTAAATGT TTTGATACAG TCACTAAGGA GCTGGTTAGC 
TGGATGAGAG GACATGAATC GTCTGTGCGT TCCATTTCTG TGCACACATC TGGGAGATAC 
GCCATTACGA CTTCCTCTGA TACAGCTCAG CTCTGGGACT TGGATACCTT CCAGAGGAAA 
AGGAAGCTGA ACGTCCGCCA GTCCGTGGGG ATCCAGAAGG TTTTCTTTCT ACCATTAAGT 
AACACCATCC TCAGTTGTTT TAAGGACAAC TCCATCTTCG CCTGGGAATG TGACACTCTG 
TTTTGCAAGT ACCAATTGCC AGGTCCACCT GAAGGCTGTA ACATCTTATA CAAAGTGTTT 
GCGGTGACCA GAGATGGCCG AATCTTGGCT GCTGGAGGCA AATCCAATCA CGTGCATCTG 
TGGTGCTTGG AGGCCACACA GCTCTTCAGA ATCATTCAGA TGCCTACGAA GGTACGAGCT 
GTTCGCCATC TGGAATTCCT GCCTGATAGC TTTGATGCTG GCTCCAATCA GGTGCTTGGT 
GTGCTAAGTC AAGATGGGAT TATGAGGTTT GTCAACATAC AGACTTGTAA ACTTCTCTTT 
CAAATCGGGA CTGTTGAAGA AGGAGTTAGC TCATCAGTAA TTAGCCCACA CGGTCGCTAC 
ATAACAGCTA TCATGGAAAA TGGAAGTCTG AATGTGTATT CAGTCCAGGC TTTAACACAA 
GAAATAAATA AGCCTCCTCC TCCTCTAGTT AAGGTGATTG AAGATTTGCC TAACAATACA 
GTGAGTTCCA ATAATCTGAA GGTAAAAGTA ATGTCAGGAA GGGTACAGCG CCCAGCAAGA 
TGTAAAGAGA GGAAAAATCA AACTAGAGTA CTCAAGCAGG ACCTGACTGG GAACTTAGAA 
AACAAGGAGA ACGAATTGTC AGAAGGACTA AATAAAAAGC GCTTGCAAGT CTTATTAAAA 
GGCTATGGGG AATATCCAAC AAAATACAGG ATGTTTATTT GGCGTTCCTT GCTACAGCTG 
CCTGAAAACC ACACTGCGTT TAGTAGCCTG ATGGATAAAG GGACCCACGC GGCCTATCTC 
GACCTTCAGA AGAAATACCC CATCAAAAGT AGAAGGCTGC TGAGAGTACT ACAGAGAACC 
CTGTCTGCAT TAGCTCACTG GTCTGCAATC TTCAGTGACA TGCCGTATCT TCCACTTTTG 
GCATTTCCAT TTGTAAAATT ATTCCAGAAC AATCAGCTCA TCTGTTTTGA AGTTGTTGCT 
ACTCTCATAA TCAATTGGTG TCAACATTGG TTTGAGTACT TTCCCAATCC TCCCATCAAT 
ATTCTTACTA TGATAGAAAA TGTTTTGGCA TTTCATGACA AGGAACTGCT ACAGCACTTC 
ATAGACCGTG ATATAACTTC CCAGGTGTAT GCCTGGCCTC TCCTTGAAAC GTTGTTCTCT 
GAAGTGCTGA CAAGAGAGGA GTGGCTTCGG TTGTTCGATA ATATCTTCTC CAGTCACCCT 
TCCTTCCTCC TGATGACCGT GGTGGCCTAC AATACCTGTT CTAGAGCGCC TTTGCTCAAC 
TGCACTCTTA AGGATGATTT TGAGTACTTT TTTCACCATC GGAATAACCT GGACTTAAAT 
GTTGTAATTA GAGAAGTTTA TCATCTCATG GAGACCACGC CTGCTGATAT TCATCCAAAT 
AGCATGCTGG ATGCTTTTGT TGCACTAACA AAAGGGCAGT ATCCTATATT TAATCAATAT 
CCAAAGTTCA TTGTGGACTA TCAGACAAAG GAACGGGAAA GGATAAGGAA CGATGAACTG 
GACTTTTTGA GAGAGAGGCA GACAGTTGAA AATATGCAAG CTGAAGTGGA TGAGCAGAGA 
GCTAAGGATG AGGCGTGGTA CCAGAAGCAA GAGATGCTCC GTAGAGCTGA GGAGACAAGA 
AGAGAGATGC TTCTTCAAGA GGAGGAGAAG ATGGCCCAGC AGAGACACAG GCTAGCTGCT 
GTGAAAAGGG AACTGGAGAT AAAGGAAATA CACTTACAGG ATGCTGCAAG AAGACGTTTG 
CTAAAGCTTC AGCAAGATCA ACGTGAAATG GAGCTACGCA GGCTGGAAGA TGAAATTGAG 
AGAAAGGTAC AAATGAGAGA TCAAGAAATT GCTGCCACAG CCAAAGACCT GGAAATGAGA 
CAGCTGGAAC TGGAAGCACG GAAACGACTT TATGAAAAGG ATCTTACTGC AAGTCAGGAG 
GCCATTGCCA AGGGAATTCG AGAAGACACA GATGCGCACA GGCGGAAAAT GGTTCTCGAA 
GAACACGTGT TCCAGAAGCT GCTAGAGAAC AGCCAGATGG GGAGCAGAAG GACTCCGAGG 
GTGATGGAGG ACAATTTGGC AAAGGCGGAA CAAGCCTGTC TGAATGCTGA CTGGCAGATT 
CAGACTTTAC ATAAGCAGAA TCGTGAGGAT CGACAGCGCA GCGAGGGCTA CTATGAGGTC 
GCCACTCTCC TCCGCAAGGA CAGACAGAAA GAAATCCAAG TGTTAGATGC AATGATGGAG 
GAGGAGGCTA AGAAGTGGAA GGAAGCCAGA GAGAAGGAAT TCCATTTGCA ATCAGAAAAG 
AAAGCCTCTG CCCTTTCAGA TGCCTCTAGA AAGTGGTTTT TAGGGCAGGA GACAAATGCA 
GCTTTGGAAC ATGAAGAAGT GCCTTGGTTA CAAAAGCAAC ACATGGACTC AACCTGCTTG 
CCTCAAACCT TACGATTAAA TGATGTTTCC GACATGGATT CCTCGACACA GATTTTTTCA 
AGAGATAAGC CAACAGAATG GAACCACACG GAATCCGATC TTCTCAAGAA TGTGCGAGAT 
CTTCGCAGGG GACTCACAGC CCGGGCTCGG AGCAGCTGTC CGCGCCCTCA TCTTTTGGTG 
ACATAG

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

RefSeq	NP_001128314.1
CDS	84..3269
Translation	MQSTNLGNKESGKIWHRKPSPATHNGIIVNVVHSTSEYHPKVLRFLNVAFDGSGDSFIAGDHQGNIYVFDLHGNRFNLVQRTAQACTALAFNLRRKSEFLVALADYSIKCFDTVTKELVSWMRGHESSVRSISVHTSGRYAITTSSDTAQLWDLDTFQRKRKLNVRQSVGIQKVFFLPLSNTILSCFKDNSIFAWECDTLFCKYQLPGPPEGCNILYKVFAVTRDGRILAAGGKSNHVHLWCLEATQLFRIIQMPTKVRAVRHLEFLPDSFDAGSNQVLGVLSQDGIMRFVNIQTCKLLFQIGTVEEGVSSSVISPHGRYITAIMENGSLNVYSVQALTQEINKPPPPLVKVIEDLPNNTVSSNNLKVKVMSGRVQRPARCKERKNQTRVLKQDLTGNLENKENELSEGLNKKRLQVLLKGYGEYPTKYRMFIWRSLLQLPENHTAFSSLMDKGTHAAYLDLQKKYPIKSRRLLRVLQRTLSALAHWSAIFSDMPYLPLLAFPFVKLFQNNQLICFEVVATLIINWCQHWFEYFPNPPINILTMIENVLAFHDKELLQHFIDRDITSQVYAWPLLETLFSEVLTREEWLRLFDNIFSSHPSFLLMTVVAYNTCSRAPLLNCTLKDDFEYFFHHRNNLDLNVVIREVYHLMETTPADIHPNSMLDAFVALTKGQYPIFNQYPKFIVDYQTKERERIRNDELDFLRERQTVENMQAEVDEQRAKDEAWYQKQEMLRRAEETRREMLLQEEEKMAQQRHRLAAVKRELEIKEIHLQDAARRRLLKLQQDQREMELRRLEDEIERKVQMRDQEIAATAKDLEMRQLELEARKRLYEKDLTASQEAIAKGIREDTDAHRRKMVLEEHVFQKLLENSQMGSRRTPRVMEDNLAKAEQACLNADWQIQTLHKQNREDRQRSEGYYEVATLLRKDRQKEIQVLDAMMEEEAKKWKEAREKEFHLQSEKKASALSDASRKWFLGQETNAALEHEEVPWLQKQHMDSTCLPQTLRLNDVSDMDSSTQIFSRDKPTEWNHTESDLLKNVRDLRRGLTARARSSCPRPHLLVT

Target ORF information:

RefSeq Version	NM_001134842.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus TBC1 domain family, member 31 (Tbc1d31), mRNA.

Target ORF information:

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

NM_001134842.1

ORF Insert Sequence:

ATGCAGAGCA CTAACCTGGG CAACAAGGAG AGCGGCAAGA TATGGCACCG CAAGCCATCG 
CCAGCCACTC ACAACGGAAT TATAGTGAAT GTTGTTCACA GCACCTCTGA ATACCATCCG 
AAAGTCTTGC GGTTCTTGAA TGTGGCTTTT GATGGCTCAG GAGATTCCTT CATTGCTGGG 
GACCATCAGG GGAACATCTA TGTTTTTGAC TTGCATGGAA ACAGGTTTAA TCTTGTTCAG 
CGAACAGCAC AAGCATGCAC AGCTCTGGCC TTTAATCTTC GTAGGAAGTC TGAGTTCCTT 
GTGGCATTAG CTGATTATTC TATTAAATGT TTTGATACAG TCACTAAGGA GCTGGTTAGC 
TGGATGAGAG GACATGAATC GTCTGTGCGT TCCATTTCTG TGCACACATC TGGGAGATAC 
GCCATTACGA CTTCCTCTGA TACAGCTCAG CTCTGGGACT TGGATACCTT CCAGAGGAAA 
AGGAAGCTGA ACGTCCGCCA GTCCGTGGGG ATCCAGAAGG TTTTCTTTCT ACCATTAAGT 
AACACCATCC TCAGTTGTTT TAAGGACAAC TCCATCTTCG CCTGGGAATG TGACACTCTG 
TTTTGCAAGT ACCAATTGCC AGGTCCACCT GAAGGCTGTA ACATCTTATA CAAAGTGTTT 
GCGGTGACCA GAGATGGCCG AATCTTGGCT GCTGGAGGCA AATCCAATCA CGTGCATCTG 
TGGTGCTTGG AGGCCACACA GCTCTTCAGA ATCATTCAGA TGCCTACGAA GGTACGAGCT 
GTTCGCCATC TGGAATTCCT GCCTGATAGC TTTGATGCTG GCTCCAATCA GGTGCTTGGT 
GTGCTAAGTC AAGATGGGAT TATGAGGTTT GTCAACATAC AGACTTGTAA ACTTCTCTTT 
CAAATCGGGA CTGTTGAAGA AGGAGTTAGC TCATCAGTAA TTAGCCCACA CGGTCGCTAC 
ATAACAGCTA TCATGGAAAA TGGAAGTCTG AATGTGTATT CAGTCCAGGC TTTAACACAA 
GAAATAAATA AGCCTCCTCC TCCTCTAGTT AAGGTGATTG AAGATTTGCC TAACAATACA 
GTGAGTTCCA ATAATCTGAA GGTAAAAGTA ATGTCAGGAA GGGTACAGCG CCCAGCAAGA 
TGTAAAGAGA GGAAAAATCA AACTAGAGTA CTCAAGCAGG ACCTGACTGG GAACTTAGAA 
AACAAGGAGA ACGAATTGTC AGAAGGACTA AATAAAAAGC GCTTGCAAGT CTTATTAAAA 
GGCTATGGGG AATATCCAAC AAAATACAGG ATGTTTATTT GGCGTTCCTT GCTACAGCTG 
CCTGAAAACC ACACTGCGTT TAGTAGCCTG ATGGATAAAG GGACCCACGC GGCCTATCTC 
GACCTTCAGA AGAAATACCC CATCAAAAGT AGAAGGCTGC TGAGAGTACT ACAGAGAACC 
CTGTCTGCAT TAGCTCACTG GTCTGCAATC TTCAGTGACA TGCCGTATCT TCCACTTTTG 
GCATTTCCAT TTGTAAAATT ATTCCAGAAC AATCAGCTCA TCTGTTTTGA AGTTGTTGCT 
ACTCTCATAA TCAATTGGTG TCAACATTGG TTTGAGTACT TTCCCAATCC TCCCATCAAT 
ATTCTTACTA TGATAGAAAA TGTTTTGGCA TTTCATGACA AGGAACTGCT ACAGCACTTC 
ATAGACCGTG ATATAACTTC CCAGGTGTAT GCCTGGCCTC TCCTTGAAAC GTTGTTCTCT 
GAAGTGCTGA CAAGAGAGGA GTGGCTTCGG TTGTTCGATA ATATCTTCTC CAGTCACCCT 
TCCTTCCTCC TGATGACCGT GGTGGCCTAC AATACCTGTT CTAGAGCGCC TTTGCTCAAC 
TGCACTCTTA AGGATGATTT TGAGTACTTT TTTCACCATC GGAATAACCT GGACTTAAAT 
GTTGTAATTA GAGAAGTTTA TCATCTCATG GAGACCACGC CTGCTGATAT TCATCCAAAT 
AGCATGCTGG ATGCTTTTGT TGCACTAACA AAAGGGCAGT ATCCTATATT TAATCAATAT 
CCAAAGTTCA TTGTGGACTA TCAGACAAAG GAACGGGAAA GGATAAGGAA CGATGAACTG 
GACTTTTTGA GAGAGAGGCA GACAGTTGAA AATATGCAAG CTGAAGTGGA TGAGCAGAGA 
GCTAAGGATG AGGCGTGGTA CCAGAAGCAA GAGATGCTCC GTAGAGCTGA GGAGACAAGA 
AGAGAGATGC TTCTTCAAGA GGAGGAGAAG ATGGCCCAGC AGAGACACAG GCTAGCTGCT 
GTGAAAAGGG AACTGGAGAT AAAGGAAATA CACTTACAGG ATGCTGCAAG AAGACGTTTG 
CTAAAGCTTC AGCAAGATCA ACGTGAAATG GAGCTACGCA GGCTGGAAGA TGAAATTGAG 
AGAAAGGTAC AAATGAGAGA TCAAGAAATT GCTGCCACAG CCAAAGACCT GGAAATGAGA 
CAGCTGGAAC TGGAAGCACG GAAACGACTT TATGAAAAGG ATCTTACTGC AAGTCAGGAG 
GCCATTGCCA AGGGAATTCG AGAAGACACA GATGCGCACA GGCGGAAAAT GGTTCTCGAA 
GAACACGTGT TCCAGAAGCT GCTAGAGAAC AGCCAGATGG GGAGCAGAAG GACTCCGAGG 
GTGATGGAGG ACAATTTGGC AAAGGCGGAA CAAGCCTGTC TGAATGCTGA CTGGCAGATT 
CAGACTTTAC ATAAGCAGAA TCGTGAGGAT CGACAGCGCA GCGAGGGCTA CTATGAGGTC 
GCCACTCTCC TCCGCAAGGA CAGACAGAAA GAAATCCAAG TGTTAGATGC AATGATGGAG 
GAGGAGGCTA AGAAGTGGAA GGAAGCCAGA GAGAAGGAAT TCCATTTGCA ATCAGAAAAG 
AAAGCCTCTG CCCTTTCAGA TGCCTCTAGA AAGTGGTTTT TAGGGCAGGA GACAAATGCA 
GCTTTGGAAC ATGAAGAAGT GCCTTGGTTA CAAAAGCAAC ACATGGACTC AACCTGCTTG 
CCTCAAACCT TACGATTAAA TGATGTTTCC GACATGGATT CCTCGACACA GATTTTTTCA 
AGAGATAAGC CAACAGAATG GAACCACACG GAATCCGATC TTCTCAAGAA TGTGCGAGAT 
CTTCGCAGGG GACTCACAGC CCGGGCTCGG AGCAGCTGTC CGCGCCCTCA TCTTTTGGTG 
ACATAG

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

PubMed

Novel asymmetrically localizing components of human centrosomes identified by complementary proteomics methods.
The EMBO journal30(8)1520-35(2011 Apr)
Jakobsen L,Vanselow K,Skogs M,Toyoda Y,Lundberg E,Poser I,Falkenby LG,Bennetzen M,Westendorf J,Nigg EA,Uhlen M,Hyman AA,Andersen JS

Gene and alternative splicing annotation with AIR.
Genome research15(1)54-66(2005 Jan)
Florea L,Di Francesco V,Miller J,Turner R,Yao A,Harris M,Walenz B,Mobarry C,Merkulov GV,Charlab R,Dew I,Deng Z,Istrail S,Li P,Sutton G

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Tbc1d31 cDNA ORF clone, Rattus norvegicus(Norway rat)

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:

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