Tbc1d8 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Tbc1d8
Entrez Gene ID	680133
Full Name	TBC1 domain family, member 8
Synonyms	IHoP
General protein information	Preferred Names TBC1 domain family, member 8 Names TBC1 domain family member 8 rCG22278-like
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 9 Map Location: 9q22

mRNA and Protein(s)

mRNA	Protein	Name
NM_001191067.1	NP_001177996.1	TBC1 domain family member 8
XM_006244851.3	XP_006244913.1	TBC1 domain family member 8 isoform X1

Pathways from BioSystems

Homologies

	TBC1D8	XP_001105890.2
Homo sapiens (human)	TBC1D8	NP_001095896.1
Gallus gallus (chicken)	TBC1D8	XP_004938561.1
Xenopus tropicalis (tropical clawed frog)	tbc1d8	XP_002934554.2
Pan troglodytes (chimpanzee)	TBC1D8	XP_001162139.1
Canis lupus familiaris (dog)	TBC1D8	XP_531780.3
Bos taurus (cattle)	TBC1D8	NP_001193071.1
Mus musculus (house mouse)	Tbc1d8	NP_061245.3
Rattus norvegicus (Norway rat)	Tbc1d8	NP_001177996.1
Danio rerio (zebrafish)	tbc1d8	XP_002663492.3

Gene Ontology
Bibliography

Related articles in PubMed

Characterization of a novel functional protein in the pancreatic islet: islet homeostasis protein regulation of glucagon synthesis in ? cells.
Oh SH, Darwiche H, Cho JH, Shupe T, Petersen BE
Pancreas41(1)22-30(2012 Jan)

Functional dissection of Rab GTPases involved in primary cilium formation.
Yoshimura S, Egerer J, Fuchs E, Haas AK, Barr FA
The Journal of cell biology178(3)363-9(2007 Jul)

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

Data suggest that islet homeostasis protein (IHoP) could be a new functional protein in the islet and may play a role in islet homeostasis.
Title: Characterization of a novel functional protein in the pancreatic islet: islet homeostasis protein regulation of glucagon synthesis in ? cells.

The following Tbc1d8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Tbc1d8 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
ORa06809	NM_001191067.1 Latest version!	Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00
ORa32173	XM_006244851.3 Latest version!	Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$559.30 $799.00

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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)

Tbc1d8 ( NM_001191067.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001177996.1 Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), mRNA.

Price & Availability↑

CloneID	ORa06809
Clone ID Related Accession (Same CDS sequence)	NM_001191067.1
Accession Version	NM_001191067.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3408bp) 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 8
Comment	Comment: INFERRED REFSEQ: This record is predicted by genome sequence analysis and is not yet supported by experimental evidence. The reference sequence was derived from AABR07067447.1 and AABR07067444.1. On Jul 17, 2010 this sequence version replaced XM_001055799.2. 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 :: mixed/partial sample support SAMD00052296, SAMD00052297 [ECO:0000350] ##Evidence-Data-END##

ATGTGGCTCA AGCCCGAGGA GGTGCTGCTC AAGAACGCGC TGAAGCTCTG GGTGACCCAG 
AAGAGCAGCT GCTACTTCGT CTTGCAGCGG CGCCGCGGGC ACGGCGAGGG GGGCGGCCGC 
CTCACCGGTC GCCTGGTGGG TGCTCTGGAC GCGGTGCTGG ATTCCAGCGC ACGGGTTGCT 
CCATTTCGGA TTCTGCTTCA AGTTCCCGGG TCCCAGGTGT ATTCTCCCAT AGCATGTGGT 
GCAACGTTGG AGGAAATCAA CCGGCACTGG GACTGGCTGG AGCAGAACCT GCTGCACACC 
TTGTCAGTCT TCGACAACAA AGATGACATC GCCAGCTTTG TCAAAGGGAA GGTGAAGGCT 
CTGATCGCTG AGGAGACCAG CAGCAGACTG GCAGAGCAGG AGGAGGAGCC TGAGAAGTTC 
CGAGAAGCCC TGGTGAAGTT CGAGGCCAGG TTCAACTTCC CCGAGGCAGA GAAGCTGGTC 
ACCTACTACT CTTGCTGCTG CTGGAAGGGC CGGGTGCCCC GCCAGGGCTG GCTGTACCTC 
AGTATCAACC ACCTCTGCTT CTATTCCTTC TTCCTGGGCA AGGAACTTAA ACTTGTCATC 
CCCTGGGTCG ACATCCAGAA GCTGGAGCGA ACATCCAATG TCTTTCTCAC GGACACCATC 
CGGATCACTA CACAGAATAA GGAGCGAGAC TTCTCCACGT TTCTGAACCT GGACGAGGTC 
TTTAAGATCA TGGAGCAGCT GGCAGATGTC ACACTCCGGA GGCTGCTGGA CAACGAGGTC 
TTTGATTTGG ACCCTGACCT GCAGGAGCCT AGTCAGATCA CCAAGAGGGA CCTGGAGGCC 
AGAGCGCAGA ATGAGTTCTT CCGGGCTTTC TTCAGGTTGC CGAGGAAGGA GAAGCTGCAC 
GCTGTGGTAG ACTGTTCCCT CTGGACGCCC TTCAGTCGCT GCCACACGGC CGGGAGGATA 
TTCTCCTCTG ACAGCTACAT CTGCTTTGCC AGCAGAGAGG ATGGCTGCTG TCACGTTGTG 
CTTCCCCTGA GAGAGGTAGT CAGCATTGAG AAGATGGAAG ACACGAGCCT GCTGCCCAAC 
CCCATCATTG TGAGCATCCG CAGCAAGATG GCCTTCCAGT TCATTGAGCT CAAGGACAGA 
GAAAACTTGG TAGAGGGCCT GCTGTTGAGA CTGAAGCAGG TCCATGCCAA CCACCCTGTG 
CATTATGAGA CCTCACCAAG TGATGATGAC ATGGCTTCAC CTGTGTTTTA CTCAACAAGC 
ATCTGCACCG ACAAGTTTGG GGATCTTGAG ATGGTGTCTT CTCAAAGTAG CGAAGAGAGA 
GAGAAGGAGA AGAGCCCCCT GCCACATCCT GAGCCCCTGA CTGCCGTCTT CCAGCAGTCT 
GGCAGCCAGA GTCCTGACTC CCGCTTGTCC CGGGAGCAGA TAAAAATCAG TCTGTGGAAT 
GACCACTTTG CAGAGTACGG CAGGACCGTG TGCATGTTCC GCACTGAAAA GATCCGGAAG 
CTGGTGGCCA TGGGGATTCC CGAGTCTTTA CGTGGAAGGC TGTGGCTGCT TTTCTCAGAT 
GCTGTGACGG ACCTGGCCTC ACACCCTGGG TACTATGGGA ATCTGGTGGA GCAGTCGTTA 
GGACGCTGCT GCTTGGTGAC AGAGGAGATA GAGAGGGACC TGCACCGCTC TCTGCCTGAG 
CACCCTGCCT TCCAGAATGA AACTGGTATT GCTGCCTTGA GGCGGGTGCT GACAGCTTAT 
GCTCACCGGA ACCCCAAGAT TGGATACTGC CAGTCCATGA ACATCCTGAC CTCTGTGTTG 
CTGCTGTACG CCAAGGAGGA GGAAGCCTTC TGGCTGCTGG TGGCTGTGTG TGAGCGGATG 
CTGCCTGATT ACTTCAACCA CCGGGTGATC GGGGCTCAGG TGGACCAGTC TGTGTTTGAG 
GAGCTCATCA AGGAGCACCT TCCAGAGTTG GCCGAGCACA TGAGCGACCT GTCGGCCTTG 
GCGTCCATCT CTCTCTCCTG GTTCCTGACT CTGTTCCTCA GTATCATGCC TCTGGAGAGT 
GCCGTGAACG TCGTCGATTG CTTCTTCTAT GATGGGATCA AGGCCATCTT CCAGCTGGGG 
CTGGCTGTGC TGGAAGCCAA CGCAGAGGAA CTGTGCAGTA GCAAAGATGA CGGACAGGCC 
CTGATGATCC TCAGCAGGTT TCTAGATCAC ATTAAGAATG AAGACAGCCC GGGGCCCCCC 
ATTGGCAGCC ACCATGCCTT TTTCTCTGAT GATCAGGAGC CCTGTCCTGT GACCGACATT 
GCTGACCTGA TCCGGGACTC CTATGAGAAA TTTGGAAACC AGTCTGTGGA GCAGATTGAG 
CATCTACGCT GCAAGCACAG GATCAGGGTC CTGCAAGGCC ACGAGGACAC CACCAAGCAG 
AACGTGCTCC GTGTTGTTAT CCCAGAAGTC TCCATTCTTC CTGAGGACCT CGAGGAACTC 
TATGACTTAT TCAAGAGAGC ACACATGATG AACTGTTACT GGGAGCATCA CAGGCCCATA 
GCCCTGCGCC ATGATCCCAG CAGGCCCTAT GCTGAACAGT ACCGCATCGA TGCCTGCCAG 
TTTGCACACC TATTCCAGTT GGTATCGCCA TGGACCTGCG GGGCCCATAC AGAGATCCTT 
GCTGAGAGGA TCTTCAGGCT TCTGGATGAC AACATGGACC AGCTCATAGA GTTCAAAGCC 
TTCGTAAGCT GTCTAGACGT GATGTACAAT GGAGAGATGA GTGAGAAGAT CAAGCTGCTC 
TACAGGCTTC ACATCCCCCC AGCACTCACT GAAAATGACA GAGACAGCCA GTCGCCATTG 
AAGAATCCTC TGCTGTCAAC TTCAAGACCC CTGGTATTGG GCAGGCCCAA TGGTGACACA 
ATTGATTATC AGAAACAACT GAAACAGATG ATTAAGGATT TAGCCAAAGA AAAGGATAAA 
ATGGAGAAAG AGTTGCCCAA AATGAGTCAG AGAGAATTTA TCCAGTTCTG CAAAACTCTG 
TACAGTATGT TCCATGAGGA TCCAGAGGAA AATGATCTGT ATCAAGCCAT CGCCACAGTA 
ACCACTCTGC TGCTGCAGAT CGGAGAAGTG GGCCAGCGAG GTAGCAGCTC AGGAAGCTGC 
TCCCAAGAAT GTGAGGAGCC GCAGGCCTCA GCTCCTCCTG AACAGGACTC AGTTTTTGCT 
GAGGCTGGGA AGAGTCCCCA GGCCTTCCCT GAGACGGAAG GGGACTGGAC CGTGTCCCTT 
GAACACATCT TGGCGTCCCT TCTCACTGAG CAGTCACTGG TGAATTTTTT TGAAAAGCCA 
CTCAACATTA AATCCAAACT TGAAAATGCC AAGCTCAATC AGTACAGTCT CAAAGCAATG 
GAAATGAGCC ACCCATCACA GCCAGAGCTG AAGCTGAATA GCCTGTAA

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

RefSeq	NP_001177996.1
CDS	178..3585
Translation	MWLKPEEVLLKNALKLWVTQKSSCYFVLQRRRGHGEGGGRLTGRLVGALDAVLDSSARVAPFRILLQVPGSQVYSPIACGATLEEINRHWDWLEQNLLHTLSVFDNKDDIASFVKGKVKALIAEETSSRLAEQEEEPEKFREALVKFEARFNFPEAEKLVTYYSCCCWKGRVPRQGWLYLSINHLCFYSFFLGKELKLVIPWVDIQKLERTSNVFLTDTIRITTQNKERDFSTFLNLDEVFKIMEQLADVTLRRLLDNEVFDLDPDLQEPSQITKRDLEARAQNEFFRAFFRLPRKEKLHAVVDCSLWTPFSRCHTAGRIFSSDSYICFASREDGCCHVVLPLREVVSIEKMEDTSLLPNPIIVSIRSKMAFQFIELKDRENLVEGLLLRLKQVHANHPVHYETSPSDDDMASPVFYSTSICTDKFGDLEMVSSQSSEEREKEKSPLPHPEPLTAVFQQSGSQSPDSRLSREQIKISLWNDHFAEYGRTVCMFRTEKIRKLVAMGIPESLRGRLWLLFSDAVTDLASHPGYYGNLVEQSLGRCCLVTEEIERDLHRSLPEHPAFQNETGIAALRRVLTAYAHRNPKIGYCQSMNILTSVLLLYAKEEEAFWLLVAVCERMLPDYFNHRVIGAQVDQSVFEELIKEHLPELAEHMSDLSALASISLSWFLTLFLSIMPLESAVNVVDCFFYDGIKAIFQLGLAVLEANAEELCSSKDDGQALMILSRFLDHIKNEDSPGPPIGSHHAFFSDDQEPCPVTDIADLIRDSYEKFGNQSVEQIEHLRCKHRIRVLQGHEDTTKQNVLRVVIPEVSILPEDLEELYDLFKRAHMMNCYWEHHRPIALRHDPSRPYAEQYRIDACQFAHLFQLVSPWTCGAHTEILAERIFRLLDDNMDQLIEFKAFVSCLDVMYNGEMSEKIKLLYRLHIPPALTENDRDSQSPLKNPLLSTSRPLVLGRPNGDTIDYQKQLKQMIKDLAKEKDKMEKELPKMSQREFIQFCKTLYSMFHEDPEENDLYQAIATVTTLLLQIGEVGQRGSSSGSCSQECEEPQASAPPEQDSVFAEAGKSPQAFPETEGDWTVSLEHILASLLTEQSLVNFFEKPLNIKSKLENAKLNQYSLKAMEMSHPSQPELKLNSL

Target ORF information:

RefSeq Version	NM_001191067.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), mRNA.

Target ORF information:

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

NM_001191067.1

ORF Insert Sequence:

ATGTGGCTCA AGCCCGAGGA GGTGCTGCTC AAGAACGCGC TGAAGCTCTG GGTGACCCAG 
AAGAGCAGCT GCTACTTCGT CTTGCAGCGG CGCCGCGGGC ACGGCGAGGG GGGCGGCCGC 
CTCACCGGTC GCCTGGTGGG TGCTCTGGAC GCGGTGCTGG ATTCCAGCGC ACGGGTTGCT 
CCATTTCGGA TTCTGCTTCA AGTTCCCGGG TCCCAGGTGT ATTCTCCCAT AGCATGTGGT 
GCAACGTTGG AGGAAATCAA CCGGCACTGG GACTGGCTGG AGCAGAACCT GCTGCACACC 
TTGTCAGTCT TCGACAACAA AGATGACATC GCCAGCTTTG TCAAAGGGAA GGTGAAGGCT 
CTGATCGCTG AGGAGACCAG CAGCAGACTG GCAGAGCAGG AGGAGGAGCC TGAGAAGTTC 
CGAGAAGCCC TGGTGAAGTT CGAGGCCAGG TTCAACTTCC CCGAGGCAGA GAAGCTGGTC 
ACCTACTACT CTTGCTGCTG CTGGAAGGGC CGGGTGCCCC GCCAGGGCTG GCTGTACCTC 
AGTATCAACC ACCTCTGCTT CTATTCCTTC TTCCTGGGCA AGGAACTTAA ACTTGTCATC 
CCCTGGGTCG ACATCCAGAA GCTGGAGCGA ACATCCAATG TCTTTCTCAC GGACACCATC 
CGGATCACTA CACAGAATAA GGAGCGAGAC TTCTCCACGT TTCTGAACCT GGACGAGGTC 
TTTAAGATCA TGGAGCAGCT GGCAGATGTC ACACTCCGGA GGCTGCTGGA CAACGAGGTC 
TTTGATTTGG ACCCTGACCT GCAGGAGCCT AGTCAGATCA CCAAGAGGGA CCTGGAGGCC 
AGAGCGCAGA ATGAGTTCTT CCGGGCTTTC TTCAGGTTGC CGAGGAAGGA GAAGCTGCAC 
GCTGTGGTAG ACTGTTCCCT CTGGACGCCC TTCAGTCGCT GCCACACGGC CGGGAGGATA 
TTCTCCTCTG ACAGCTACAT CTGCTTTGCC AGCAGAGAGG ATGGCTGCTG TCACGTTGTG 
CTTCCCCTGA GAGAGGTAGT CAGCATTGAG AAGATGGAAG ACACGAGCCT GCTGCCCAAC 
CCCATCATTG TGAGCATCCG CAGCAAGATG GCCTTCCAGT TCATTGAGCT CAAGGACAGA 
GAAAACTTGG TAGAGGGCCT GCTGTTGAGA CTGAAGCAGG TCCATGCCAA CCACCCTGTG 
CATTATGAGA CCTCACCAAG TGATGATGAC ATGGCTTCAC CTGTGTTTTA CTCAACAAGC 
ATCTGCACCG ACAAGTTTGG GGATCTTGAG ATGGTGTCTT CTCAAAGTAG CGAAGAGAGA 
GAGAAGGAGA AGAGCCCCCT GCCACATCCT GAGCCCCTGA CTGCCGTCTT CCAGCAGTCT 
GGCAGCCAGA GTCCTGACTC CCGCTTGTCC CGGGAGCAGA TAAAAATCAG TCTGTGGAAT 
GACCACTTTG CAGAGTACGG CAGGACCGTG TGCATGTTCC GCACTGAAAA GATCCGGAAG 
CTGGTGGCCA TGGGGATTCC CGAGTCTTTA CGTGGAAGGC TGTGGCTGCT TTTCTCAGAT 
GCTGTGACGG ACCTGGCCTC ACACCCTGGG TACTATGGGA ATCTGGTGGA GCAGTCGTTA 
GGACGCTGCT GCTTGGTGAC AGAGGAGATA GAGAGGGACC TGCACCGCTC TCTGCCTGAG 
CACCCTGCCT TCCAGAATGA AACTGGTATT GCTGCCTTGA GGCGGGTGCT GACAGCTTAT 
GCTCACCGGA ACCCCAAGAT TGGATACTGC CAGTCCATGA ACATCCTGAC CTCTGTGTTG 
CTGCTGTACG CCAAGGAGGA GGAAGCCTTC TGGCTGCTGG TGGCTGTGTG TGAGCGGATG 
CTGCCTGATT ACTTCAACCA CCGGGTGATC GGGGCTCAGG TGGACCAGTC TGTGTTTGAG 
GAGCTCATCA AGGAGCACCT TCCAGAGTTG GCCGAGCACA TGAGCGACCT GTCGGCCTTG 
GCGTCCATCT CTCTCTCCTG GTTCCTGACT CTGTTCCTCA GTATCATGCC TCTGGAGAGT 
GCCGTGAACG TCGTCGATTG CTTCTTCTAT GATGGGATCA AGGCCATCTT CCAGCTGGGG 
CTGGCTGTGC TGGAAGCCAA CGCAGAGGAA CTGTGCAGTA GCAAAGATGA CGGACAGGCC 
CTGATGATCC TCAGCAGGTT TCTAGATCAC ATTAAGAATG AAGACAGCCC GGGGCCCCCC 
ATTGGCAGCC ACCATGCCTT TTTCTCTGAT GATCAGGAGC CCTGTCCTGT GACCGACATT 
GCTGACCTGA TCCGGGACTC CTATGAGAAA TTTGGAAACC AGTCTGTGGA GCAGATTGAG 
CATCTACGCT GCAAGCACAG GATCAGGGTC CTGCAAGGCC ACGAGGACAC CACCAAGCAG 
AACGTGCTCC GTGTTGTTAT CCCAGAAGTC TCCATTCTTC CTGAGGACCT CGAGGAACTC 
TATGACTTAT TCAAGAGAGC ACACATGATG AACTGTTACT GGGAGCATCA CAGGCCCATA 
GCCCTGCGCC ATGATCCCAG CAGGCCCTAT GCTGAACAGT ACCGCATCGA TGCCTGCCAG 
TTTGCACACC TATTCCAGTT GGTATCGCCA TGGACCTGCG GGGCCCATAC AGAGATCCTT 
GCTGAGAGGA TCTTCAGGCT TCTGGATGAC AACATGGACC AGCTCATAGA GTTCAAAGCC 
TTCGTAAGCT GTCTAGACGT GATGTACAAT GGAGAGATGA GTGAGAAGAT CAAGCTGCTC 
TACAGGCTTC ACATCCCCCC AGCACTCACT GAAAATGACA GAGACAGCCA GTCGCCATTG 
AAGAATCCTC TGCTGTCAAC TTCAAGACCC CTGGTATTGG GCAGGCCCAA TGGTGACACA 
ATTGATTATC AGAAACAACT GAAACAGATG ATTAAGGATT TAGCCAAAGA AAAGGATAAA 
ATGGAGAAAG AGTTGCCCAA AATGAGTCAG AGAGAATTTA TCCAGTTCTG CAAAACTCTG 
TACAGTATGT TCCATGAGGA TCCAGAGGAA AATGATCTGT ATCAAGCCAT CGCCACAGTA 
ACCACTCTGC TGCTGCAGAT CGGAGAAGTG GGCCAGCGAG GTAGCAGCTC AGGAAGCTGC 
TCCCAAGAAT GTGAGGAGCC GCAGGCCTCA GCTCCTCCTG AACAGGACTC AGTTTTTGCT 
GAGGCTGGGA AGAGTCCCCA GGCCTTCCCT GAGACGGAAG GGGACTGGAC CGTGTCCCTT 
GAACACATCT TGGCGTCCCT TCTCACTGAG CAGTCACTGG TGAATTTTTT TGAAAAGCCA 
CTCAACATTA AATCCAAACT TGAAAATGCC AAGCTCAATC AGTACAGTCT CAAAGCAATG 
GAAATGAGCC ACCCATCACA GCCAGAGCTG AAGCTGAATA GCCTGTAA

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

Tbc1d8 ( XM_006244851.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006244913.1 Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa32173
Clone ID Related Accession (Same CDS sequence)	XM_006244851.3
Accession Version	XM_006244851.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3453bp) 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 8 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005108.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006244851.2. ##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##

ATGTGGCTCA AGCCCGAGGA GGTGCTGCTC AAGAACGCGC TGAAGCTCTG GGTGACCCAG 
AAGAGCAGCT GCTACTTCGT CTTGCAGCGG CGCCGCGGGC ACGGCGAGGG GGGCGGCCGC 
CTCACCGGTC GCCTGGTGGG TGCTCTGGAC GCGGTGCTGG ATTCCAGCGC ACGGGTTGCT 
CCATTTCGGA TTCTGCTTCA AGTTCCCGGG TCCCAGGTGT ATTCTCCCAT AGCATGTGGT 
GAGTTACTGA ATGGATCAGA CATTTACTGG GCCATAGCCA CTGGTGCAAC GTTGGAGGAA 
ATCAACCGGC ACTGGGACTG GCTGGAGCAG AACCTGCTGC ACACCTTGTC AGTCTTCGAC 
AACAAAGATG ACATCGCCAG CTTTGTCAAA GGGAAGGTGA AGGCTCTGAT CGCTGAGGAG 
ACCAGCAGCA GACTGGCAGA GCAGGAGGAG GAGCCTGAGA AGTTCCGAGA AGCCCTGGTG 
AAGTTCGAGG CCAGGTTCAA CTTCCCCGAG GCAGAGAAGC TGGTCACCTA CTACTCTTGC 
TGCTGCTGGA AGGGCCGGGT GCCCCGCCAG GGCTGGCTGT ACCTCAGTAT CAACCACCTC 
TGCTTCTATT CCTTCTTCCT GGGCAAGGAA CTTAAACTTG TCATCCCCTG GGTCGACATC 
CAGAAGCTGG AGCGAACATC CAATGTCTTT CTCACGGACA CCATCCGGAT CACTACACAG 
AATAAGGAGC GAGACTTCTC CACGTTTCTG AACCTGGACG AGGTCTTTAA GATCATGGAG 
CAGCTGGCAG ATGTCACACT CCGGAGGCTG CTGGACAACG AGGTCTTTGA TTTGGACCCT 
GACCTGCAGG AGCCTAGTCA GATCACCAAG AGGGACCTGG AGGCCAGAGC GCAGAATGAG 
TTCTTCCGGG CTTTCTTCAG GTTGCCGAGG AAGGAGAAGC TGCACGCTGT GGTAGACTGT 
TCCCTCTGGA CGCCCTTCAG TCGCTGCCAC ACGGCCGGGA GGATATTCTC CTCTGACAGC 
TACATCTGCT TTGCCAGCAG AGAGGATGGC TGCTGTCACG TTGTGCTTCC CCTGAGAGAG 
GTAGTCAGCA TTGAGAAGAT GGAAGACACG AGCCTGCTGC CCAACCCCAT CATTGTGAGC 
ATCCGCAGCA AGATGGCCTT CCAGTTCATT GAGCTCAAGG ACAGAGAAAA CTTGGTAGAG 
GGCCTGCTGT TGAGACTGAA GCAGGTCCAT GCCAACCACC CTGTGCATTA TGAGACCTCA 
CCAAGTGATG ATGACATGGC TTCACCTGTG TTTTACTCAA CAAGCATCTG CACCGACAAG 
TTTGGGGATC TTGAGATGGT GTCTTCTCAA AGTAGCGAAG AGAGAGAGAA GGAGAAGAGC 
CCCCTGCCAC ATCCTGAGCC CCTGACTGCC GTCTTCCAGC AGTCTGGCAG CCAGAGTCCT 
GACTCCCGCT TGTCCCGGGA GCAGATAAAA ATCAGTCTGT GGAATGACCA CTTTGCAGAG 
TACGGCAGGA CCGTGTGCAT GTTCCGCACT GAAAAGATCC GGAAGCTGGT GGCCATGGGG 
ATTCCCGAGT CTTTACGTGG AAGGCTGTGG CTGCTTTTCT CAGATGCTGT GACGGACCTG 
GCCTCACACC CTGGGTACTA TGGGAATCTG GTGGAGCAGT CGTTAGGACG CTGCTGCTTG 
GTGACAGAGG AGATAGAGAG GGACCTGCAC CGCTCTCTGC CTGAGCACCC TGCCTTCCAG 
AATGAAACTG GTATTGCTGC CTTGAGGCGG GTGCTGACAG CTTATGCTCA CCGGAACCCC 
AAGATTGGAT ACTGCCAGTC CATGAACATC CTGACCTCTG TGTTGCTGCT GTACGCCAAG 
GAGGAGGAAG CCTTCTGGCT GCTGGTGGCT GTGTGTGAGC GGATGCTGCC TGATTACTTC 
AACCACCGGG TGATCGGGGC TCAGGTGGAC CAGTCTGTGT TTGAGGAGCT CATCAAGGAG 
CACCTTCCAG AGTTGGCCGA GCACATGAGC GACCTGTCGG CCTTGGCGTC CATCTCTCTC 
TCCTGGTTCC TGACTCTGTT CCTCAGTATC ATGCCTCTGG AGAGTGCCGT GAACGTCGTC 
GATTGCTTCT TCTATGATGG GATCAAGGCC ATCTTCCAGC TGGGGCTGGC TGTGCTGGAA 
GCCAACGCAG AGGAACTGTG CAGTAGCAAA GATGACGGAC AGGCCCTGAT GATCCTCAGC 
AGGTTTCTAG ATCACATTAA GAATGAAGAC AGCCCGGGGC CCCCCATTGG CAGCCACCAT 
GCCTTTTTCT CTGATGATCA GGAGCCCTGT CCTGTGACCG ACATTGCTGA CCTGATCCGG 
GACTCCTATG AGAAATTTGG AAACCAGTCT GTGGAGCAGA TTGAGCATCT ACGCTGCAAG 
CACAGGATCA GGGTCCTGCA AGGCCACGAG GACACCACCA AGCAGAACGT GCTCCGTGTT 
GTTATCCCAG AAGTCTCCAT TCTTCCTGAG GACCTCGAGG AACTCTATGA CTTATTCAAG 
AGAGCACACA TGATGAACTG TTACTGGGAG CATCACAGGC CCATAGCCCT GCGCCATGAT 
CCCAGCAGGC CCTATGCTGA ACAGTACCGC ATCGATGCCT GCCAGTTTGC ACACCTATTC 
CAGTTGGTAT CGCCATGGAC CTGCGGGGCC CATACAGAGA TCCTTGCTGA GAGGATCTTC 
AGGCTTCTGG ATGACAACAT GGACCAGCTC ATAGAGTTCA AAGCCTTCGT AAGCTGTCTA 
GACGTGATGT ACAATGGAGA GATGAGTGAG AAGATCAAGC TGCTCTACAG GCTTCACATC 
CCCCCAGCAC TCACTGAAAA TGACAGAGAC AGCCAGTCGC CATTGAAGAA TCCTCTGCTG 
TCAACTTCAA GACCCCTGGT ATTGGGCAGG CCCAATGGTG ACACAATTGA TTATCAGAAA 
CAACTGAAAC AGATGATTAA GGATTTAGCC AAAGAAAAGG ATAAAATGGA GAAAGAGTTG 
CCCAAAATGA GTCAGAGAGA ATTTATCCAG TTCTGCAAAA CTCTGTACAG TATGTTCCAT 
GAGGATCCAG AGGAAAATGA TCTGTATCAA GCCATCGCCA CAGTAACCAC TCTGCTGCTG 
CAGATCGGAG AAGTGGGCCA GCGAGGTAGC AGCTCAGGAA GCTGCTCCCA AGAATGTGAG 
GAGCCGCAGG CCTCAGCTCC TCCTGAACAG GACTCAGTTT TTGCTGAGGC TGGGAAGAGT 
CCCCAGGCCT TCCCTGAGAC GGAAGGGGAC TGGACCGTGT CCCTTGAACA CATCTTGGCG 
TCCCTTCTCA CTGAGCAGTC ACTGGTGAAT TTTTTTGAAA AGCCACTCAA CATTAAATCC 
AAACTTGAAA ATGCCAAGCT CAATCAGTAC AGTCTCAAAG CAATGGAAAT GAGCCACCCA 
TCACAGCCAG AGCTGAAGCT GAATAGCCTG TAA

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

RefSeq	XP_006244913.1
CDS	197..3649
Translation	MWLKPEEVLLKNALKLWVTQKSSCYFVLQRRRGHGEGGGRLTGRLVGALDAVLDSSARVAPFRILLQVPGSQVYSPIACGELLNGSDIYWAIATGATLEEINRHWDWLEQNLLHTLSVFDNKDDIASFVKGKVKALIAEETSSRLAEQEEEPEKFREALVKFEARFNFPEAEKLVTYYSCCCWKGRVPRQGWLYLSINHLCFYSFFLGKELKLVIPWVDIQKLERTSNVFLTDTIRITTQNKERDFSTFLNLDEVFKIMEQLADVTLRRLLDNEVFDLDPDLQEPSQITKRDLEARAQNEFFRAFFRLPRKEKLHAVVDCSLWTPFSRCHTAGRIFSSDSYICFASREDGCCHVVLPLREVVSIEKMEDTSLLPNPIIVSIRSKMAFQFIELKDRENLVEGLLLRLKQVHANHPVHYETSPSDDDMASPVFYSTSICTDKFGDLEMVSSQSSEEREKEKSPLPHPEPLTAVFQQSGSQSPDSRLSREQIKISLWNDHFAEYGRTVCMFRTEKIRKLVAMGIPESLRGRLWLLFSDAVTDLASHPGYYGNLVEQSLGRCCLVTEEIERDLHRSLPEHPAFQNETGIAALRRVLTAYAHRNPKIGYCQSMNILTSVLLLYAKEEEAFWLLVAVCERMLPDYFNHRVIGAQVDQSVFEELIKEHLPELAEHMSDLSALASISLSWFLTLFLSIMPLESAVNVVDCFFYDGIKAIFQLGLAVLEANAEELCSSKDDGQALMILSRFLDHIKNEDSPGPPIGSHHAFFSDDQEPCPVTDIADLIRDSYEKFGNQSVEQIEHLRCKHRIRVLQGHEDTTKQNVLRVVIPEVSILPEDLEELYDLFKRAHMMNCYWEHHRPIALRHDPSRPYAEQYRIDACQFAHLFQLVSPWTCGAHTEILAERIFRLLDDNMDQLIEFKAFVSCLDVMYNGEMSEKIKLLYRLHIPPALTENDRDSQSPLKNPLLSTSRPLVLGRPNGDTIDYQKQLKQMIKDLAKEKDKMEKELPKMSQREFIQFCKTLYSMFHEDPEENDLYQAIATVTTLLLQIGEVGQRGSSSGSCSQECEEPQASAPPEQDSVFAEAGKSPQAFPETEGDWTVSLEHILASLLTEQSLVNFFEKPLNIKSKLENAKLNQYSLKAMEMSHPSQPELKLNSL

Target ORF information:

RefSeq Version	XM_006244851.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus TBC1 domain family, member 8 (Tbc1d8), transcript variant X1, mRNA.

Target ORF information:

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

XM_006244851.3

ORF Insert Sequence:

ATGTGGCTCA AGCCCGAGGA GGTGCTGCTC AAGAACGCGC TGAAGCTCTG GGTGACCCAG 
AAGAGCAGCT GCTACTTCGT CTTGCAGCGG CGCCGCGGGC ACGGCGAGGG GGGCGGCCGC 
CTCACCGGTC GCCTGGTGGG TGCTCTGGAC GCGGTGCTGG ATTCCAGCGC ACGGGTTGCT 
CCATTTCGGA TTCTGCTTCA AGTTCCCGGG TCCCAGGTGT ATTCTCCCAT AGCATGTGGT 
GAGTTACTGA ATGGATCAGA CATTTACTGG GCCATAGCCA CTGGTGCAAC GTTGGAGGAA 
ATCAACCGGC ACTGGGACTG GCTGGAGCAG AACCTGCTGC ACACCTTGTC AGTCTTCGAC 
AACAAAGATG ACATCGCCAG CTTTGTCAAA GGGAAGGTGA AGGCTCTGAT CGCTGAGGAG 
ACCAGCAGCA GACTGGCAGA GCAGGAGGAG GAGCCTGAGA AGTTCCGAGA AGCCCTGGTG 
AAGTTCGAGG CCAGGTTCAA CTTCCCCGAG GCAGAGAAGC TGGTCACCTA CTACTCTTGC 
TGCTGCTGGA AGGGCCGGGT GCCCCGCCAG GGCTGGCTGT ACCTCAGTAT CAACCACCTC 
TGCTTCTATT CCTTCTTCCT GGGCAAGGAA CTTAAACTTG TCATCCCCTG GGTCGACATC 
CAGAAGCTGG AGCGAACATC CAATGTCTTT CTCACGGACA CCATCCGGAT CACTACACAG 
AATAAGGAGC GAGACTTCTC CACGTTTCTG AACCTGGACG AGGTCTTTAA GATCATGGAG 
CAGCTGGCAG ATGTCACACT CCGGAGGCTG CTGGACAACG AGGTCTTTGA TTTGGACCCT 
GACCTGCAGG AGCCTAGTCA GATCACCAAG AGGGACCTGG AGGCCAGAGC GCAGAATGAG 
TTCTTCCGGG CTTTCTTCAG GTTGCCGAGG AAGGAGAAGC TGCACGCTGT GGTAGACTGT 
TCCCTCTGGA CGCCCTTCAG TCGCTGCCAC ACGGCCGGGA GGATATTCTC CTCTGACAGC 
TACATCTGCT TTGCCAGCAG AGAGGATGGC TGCTGTCACG TTGTGCTTCC CCTGAGAGAG 
GTAGTCAGCA TTGAGAAGAT GGAAGACACG AGCCTGCTGC CCAACCCCAT CATTGTGAGC 
ATCCGCAGCA AGATGGCCTT CCAGTTCATT GAGCTCAAGG ACAGAGAAAA CTTGGTAGAG 
GGCCTGCTGT TGAGACTGAA GCAGGTCCAT GCCAACCACC CTGTGCATTA TGAGACCTCA 
CCAAGTGATG ATGACATGGC TTCACCTGTG TTTTACTCAA CAAGCATCTG CACCGACAAG 
TTTGGGGATC TTGAGATGGT GTCTTCTCAA AGTAGCGAAG AGAGAGAGAA GGAGAAGAGC 
CCCCTGCCAC ATCCTGAGCC CCTGACTGCC GTCTTCCAGC AGTCTGGCAG CCAGAGTCCT 
GACTCCCGCT TGTCCCGGGA GCAGATAAAA ATCAGTCTGT GGAATGACCA CTTTGCAGAG 
TACGGCAGGA CCGTGTGCAT GTTCCGCACT GAAAAGATCC GGAAGCTGGT GGCCATGGGG 
ATTCCCGAGT CTTTACGTGG AAGGCTGTGG CTGCTTTTCT CAGATGCTGT GACGGACCTG 
GCCTCACACC CTGGGTACTA TGGGAATCTG GTGGAGCAGT CGTTAGGACG CTGCTGCTTG 
GTGACAGAGG AGATAGAGAG GGACCTGCAC CGCTCTCTGC CTGAGCACCC TGCCTTCCAG 
AATGAAACTG GTATTGCTGC CTTGAGGCGG GTGCTGACAG CTTATGCTCA CCGGAACCCC 
AAGATTGGAT ACTGCCAGTC CATGAACATC CTGACCTCTG TGTTGCTGCT GTACGCCAAG 
GAGGAGGAAG CCTTCTGGCT GCTGGTGGCT GTGTGTGAGC GGATGCTGCC TGATTACTTC 
AACCACCGGG TGATCGGGGC TCAGGTGGAC CAGTCTGTGT TTGAGGAGCT CATCAAGGAG 
CACCTTCCAG AGTTGGCCGA GCACATGAGC GACCTGTCGG CCTTGGCGTC CATCTCTCTC 
TCCTGGTTCC TGACTCTGTT CCTCAGTATC ATGCCTCTGG AGAGTGCCGT GAACGTCGTC 
GATTGCTTCT TCTATGATGG GATCAAGGCC ATCTTCCAGC TGGGGCTGGC TGTGCTGGAA 
GCCAACGCAG AGGAACTGTG CAGTAGCAAA GATGACGGAC AGGCCCTGAT GATCCTCAGC 
AGGTTTCTAG ATCACATTAA GAATGAAGAC AGCCCGGGGC CCCCCATTGG CAGCCACCAT 
GCCTTTTTCT CTGATGATCA GGAGCCCTGT CCTGTGACCG ACATTGCTGA CCTGATCCGG 
GACTCCTATG AGAAATTTGG AAACCAGTCT GTGGAGCAGA TTGAGCATCT ACGCTGCAAG 
CACAGGATCA GGGTCCTGCA AGGCCACGAG GACACCACCA AGCAGAACGT GCTCCGTGTT 
GTTATCCCAG AAGTCTCCAT TCTTCCTGAG GACCTCGAGG AACTCTATGA CTTATTCAAG 
AGAGCACACA TGATGAACTG TTACTGGGAG CATCACAGGC CCATAGCCCT GCGCCATGAT 
CCCAGCAGGC CCTATGCTGA ACAGTACCGC ATCGATGCCT GCCAGTTTGC ACACCTATTC 
CAGTTGGTAT CGCCATGGAC CTGCGGGGCC CATACAGAGA TCCTTGCTGA GAGGATCTTC 
AGGCTTCTGG ATGACAACAT GGACCAGCTC ATAGAGTTCA AAGCCTTCGT AAGCTGTCTA 
GACGTGATGT ACAATGGAGA GATGAGTGAG AAGATCAAGC TGCTCTACAG GCTTCACATC 
CCCCCAGCAC TCACTGAAAA TGACAGAGAC AGCCAGTCGC CATTGAAGAA TCCTCTGCTG 
TCAACTTCAA GACCCCTGGT ATTGGGCAGG CCCAATGGTG ACACAATTGA TTATCAGAAA 
CAACTGAAAC AGATGATTAA GGATTTAGCC AAAGAAAAGG ATAAAATGGA GAAAGAGTTG 
CCCAAAATGA GTCAGAGAGA ATTTATCCAG TTCTGCAAAA CTCTGTACAG TATGTTCCAT 
GAGGATCCAG AGGAAAATGA TCTGTATCAA GCCATCGCCA CAGTAACCAC TCTGCTGCTG 
CAGATCGGAG AAGTGGGCCA GCGAGGTAGC AGCTCAGGAA GCTGCTCCCA AGAATGTGAG 
GAGCCGCAGG CCTCAGCTCC TCCTGAACAG GACTCAGTTT TTGCTGAGGC TGGGAAGAGT 
CCCCAGGCCT TCCCTGAGAC GGAAGGGGAC TGGACCGTGT CCCTTGAACA CATCTTGGCG 
TCCCTTCTCA CTGAGCAGTC ACTGGTGAAT TTTTTTGAAA AGCCACTCAA CATTAAATCC 
AAACTTGAAA ATGCCAAGCT CAATCAGTAC AGTCTCAAAG CAATGGAAAT GAGCCACCCA 
TCACAGCCAG AGCTGAAGCT GAATAGCCTG TAA

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

PubMed

Characterization of a novel functional protein in the pancreatic islet: islet homeostasis protein regulation of glucagon synthesis in ? cells.
Pancreas41(1)22-30(2012 Jan)
Oh SH,Darwiche H,Cho JH,Shupe T,Petersen BE

Functional dissection of Rab GTPases involved in primary cilium formation.
The Journal of cell biology178(3)363-9(2007 Jul)
Yoshimura S,Egerer J,Fuchs E,Haas AK,Barr FA

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Tbc1d8 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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