FAM83G cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	FAM83G
Entrez Gene ID	644815
Full Name	family with sequence similarity 83 member G
Synonyms	PAWS1
General protein information	Preferred Names family with sequence similarity 83 member G Names protein FAM83G protein associated with SMAD1
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 17 Map Location: 17p11.2
Disorder MIM:	615886

mRNA and Protein(s)

mRNA	Protein	Name
XM_017024953.1	XP_016880442.1	protein FAM83G isoform X1
XM_017024953.2	XP_016880442.1	protein FAM83G isoform X1
NM_001039999.2	NP_001035088.2	protein FAM83G
NM_001039999.3	NP_001035088.2	protein FAM83G

Pathways from BioSystems

Homologies

Homo sapiens (human)	FAM83G	NP_001035088.2
Bos taurus (cattle)	FAM83G	NP_001192445.1
Mus musculus (house mouse)	Fam83g	NP_848733.2
Pan troglodytes (chimpanzee)	FAM83G	NP_001230774.1
Canis lupus familiaris (dog)	FAM83G	XP_003434684.1
	LOC100429026	XP_002800353.1
Xenopus tropicalis (tropical clawed frog)	fam83g	XP_004918112.1
Rattus norvegicus (Norway rat)	Fam83g	XP_002727764.1
Gallus gallus (chicken)	FAM83G	XP_004945264.1

Gene Ontology
Bibliography

Related articles in PubMed

PAWS1 controls cytoskeletal dynamics and cell migration through association with the SH3 adaptor CD2AP.
Cummins TD, Wu KZL, Bozatzi P, Dingwell KS, Macartney TJ, Wood NT, Varghese J, Gourlay R, Campbell DG, Prescott A, Griffis E, Smith JC, Sapkota GP
Journal of cell science131(1)(2018 Jan)

Protein associated with SMAD1 (PAWS1/FAM83G) is a substrate for type I bone morphogenetic protein receptors and modulates bone morphogenetic protein signalling.
Vogt J, Dingwell KS, Herhaus L, Gourlay R, Macartney T, Campbell D, Smith JC, Sapkota GP
Open biology4130210(2014 Feb)

The wooly mutation (wly) on mouse chromosome 11 is associated with a genetic defect in Fam83g.
Radden LA 2nd, Child KM, Adkins EB, Spacek DV, Feliciano AM, King TR
BMC research notes6189(2013 May)

A probability-based approach for high-throughput protein phosphorylation analysis and site localization.
Beausoleil SA, Vill?n J, Gerber SA, Rush J, Gygi SP
Nature biotechnology24(10)1285-92(2006 Oct)

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

PAWS1 regulates the expression of some SMAD4-independent BMP target genes as well as some BMP-independent genes.
Title: Protein associated with SMAD1 (PAWS1/FAM83G) is a substrate for type I bone morphogenetic protein receptors and modulates bone morphogenetic protein signalling.

The following FAM83G gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FAM83G 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)
OHu17355	NM_001039999.3 Latest version!	Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu17355	XM_017024953.2 Latest version!	Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
View Old Accession Versions >>
OHu17355	XM_017024953.1	Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
OHu17355	NM_001039999.2	Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$391.30 $559.00
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)

FAM83G ( NM_001039999.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001035088.2 Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.

Price & Availability↑

CloneID	OHu17355
Clone ID Related Accession (Same CDS sequence)	XM_017024953.1 , XM_017024953.2 , NM_001039999.2 , NM_001039999.3
Accession Version	NM_001039999.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2472bp) 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	2017-10-01
Organism	Homo sapiens(human)
Product	protein FAM83G
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from CF138357.1, CN370352.1, DN831927.1, BX365956.2, BX402942.2, DY655105.1, CX165458.1 and CR735308.1. On Sep 29, 2006 this sequence version replaced NM_001039999.1. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END##

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

RefSeq	NP_001035088.2
CDS	168..2639
Translation	MAFSQVQCLDDNHVNWRSSESKPEFFYSEEQRLALEALVARGRDAFYEVLKRENIRDFLSELELKRILETIEVYDPGSEDPRGTGPSQGPEDNGVGDGEEASGADGVPIEAEPLPSLEYWPQKSDRSIPQLDLGWPDTIAYRGVTRASVYMQPPIDGQAHIKEVVRKMISQAQKVIAVVMDMFTDVDIFKDLLDAGFKRKVAVYIIVDESNVKYFLHMCERACMHLGHLKNLRVRSSGGTEFFTRSATKFKGALAQKFMFVDGDRAVCGSYSFTWSAARTDRNVISVLSGQVVEMFDRQFQELYLMSHSVSLKGIPMEKEPEPEPIVLPSVVPLVPAGTVAKKLVNPKYALVKAKSVDEIAKISSEKQEAKKPLGLKGPALAEHPGELPELLPPIHPGLLHLERANMFEYLPTWVEPDPEPGSDILGYINIIDPNIWNPQPSQMNRIKIRDTSQASAQHQLWKQSQDSRPRPEPCPPPEPSAPQDGVPAENGLPQGDPEPLPPVPKPRTVPVADVLARDSSDIGWVLELPKEEAPQNGTDHRLPRMAGPGHAPLQRQLSVTQDDPESLGVGLPNGLDGVEEEDDDDYVTLSDQDSHSGSSGRGPGPRRPSVASSVSEEYFEVREHSVPLRRRHSEQVANGPTPPPRRQLSAPHITRGTFVGPQGGSPWAQSRGREEADALKRMQAQRSTDKEAQGQQFHHHRVPASGTRDKDGFPGPPRYRSAADSVQSSTRNAGPAMAGPHHWQAKGGQVPRLLPDPGSPRLAQNARPMTDGRATEEHPSPFGIPYSKLSQSKHLKARTGGSQWASSDSKRRAQAPRDRKDP

Target ORF information:

RefSeq Version	NM_001039999.2
Organism	Homo sapiens(human)
Definition	Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.

Target ORF information:

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

NM_001039999.2

ORF Insert Sequence:

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

FAM83G ( NM_001039999.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_001035088.2 Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.

Price & Availability↑

CloneID	OHu17355
Clone ID Related Accession (Same CDS sequence)	XM_017024953.1 , XM_017024953.2 , NM_001039999.2 , NM_001039999.3
Accession Version	NM_001039999.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2472bp) 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	2019-12-29
Organism	Homo sapiens(human)
Product	protein FAM83G
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC090286.16, CF138357.1, CN370352.1, DN831927.1, BX365956.2, BX402942.2, DY655105.1, CX165458.1 and CR735308.1. On Nov 22, 2018 this sequence version replaced NM_001039999.2. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000388995.11/ ENSP00000373647.5 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

RefSeq	NP_001035088.2
CDS	185..2656
Translation	MAFSQVQCLDDNHVNWRSSESKPEFFYSEEQRLALEALVARGRDAFYEVLKRENIRDFLSELELKRILETIEVYDPGSEDPRGTGPSQGPEDNGVGDGEEASGADGVPIEAEPLPSLEYWPQKSDRSIPQLDLGWPDTIAYRGVTRASVYMQPPIDGQAHIKEVVRKMISQAQKVIAVVMDMFTDVDIFKDLLDAGFKRKVAVYIIVDESNVKYFLHMCERACMHLGHLKNLRVRSSGGTEFFTRSATKFKGALAQKFMFVDGDRAVCGSYSFTWSAARTDRNVISVLSGQVVEMFDRQFQELYLMSHSVSLKGIPMEKEPEPEPIVLPSVVPLVPAGTVAKKLVNPKYALVKAKSVDEIAKISSEKQEAKKPLGLKGPALAEHPGELPELLPPIHPGLLHLERANMFEYLPTWVEPDPEPGSDILGYINIIDPNIWNPQPSQMNRIKIRDTSQASAQHQLWKQSQDSRPRPEPCPPPEPSAPQDGVPAENGLPQGDPEPLPPVPKPRTVPVADVLARDSSDIGWVLELPKEEAPQNGTDHRLPRMAGPGHAPLQRQLSVTQDDPESLGVGLPNGLDGVEEEDDDDYVTLSDQDSHSGSSGRGPGPRRPSVASSVSEEYFEVREHSVPLRRRHSEQVANGPTPPPRRQLSAPHITRGTFVGPQGGSPWAQSRGREEADALKRMQAQRSTDKEAQGQQFHHHRVPASGTRDKDGFPGPPRYRSAADSVQSSTRNAGPAMAGPHHWQAKGGQVPRLLPDPGSPRLAQNARPMTDGRATEEHPSPFGIPYSKLSQSKHLKARTGGSQWASSDSKRRAQAPRDRKDP

Target ORF information:

RefSeq Version	NM_001039999.3
Organism	Homo sapiens(human)
Definition	Homo sapiens family with sequence similarity 83 member G (FAM83G), mRNA.

Target ORF information:

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

NM_001039999.3

ORF Insert Sequence:

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

FAM83G ( XM_017024953.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_016880442.1 Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu17355
Clone ID Related Accession (Same CDS sequence)	XM_017024953.1 , XM_017024953.2 , NM_001039999.2 , NM_001039999.3
Accession Version	XM_017024953.1	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2472bp) 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	2016-06-05
Organism	Homo sapiens(human)
Product	protein FAM83G isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

RefSeq	XP_016880442.1
CDS	252..2723
Translation	MAFSQVQCLDDNHVNWRSSESKPEFFYSEEQRLALEALVARGRDAFYEVLKRENIRDFLSELELKRILETIEVYDPGSEDPRGTGPSQGPEDNGVGDGEEASGADGVPIEAEPLPSLEYWPQKSDRSIPQLDLGWPDTIAYRGVTRASVYMQPPIDGQAHIKEVVRKMISQAQKVIAVVMDMFTDVDIFKDLLDAGFKRKVAVYIIVDESNVKYFLHMCERACMHLGHLKNLRVRSSGGTEFFTRSATKFKGALAQKFMFVDGDRAVCGSYSFTWSAARTDRNVISVLSGQVVEMFDRQFQELYLMSHSVSLKGIPMEKEPEPEPIVLPSVVPLVPAGTVAKKLVNPKYALVKAKSVDEIAKISSEKQEAKKPLGLKGPALAEHPGELPELLPPIHPGLLHLERANMFEYLPTWVEPDPEPGSDILGYINIIDPNIWNPQPSQMNRIKIRDTSQASAQHQLWKQSQDSRPRPEPCPPPEPSAPQDGVPAENGLPQGDPEPLPPVPKPRTVPVADVLARDSSDIGWVLELPKEEAPQNGTDHRLPRMAGPGHAPLQRQLSVTQDDPESLGVGLPNGLDGVEEEDDDDYVTLSDQDSHSGSSGRGPGPRRPSVASSVSEEYFEVREHSVPLRRRHSEQVANGPTPPPRRQLSAPHITRGTFVGPQGGSPWAQSRGREEADALKRMQAQRSTDKEAQGQQFHHHRVPASGTRDKDGFPGPPRYRSAADSVQSSTRNAGPAMAGPHHWQAKGGQVPRLLPDPGSPRLAQNARPMTDGRATEEHPSPFGIPYSKLSQSKHLKARTGGSQWASSDSKRRAQAPRDRKDP

Target ORF information:

RefSeq Version	XM_017024953.1
Organism	Homo sapiens(human)
Definition	Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.

Target ORF information:

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

XM_017024953.1

ORF Insert Sequence:

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

FAM83G ( XM_017024953.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_016880442.1 Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu17355
Clone ID Related Accession (Same CDS sequence)	XM_017024953.1 , XM_017024953.2 , NM_001039999.2 , NM_001039999.3
Accession Version	XM_017024953.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2472bp) 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	2019-12-05
Organism	Homo sapiens(human)
Product	protein FAM83G isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_017024953.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

RefSeq	XP_016880442.1
CDS	251..2722
Translation	MAFSQVQCLDDNHVNWRSSESKPEFFYSEEQRLALEALVARGRDAFYEVLKRENIRDFLSELELKRILETIEVYDPGSEDPRGTGPSQGPEDNGVGDGEEASGADGVPIEAEPLPSLEYWPQKSDRSIPQLDLGWPDTIAYRGVTRASVYMQPPIDGQAHIKEVVRKMISQAQKVIAVVMDMFTDVDIFKDLLDAGFKRKVAVYIIVDESNVKYFLHMCERACMHLGHLKNLRVRSSGGTEFFTRSATKFKGALAQKFMFVDGDRAVCGSYSFTWSAARTDRNVISVLSGQVVEMFDRQFQELYLMSHSVSLKGIPMEKEPEPEPIVLPSVVPLVPAGTVAKKLVNPKYALVKAKSVDEIAKISSEKQEAKKPLGLKGPALAEHPGELPELLPPIHPGLLHLERANMFEYLPTWVEPDPEPGSDILGYINIIDPNIWNPQPSQMNRIKIRDTSQASAQHQLWKQSQDSRPRPEPCPPPEPSAPQDGVPAENGLPQGDPEPLPPVPKPRTVPVADVLARDSSDIGWVLELPKEEAPQNGTDHRLPRMAGPGHAPLQRQLSVTQDDPESLGVGLPNGLDGVEEEDDDDYVTLSDQDSHSGSSGRGPGPRRPSVASSVSEEYFEVREHSVPLRRRHSEQVANGPTPPPRRQLSAPHITRGTFVGPQGGSPWAQSRGREEADALKRMQAQRSTDKEAQGQQFHHHRVPASGTRDKDGFPGPPRYRSAADSVQSSTRNAGPAMAGPHHWQAKGGQVPRLLPDPGSPRLAQNARPMTDGRATEEHPSPFGIPYSKLSQSKHLKARTGGSQWASSDSKRRAQAPRDRKDP

Target ORF information:

RefSeq Version	XM_017024953.2
Organism	Homo sapiens(human)
Definition	Homo sapiens family with sequence similarity 83 member G (FAM83G), transcript variant X1, mRNA.

Target ORF information:

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

XM_017024953.2

ORF Insert Sequence:

ATGGCCTTCT CTCAGGTGCA GTGTCTGGAC GACAACCATG TGAACTGGCG CTCCAGCGAG 
TCCAAGCCTG AGTTCTTCTA CAGCGAGGAG CAGCGGCTGG CGCTGGAGGC CCTGGTGGCC 
CGCGGCCGGG ACGCCTTCTA CGAGGTGCTC AAGCGGGAGA ACATCCGAGA CTTCCTCTCG 
GAGCTGGAGC TCAAGCGCAT CCTGGAGACC ATCGAGGTGT ACGACCCGGG CTCTGAGGAC 
CCTCGGGGCA CGGGCCCCTC TCAGGGGCCC GAGGACAATG GGGTCGGCGA CGGCGAGGAA 
GCCAGCGGGG CGGATGGGGT CCCCATCGAG GCCGAGCCGC TGCCCTCCCT GGAGTACTGG 
CCCCAGAAGT CGGACCGCTC CATCCCGCAG CTGGACCTGG GCTGGCCCGA CACCATCGCC 
TACCGCGGCG TGACCCGGGC TAGCGTCTAC ATGCAGCCCC CCATAGACGG GCAGGCCCAC 
ATCAAAGAGG TGGTGCGGAA GATGATCAGC CAGGCACAGA AGGTGATAGC TGTGGTCATG 
GACATGTTCA CCGACGTGGA CATCTTCAAG GACCTGCTGG ACGCCGGCTT CAAGAGGAAA 
GTGGCCGTGT ACATCATCGT GGATGAGAGT AACGTCAAGT ACTTCCTGCA CATGTGTGAG 
CGGGCCTGCA TGCACCTGGG GCACCTCAAG AATCTCAGAG TGCGGAGCAG CGGGGGAACT 
GAGTTCTTCA CGCGGTCGGC AACCAAGTTC AAGGGTGCCC TGGCCCAGAA GTTCATGTTT 
GTGGATGGAG ACCGGGCTGT GTGCGGCTCC TACAGCTTCA CGTGGTCGGC CGCGCGGACG 
GACCGGAATG TGATCTCTGT GCTGTCTGGC CAGGTGGTGG AGATGTTTGA CCGGCAGTTC 
CAGGAGCTGT ACCTCATGTC ACACAGTGTG AGCCTCAAGG GCATCCCTAT GGAGAAGGAA 
CCGGAGCCGG AGCCTATTGT GCTGCCCTCT GTGGTCCCCC TGGTGCCCGC GGGCACTGTG 
GCCAAGAAGC TCGTCAACCC CAAGTACGCA CTTGTCAAGG CCAAGAGCGT CGACGAGATT 
GCCAAGATCT CCTCTGAGAA GCAGGAGGCC AAGAAGCCCC TGGGGCTGAA AGGCCCAGCG 
CTGGCTGAGC ATCCAGGGGA ACTCCCCGAG CTGCTGCCAC CCATCCACCC AGGACTGCTT 
CACCTGGAGA GGGCCAACAT GTTTGAGTAC CTGCCCACGT GGGTGGAGCC AGACCCGGAG 
CCTGGCAGCG ACATCCTGGG CTACATCAAT ATCATCGACC CCAACATCTG GAACCCCCAG 
CCCAGCCAGA TGAACCGCAT CAAGATCCGT GACACCTCCC AGGCCAGCGC CCAGCACCAG 
CTGTGGAAGC AGAGCCAGGA CAGCAGGCCC CGTCCAGAGC CTTGCCCTCC CCCAGAGCCC 
AGTGCCCCCC AGGACGGTGT CCCAGCTGAG AACGGCCTCC CCCAGGGGGA CCCTGAGCCA 
TTGCCCCCCG TGCCCAAGCC CCGGACAGTC CCTGTGGCAG ATGTACTAGC CCGGGACAGC 
AGTGATATTG GCTGGGTCCT GGAGCTCCCC AAAGAGGAAG CTCCCCAGAA TGGGACAGAC 
CATAGGCTAC CCAGGATGGC AGGCCCAGGC CACGCCCCAC TCCAGCGGCA GCTATCTGTG 
ACCCAGGATG ACCCCGAGAG CCTCGGGGTG GGGCTCCCCA ATGGGCTGGA TGGGGTGGAA 
GAAGAAGATG ATGACGACTA CGTAACCCTC AGTGACCAGG ACAGCCACTC AGGCAGCTCC 
GGCCGTGGCC CTGGCCCCCG ACGGCCCTCA GTGGCTTCCT CTGTGTCAGA GGAGTACTTC 
GAGGTGAGAG AGCACTCAGT CCCTCTCCGG AGGCGCCACT CAGAGCAAGT GGCCAACGGG 
CCAACCCCAC CACCGCGCCG GCAGCTGAGT GCCCCCCATA TAACCCGAGG GACCTTTGTT 
GGACCCCAGG GTGGCTCCCC ATGGGCCCAG AGTCGGGGAA GAGAAGAAGC AGATGCGTTG 
AAGAGGATGC AGGCCCAGCG CTCCACAGAC AAGGAGGCAC AGGGCCAGCA GTTTCATCAT 
CACAGGGTCC CTGCCTCAGG GACTAGGGAT AAAGACGGCT TCCCAGGACC CCCTAGGTAC 
CGCTCTGCTG CTGACAGCGT CCAGAGCTCT ACCAGAAACG CTGGCCCAGC CATGGCTGGC 
CCCCACCACT GGCAGGCCAA GGGAGGTCAG GTACCCCGCC TGCTTCCGGA TCCCGGCAGC 
CCAAGACTGG CCCAAAATGC CCGCCCCATG ACCGATGGCA GGGCCACCGA GGAGCATCCG 
AGTCCCTTCG GAATCCCATA CTCCAAACTG TCTCAGTCGA AGCACCTAAA GGCCAGGACG 
GGCGGTAGCC AGTGGGCCTC ATCGGATTCT AAACGGAGGG CTCAAGCCCC CCGGGACCGC 
AAAGACCCCT AG

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

PubMed

PAWS1 controls cytoskeletal dynamics and cell migration through association with the SH3 adaptor CD2AP.
Journal of cell science131(1)(2018 Jan)
Cummins TD,Wu KZL,Bozatzi P,Dingwell KS,Macartney TJ,Wood NT,Varghese J,Gourlay R,Campbell DG,Prescott A,Griffis E,Smith JC,Sapkota GP

Protein associated with SMAD1 (PAWS1/FAM83G) is a substrate for type I bone morphogenetic protein receptors and modulates bone morphogenetic protein signalling.
Open biology4130210(2014 Feb)
Vogt J,Dingwell KS,Herhaus L,Gourlay R,Macartney T,Campbell D,Smith JC,Sapkota GP

The wooly mutation (wly) on mouse chromosome 11 is associated with a genetic defect in Fam83g.
BMC research notes6189(2013 May)
Radden LA 2nd,Child KM,Adkins EB,Spacek DV,Feliciano AM,King TR

A probability-based approach for high-throughput protein phosphorylation analysis and site localization.
Nature biotechnology24(10)1285-92(2006 Oct)
Beausoleil SA,Vill?n J,Gerber SA,Rush J,Gygi SP

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FAM83G cDNA ORF clone, Homo sapiens(human)

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Target ORF information:

Target ORF information:

ORF Insert Sequence:

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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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