FNDC1 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	FNDC1
Entrez Gene ID	84624
Full Name	fibronectin type III domain containing 1
Synonyms	AGS8,FNDC2,MEL4B3,bA243O10.1,dJ322A24.1
General protein information	Preferred Names fibronectin type III domain containing 1 Names fibronectin type III domain-containing protein 1 activation-associated cDNA protein expressed in synovial lining protein fibronectin type III domain containing 2
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 6 Map Location: 6q25.3
Disorder MIM:	609991

mRNA and Protein(s)

mRNA	Protein	Name
NM_032532.3	NP_115921.2	fibronectin type III domain-containing protein 1 precursor
XM_011536191.2	XP_011534493.1	fibronectin type III domain-containing protein 1 isoform X2
NM_032532.2	NP_115921.2	fibronectin type III domain-containing protein 1 precursor
XM_011536190.2	XP_011534492.1	fibronectin type III domain-containing protein 1 isoform X1

Pathways from BioSystems

Homologies

Homo sapiens (human)	FNDC1	NP_115921.2
Pan troglodytes (chimpanzee)	FNDC1	XP_518834.4
Canis lupus familiaris (dog)	FNDC1	XP_541178.3
Rattus norvegicus (Norway rat)	Fndc1	NP_001033704.1
	FNDC1	XP_002803999.1

Gene Ontology
Bibliography

Related articles in PubMed

miR-1207-3p regulates the androgen receptor in prostate cancer via FNDC1/fibronectin.
Das DK, Naidoo M, Ilboudo A, Park JY, Ali T, Krampis K, Robinson BD, Osborne JR, Ogunwobi OO
Experimental cell research348(2)190-200(2016 Nov)

Activator of G-protein signaling 8 is involved in VEGF-mediated signal processing during angiogenesis.
Hayashi H, Al Mamun A, Sakima M, Sato M
Journal of cell science129(6)1210-22(2016 Mar)

A genome-wide association study identifies LIPA as a susceptibility gene for coronary artery disease.
Wild PS, Zeller T, Schillert A, Szymczak S, Sinning CR, Deiseroth A, Schnabel RB, Lubos E, Keller T, Eleftheriadis MS, Bickel C, Rupprecht HJ, Wilde S, Rossmann H, Diemert P, Cupples LA, Perret C, Erdmann J, Stark K, Kleber ME, Epstein SE, Voight BF, Kuulasmaa K, Li M, Sch?fer AS, Klopp N, Braund PS, Sager HB, Demissie S, Proust C, K?nig IR, Wichmann HE, Reinhard W, Hoffmann MM, Virtamo J, Burnett MS, Siscovick D, Wiklund PG, Qu L, El Mokthari NE, Thompson JR, Peters A, Smith AV, Yon E, Baumert J, Hengstenberg C, M?rz W, Amouyel P, Devaney J, Schwartz SM, Saarela O, Mehta NN, Rubin D, Silander K, Hall AS, Ferrieres J, Harris TB, Melander O, Kee F, Hakonarson H, Schrezenmeir J, Gudnason V, Elosua R, Arveiler D, Evans A, Rader DJ, Illig T, Schreiber S, Bis JC, Altshuler D, Kavousi M, Witteman JC, Uitterlinden AG, Hofman A, Folsom AR, Barbalic M, Boerwinkle E, Kathiresan S, Reilly MP, O'Donnell CJ, Samani NJ, Schunkert H, Cambien F, Lackner KJ, Tiret L, Salomaa V, Munzel T, Ziegler A, Blankenberg S
Circulation. Cardiovascular genetics4(4)403-12(2011 Aug)

MEL4B3, a novel mRNA is induced in skin tumors and regulated by TGF-beta and pro-inflammatory cytokines.
Anderegg U, Breitschwerdt K, K?hler MJ, Sticherling M, Haustein UF, Simon JC, Saalbach A
Experimental dermatology14(9)709-18(2005 Sep)

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

these studies have revealed a novel microRNA-1207-3p/FNDC1/FN1/AR regulatory pathway in prostate cancer.
Title: miR-1207-3p regulates the androgen receptor in prostate cancer via FNDC1/fibronectin.

Knockdown of AGS8 inhibited vascular endothelial growth factor (VEGF)-induced tube formation, as well as VEGF-stimulated cell growth and migration.
Title: Activator of G-protein signaling 8 is involved in VEGF-mediated signal processing during angiogenesis.

Clinical trial of gene-disease association and gene-environment interaction. (HuGE Navigator)
Title: Personalized smoking cessation: interactions between nicotine dose, dependence and quit-success genotype score.

MEL4B3 is a novel mRNA induced in skin tumors and regulated by TGF-beta and pro-inflammatory cytokines
Title: MEL4B3, a novel mRNA is induced in skin tumors and regulated by TGF-beta and pro-inflammatory cytokines.

mechanical stretching of FN-III1 may induce fibrillogenesis through a partially unfolded intermediate
Title: Structure and functional significance of mechanically unfolded fibronectin type III1 intermediates.

The following FNDC1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FNDC1 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)
OHu11013	NM_032532.3 Latest version!	Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$923.30 $1319.00
OHu73617	XM_011536190.2 Latest version!	Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$951.30 $1359.00
OHu73618	XM_011536191.2 Latest version!	Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$951.30 $1359.00
View Old Accession Versions >>
OHu11013	NM_032532.2	Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	in pcDNA3.1-C-(k)DYK	$659.50-$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)

FNDC1 ( NM_032532.3 ) cDNA ORF clone, Homo sapiens(human) -> NP_115921.2 Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.

Price & Availability↑

CloneID	OHu11013
Clone ID Related Accession (Same CDS sequence)	NM_032532.3 , NM_032532.2
Accession Version	NM_032532.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5685bp) 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	2019-12-30
Organism	Homo sapiens(human)
Product	fibronectin type III domain-containing protein 1 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DQ009660.1, AL356417.17 and AL590551.8. On Nov 23, 2018 this sequence version replaced NM_032532.2. ##Evidence-Data-START## Transcript exon combination :: DQ009660.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA2144120 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000297267.14/ ENSP00000297267.9 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: full length.

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GGAGGTGAAT GGATCGAGAT TGATGGTTTT 
CCCATTAAGG GTCCAGGACC ATTTAATGAA ACCGTCACAG AAAAGGAAGT GCCCAACAAG 
CCCTTGCGTG TGCGTGTCCG GTCCTCAGAT GACAGGCTGT CCGTTGCGTG GAAGGCACCA 
CGCCTGTCTG GAGCCAAGAG TCCACGCAGA TCACGGGGTT TTCTCCTGGG CTACGGGGAG 
AGTGGCCGGA AGATGAATTA TGTTCCACTG ACAAGAGATG AACGGACACA CGAAATTAAA 
AAGCTAGCCT CGGAATCCGT GTATGTGGTC TCCCTGCAGT CCATGAACTC TCAGGGCCGG 
AGCCAACCAG TCTACAGGGC TGCCCTAACA AAGCGAAAGA TTTCAGAAGA GGACGAATTG 
GATGTACCTG ACGACATCAG CGTCCGGGTT ATGTCATCTC AGTCTGTGCT TGTGTCCTGG 
GTGGATCCTG TTCTGGAAAA ACAGAAGAAA GTTGTTGCAT CAAGACAGTA CACCGTGCGC 
TATCGAGAGA AGGGGGAATT GGCCAGGTGG GATTATAAGC AGATCGCTAA CAGGCGTGTG 
CTGATTGAGA ACCTGATTCC AGACACTGTG TATGAATTTG CAGTCCGTAT TTCACAGGGT 
GAAAGAGATG GCAAATGGAG TACGTCAGTC TTCCAAAGAA CACCAGAATC TGCCCCTACC 
ACAGCTCCTG AAAACTTGAA CGTCTGGCCA GTCAATGGCA AACCTACAGT TGTCGCTGCA 
TCTTGGGATG CGCTACCAGA GACTGAGGGG AAAGTGAAAG AATACATTCT TTCATACGCC 
CCGGCTCTCA AACCATTTGG AGCAAAGTCC CTCACCTATC CTGGAGACAC TACTTCTGCC 
CTGGTGGATG GTCTGCAGCC TGGGGAACGC TATCTTTTCA AAATCCGGGC CACAAACAGG 
AGAGGCCTGG GACCTCACTC CAAAGCCTTC ATTGTCGCTA TGCCAACAAC CAGTAAGGCG 
GATGTTGAGC AGAACACGGA GGACAATGGG AAACCCGAAA AACCTGAGCC TTCCTCACCT 
TCTCCCAGAG CTCCAGCTTC CTCCCAACAC CCCTCTGTGC CTGCTTCTCC CCAAGGGAGA 
AATGCCAAGG ACCTTCTTCT TGACTTGAAG AACAAAATAT TGGCTAATGG TGGGGCGCCC 
CGAAAACCCC AGCTTCGCGC CAAGAAGGCA GAGGAGCTGG ATCTTCAGTC GACAGAAATC 
ACTGGGGAGG AGGAGCTGGG TTCCCGGGAG GACTCGCCCA TGTCACCCTC AGACACCCAA 
GACCAGAAAC GGACCCTGAG GCCGCCAAGT AGACACGGCC ACTCGGTGGT TGCTCCCGGC 
AGGACTGCAG TGAGGGCCCG GATGCCAGCG CTGCCCCGAA GGGAAGGCGT AGATAAGCCT 
GGCTTTTCCC TGGCCACGCA GCCCCGCCCA GGGGCGCCCC CCTCGGCTTC GGCCTCTCCT 
GCCCACCACG CGTCCACCCA GGGCACCTCT CATCGTCCTT CCCTGCCTGC CAGCTTGAAT 
GACAACGACT TGGTGGACTC AGACGAAGAT GAGCGCGCTG TGGGCTCCCT CCACCCCAAG 
GGCGCCTTCG CCCAGCCCCG GCCAGCCCTG TCCCCCAGCC GCCAGTCCCC GTCCAGCGTT 
CTCCGCGACA GAAGCTCTGT GCACCCCGGC GCAAAGCCAG CCTCGCCGGC CCGGAGGACC 
CCCCATTCAG GGGCCGCAGA GGAAGATTCC AGTGCCTCAG CCCCACCCTC AAGACTTTCT 
CCACCCCATG GGGGATCATC TCGGCTGCTG CCCACCCAGC CACACCTGAG CTCTCCACTT 
TCCAAGGGCG GGAAGGATGG TGAGGACGCC CCAGCCACCA ACTCCAATGC GCCATCACGG 
TCCACCATGT CCTCCTCCGT CTCTTCTCAT CTCTCGTCCA GGACGCAGGT CTCTGAGGGA 
GCGGAGGCTT CTGATGGTGA AAGCCACGGT GACGGCGATA GGGAAGACGG CGGAAGGCAG 
GCGGAGGCCA CGGCCCAGAC GCTGCGGGCC CGGCCTGCCT CTGGACACTT CCATTTGCTC 
AGACACAAAC CCTTTGCTGC CAACGGGAGG TCTCCAAGCA GGTTCAGCAT TGGGCGGGGA 
CCTCGGCTGC AGCCCTCCAG CTCCCCACAG TCGACTGTGC CCTCCCGAGC CCACCCCAGG 
GTTCCCTCTC ACTCTGATTC CCACCCTAAG CTTAGCTCAG GTATCCATGG AGACGAGGAG 
GATGAGAAGC CGCTTCCTGC CACCGTTGTC AATGACCACG TGCCTTCCTC CTCCAGGCAG 
CCCATCTCCC GGGGCTGGGA GGACTTAAGG AGAAGCCCGC AGAGAGGGGC CAGCCTGCAT 
CGGAAGGAAC CCATCCCAGA GAACCCCAAA TCCACAGGGG CAGATACACA TCCTCAGGGC 
AAGTACTCCT CCCTGGCCTC CAAGGCTCAG GATGTTCAAC AGAGCACAGA CGCGGACACG 
GAGGGTCATT CTCCCAAAGC ACAGCCAGGG TCCACAGACC GCCACGCGTC CCCTGCTCGT 
CCGCCCGCAG CACGGTCACA GCAGCATCCC AGTGTTCCCA GAAGGATGAC ACCCGGCCGG 
GCCCCACAAC AGCAGCCCCC TCCTCCCGTC GCCACGTCCC AGCACCACCC GGGACCCCAG 
AGCAGAGACG CGGGTCGGTC ACCTTCCCAG CCCAGGCTCT CACTGACCCA GGCCGGGCGG 
CCCCGCCCCA CGTCGCAGGG CCGCTCCCAC TCCTCCTCGG ACCCTTACAC GGCGAGCTCC 
AGAGGGATGC TCCCCACGGC CCTCCAGAAC CAGGACGAGG ATGCCCAGGG CAGCTACGAC 
GACGACAGCA CAGAAGTCGA GGCCCAGGAT GTGCGGGCCC CCGCGCACGC CGCGCGCGCC 
AAGGAGGCAG CTGCGTCCCT TCCCAAGCAC CAGCAGGTGG AGTCTCCCAC AGGCGCAGGG 
GCAGGTGGCG ACCACAGGTC CCAGCGCGGA CATGCGGCCT CCCCCGCCAG GCCCAGCCGA 
CCCGGCGGCC CCCAGTCCCG CGCCCGGGTA CCCAGCAGGG CAGCGCCGGG GAAGTCGGAG 
CCTCCTTCCA AGCGGCCCCT GTCCTCCAAG TCCCAGCAGT CGGTCTCAGC CGAGGACGAC 
GAGGAGGAGG ACGCGGGATT TTTTAAAGGC GGGAAAGAAG ACCTTCTGTC TTCCTCTGTG 
CCAAAGTGGC CCTCTTCCTC CACTCCCAGG GGCGGCAAAG ACGCCGATGG GAGCCTCGCC 
AAGGAAGAGA GGGAGCCTGC CATCGCGCTT GCCCCTCGCG GAGGGAGCCT GGCTCCTGTG 
AAGCGACCTC TCCCCCCACC TCCAGGCAGC TCCCCCAGGG CCTCCCACGT CCCTTCCCGA 
CTGCCGCCTC GCAGCGCTGC CACCGTGAGC CCCGTCGCGG GCACCCACCC CTGGCCGCAG 
TACACCACGC GCGCCCCACC TGGCCACTTC TCCACCACCC CGATGCTGTC CTTGCGCCAG 
AGGATGATGC ATGCCAGATT CCGTAACCCT CTCTCCCGAC AGCCTGCCAG ACCCTCTTAC 
AGACAAGGTT ATAATGGCAG ACCAAATGTA GAAGGGAAAG TCCTTCCTGG TAGTAATGGA 
AAACCGAATG GACAGAGAAT TATCAATGGC CCTCAAGGAA CAAAGTGGGT TGTGGACCTT 
GATCGTGGGT TAGTATTGAA TGCAGAAGGA AGGTACCTCC AAGATTCACA TGGAAATCCT 
CTTCGGATTA AACTAGGAGG AGATGGTCGA ACCATTGTAG ATCTGGAAGG GACCCCCGTG 
GTGAGTCCTG ACGGCCTCCC ACTCTTTGGG CAGGGGCGAC ATGGCACACC TCTGGCCAAT 
GCCCAAGATA AGCCAATTTT GAGTCTTGGA GGAAAGCCGC TGGTGGGCTT GGAGGTCATC 
AAAAAAACCA CCCATCCCCC TACCACTACC ATGCAGCCCA CCACTACTAC GACGCCCCTG 
CCTACCACTA CAACCCCGAG GCCCACCACT GCCACCACCC GCCGCACGAC CACCACCCGC 
CGCACGACCA CCAGGCGTCC AACAACCACA GTCCGAACCA CTACGCGGAC AACCACCACC 
ACCACCCCCA CACCCACCAC TCCCATCCCC ACCTGTCCCC CTGGGACCTT GGAACGGCAC 
GACGATGATG GCAACCTGAT AATGAGCTCC AATGGGATCC CAGAGTGCTA CGCTGAAGAA 
GATGAGTTCT CAGGCTTGGA GACTGACACT GCAGTACCTA CGGAAGAGGC CTACGTTATA 
TATGATGAAG ATTATGAATT TGAGACGTCA AGGCCACCAA CCACCACTGA GCCTTCGACC 
ACTGCTACCA CACCGAGGGT GATCCCAGAG GAAGGCGCCA TCAGTTCCTT TCCTGAAGAA 
GAATTTGATC TGGCTGGAAG GAAACGATTT GTTGCTCCTT ACGTGACGTA CCTAAATAAA 
GACCCATCAG CCCCGTGCTC TCTGACTGAT GCACTGGATC ACTTCCAAGT GGACAGCCTG 
GATGAAATCA TCCCCAATGA CCTGAAGAAG AGTGACCTGC CTCCCCAGCA TGCTCCCCGC 
AACATCACCG TGGTGGCCGT GGAAGGTTGC CACTCATTTG TCATTGTGGA CTGGGACAAA 
GCCACCCCAG GAGATGTGGT CACAGGTTAC TTGGTTTACA GTGCATCCTA TGAAGACTTC 
ATCAGGAACA AGTGGTCCAC TCAAGCTTCA TCAGTAACTC ACTTGCCCAT TGAGAACCTA 
AAGCCCAACA CGAGGTATTA TTTTAAAGTG CAAGCACAAA ATCCTCATGG CTACGGACCT 
ATCAGCCCTT CGGTCTCATT TGTCACCGAA TCAGATAATC CTCTGCTTGT TGTGAGGCCC 
CCAGGCGGTG AGCCTATCTG GATCCCATTC GCTTTCAAAC ATGATCCCAG CTACACGGAC 
TGCCATGGAC GGCAATATGT GAAGCGCACG TGGTATCGAA AGTTCGTGGG AGTTGTTCTT 
TGTAATTCAC TGAGGTATAA AATCTACCTC AGTGACAACC TGAAAGATAC ATTCTACAGC 
ATTGGAGACA GCTGGGGAAG AGGTGAAGAC CATTGCCAAT TTGTGGATTC ACACCTTGAT 
GGAAGAACAG GGCCTCAGTC CTATGTAGAA GCCCTCCCTA CTATTCAAGG CTACTATCGC 
CAGTATCGTC AGGAGCCTGT CAGGTTTGGG AACATCGGCT TCGGAACCCC CTACTACTAT 
GTGGGCTGGT ACGAGTGTGG GGTCTCCATC CCTGGAAAGT GGTAA

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

RefSeq	NP_115921.2
CDS	198..5882
Translation	MAPEAGATLRAPRRLSWAALLLLAALLPVASSAAASVDHPLKPRHVKLLSTKMGLKVTWDPPKDATSRPVEHYNIAYGKSLKSLKYIKVNAETYSFLIEDVEPGVVYFVLLTAENHSGVSRPVYRAESPPGGEWIEIDGFPIKGPGPFNETVTEKEVPNKPLRVRVRSSDDRLSVAWKAPRLSGAKSPRRSRGFLLGYGESGRKMNYVPLTRDERTHEIKKLASESVYVVSLQSMNSQGRSQPVYRAALTKRKISEEDELDVPDDISVRVMSSQSVLVSWVDPVLEKQKKVVASRQYTVRYREKGELARWDYKQIANRRVLIENLIPDTVYEFAVRISQGERDGKWSTSVFQRTPESAPTTAPENLNVWPVNGKPTVVAASWDALPETEGKVKEYILSYAPALKPFGAKSLTYPGDTTSALVDGLQPGERYLFKIRATNRRGLGPHSKAFIVAMPTTSKADVEQNTEDNGKPEKPEPSSPSPRAPASSQHPSVPASPQGRNAKDLLLDLKNKILANGGAPRKPQLRAKKAEELDLQSTEITGEEELGSREDSPMSPSDTQDQKRTLRPPSRHGHSVVAPGRTAVRARMPALPRREGVDKPGFSLATQPRPGAPPSASASPAHHASTQGTSHRPSLPASLNDNDLVDSDEDERAVGSLHPKGAFAQPRPALSPSRQSPSSVLRDRSSVHPGAKPASPARRTPHSGAAEEDSSASAPPSRLSPPHGGSSRLLPTQPHLSSPLSKGGKDGEDAPATNSNAPSRSTMSSSVSSHLSSRTQVSEGAEASDGESHGDGDREDGGRQAEATAQTLRARPASGHFHLLRHKPFAANGRSPSRFSIGRGPRLQPSSSPQSTVPSRAHPRVPSHSDSHPKLSSGIHGDEEDEKPLPATVVNDHVPSSSRQPISRGWEDLRRSPQRGASLHRKEPIPENPKSTGADTHPQGKYSSLASKAQDVQQSTDADTEGHSPKAQPGSTDRHASPARPPAARSQQHPSVPRRMTPGRAPQQQPPPPVATSQHHPGPQSRDAGRSPSQPRLSLTQAGRPRPTSQGRSHSSSDPYTASSRGMLPTALQNQDEDAQGSYDDDSTEVEAQDVRAPAHAARAKEAAASLPKHQQVESPTGAGAGGDHRSQRGHAASPARPSRPGGPQSRARVPSRAAPGKSEPPSKRPLSSKSQQSVSAEDDEEEDAGFFKGGKEDLLSSSVPKWPSSSTPRGGKDADGSLAKEEREPAIALAPRGGSLAPVKRPLPPPPGSSPRASHVPSRLPPRSAATVSPVAGTHPWPQYTTRAPPGHFSTTPMLSLRQRMMHARFRNPLSRQPARPSYRQGYNGRPNVEGKVLPGSNGKPNGQRIINGPQGTKWVVDLDRGLVLNAEGRYLQDSHGNPLRIKLGGDGRTIVDLEGTPVVSPDGLPLFGQGRHGTPLANAQDKPILSLGGKPLVGLEVIKKTTHPPTTTMQPTTTTTPLPTTTTPRPTTATTRRTTTTRRTTTRRPTTTVRTTTRTTTTTTPTPTTPIPTCPPGTLERHDDDGNLIMSSNGIPECYAEEDEFSGLETDTAVPTEEAYVIYDEDYEFETSRPPTTTEPSTTATTPRVIPEEGAISSFPEEEFDLAGRKRFVAPYVTYLNKDPSAPCSLTDALDHFQVDSLDEIIPNDLKKSDLPPQHAPRNITVVAVEGCHSFVIVDWDKATPGDVVTGYLVYSASYEDFIRNKWSTQASSVTHLPIENLKPNTRYYFKVQAQNPHGYGPISPSVSFVTESDNPLLVVRPPGGEPIWIPFAFKHDPSYTDCHGRQYVKRTWYRKFVGVVLCNSLRYKIYLSDNLKDTFYSIGDSWGRGEDHCQFVDSHLDGRTGPQSYVEALPTIQGYYRQYRQEPVRFGNIGFGTPYYYVGWYECGVSIPGKW

Target ORF information:

RefSeq Version	NM_032532.3
Organism	Homo sapiens(human)
Definition	Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.

Target ORF information:

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

NM_032532.3

ORF Insert Sequence:

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GGAGGTGAAT GGATCGAGAT TGATGGTTTT 
CCCATTAAGG GTCCAGGACC ATTTAATGAA ACCGTCACAG AAAAGGAAGT GCCCAACAAG 
CCCTTGCGTG TGCGTGTCCG GTCCTCAGAT GACAGGCTGT CCGTTGCGTG GAAGGCACCA 
CGCCTGTCTG GAGCCAAGAG TCCACGCAGA TCACGGGGTT TTCTCCTGGG CTACGGGGAG 
AGTGGCCGGA AGATGAATTA TGTTCCACTG ACAAGAGATG AACGGACACA CGAAATTAAA 
AAGCTAGCCT CGGAATCCGT GTATGTGGTC TCCCTGCAGT CCATGAACTC TCAGGGCCGG 
AGCCAACCAG TCTACAGGGC TGCCCTAACA AAGCGAAAGA TTTCAGAAGA GGACGAATTG 
GATGTACCTG ACGACATCAG CGTCCGGGTT ATGTCATCTC AGTCTGTGCT TGTGTCCTGG 
GTGGATCCTG TTCTGGAAAA ACAGAAGAAA GTTGTTGCAT CAAGACAGTA CACCGTGCGC 
TATCGAGAGA AGGGGGAATT GGCCAGGTGG GATTATAAGC AGATCGCTAA CAGGCGTGTG 
CTGATTGAGA ACCTGATTCC AGACACTGTG TATGAATTTG CAGTCCGTAT TTCACAGGGT 
GAAAGAGATG GCAAATGGAG TACGTCAGTC TTCCAAAGAA CACCAGAATC TGCCCCTACC 
ACAGCTCCTG AAAACTTGAA CGTCTGGCCA GTCAATGGCA AACCTACAGT TGTCGCTGCA 
TCTTGGGATG CGCTACCAGA GACTGAGGGG AAAGTGAAAG AATACATTCT TTCATACGCC 
CCGGCTCTCA AACCATTTGG AGCAAAGTCC CTCACCTATC CTGGAGACAC TACTTCTGCC 
CTGGTGGATG GTCTGCAGCC TGGGGAACGC TATCTTTTCA AAATCCGGGC CACAAACAGG 
AGAGGCCTGG GACCTCACTC CAAAGCCTTC ATTGTCGCTA TGCCAACAAC CAGTAAGGCG 
GATGTTGAGC AGAACACGGA GGACAATGGG AAACCCGAAA AACCTGAGCC TTCCTCACCT 
TCTCCCAGAG CTCCAGCTTC CTCCCAACAC CCCTCTGTGC CTGCTTCTCC CCAAGGGAGA 
AATGCCAAGG ACCTTCTTCT TGACTTGAAG AACAAAATAT TGGCTAATGG TGGGGCGCCC 
CGAAAACCCC AGCTTCGCGC CAAGAAGGCA GAGGAGCTGG ATCTTCAGTC GACAGAAATC 
ACTGGGGAGG AGGAGCTGGG TTCCCGGGAG GACTCGCCCA TGTCACCCTC AGACACCCAA 
GACCAGAAAC GGACCCTGAG GCCGCCAAGT AGACACGGCC ACTCGGTGGT TGCTCCCGGC 
AGGACTGCAG TGAGGGCCCG GATGCCAGCG CTGCCCCGAA GGGAAGGCGT AGATAAGCCT 
GGCTTTTCCC TGGCCACGCA GCCCCGCCCA GGGGCGCCCC CCTCGGCTTC GGCCTCTCCT 
GCCCACCACG CGTCCACCCA GGGCACCTCT CATCGTCCTT CCCTGCCTGC CAGCTTGAAT 
GACAACGACT TGGTGGACTC AGACGAAGAT GAGCGCGCTG TGGGCTCCCT CCACCCCAAG 
GGCGCCTTCG CCCAGCCCCG GCCAGCCCTG TCCCCCAGCC GCCAGTCCCC GTCCAGCGTT 
CTCCGCGACA GAAGCTCTGT GCACCCCGGC GCAAAGCCAG CCTCGCCGGC CCGGAGGACC 
CCCCATTCAG GGGCCGCAGA GGAAGATTCC AGTGCCTCAG CCCCACCCTC AAGACTTTCT 
CCACCCCATG GGGGATCATC TCGGCTGCTG CCCACCCAGC CACACCTGAG CTCTCCACTT 
TCCAAGGGCG GGAAGGATGG TGAGGACGCC CCAGCCACCA ACTCCAATGC GCCATCACGG 
TCCACCATGT CCTCCTCCGT CTCTTCTCAT CTCTCGTCCA GGACGCAGGT CTCTGAGGGA 
GCGGAGGCTT CTGATGGTGA AAGCCACGGT GACGGCGATA GGGAAGACGG CGGAAGGCAG 
GCGGAGGCCA CGGCCCAGAC GCTGCGGGCC CGGCCTGCCT CTGGACACTT CCATTTGCTC 
AGACACAAAC CCTTTGCTGC CAACGGGAGG TCTCCAAGCA GGTTCAGCAT TGGGCGGGGA 
CCTCGGCTGC AGCCCTCCAG CTCCCCACAG TCGACTGTGC CCTCCCGAGC CCACCCCAGG 
GTTCCCTCTC ACTCTGATTC CCACCCTAAG CTTAGCTCAG GTATCCATGG AGACGAGGAG 
GATGAGAAGC CGCTTCCTGC CACCGTTGTC AATGACCACG TGCCTTCCTC CTCCAGGCAG 
CCCATCTCCC GGGGCTGGGA GGACTTAAGG AGAAGCCCGC AGAGAGGGGC CAGCCTGCAT 
CGGAAGGAAC CCATCCCAGA GAACCCCAAA TCCACAGGGG CAGATACACA TCCTCAGGGC 
AAGTACTCCT CCCTGGCCTC CAAGGCTCAG GATGTTCAAC AGAGCACAGA CGCGGACACG 
GAGGGTCATT CTCCCAAAGC ACAGCCAGGG TCCACAGACC GCCACGCGTC CCCTGCTCGT 
CCGCCCGCAG CACGGTCACA GCAGCATCCC AGTGTTCCCA GAAGGATGAC ACCCGGCCGG 
GCCCCACAAC AGCAGCCCCC TCCTCCCGTC GCCACGTCCC AGCACCACCC GGGACCCCAG 
AGCAGAGACG CGGGTCGGTC ACCTTCCCAG CCCAGGCTCT CACTGACCCA GGCCGGGCGG 
CCCCGCCCCA CGTCGCAGGG CCGCTCCCAC TCCTCCTCGG ACCCTTACAC GGCGAGCTCC 
AGAGGGATGC TCCCCACGGC CCTCCAGAAC CAGGACGAGG ATGCCCAGGG CAGCTACGAC 
GACGACAGCA CAGAAGTCGA GGCCCAGGAT GTGCGGGCCC CCGCGCACGC CGCGCGCGCC 
AAGGAGGCAG CTGCGTCCCT TCCCAAGCAC CAGCAGGTGG AGTCTCCCAC AGGCGCAGGG 
GCAGGTGGCG ACCACAGGTC CCAGCGCGGA CATGCGGCCT CCCCCGCCAG GCCCAGCCGA 
CCCGGCGGCC CCCAGTCCCG CGCCCGGGTA CCCAGCAGGG CAGCGCCGGG GAAGTCGGAG 
CCTCCTTCCA AGCGGCCCCT GTCCTCCAAG TCCCAGCAGT CGGTCTCAGC CGAGGACGAC 
GAGGAGGAGG ACGCGGGATT TTTTAAAGGC GGGAAAGAAG ACCTTCTGTC TTCCTCTGTG 
CCAAAGTGGC CCTCTTCCTC CACTCCCAGG GGCGGCAAAG ACGCCGATGG GAGCCTCGCC 
AAGGAAGAGA GGGAGCCTGC CATCGCGCTT GCCCCTCGCG GAGGGAGCCT GGCTCCTGTG 
AAGCGACCTC TCCCCCCACC TCCAGGCAGC TCCCCCAGGG CCTCCCACGT CCCTTCCCGA 
CTGCCGCCTC GCAGCGCTGC CACCGTGAGC CCCGTCGCGG GCACCCACCC CTGGCCGCAG 
TACACCACGC GCGCCCCACC TGGCCACTTC TCCACCACCC CGATGCTGTC CTTGCGCCAG 
AGGATGATGC ATGCCAGATT CCGTAACCCT CTCTCCCGAC AGCCTGCCAG ACCCTCTTAC 
AGACAAGGTT ATAATGGCAG ACCAAATGTA GAAGGGAAAG TCCTTCCTGG TAGTAATGGA 
AAACCGAATG GACAGAGAAT TATCAATGGC CCTCAAGGAA CAAAGTGGGT TGTGGACCTT 
GATCGTGGGT TAGTATTGAA TGCAGAAGGA AGGTACCTCC AAGATTCACA TGGAAATCCT 
CTTCGGATTA AACTAGGAGG AGATGGTCGA ACCATTGTAG ATCTGGAAGG GACCCCCGTG 
GTGAGTCCTG ACGGCCTCCC ACTCTTTGGG CAGGGGCGAC ATGGCACACC TCTGGCCAAT 
GCCCAAGATA AGCCAATTTT GAGTCTTGGA GGAAAGCCGC TGGTGGGCTT GGAGGTCATC 
AAAAAAACCA CCCATCCCCC TACCACTACC ATGCAGCCCA CCACTACTAC GACGCCCCTG 
CCTACCACTA CAACCCCGAG GCCCACCACT GCCACCACCC GCCGCACGAC CACCACCCGC 
CGCACGACCA CCAGGCGTCC AACAACCACA GTCCGAACCA CTACGCGGAC AACCACCACC 
ACCACCCCCA CACCCACCAC TCCCATCCCC ACCTGTCCCC CTGGGACCTT GGAACGGCAC 
GACGATGATG GCAACCTGAT AATGAGCTCC AATGGGATCC CAGAGTGCTA CGCTGAAGAA 
GATGAGTTCT CAGGCTTGGA GACTGACACT GCAGTACCTA CGGAAGAGGC CTACGTTATA 
TATGATGAAG ATTATGAATT TGAGACGTCA AGGCCACCAA CCACCACTGA GCCTTCGACC 
ACTGCTACCA CACCGAGGGT GATCCCAGAG GAAGGCGCCA TCAGTTCCTT TCCTGAAGAA 
GAATTTGATC TGGCTGGAAG GAAACGATTT GTTGCTCCTT ACGTGACGTA CCTAAATAAA 
GACCCATCAG CCCCGTGCTC TCTGACTGAT GCACTGGATC ACTTCCAAGT GGACAGCCTG 
GATGAAATCA TCCCCAATGA CCTGAAGAAG AGTGACCTGC CTCCCCAGCA TGCTCCCCGC 
AACATCACCG TGGTGGCCGT GGAAGGTTGC CACTCATTTG TCATTGTGGA CTGGGACAAA 
GCCACCCCAG GAGATGTGGT CACAGGTTAC TTGGTTTACA GTGCATCCTA TGAAGACTTC 
ATCAGGAACA AGTGGTCCAC TCAAGCTTCA TCAGTAACTC ACTTGCCCAT TGAGAACCTA 
AAGCCCAACA CGAGGTATTA TTTTAAAGTG CAAGCACAAA ATCCTCATGG CTACGGACCT 
ATCAGCCCTT CGGTCTCATT TGTCACCGAA TCAGATAATC CTCTGCTTGT TGTGAGGCCC 
CCAGGCGGTG AGCCTATCTG GATCCCATTC GCTTTCAAAC ATGATCCCAG CTACACGGAC 
TGCCATGGAC GGCAATATGT GAAGCGCACG TGGTATCGAA AGTTCGTGGG AGTTGTTCTT 
TGTAATTCAC TGAGGTATAA AATCTACCTC AGTGACAACC TGAAAGATAC ATTCTACAGC 
ATTGGAGACA GCTGGGGAAG AGGTGAAGAC CATTGCCAAT TTGTGGATTC ACACCTTGAT 
GGAAGAACAG GGCCTCAGTC CTATGTAGAA GCCCTCCCTA CTATTCAAGG CTACTATCGC 
CAGTATCGTC AGGAGCCTGT CAGGTTTGGG AACATCGGCT TCGGAACCCC CTACTACTAT 
GTGGGCTGGT ACGAGTGTGG GGTCTCCATC CCTGGAAAGT GGTAA

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

FNDC1 ( NM_032532.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_115921.2 Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.

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CloneID	OHu11013
Clone ID Related Accession (Same CDS sequence)	NM_032532.3 , NM_032532.2
Accession Version	NM_032532.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5685bp) 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	2017-11-26
Organism	Homo sapiens(human)
Product	fibronectin type III domain-containing protein 1 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from DQ009660.1, AL356417.17 and AL590551.8. On Jun 14, 2007 this sequence version replaced NM_032532.1. ##Evidence-Data-START## Transcript exon combination :: DQ009660.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA2144120 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GGAGGTGAAT GGATCGAGAT TGATGGTTTT 
CCCATTAAGG GTCCAGGACC ATTTAATGAA ACCGTCACAG AAAAGGAAGT GCCCAACAAG 
CCCTTGCGTG TGCGTGTCCG GTCCTCAGAT GACAGGCTGT CCGTTGCGTG GAAGGCACCA 
CGCCTGTCTG GAGCCAAGAG TCCACGCAGA TCACGGGGTT TTCTCCTGGG CTACGGGGAG 
AGTGGCCGGA AGATGAATTA TGTTCCACTG ACAAGAGATG AACGGACACA CGAAATTAAA 
AAGCTAGCCT CGGAATCCGT GTATGTGGTC TCCCTGCAGT CCATGAACTC TCAGGGCCGG 
AGCCAACCAG TCTACAGGGC TGCCCTAACA AAGCGAAAGA TTTCAGAAGA GGACGAATTG 
GATGTACCTG ACGACATCAG CGTCCGGGTT ATGTCATCTC AGTCTGTGCT TGTGTCCTGG 
GTGGATCCTG TTCTGGAAAA ACAGAAGAAA GTTGTTGCAT CAAGACAGTA CACCGTGCGC 
TATCGAGAGA AGGGGGAATT GGCCAGGTGG GATTATAAGC AGATCGCTAA CAGGCGTGTG 
CTGATTGAGA ACCTGATTCC AGACACTGTG TATGAATTTG CAGTCCGTAT TTCACAGGGT 
GAAAGAGATG GCAAATGGAG TACGTCAGTC TTCCAAAGAA CACCAGAATC TGCCCCTACC 
ACAGCTCCTG AAAACTTGAA CGTCTGGCCA GTCAATGGCA AACCTACAGT TGTCGCTGCA 
TCTTGGGATG CGCTACCAGA GACTGAGGGG AAAGTGAAAG AATACATTCT TTCATACGCC 
CCGGCTCTCA AACCATTTGG AGCAAAGTCC CTCACCTATC CTGGAGACAC TACTTCTGCC 
CTGGTGGATG GTCTGCAGCC TGGGGAACGC TATCTTTTCA AAATCCGGGC CACAAACAGG 
AGAGGCCTGG GACCTCACTC CAAAGCCTTC ATTGTCGCTA TGCCAACAAC CAGTAAGGCG 
GATGTTGAGC AGAACACGGA GGACAATGGG AAACCCGAAA AACCTGAGCC TTCCTCACCT 
TCTCCCAGAG CTCCAGCTTC CTCCCAACAC CCCTCTGTGC CTGCTTCTCC CCAAGGGAGA 
AATGCCAAGG ACCTTCTTCT TGACTTGAAG AACAAAATAT TGGCTAATGG TGGGGCGCCC 
CGAAAACCCC AGCTTCGCGC CAAGAAGGCA GAGGAGCTGG ATCTTCAGTC GACAGAAATC 
ACTGGGGAGG AGGAGCTGGG TTCCCGGGAG GACTCGCCCA TGTCACCCTC AGACACCCAA 
GACCAGAAAC GGACCCTGAG GCCGCCAAGT AGACACGGCC ACTCGGTGGT TGCTCCCGGC 
AGGACTGCAG TGAGGGCCCG GATGCCAGCG CTGCCCCGAA GGGAAGGCGT AGATAAGCCT 
GGCTTTTCCC TGGCCACGCA GCCCCGCCCA GGGGCGCCCC CCTCGGCTTC GGCCTCTCCT 
GCCCACCACG CGTCCACCCA GGGCACCTCT CATCGTCCTT CCCTGCCTGC CAGCTTGAAT 
GACAACGACT TGGTGGACTC AGACGAAGAT GAGCGCGCTG TGGGCTCCCT CCACCCCAAG 
GGCGCCTTCG CCCAGCCCCG GCCAGCCCTG TCCCCCAGCC GCCAGTCCCC GTCCAGCGTT 
CTCCGCGACA GAAGCTCTGT GCACCCCGGC GCAAAGCCAG CCTCGCCGGC CCGGAGGACC 
CCCCATTCAG GGGCCGCAGA GGAAGATTCC AGTGCCTCAG CCCCACCCTC AAGACTTTCT 
CCACCCCATG GGGGATCATC TCGGCTGCTG CCCACCCAGC CACACCTGAG CTCTCCACTT 
TCCAAGGGCG GGAAGGATGG TGAGGACGCC CCAGCCACCA ACTCCAATGC GCCATCACGG 
TCCACCATGT CCTCCTCCGT CTCTTCTCAT CTCTCGTCCA GGACGCAGGT CTCTGAGGGA 
GCGGAGGCTT CTGATGGTGA AAGCCACGGT GACGGCGATA GGGAAGACGG CGGAAGGCAG 
GCGGAGGCCA CGGCCCAGAC GCTGCGGGCC CGGCCTGCCT CTGGACACTT CCATTTGCTC 
AGACACAAAC CCTTTGCTGC CAACGGGAGG TCTCCAAGCA GGTTCAGCAT TGGGCGGGGA 
CCTCGGCTGC AGCCCTCCAG CTCCCCACAG TCGACTGTGC CCTCCCGAGC CCACCCCAGG 
GTTCCCTCTC ACTCTGATTC CCACCCTAAG CTTAGCTCAG GTATCCATGG AGACGAGGAG 
GATGAGAAGC CGCTTCCTGC CACCGTTGTC AATGACCACG TGCCTTCCTC CTCCAGGCAG 
CCCATCTCCC GGGGCTGGGA GGACTTAAGG AGAAGCCCGC AGAGAGGGGC CAGCCTGCAT 
CGGAAGGAAC CCATCCCAGA GAACCCCAAA TCCACAGGGG CAGATACACA TCCTCAGGGC 
AAGTACTCCT CCCTGGCCTC CAAGGCTCAG GATGTTCAAC AGAGCACAGA CGCGGACACG 
GAGGGTCATT CTCCCAAAGC ACAGCCAGGG TCCACAGACC GCCACGCGTC CCCTGCTCGT 
CCGCCCGCAG CACGGTCACA GCAGCATCCC AGTGTTCCCA GAAGGATGAC ACCCGGCCGG 
GCCCCACAAC AGCAGCCCCC TCCTCCCGTC GCCACGTCCC AGCACCACCC GGGACCCCAG 
AGCAGAGACG CGGGTCGGTC ACCTTCCCAG CCCAGGCTCT CACTGACCCA GGCCGGGCGG 
CCCCGCCCCA CGTCGCAGGG CCGCTCCCAC TCCTCCTCGG ACCCTTACAC GGCGAGCTCC 
AGAGGGATGC TCCCCACGGC CCTCCAGAAC CAGGACGAGG ATGCCCAGGG CAGCTACGAC 
GACGACAGCA CAGAAGTCGA GGCCCAGGAT GTGCGGGCCC CCGCGCACGC CGCGCGCGCC 
AAGGAGGCAG CTGCGTCCCT TCCCAAGCAC CAGCAGGTGG AGTCTCCCAC AGGCGCAGGG 
GCAGGTGGCG ACCACAGGTC CCAGCGCGGA CATGCGGCCT CCCCCGCCAG GCCCAGCCGA 
CCCGGCGGCC CCCAGTCCCG CGCCCGGGTA CCCAGCAGGG CAGCGCCGGG GAAGTCGGAG 
CCTCCTTCCA AGCGGCCCCT GTCCTCCAAG TCCCAGCAGT CGGTCTCAGC CGAGGACGAC 
GAGGAGGAGG ACGCGGGATT TTTTAAAGGC GGGAAAGAAG ACCTTCTGTC TTCCTCTGTG 
CCAAAGTGGC CCTCTTCCTC CACTCCCAGG GGCGGCAAAG ACGCCGATGG GAGCCTCGCC 
AAGGAAGAGA GGGAGCCTGC CATCGCGCTT GCCCCTCGCG GAGGGAGCCT GGCTCCTGTG 
AAGCGACCTC TCCCCCCACC TCCAGGCAGC TCCCCCAGGG CCTCCCACGT CCCTTCCCGA 
CTGCCGCCTC GCAGCGCTGC CACCGTGAGC CCCGTCGCGG GCACCCACCC CTGGCCGCAG 
TACACCACGC GCGCCCCACC TGGCCACTTC TCCACCACCC CGATGCTGTC CTTGCGCCAG 
AGGATGATGC ATGCCAGATT CCGTAACCCT CTCTCCCGAC AGCCTGCCAG ACCCTCTTAC 
AGACAAGGTT ATAATGGCAG ACCAAATGTA GAAGGGAAAG TCCTTCCTGG TAGTAATGGA 
AAACCGAATG GACAGAGAAT TATCAATGGC CCTCAAGGAA CAAAGTGGGT TGTGGACCTT 
GATCGTGGGT TAGTATTGAA TGCAGAAGGA AGGTACCTCC AAGATTCACA TGGAAATCCT 
CTTCGGATTA AACTAGGAGG AGATGGTCGA ACCATTGTAG ATCTGGAAGG GACCCCCGTG 
GTGAGTCCTG ACGGCCTCCC ACTCTTTGGG CAGGGGCGAC ATGGCACACC TCTGGCCAAT 
GCCCAAGATA AGCCAATTTT GAGTCTTGGA GGAAAGCCGC TGGTGGGCTT GGAGGTCATC 
AAAAAAACCA CCCATCCCCC TACCACTACC ATGCAGCCCA CCACTACTAC GACGCCCCTG 
CCTACCACTA CAACCCCGAG GCCCACCACT GCCACCACCC GCCGCACGAC CACCACCCGC 
CGCACGACCA CCAGGCGTCC AACAACCACA GTCCGAACCA CTACGCGGAC AACCACCACC 
ACCACCCCCA CACCCACCAC TCCCATCCCC ACCTGTCCCC CTGGGACCTT GGAACGGCAC 
GACGATGATG GCAACCTGAT AATGAGCTCC AATGGGATCC CAGAGTGCTA CGCTGAAGAA 
GATGAGTTCT CAGGCTTGGA GACTGACACT GCAGTACCTA CGGAAGAGGC CTACGTTATA 
TATGATGAAG ATTATGAATT TGAGACGTCA AGGCCACCAA CCACCACTGA GCCTTCGACC 
ACTGCTACCA CACCGAGGGT GATCCCAGAG GAAGGCGCCA TCAGTTCCTT TCCTGAAGAA 
GAATTTGATC TGGCTGGAAG GAAACGATTT GTTGCTCCTT ACGTGACGTA CCTAAATAAA 
GACCCATCAG CCCCGTGCTC TCTGACTGAT GCACTGGATC ACTTCCAAGT GGACAGCCTG 
GATGAAATCA TCCCCAATGA CCTGAAGAAG AGTGACCTGC CTCCCCAGCA TGCTCCCCGC 
AACATCACCG TGGTGGCCGT GGAAGGTTGC CACTCATTTG TCATTGTGGA CTGGGACAAA 
GCCACCCCAG GAGATGTGGT CACAGGTTAC TTGGTTTACA GTGCATCCTA TGAAGACTTC 
ATCAGGAACA AGTGGTCCAC TCAAGCTTCA TCAGTAACTC ACTTGCCCAT TGAGAACCTA 
AAGCCCAACA CGAGGTATTA TTTTAAAGTG CAAGCACAAA ATCCTCATGG CTACGGACCT 
ATCAGCCCTT CGGTCTCATT TGTCACCGAA TCAGATAATC CTCTGCTTGT TGTGAGGCCC 
CCAGGCGGTG AGCCTATCTG GATCCCATTC GCTTTCAAAC ATGATCCCAG CTACACGGAC 
TGCCATGGAC GGCAATATGT GAAGCGCACG TGGTATCGAA AGTTCGTGGG AGTTGTTCTT 
TGTAATTCAC TGAGGTATAA AATCTACCTC AGTGACAACC TGAAAGATAC ATTCTACAGC 
ATTGGAGACA GCTGGGGAAG AGGTGAAGAC CATTGCCAAT TTGTGGATTC ACACCTTGAT 
GGAAGAACAG GGCCTCAGTC CTATGTAGAA GCCCTCCCTA CTATTCAAGG CTACTATCGC 
CAGTATCGTC AGGAGCCTGT CAGGTTTGGG AACATCGGCT TCGGAACCCC CTACTACTAT 
GTGGGCTGGT ACGAGTGTGG GGTCTCCATC CCTGGAAAGT GGTAA

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

RefSeq	NP_115921.2
CDS	201..5885
Translation	MAPEAGATLRAPRRLSWAALLLLAALLPVASSAAASVDHPLKPRHVKLLSTKMGLKVTWDPPKDATSRPVEHYNIAYGKSLKSLKYIKVNAETYSFLIEDVEPGVVYFVLLTAENHSGVSRPVYRAESPPGGEWIEIDGFPIKGPGPFNETVTEKEVPNKPLRVRVRSSDDRLSVAWKAPRLSGAKSPRRSRGFLLGYGESGRKMNYVPLTRDERTHEIKKLASESVYVVSLQSMNSQGRSQPVYRAALTKRKISEEDELDVPDDISVRVMSSQSVLVSWVDPVLEKQKKVVASRQYTVRYREKGELARWDYKQIANRRVLIENLIPDTVYEFAVRISQGERDGKWSTSVFQRTPESAPTTAPENLNVWPVNGKPTVVAASWDALPETEGKVKEYILSYAPALKPFGAKSLTYPGDTTSALVDGLQPGERYLFKIRATNRRGLGPHSKAFIVAMPTTSKADVEQNTEDNGKPEKPEPSSPSPRAPASSQHPSVPASPQGRNAKDLLLDLKNKILANGGAPRKPQLRAKKAEELDLQSTEITGEEELGSREDSPMSPSDTQDQKRTLRPPSRHGHSVVAPGRTAVRARMPALPRREGVDKPGFSLATQPRPGAPPSASASPAHHASTQGTSHRPSLPASLNDNDLVDSDEDERAVGSLHPKGAFAQPRPALSPSRQSPSSVLRDRSSVHPGAKPASPARRTPHSGAAEEDSSASAPPSRLSPPHGGSSRLLPTQPHLSSPLSKGGKDGEDAPATNSNAPSRSTMSSSVSSHLSSRTQVSEGAEASDGESHGDGDREDGGRQAEATAQTLRARPASGHFHLLRHKPFAANGRSPSRFSIGRGPRLQPSSSPQSTVPSRAHPRVPSHSDSHPKLSSGIHGDEEDEKPLPATVVNDHVPSSSRQPISRGWEDLRRSPQRGASLHRKEPIPENPKSTGADTHPQGKYSSLASKAQDVQQSTDADTEGHSPKAQPGSTDRHASPARPPAARSQQHPSVPRRMTPGRAPQQQPPPPVATSQHHPGPQSRDAGRSPSQPRLSLTQAGRPRPTSQGRSHSSSDPYTASSRGMLPTALQNQDEDAQGSYDDDSTEVEAQDVRAPAHAARAKEAAASLPKHQQVESPTGAGAGGDHRSQRGHAASPARPSRPGGPQSRARVPSRAAPGKSEPPSKRPLSSKSQQSVSAEDDEEEDAGFFKGGKEDLLSSSVPKWPSSSTPRGGKDADGSLAKEEREPAIALAPRGGSLAPVKRPLPPPPGSSPRASHVPSRLPPRSAATVSPVAGTHPWPQYTTRAPPGHFSTTPMLSLRQRMMHARFRNPLSRQPARPSYRQGYNGRPNVEGKVLPGSNGKPNGQRIINGPQGTKWVVDLDRGLVLNAEGRYLQDSHGNPLRIKLGGDGRTIVDLEGTPVVSPDGLPLFGQGRHGTPLANAQDKPILSLGGKPLVGLEVIKKTTHPPTTTMQPTTTTTPLPTTTTPRPTTATTRRTTTTRRTTTRRPTTTVRTTTRTTTTTTPTPTTPIPTCPPGTLERHDDDGNLIMSSNGIPECYAEEDEFSGLETDTAVPTEEAYVIYDEDYEFETSRPPTTTEPSTTATTPRVIPEEGAISSFPEEEFDLAGRKRFVAPYVTYLNKDPSAPCSLTDALDHFQVDSLDEIIPNDLKKSDLPPQHAPRNITVVAVEGCHSFVIVDWDKATPGDVVTGYLVYSASYEDFIRNKWSTQASSVTHLPIENLKPNTRYYFKVQAQNPHGYGPISPSVSFVTESDNPLLVVRPPGGEPIWIPFAFKHDPSYTDCHGRQYVKRTWYRKFVGVVLCNSLRYKIYLSDNLKDTFYSIGDSWGRGEDHCQFVDSHLDGRTGPQSYVEALPTIQGYYRQYRQEPVRFGNIGFGTPYYYVGWYECGVSIPGKW

Target ORF information:

RefSeq Version	NM_032532.2
Organism	Homo sapiens(human)
Definition	Homo sapiens fibronectin type III domain containing 1 (FNDC1), mRNA.

Target ORF information:

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

NM_032532.2

ORF Insert Sequence:

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GGAGGTGAAT GGATCGAGAT TGATGGTTTT 
CCCATTAAGG GTCCAGGACC ATTTAATGAA ACCGTCACAG AAAAGGAAGT GCCCAACAAG 
CCCTTGCGTG TGCGTGTCCG GTCCTCAGAT GACAGGCTGT CCGTTGCGTG GAAGGCACCA 
CGCCTGTCTG GAGCCAAGAG TCCACGCAGA TCACGGGGTT TTCTCCTGGG CTACGGGGAG 
AGTGGCCGGA AGATGAATTA TGTTCCACTG ACAAGAGATG AACGGACACA CGAAATTAAA 
AAGCTAGCCT CGGAATCCGT GTATGTGGTC TCCCTGCAGT CCATGAACTC TCAGGGCCGG 
AGCCAACCAG TCTACAGGGC TGCCCTAACA AAGCGAAAGA TTTCAGAAGA GGACGAATTG 
GATGTACCTG ACGACATCAG CGTCCGGGTT ATGTCATCTC AGTCTGTGCT TGTGTCCTGG 
GTGGATCCTG TTCTGGAAAA ACAGAAGAAA GTTGTTGCAT CAAGACAGTA CACCGTGCGC 
TATCGAGAGA AGGGGGAATT GGCCAGGTGG GATTATAAGC AGATCGCTAA CAGGCGTGTG 
CTGATTGAGA ACCTGATTCC AGACACTGTG TATGAATTTG CAGTCCGTAT TTCACAGGGT 
GAAAGAGATG GCAAATGGAG TACGTCAGTC TTCCAAAGAA CACCAGAATC TGCCCCTACC 
ACAGCTCCTG AAAACTTGAA CGTCTGGCCA GTCAATGGCA AACCTACAGT TGTCGCTGCA 
TCTTGGGATG CGCTACCAGA GACTGAGGGG AAAGTGAAAG AATACATTCT TTCATACGCC 
CCGGCTCTCA AACCATTTGG AGCAAAGTCC CTCACCTATC CTGGAGACAC TACTTCTGCC 
CTGGTGGATG GTCTGCAGCC TGGGGAACGC TATCTTTTCA AAATCCGGGC CACAAACAGG 
AGAGGCCTGG GACCTCACTC CAAAGCCTTC ATTGTCGCTA TGCCAACAAC CAGTAAGGCG 
GATGTTGAGC AGAACACGGA GGACAATGGG AAACCCGAAA AACCTGAGCC TTCCTCACCT 
TCTCCCAGAG CTCCAGCTTC CTCCCAACAC CCCTCTGTGC CTGCTTCTCC CCAAGGGAGA 
AATGCCAAGG ACCTTCTTCT TGACTTGAAG AACAAAATAT TGGCTAATGG TGGGGCGCCC 
CGAAAACCCC AGCTTCGCGC CAAGAAGGCA GAGGAGCTGG ATCTTCAGTC GACAGAAATC 
ACTGGGGAGG AGGAGCTGGG TTCCCGGGAG GACTCGCCCA TGTCACCCTC AGACACCCAA 
GACCAGAAAC GGACCCTGAG GCCGCCAAGT AGACACGGCC ACTCGGTGGT TGCTCCCGGC 
AGGACTGCAG TGAGGGCCCG GATGCCAGCG CTGCCCCGAA GGGAAGGCGT AGATAAGCCT 
GGCTTTTCCC TGGCCACGCA GCCCCGCCCA GGGGCGCCCC CCTCGGCTTC GGCCTCTCCT 
GCCCACCACG CGTCCACCCA GGGCACCTCT CATCGTCCTT CCCTGCCTGC CAGCTTGAAT 
GACAACGACT TGGTGGACTC AGACGAAGAT GAGCGCGCTG TGGGCTCCCT CCACCCCAAG 
GGCGCCTTCG CCCAGCCCCG GCCAGCCCTG TCCCCCAGCC GCCAGTCCCC GTCCAGCGTT 
CTCCGCGACA GAAGCTCTGT GCACCCCGGC GCAAAGCCAG CCTCGCCGGC CCGGAGGACC 
CCCCATTCAG GGGCCGCAGA GGAAGATTCC AGTGCCTCAG CCCCACCCTC AAGACTTTCT 
CCACCCCATG GGGGATCATC TCGGCTGCTG CCCACCCAGC CACACCTGAG CTCTCCACTT 
TCCAAGGGCG GGAAGGATGG TGAGGACGCC CCAGCCACCA ACTCCAATGC GCCATCACGG 
TCCACCATGT CCTCCTCCGT CTCTTCTCAT CTCTCGTCCA GGACGCAGGT CTCTGAGGGA 
GCGGAGGCTT CTGATGGTGA AAGCCACGGT GACGGCGATA GGGAAGACGG CGGAAGGCAG 
GCGGAGGCCA CGGCCCAGAC GCTGCGGGCC CGGCCTGCCT CTGGACACTT CCATTTGCTC 
AGACACAAAC CCTTTGCTGC CAACGGGAGG TCTCCAAGCA GGTTCAGCAT TGGGCGGGGA 
CCTCGGCTGC AGCCCTCCAG CTCCCCACAG TCGACTGTGC CCTCCCGAGC CCACCCCAGG 
GTTCCCTCTC ACTCTGATTC CCACCCTAAG CTTAGCTCAG GTATCCATGG AGACGAGGAG 
GATGAGAAGC CGCTTCCTGC CACCGTTGTC AATGACCACG TGCCTTCCTC CTCCAGGCAG 
CCCATCTCCC GGGGCTGGGA GGACTTAAGG AGAAGCCCGC AGAGAGGGGC CAGCCTGCAT 
CGGAAGGAAC CCATCCCAGA GAACCCCAAA TCCACAGGGG CAGATACACA TCCTCAGGGC 
AAGTACTCCT CCCTGGCCTC CAAGGCTCAG GATGTTCAAC AGAGCACAGA CGCGGACACG 
GAGGGTCATT CTCCCAAAGC ACAGCCAGGG TCCACAGACC GCCACGCGTC CCCTGCTCGT 
CCGCCCGCAG CACGGTCACA GCAGCATCCC AGTGTTCCCA GAAGGATGAC ACCCGGCCGG 
GCCCCACAAC AGCAGCCCCC TCCTCCCGTC GCCACGTCCC AGCACCACCC GGGACCCCAG 
AGCAGAGACG CGGGTCGGTC ACCTTCCCAG CCCAGGCTCT CACTGACCCA GGCCGGGCGG 
CCCCGCCCCA CGTCGCAGGG CCGCTCCCAC TCCTCCTCGG ACCCTTACAC GGCGAGCTCC 
AGAGGGATGC TCCCCACGGC CCTCCAGAAC CAGGACGAGG ATGCCCAGGG CAGCTACGAC 
GACGACAGCA CAGAAGTCGA GGCCCAGGAT GTGCGGGCCC CCGCGCACGC CGCGCGCGCC 
AAGGAGGCAG CTGCGTCCCT TCCCAAGCAC CAGCAGGTGG AGTCTCCCAC AGGCGCAGGG 
GCAGGTGGCG ACCACAGGTC CCAGCGCGGA CATGCGGCCT CCCCCGCCAG GCCCAGCCGA 
CCCGGCGGCC CCCAGTCCCG CGCCCGGGTA CCCAGCAGGG CAGCGCCGGG GAAGTCGGAG 
CCTCCTTCCA AGCGGCCCCT GTCCTCCAAG TCCCAGCAGT CGGTCTCAGC CGAGGACGAC 
GAGGAGGAGG ACGCGGGATT TTTTAAAGGC GGGAAAGAAG ACCTTCTGTC TTCCTCTGTG 
CCAAAGTGGC CCTCTTCCTC CACTCCCAGG GGCGGCAAAG ACGCCGATGG GAGCCTCGCC 
AAGGAAGAGA GGGAGCCTGC CATCGCGCTT GCCCCTCGCG GAGGGAGCCT GGCTCCTGTG 
AAGCGACCTC TCCCCCCACC TCCAGGCAGC TCCCCCAGGG CCTCCCACGT CCCTTCCCGA 
CTGCCGCCTC GCAGCGCTGC CACCGTGAGC CCCGTCGCGG GCACCCACCC CTGGCCGCAG 
TACACCACGC GCGCCCCACC TGGCCACTTC TCCACCACCC CGATGCTGTC CTTGCGCCAG 
AGGATGATGC ATGCCAGATT CCGTAACCCT CTCTCCCGAC AGCCTGCCAG ACCCTCTTAC 
AGACAAGGTT ATAATGGCAG ACCAAATGTA GAAGGGAAAG TCCTTCCTGG TAGTAATGGA 
AAACCGAATG GACAGAGAAT TATCAATGGC CCTCAAGGAA CAAAGTGGGT TGTGGACCTT 
GATCGTGGGT TAGTATTGAA TGCAGAAGGA AGGTACCTCC AAGATTCACA TGGAAATCCT 
CTTCGGATTA AACTAGGAGG AGATGGTCGA ACCATTGTAG ATCTGGAAGG GACCCCCGTG 
GTGAGTCCTG ACGGCCTCCC ACTCTTTGGG CAGGGGCGAC ATGGCACACC TCTGGCCAAT 
GCCCAAGATA AGCCAATTTT GAGTCTTGGA GGAAAGCCGC TGGTGGGCTT GGAGGTCATC 
AAAAAAACCA CCCATCCCCC TACCACTACC ATGCAGCCCA CCACTACTAC GACGCCCCTG 
CCTACCACTA CAACCCCGAG GCCCACCACT GCCACCACCC GCCGCACGAC CACCACCCGC 
CGCACGACCA CCAGGCGTCC AACAACCACA GTCCGAACCA CTACGCGGAC AACCACCACC 
ACCACCCCCA CACCCACCAC TCCCATCCCC ACCTGTCCCC CTGGGACCTT GGAACGGCAC 
GACGATGATG GCAACCTGAT AATGAGCTCC AATGGGATCC CAGAGTGCTA CGCTGAAGAA 
GATGAGTTCT CAGGCTTGGA GACTGACACT GCAGTACCTA CGGAAGAGGC CTACGTTATA 
TATGATGAAG ATTATGAATT TGAGACGTCA AGGCCACCAA CCACCACTGA GCCTTCGACC 
ACTGCTACCA CACCGAGGGT GATCCCAGAG GAAGGCGCCA TCAGTTCCTT TCCTGAAGAA 
GAATTTGATC TGGCTGGAAG GAAACGATTT GTTGCTCCTT ACGTGACGTA CCTAAATAAA 
GACCCATCAG CCCCGTGCTC TCTGACTGAT GCACTGGATC ACTTCCAAGT GGACAGCCTG 
GATGAAATCA TCCCCAATGA CCTGAAGAAG AGTGACCTGC CTCCCCAGCA TGCTCCCCGC 
AACATCACCG TGGTGGCCGT GGAAGGTTGC CACTCATTTG TCATTGTGGA CTGGGACAAA 
GCCACCCCAG GAGATGTGGT CACAGGTTAC TTGGTTTACA GTGCATCCTA TGAAGACTTC 
ATCAGGAACA AGTGGTCCAC TCAAGCTTCA TCAGTAACTC ACTTGCCCAT TGAGAACCTA 
AAGCCCAACA CGAGGTATTA TTTTAAAGTG CAAGCACAAA ATCCTCATGG CTACGGACCT 
ATCAGCCCTT CGGTCTCATT TGTCACCGAA TCAGATAATC CTCTGCTTGT TGTGAGGCCC 
CCAGGCGGTG AGCCTATCTG GATCCCATTC GCTTTCAAAC ATGATCCCAG CTACACGGAC 
TGCCATGGAC GGCAATATGT GAAGCGCACG TGGTATCGAA AGTTCGTGGG AGTTGTTCTT 
TGTAATTCAC TGAGGTATAA AATCTACCTC AGTGACAACC TGAAAGATAC ATTCTACAGC 
ATTGGAGACA GCTGGGGAAG AGGTGAAGAC CATTGCCAAT TTGTGGATTC ACACCTTGAT 
GGAAGAACAG GGCCTCAGTC CTATGTAGAA GCCCTCCCTA CTATTCAAGG CTACTATCGC 
CAGTATCGTC AGGAGCCTGT CAGGTTTGGG AACATCGGCT TCGGAACCCC CTACTACTAT 
GTGGGCTGGT ACGAGTGTGG GGTCTCCATC CCTGGAAAGT GGTAA

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

FNDC1 ( XM_011536190.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534492.1 Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X1, mRNA.

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CloneID	OHu73617
Clone ID Related Accession (Same CDS sequence)	XM_011536190.2
Accession Version	XM_011536190.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5616bp) 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	fibronectin type III domain-containing protein 1 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536190.1. ##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##

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GAAAAGGAAG TGCCCAACAA GCCCTTGCGT 
GTGCGTGTCC GGTCCTCAGA TGACAGGCTG TCCGTTGCGT GGAAGGCACC ACGCCTGTCT 
GGAGCCAAGA GTCCACGCAG ATCACGGGGT TTTCTCCTGG GCTACGGGGA GAGTGGCCGG 
AAGATGAATT ATGTTCCACT GACAAGAGAT GAACGGACAC ACGAAATTAA AAAGCTAGCC 
TCGGAATCCG TGTATGTGGT CTCCCTGCAG TCCATGAACT CTCAGGGCCG GAGCCAACCA 
GTCTACAGGG CTGCCCTAAC AAAGCGAAAG ATTTCAGAAG AGGACGAATT GGATGTACCT 
GACGACATCA GCGTCCGGGT TATGTCATCT CAGTCTGTGC TTGTGTCCTG GGTGGATCCT 
GTTCTGGAAA AACAGAAGAA AGTTGTTGCA TCAAGACAGT ACACCGTGCG CTATCGAGAG 
AAGGGGGAAT TGGCCAGGTG GGATTATAAG CAGATCGCTA ACAGGCGTGT GCTGATTGAG 
AACCTGATTC CAGACACTGT GTATGAATTT GCAGTCCGTA TTTCACAGGG TGAAAGAGAT 
GGCAAATGGA GTACGTCAGT CTTCCAAAGA ACACCAGAAT CTGCCCCTAC CACAGCTCCT 
GAAAACTTGA ACGTCTGGCC AGTCAATGGC AAACCTACAG TTGTCGCTGC ATCTTGGGAT 
GCGCTACCAG AGACTGAGGG GAAAGTGAAA GAATACATTC TTTCATACGC CCCGGCTCTC 
AAACCATTTG GAGCAAAGTC CCTCACCTAT CCTGGAGACA CTACTTCTGC CCTGGTGGAT 
GGTCTGCAGC CTGGGGAACG CTATCTTTTC AAAATCCGGG CCACAAACAG GAGAGGCCTG 
GGACCTCACT CCAAAGCCTT CATTGTCGCT ATGCCAACAA CCAGTAAGGC GGATGTTGAG 
CAGAACACGG AGGACAATGG GAAACCCGAA AAACCTGAGC CTTCCTCACC TTCTCCCAGA 
GCTCCAGCTT CCTCCCAACA CCCCTCTGTG CCTGCTTCTC CCCAAGGGAG AAATGCCAAG 
GACCTTCTTC TTGACTTGAA GAACAAAATA TTGGCTAATG GTGGGGCGCC CCGAAAACCC 
CAGCTTCGCG CCAAGAAGGC AGAGGAGCTG GATCTTCAGT CGACAGAAAT CACTGGGGAG 
GAGGAGCTGG GTTCCCGGGA GGACTCGCCC ATGTCACCCT CAGACACCCA AGACCAGAAA 
CGGACCCTGA GGCCGCCAAG TAGACACGGC CACTCGGTGG TTGCTCCCGG CAGGACTGCA 
GTGAGGGCCC GGATGCCAGC GCTGCCCCGA AGGGAAGGCG TAGATAAGCC TGGCTTTTCC 
CTGGCCACGC AGCCCCGCCC AGGGGCGCCC CCCTCGGCTT CGGCCTCTCC TGCCCACCAC 
GCGTCCACCC AGGGCACCTC TCATCGTCCT TCCCTGCCTG CCAGCTTGAA TGACAACGAC 
TTGGTGGACT CAGACGAAGA TGAGCGCGCT GTGGGCTCCC TCCACCCCAA GGGCGCCTTC 
GCCCAGCCCC GGCCAGCCCT GTCCCCCAGC CGCCAGTCCC CGTCCAGCGT TCTCCGCGAC 
AGAAGCTCTG TGCACCCCGG CGCAAAGCCA GCCTCGCCGG CCCGGAGGAC CCCCCATTCA 
GGGGCCGCAG AGGAAGATTC CAGTGCCTCA GCCCCACCCT CAAGACTTTC TCCACCCCAT 
GGGGGATCAT CTCGGCTGCT GCCCACCCAG CCACACCTGA GCTCTCCACT TTCCAAGGGC 
GGGAAGGATG GTGAGGACGC CCCAGCCACC AACTCCAATG CGCCATCACG GTCCACCATG 
TCCTCCTCCG TCTCTTCTCA TCTCTCGTCC AGGACGCAGG TCTCTGAGGG AGCGGAGGCT 
TCTGATGGTG AAAGCCACGG TGACGGCGAT AGGGAAGACG GCGGAAGGCA GGCGGAGGCC 
ACGGCCCAGA CGCTGCGGGC CCGGCCTGCC TCTGGACACT TCCATTTGCT CAGACACAAA 
CCCTTTGCTG CCAACGGGAG GTCTCCAAGC AGGTTCAGCA TTGGGCGGGG ACCTCGGCTG 
CAGCCCTCCA GCTCCCCACA GTCGACTGTG CCCTCCCGAG CCCACCCCAG GGTTCCCTCT 
CACTCTGATT CCCACCCTAA GCTTAGCTCA GGTATCCATG GAGACGAGGA GGATGAGAAG 
CCGCTTCCTG CCACCGTTGT CAATGACCAC GTGCCTTCCT CCTCCAGGCA GCCCATCTCC 
CGGGGCTGGG AGGACTTAAG GAGAAGCCCG CAGAGAGGGG CCAGCCTGCA TCGGAAGGAA 
CCCATCCCAG AGAACCCCAA ATCCACAGGG GCAGATACAC ATCCTCAGGG CAAGTACTCC 
TCCCTGGCCT CCAAGGCTCA GGATGTTCAA CAGAGCACAG ACGCGGACAC GGAGGGTCAT 
TCTCCCAAAG CACAGCCAGG GTCCACAGAC CGCCACGCGT CCCCTGCTCG TCCGCCCGCA 
GCACGGTCAC AGCAGCATCC CAGTGTTCCC AGAAGGATGA CACCCGGCCG GGCCCCACAA 
CAGCAGCCCC CTCCTCCCGT CGCCACGTCC CAGCACCACC CGGGACCCCA GAGCAGAGAC 
GCGGGTCGGT CACCTTCCCA GCCCAGGCTC TCACTGACCC AGGCCGGGCG GCCCCGCCCC 
ACGTCGCAGG GCCGCTCCCA CTCCTCCTCG GACCCTTACA CGGCGAGCTC CAGAGGGATG 
CTCCCCACGG CCCTCCAGAA CCAGGACGAG GATGCCCAGG GCAGCTACGA CGACGACAGC 
ACAGAAGTCG AGGCCCAGGA TGTGCGGGCC CCCGCGCACG CCGCGCGCGC CAAGGAGGCA 
GCTGCGTCCC TTCCCAAGCA CCAGCAGGTG GAGTCTCCCA CAGGCGCAGG GGCAGGTGGC 
GACCACAGGT CCCAGCGCGG ACATGCGGCC TCCCCCGCCA GGCCCAGCCG ACCCGGCGGC 
CCCCAGTCCC GCGCCCGGGT ACCCAGCAGG GCAGCGCCGG GGAAGTCGGA GCCTCCTTCC 
AAGCGGCCCC TGTCCTCCAA GTCCCAGCAG TCGGTCTCAG CCGAGGACGA CGAGGAGGAG 
GACGCGGGAT TTTTTAAAGG CGGGAAAGAA GACCTTCTGT CTTCCTCTGT GCCAAAGTGG 
CCCTCTTCCT CCACTCCCAG GGGCGGCAAA GACGCCGATG GGAGCCTCGC CAAGGAAGAG 
AGGGAGCCTG CCATCGCGCT TGCCCCTCGC GGAGGGAGCC TGGCTCCTGT GAAGCGACCT 
CTCCCCCCAC CTCCAGGCAG CTCCCCCAGG GCCTCCCACG TCCCTTCCCG ACTGCCGCCT 
CGCAGCGCTG CCACCGTGAG CCCCGTCGCG GGCACCCACC CCTGGCCGCA GTACACCACG 
CGCGCCCCAC CTGGCCACTT CTCCACCACC CCGATGCTGT CCTTGCGCCA GAGGATGATG 
CATGCCAGAT TCCGTAACCC TCTCTCCCGA CAGCCTGCCA GACCCTCTTA CAGACAAGGT 
TATAATGGCA GACCAAATGT AGAAGGGAAA GTCCTTCCTG GTAGTAATGG AAAACCGAAT 
GGACAGAGAA TTATCAATGG CCCTCAAGGA ACAAAGTGGG TTGTGGACCT TGATCGTGGG 
TTAGTATTGA ATGCAGAAGG AAGGTACCTC CAAGATTCAC ATGGAAATCC TCTTCGGATT 
AAACTAGGAG GAGATGGTCG AACCATTGTA GATCTGGAAG GGACCCCCGT GGTGAGTCCT 
GACGGCCTCC CACTCTTTGG GCAGGGGCGA CATGGCACAC CTCTGGCCAA TGCCCAAGAT 
AAGCCAATTT TGAGTCTTGG AGGAAAGCCG CTGGTGGGCT TGGAGGTCAT CAAAAAAACC 
ACCCATCCCC CTACCACTAC CATGCAGCCC ACCACTACTA CGACGCCCCT GCCTACCACT 
ACAACCCCGA GGCCCACCAC TGCCACCACC CGCCGCACGA CCACCACCCG CCGCACGACC 
ACCAGGCGTC CAACAACCAC AGTCCGAACC ACTACGCGGA CAACCACCAC CACCACCCCC 
ACACCCACCA CTCCCATCCC CACCTGTCCC CCTGGGACCT TGGAACGGCA CGACGATGAT 
GGCAACCTGA TAATGAGCTC CAATGGGATC CCAGAGTGCT ACGCTGAAGA AGATGAGTTC 
TCAGGCTTGG AGACTGACAC TGCAGTACCT ACGGAAGAGG CCTACGTTAT ATATGATGAA 
GATTATGAAT TTGAGACGTC AAGGCCACCA ACCACCACTG AGCCTTCGAC CACTGCTACC 
ACACCGAGGG TGATCCCAGA GGAAGGCGCC ATCAGTTCCT TTCCTGAAGA AGAATTTGAT 
CTGGCTGGAA GGAAACGATT TGTTGCTCCT TACGTGACGT ACCTAAATAA AGACCCATCA 
GCCCCGTGCT CTCTGACTGA TGCACTGGAT CACTTCCAAG TGGACAGCCT GGATGAAATC 
ATCCCCAATG ACCTGAAGAA GAGTGACCTG CCTCCCCAGC ATGCTCCCCG CAACATCACC 
GTGGTGGCCG TGGAAGGTTG CCACTCATTT GTCATTGTGG ACTGGGACAA AGCCACCCCA 
GGAGATGTGG TCACAGGTTA CTTGGTTTAC AGTGCATCCT ATGAAGACTT CATCAGGAAC 
AAGTGGTCCA CTCAAGCTTC ATCAGTAACT CACTTGCCCA TTGAGAACCT AAAGCCCAAC 
ACGAGGTATT ATTTTAAAGT GCAAGCACAA AATCCTCATG GCTACGGACC TATCAGCCCT 
TCGGTCTCAT TTGTCACCGA ATCAGATAAT CCTCTGCTTG TTGTGAGGCC CCCAGGCGGT 
GAGCCTATCT GGATCCCATT CGCTTTCAAA CATGATCCCA GCTACACGGA CTGCCATGGA 
CGGCAATATG TGAAGCGCAC GTGGTATCGA AAGTTCGTGG GAGTTGTTCT TTGTAATTCA 
CTGAGGTATA AAATCTACCT CAGTGACAAC CTGAAAGATA CATTCTACAG CATTGGAGAC 
AGCTGGGGAA GAGGTGAAGA CCATTGCCAA TTTGTGGATT CACACCTTGA TGGAAGAACA 
GGGCCTCAGT CCTATGTAGA AGCCCTCCCT ACTATTCAAG GCTACTATCG CCAGTATCGT 
CAGGAGCCTG TCAGGTTTGG GAACATCGGC TTCGGAACCC CCTACTACTA TGTGGGCTGG 
TACGAGTGTG GGGTCTCCAT CCCTGGAAAG TGGTAA

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

RefSeq	XP_011534492.1
CDS	193..5808
Translation	MAPEAGATLRAPRRLSWAALLLLAALLPVASSAAASVDHPLKPRHVKLLSTKMGLKVTWDPPKDATSRPVEHYNIAYGKSLKSLKYIKVNAETYSFLIEDVEPGVVYFVLLTAENHSGVSRPVYRAESPPEKEVPNKPLRVRVRSSDDRLSVAWKAPRLSGAKSPRRSRGFLLGYGESGRKMNYVPLTRDERTHEIKKLASESVYVVSLQSMNSQGRSQPVYRAALTKRKISEEDELDVPDDISVRVMSSQSVLVSWVDPVLEKQKKVVASRQYTVRYREKGELARWDYKQIANRRVLIENLIPDTVYEFAVRISQGERDGKWSTSVFQRTPESAPTTAPENLNVWPVNGKPTVVAASWDALPETEGKVKEYILSYAPALKPFGAKSLTYPGDTTSALVDGLQPGERYLFKIRATNRRGLGPHSKAFIVAMPTTSKADVEQNTEDNGKPEKPEPSSPSPRAPASSQHPSVPASPQGRNAKDLLLDLKNKILANGGAPRKPQLRAKKAEELDLQSTEITGEEELGSREDSPMSPSDTQDQKRTLRPPSRHGHSVVAPGRTAVRARMPALPRREGVDKPGFSLATQPRPGAPPSASASPAHHASTQGTSHRPSLPASLNDNDLVDSDEDERAVGSLHPKGAFAQPRPALSPSRQSPSSVLRDRSSVHPGAKPASPARRTPHSGAAEEDSSASAPPSRLSPPHGGSSRLLPTQPHLSSPLSKGGKDGEDAPATNSNAPSRSTMSSSVSSHLSSRTQVSEGAEASDGESHGDGDREDGGRQAEATAQTLRARPASGHFHLLRHKPFAANGRSPSRFSIGRGPRLQPSSSPQSTVPSRAHPRVPSHSDSHPKLSSGIHGDEEDEKPLPATVVNDHVPSSSRQPISRGWEDLRRSPQRGASLHRKEPIPENPKSTGADTHPQGKYSSLASKAQDVQQSTDADTEGHSPKAQPGSTDRHASPARPPAARSQQHPSVPRRMTPGRAPQQQPPPPVATSQHHPGPQSRDAGRSPSQPRLSLTQAGRPRPTSQGRSHSSSDPYTASSRGMLPTALQNQDEDAQGSYDDDSTEVEAQDVRAPAHAARAKEAAASLPKHQQVESPTGAGAGGDHRSQRGHAASPARPSRPGGPQSRARVPSRAAPGKSEPPSKRPLSSKSQQSVSAEDDEEEDAGFFKGGKEDLLSSSVPKWPSSSTPRGGKDADGSLAKEEREPAIALAPRGGSLAPVKRPLPPPPGSSPRASHVPSRLPPRSAATVSPVAGTHPWPQYTTRAPPGHFSTTPMLSLRQRMMHARFRNPLSRQPARPSYRQGYNGRPNVEGKVLPGSNGKPNGQRIINGPQGTKWVVDLDRGLVLNAEGRYLQDSHGNPLRIKLGGDGRTIVDLEGTPVVSPDGLPLFGQGRHGTPLANAQDKPILSLGGKPLVGLEVIKKTTHPPTTTMQPTTTTTPLPTTTTPRPTTATTRRTTTTRRTTTRRPTTTVRTTTRTTTTTTPTPTTPIPTCPPGTLERHDDDGNLIMSSNGIPECYAEEDEFSGLETDTAVPTEEAYVIYDEDYEFETSRPPTTTEPSTTATTPRVIPEEGAISSFPEEEFDLAGRKRFVAPYVTYLNKDPSAPCSLTDALDHFQVDSLDEIIPNDLKKSDLPPQHAPRNITVVAVEGCHSFVIVDWDKATPGDVVTGYLVYSASYEDFIRNKWSTQASSVTHLPIENLKPNTRYYFKVQAQNPHGYGPISPSVSFVTESDNPLLVVRPPGGEPIWIPFAFKHDPSYTDCHGRQYVKRTWYRKFVGVVLCNSLRYKIYLSDNLKDTFYSIGDSWGRGEDHCQFVDSHLDGRTGPQSYVEALPTIQGYYRQYRQEPVRFGNIGFGTPYYYVGWYECGVSIPGKW

Target ORF information:

RefSeq Version	XM_011536190.2
Organism	Homo sapiens(human)
Definition	Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X1, mRNA.

Target ORF information:

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

XM_011536190.2

ORF Insert Sequence:

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGT TGACCACCCA 
CTGAAGCCAA GGCATGTGAA ACTGCTGTCC ACTAAAATGG GCCTGAAAGT CACGTGGGAC 
CCACCCAAAG ATGCTACCAG TAGACCTGTG GAGCATTACA ACATTGCCTA TGGGAAGTCA 
CTGAAAAGTC TTAAATACAT CAAGGTGAAT GCGGAGACAT ACTCCTTCCT TATTGAGGAT 
GTGGAGCCGG GGGTAGTGTA CTTTGTGCTG CTTACTGCAG AAAACCACAG TGGAGTGAGC 
CGTCCTGTTT ACAGAGCTGA AAGCCCACCT GAAAAGGAAG TGCCCAACAA GCCCTTGCGT 
GTGCGTGTCC GGTCCTCAGA TGACAGGCTG TCCGTTGCGT GGAAGGCACC ACGCCTGTCT 
GGAGCCAAGA GTCCACGCAG ATCACGGGGT TTTCTCCTGG GCTACGGGGA GAGTGGCCGG 
AAGATGAATT ATGTTCCACT GACAAGAGAT GAACGGACAC ACGAAATTAA AAAGCTAGCC 
TCGGAATCCG TGTATGTGGT CTCCCTGCAG TCCATGAACT CTCAGGGCCG GAGCCAACCA 
GTCTACAGGG CTGCCCTAAC AAAGCGAAAG ATTTCAGAAG AGGACGAATT GGATGTACCT 
GACGACATCA GCGTCCGGGT TATGTCATCT CAGTCTGTGC TTGTGTCCTG GGTGGATCCT 
GTTCTGGAAA AACAGAAGAA AGTTGTTGCA TCAAGACAGT ACACCGTGCG CTATCGAGAG 
AAGGGGGAAT TGGCCAGGTG GGATTATAAG CAGATCGCTA ACAGGCGTGT GCTGATTGAG 
AACCTGATTC CAGACACTGT GTATGAATTT GCAGTCCGTA TTTCACAGGG TGAAAGAGAT 
GGCAAATGGA GTACGTCAGT CTTCCAAAGA ACACCAGAAT CTGCCCCTAC CACAGCTCCT 
GAAAACTTGA ACGTCTGGCC AGTCAATGGC AAACCTACAG TTGTCGCTGC ATCTTGGGAT 
GCGCTACCAG AGACTGAGGG GAAAGTGAAA GAATACATTC TTTCATACGC CCCGGCTCTC 
AAACCATTTG GAGCAAAGTC CCTCACCTAT CCTGGAGACA CTACTTCTGC CCTGGTGGAT 
GGTCTGCAGC CTGGGGAACG CTATCTTTTC AAAATCCGGG CCACAAACAG GAGAGGCCTG 
GGACCTCACT CCAAAGCCTT CATTGTCGCT ATGCCAACAA CCAGTAAGGC GGATGTTGAG 
CAGAACACGG AGGACAATGG GAAACCCGAA AAACCTGAGC CTTCCTCACC TTCTCCCAGA 
GCTCCAGCTT CCTCCCAACA CCCCTCTGTG CCTGCTTCTC CCCAAGGGAG AAATGCCAAG 
GACCTTCTTC TTGACTTGAA GAACAAAATA TTGGCTAATG GTGGGGCGCC CCGAAAACCC 
CAGCTTCGCG CCAAGAAGGC AGAGGAGCTG GATCTTCAGT CGACAGAAAT CACTGGGGAG 
GAGGAGCTGG GTTCCCGGGA GGACTCGCCC ATGTCACCCT CAGACACCCA AGACCAGAAA 
CGGACCCTGA GGCCGCCAAG TAGACACGGC CACTCGGTGG TTGCTCCCGG CAGGACTGCA 
GTGAGGGCCC GGATGCCAGC GCTGCCCCGA AGGGAAGGCG TAGATAAGCC TGGCTTTTCC 
CTGGCCACGC AGCCCCGCCC AGGGGCGCCC CCCTCGGCTT CGGCCTCTCC TGCCCACCAC 
GCGTCCACCC AGGGCACCTC TCATCGTCCT TCCCTGCCTG CCAGCTTGAA TGACAACGAC 
TTGGTGGACT CAGACGAAGA TGAGCGCGCT GTGGGCTCCC TCCACCCCAA GGGCGCCTTC 
GCCCAGCCCC GGCCAGCCCT GTCCCCCAGC CGCCAGTCCC CGTCCAGCGT TCTCCGCGAC 
AGAAGCTCTG TGCACCCCGG CGCAAAGCCA GCCTCGCCGG CCCGGAGGAC CCCCCATTCA 
GGGGCCGCAG AGGAAGATTC CAGTGCCTCA GCCCCACCCT CAAGACTTTC TCCACCCCAT 
GGGGGATCAT CTCGGCTGCT GCCCACCCAG CCACACCTGA GCTCTCCACT TTCCAAGGGC 
GGGAAGGATG GTGAGGACGC CCCAGCCACC AACTCCAATG CGCCATCACG GTCCACCATG 
TCCTCCTCCG TCTCTTCTCA TCTCTCGTCC AGGACGCAGG TCTCTGAGGG AGCGGAGGCT 
TCTGATGGTG AAAGCCACGG TGACGGCGAT AGGGAAGACG GCGGAAGGCA GGCGGAGGCC 
ACGGCCCAGA CGCTGCGGGC CCGGCCTGCC TCTGGACACT TCCATTTGCT CAGACACAAA 
CCCTTTGCTG CCAACGGGAG GTCTCCAAGC AGGTTCAGCA TTGGGCGGGG ACCTCGGCTG 
CAGCCCTCCA GCTCCCCACA GTCGACTGTG CCCTCCCGAG CCCACCCCAG GGTTCCCTCT 
CACTCTGATT CCCACCCTAA GCTTAGCTCA GGTATCCATG GAGACGAGGA GGATGAGAAG 
CCGCTTCCTG CCACCGTTGT CAATGACCAC GTGCCTTCCT CCTCCAGGCA GCCCATCTCC 
CGGGGCTGGG AGGACTTAAG GAGAAGCCCG CAGAGAGGGG CCAGCCTGCA TCGGAAGGAA 
CCCATCCCAG AGAACCCCAA ATCCACAGGG GCAGATACAC ATCCTCAGGG CAAGTACTCC 
TCCCTGGCCT CCAAGGCTCA GGATGTTCAA CAGAGCACAG ACGCGGACAC GGAGGGTCAT 
TCTCCCAAAG CACAGCCAGG GTCCACAGAC CGCCACGCGT CCCCTGCTCG TCCGCCCGCA 
GCACGGTCAC AGCAGCATCC CAGTGTTCCC AGAAGGATGA CACCCGGCCG GGCCCCACAA 
CAGCAGCCCC CTCCTCCCGT CGCCACGTCC CAGCACCACC CGGGACCCCA GAGCAGAGAC 
GCGGGTCGGT CACCTTCCCA GCCCAGGCTC TCACTGACCC AGGCCGGGCG GCCCCGCCCC 
ACGTCGCAGG GCCGCTCCCA CTCCTCCTCG GACCCTTACA CGGCGAGCTC CAGAGGGATG 
CTCCCCACGG CCCTCCAGAA CCAGGACGAG GATGCCCAGG GCAGCTACGA CGACGACAGC 
ACAGAAGTCG AGGCCCAGGA TGTGCGGGCC CCCGCGCACG CCGCGCGCGC CAAGGAGGCA 
GCTGCGTCCC TTCCCAAGCA CCAGCAGGTG GAGTCTCCCA CAGGCGCAGG GGCAGGTGGC 
GACCACAGGT CCCAGCGCGG ACATGCGGCC TCCCCCGCCA GGCCCAGCCG ACCCGGCGGC 
CCCCAGTCCC GCGCCCGGGT ACCCAGCAGG GCAGCGCCGG GGAAGTCGGA GCCTCCTTCC 
AAGCGGCCCC TGTCCTCCAA GTCCCAGCAG TCGGTCTCAG CCGAGGACGA CGAGGAGGAG 
GACGCGGGAT TTTTTAAAGG CGGGAAAGAA GACCTTCTGT CTTCCTCTGT GCCAAAGTGG 
CCCTCTTCCT CCACTCCCAG GGGCGGCAAA GACGCCGATG GGAGCCTCGC CAAGGAAGAG 
AGGGAGCCTG CCATCGCGCT TGCCCCTCGC GGAGGGAGCC TGGCTCCTGT GAAGCGACCT 
CTCCCCCCAC CTCCAGGCAG CTCCCCCAGG GCCTCCCACG TCCCTTCCCG ACTGCCGCCT 
CGCAGCGCTG CCACCGTGAG CCCCGTCGCG GGCACCCACC CCTGGCCGCA GTACACCACG 
CGCGCCCCAC CTGGCCACTT CTCCACCACC CCGATGCTGT CCTTGCGCCA GAGGATGATG 
CATGCCAGAT TCCGTAACCC TCTCTCCCGA CAGCCTGCCA GACCCTCTTA CAGACAAGGT 
TATAATGGCA GACCAAATGT AGAAGGGAAA GTCCTTCCTG GTAGTAATGG AAAACCGAAT 
GGACAGAGAA TTATCAATGG CCCTCAAGGA ACAAAGTGGG TTGTGGACCT TGATCGTGGG 
TTAGTATTGA ATGCAGAAGG AAGGTACCTC CAAGATTCAC ATGGAAATCC TCTTCGGATT 
AAACTAGGAG GAGATGGTCG AACCATTGTA GATCTGGAAG GGACCCCCGT GGTGAGTCCT 
GACGGCCTCC CACTCTTTGG GCAGGGGCGA CATGGCACAC CTCTGGCCAA TGCCCAAGAT 
AAGCCAATTT TGAGTCTTGG AGGAAAGCCG CTGGTGGGCT TGGAGGTCAT CAAAAAAACC 
ACCCATCCCC CTACCACTAC CATGCAGCCC ACCACTACTA CGACGCCCCT GCCTACCACT 
ACAACCCCGA GGCCCACCAC TGCCACCACC CGCCGCACGA CCACCACCCG CCGCACGACC 
ACCAGGCGTC CAACAACCAC AGTCCGAACC ACTACGCGGA CAACCACCAC CACCACCCCC 
ACACCCACCA CTCCCATCCC CACCTGTCCC CCTGGGACCT TGGAACGGCA CGACGATGAT 
GGCAACCTGA TAATGAGCTC CAATGGGATC CCAGAGTGCT ACGCTGAAGA AGATGAGTTC 
TCAGGCTTGG AGACTGACAC TGCAGTACCT ACGGAAGAGG CCTACGTTAT ATATGATGAA 
GATTATGAAT TTGAGACGTC AAGGCCACCA ACCACCACTG AGCCTTCGAC CACTGCTACC 
ACACCGAGGG TGATCCCAGA GGAAGGCGCC ATCAGTTCCT TTCCTGAAGA AGAATTTGAT 
CTGGCTGGAA GGAAACGATT TGTTGCTCCT TACGTGACGT ACCTAAATAA AGACCCATCA 
GCCCCGTGCT CTCTGACTGA TGCACTGGAT CACTTCCAAG TGGACAGCCT GGATGAAATC 
ATCCCCAATG ACCTGAAGAA GAGTGACCTG CCTCCCCAGC ATGCTCCCCG CAACATCACC 
GTGGTGGCCG TGGAAGGTTG CCACTCATTT GTCATTGTGG ACTGGGACAA AGCCACCCCA 
GGAGATGTGG TCACAGGTTA CTTGGTTTAC AGTGCATCCT ATGAAGACTT CATCAGGAAC 
AAGTGGTCCA CTCAAGCTTC ATCAGTAACT CACTTGCCCA TTGAGAACCT AAAGCCCAAC 
ACGAGGTATT ATTTTAAAGT GCAAGCACAA AATCCTCATG GCTACGGACC TATCAGCCCT 
TCGGTCTCAT TTGTCACCGA ATCAGATAAT CCTCTGCTTG TTGTGAGGCC CCCAGGCGGT 
GAGCCTATCT GGATCCCATT CGCTTTCAAA CATGATCCCA GCTACACGGA CTGCCATGGA 
CGGCAATATG TGAAGCGCAC GTGGTATCGA AAGTTCGTGG GAGTTGTTCT TTGTAATTCA 
CTGAGGTATA AAATCTACCT CAGTGACAAC CTGAAAGATA CATTCTACAG CATTGGAGAC 
AGCTGGGGAA GAGGTGAAGA CCATTGCCAA TTTGTGGATT CACACCTTGA TGGAAGAACA 
GGGCCTCAGT CCTATGTAGA AGCCCTCCCT ACTATTCAAG GCTACTATCG CCAGTATCGT 
CAGGAGCCTG TCAGGTTTGG GAACATCGGC TTCGGAACCC CCTACTACTA TGTGGGCTGG 
TACGAGTGTG GGGTCTCCAT CCCTGGAAAG TGGTAA

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

FNDC1 ( XM_011536191.2 ) cDNA ORF clone, Homo sapiens(human) -> XP_011534493.1 Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X2, mRNA.

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CloneID	OHu73618
Clone ID Related Accession (Same CDS sequence)	XM_011536191.2
Accession Version	XM_011536191.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5334bp) 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	fibronectin type III domain-containing protein 1 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000006.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011536191.1. ##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##

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGA AAAGGAAGTG 
CCCAACAAGC CCTTGCGTGT GCGTGTCCGG TCCTCAGATG ACAGGCTGTC CGTTGCGTGG 
AAGGCACCAC GCCTGTCTGG AGCCAAGAGT CCACGCAGAT CACGGGGTTT TCTCCTGGGC 
TACGGGGAGA GTGGCCGGAA GATGAATTAT GTTCCACTGA CAAGAGATGA ACGGACACAC 
GAAATTAAAA AGCTAGCCTC GGAATCCGTG TATGTGGTCT CCCTGCAGTC CATGAACTCT 
CAGGGCCGGA GCCAACCAGT CTACAGGGCT GCCCTAACAA AGCGAAAGAT TTCAGAAGAG 
GACGAATTGG ATGTACCTGA CGACATCAGC GTCCGGGTTA TGTCATCTCA GTCTGTGCTT 
GTGTCCTGGG TGGATCCTGT TCTGGAAAAA CAGAAGAAAG TTGTTGCATC AAGACAGTAC 
ACCGTGCGCT ATCGAGAGAA GGGGGAATTG GCCAGGTGGG ATTATAAGCA GATCGCTAAC 
AGGCGTGTGC TGATTGAGAA CCTGATTCCA GACACTGTGT ATGAATTTGC AGTCCGTATT 
TCACAGGGTG AAAGAGATGG CAAATGGAGT ACGTCAGTCT TCCAAAGAAC ACCAGAATCT 
GCCCCTACCA CAGCTCCTGA AAACTTGAAC GTCTGGCCAG TCAATGGCAA ACCTACAGTT 
GTCGCTGCAT CTTGGGATGC GCTACCAGAG ACTGAGGGGA AAGTGAAAGA ATACATTCTT 
TCATACGCCC CGGCTCTCAA ACCATTTGGA GCAAAGTCCC TCACCTATCC TGGAGACACT 
ACTTCTGCCC TGGTGGATGG TCTGCAGCCT GGGGAACGCT ATCTTTTCAA AATCCGGGCC 
ACAAACAGGA GAGGCCTGGG ACCTCACTCC AAAGCCTTCA TTGTCGCTAT GCCAACAACC 
AGTAAGGCGG ATGTTGAGCA GAACACGGAG GACAATGGGA AACCCGAAAA ACCTGAGCCT 
TCCTCACCTT CTCCCAGAGC TCCAGCTTCC TCCCAACACC CCTCTGTGCC TGCTTCTCCC 
CAAGGGAGAA ATGCCAAGGA CCTTCTTCTT GACTTGAAGA ACAAAATATT GGCTAATGGT 
GGGGCGCCCC GAAAACCCCA GCTTCGCGCC AAGAAGGCAG AGGAGCTGGA TCTTCAGTCG 
ACAGAAATCA CTGGGGAGGA GGAGCTGGGT TCCCGGGAGG ACTCGCCCAT GTCACCCTCA 
GACACCCAAG ACCAGAAACG GACCCTGAGG CCGCCAAGTA GACACGGCCA CTCGGTGGTT 
GCTCCCGGCA GGACTGCAGT GAGGGCCCGG ATGCCAGCGC TGCCCCGAAG GGAAGGCGTA 
GATAAGCCTG GCTTTTCCCT GGCCACGCAG CCCCGCCCAG GGGCGCCCCC CTCGGCTTCG 
GCCTCTCCTG CCCACCACGC GTCCACCCAG GGCACCTCTC ATCGTCCTTC CCTGCCTGCC 
AGCTTGAATG ACAACGACTT GGTGGACTCA GACGAAGATG AGCGCGCTGT GGGCTCCCTC 
CACCCCAAGG GCGCCTTCGC CCAGCCCCGG CCAGCCCTGT CCCCCAGCCG CCAGTCCCCG 
TCCAGCGTTC TCCGCGACAG AAGCTCTGTG CACCCCGGCG CAAAGCCAGC CTCGCCGGCC 
CGGAGGACCC CCCATTCAGG GGCCGCAGAG GAAGATTCCA GTGCCTCAGC CCCACCCTCA 
AGACTTTCTC CACCCCATGG GGGATCATCT CGGCTGCTGC CCACCCAGCC ACACCTGAGC 
TCTCCACTTT CCAAGGGCGG GAAGGATGGT GAGGACGCCC CAGCCACCAA CTCCAATGCG 
CCATCACGGT CCACCATGTC CTCCTCCGTC TCTTCTCATC TCTCGTCCAG GACGCAGGTC 
TCTGAGGGAG CGGAGGCTTC TGATGGTGAA AGCCACGGTG ACGGCGATAG GGAAGACGGC 
GGAAGGCAGG CGGAGGCCAC GGCCCAGACG CTGCGGGCCC GGCCTGCCTC TGGACACTTC 
CATTTGCTCA GACACAAACC CTTTGCTGCC AACGGGAGGT CTCCAAGCAG GTTCAGCATT 
GGGCGGGGAC CTCGGCTGCA GCCCTCCAGC TCCCCACAGT CGACTGTGCC CTCCCGAGCC 
CACCCCAGGG TTCCCTCTCA CTCTGATTCC CACCCTAAGC TTAGCTCAGG TATCCATGGA 
GACGAGGAGG ATGAGAAGCC GCTTCCTGCC ACCGTTGTCA ATGACCACGT GCCTTCCTCC 
TCCAGGCAGC CCATCTCCCG GGGCTGGGAG GACTTAAGGA GAAGCCCGCA GAGAGGGGCC 
AGCCTGCATC GGAAGGAACC CATCCCAGAG AACCCCAAAT CCACAGGGGC AGATACACAT 
CCTCAGGGCA AGTACTCCTC CCTGGCCTCC AAGGCTCAGG ATGTTCAACA GAGCACAGAC 
GCGGACACGG AGGGTCATTC TCCCAAAGCA CAGCCAGGGT CCACAGACCG CCACGCGTCC 
CCTGCTCGTC CGCCCGCAGC ACGGTCACAG CAGCATCCCA GTGTTCCCAG AAGGATGACA 
CCCGGCCGGG CCCCACAACA GCAGCCCCCT CCTCCCGTCG CCACGTCCCA GCACCACCCG 
GGACCCCAGA GCAGAGACGC GGGTCGGTCA CCTTCCCAGC CCAGGCTCTC ACTGACCCAG 
GCCGGGCGGC CCCGCCCCAC GTCGCAGGGC CGCTCCCACT CCTCCTCGGA CCCTTACACG 
GCGAGCTCCA GAGGGATGCT CCCCACGGCC CTCCAGAACC AGGACGAGGA TGCCCAGGGC 
AGCTACGACG ACGACAGCAC AGAAGTCGAG GCCCAGGATG TGCGGGCCCC CGCGCACGCC 
GCGCGCGCCA AGGAGGCAGC TGCGTCCCTT CCCAAGCACC AGCAGGTGGA GTCTCCCACA 
GGCGCAGGGG CAGGTGGCGA CCACAGGTCC CAGCGCGGAC ATGCGGCCTC CCCCGCCAGG 
CCCAGCCGAC CCGGCGGCCC CCAGTCCCGC GCCCGGGTAC CCAGCAGGGC AGCGCCGGGG 
AAGTCGGAGC CTCCTTCCAA GCGGCCCCTG TCCTCCAAGT CCCAGCAGTC GGTCTCAGCC 
GAGGACGACG AGGAGGAGGA CGCGGGATTT TTTAAAGGCG GGAAAGAAGA CCTTCTGTCT 
TCCTCTGTGC CAAAGTGGCC CTCTTCCTCC ACTCCCAGGG GCGGCAAAGA CGCCGATGGG 
AGCCTCGCCA AGGAAGAGAG GGAGCCTGCC ATCGCGCTTG CCCCTCGCGG AGGGAGCCTG 
GCTCCTGTGA AGCGACCTCT CCCCCCACCT CCAGGCAGCT CCCCCAGGGC CTCCCACGTC 
CCTTCCCGAC TGCCGCCTCG CAGCGCTGCC ACCGTGAGCC CCGTCGCGGG CACCCACCCC 
TGGCCGCAGT ACACCACGCG CGCCCCACCT GGCCACTTCT CCACCACCCC GATGCTGTCC 
TTGCGCCAGA GGATGATGCA TGCCAGATTC CGTAACCCTC TCTCCCGACA GCCTGCCAGA 
CCCTCTTACA GACAAGGTTA TAATGGCAGA CCAAATGTAG AAGGGAAAGT CCTTCCTGGT 
AGTAATGGAA AACCGAATGG ACAGAGAATT ATCAATGGCC CTCAAGGAAC AAAGTGGGTT 
GTGGACCTTG ATCGTGGGTT AGTATTGAAT GCAGAAGGAA GGTACCTCCA AGATTCACAT 
GGAAATCCTC TTCGGATTAA ACTAGGAGGA GATGGTCGAA CCATTGTAGA TCTGGAAGGG 
ACCCCCGTGG TGAGTCCTGA CGGCCTCCCA CTCTTTGGGC AGGGGCGACA TGGCACACCT 
CTGGCCAATG CCCAAGATAA GCCAATTTTG AGTCTTGGAG GAAAGCCGCT GGTGGGCTTG 
GAGGTCATCA AAAAAACCAC CCATCCCCCT ACCACTACCA TGCAGCCCAC CACTACTACG 
ACGCCCCTGC CTACCACTAC AACCCCGAGG CCCACCACTG CCACCACCCG CCGCACGACC 
ACCACCCGCC GCACGACCAC CAGGCGTCCA ACAACCACAG TCCGAACCAC TACGCGGACA 
ACCACCACCA CCACCCCCAC ACCCACCACT CCCATCCCCA CCTGTCCCCC TGGGACCTTG 
GAACGGCACG ACGATGATGG CAACCTGATA ATGAGCTCCA ATGGGATCCC AGAGTGCTAC 
GCTGAAGAAG ATGAGTTCTC AGGCTTGGAG ACTGACACTG CAGTACCTAC GGAAGAGGCC 
TACGTTATAT ATGATGAAGA TTATGAATTT GAGACGTCAA GGCCACCAAC CACCACTGAG 
CCTTCGACCA CTGCTACCAC ACCGAGGGTG ATCCCAGAGG AAGGCGCCAT CAGTTCCTTT 
CCTGAAGAAG AATTTGATCT GGCTGGAAGG AAACGATTTG TTGCTCCTTA CGTGACGTAC 
CTAAATAAAG ACCCATCAGC CCCGTGCTCT CTGACTGATG CACTGGATCA CTTCCAAGTG 
GACAGCCTGG ATGAAATCAT CCCCAATGAC CTGAAGAAGA GTGACCTGCC TCCCCAGCAT 
GCTCCCCGCA ACATCACCGT GGTGGCCGTG GAAGGTTGCC ACTCATTTGT CATTGTGGAC 
TGGGACAAAG CCACCCCAGG AGATGTGGTC ACAGGTTACT TGGTTTACAG TGCATCCTAT 
GAAGACTTCA TCAGGAACAA GTGGTCCACT CAAGCTTCAT CAGTAACTCA CTTGCCCATT 
GAGAACCTAA AGCCCAACAC GAGGTATTAT TTTAAAGTGC AAGCACAAAA TCCTCATGGC 
TACGGACCTA TCAGCCCTTC GGTCTCATTT GTCACCGAAT CAGATAATCC TCTGCTTGTT 
GTGAGGCCCC CAGGCGGTGA GCCTATCTGG ATCCCATTCG CTTTCAAACA TGATCCCAGC 
TACACGGACT GCCATGGACG GCAATATGTG AAGCGCACGT GGTATCGAAA GTTCGTGGGA 
GTTGTTCTTT GTAATTCACT GAGGTATAAA ATCTACCTCA GTGACAACCT GAAAGATACA 
TTCTACAGCA TTGGAGACAG CTGGGGAAGA GGTGAAGACC ATTGCCAATT TGTGGATTCA 
CACCTTGATG GAAGAACAGG GCCTCAGTCC TATGTAGAAG CCCTCCCTAC TATTCAAGGC 
TACTATCGCC AGTATCGTCA GGAGCCTGTC AGGTTTGGGA ACATCGGCTT CGGAACCCCC 
TACTACTATG TGGGCTGGTA CGAGTGTGGG GTCTCCATCC CTGGAAAGTG GTAA

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

RefSeq	XP_011534493.1
CDS	193..5526
Translation	MAPEAGATLRAPRRLSWAALLLLAALLPVASSAAASEKEVPNKPLRVRVRSSDDRLSVAWKAPRLSGAKSPRRSRGFLLGYGESGRKMNYVPLTRDERTHEIKKLASESVYVVSLQSMNSQGRSQPVYRAALTKRKISEEDELDVPDDISVRVMSSQSVLVSWVDPVLEKQKKVVASRQYTVRYREKGELARWDYKQIANRRVLIENLIPDTVYEFAVRISQGERDGKWSTSVFQRTPESAPTTAPENLNVWPVNGKPTVVAASWDALPETEGKVKEYILSYAPALKPFGAKSLTYPGDTTSALVDGLQPGERYLFKIRATNRRGLGPHSKAFIVAMPTTSKADVEQNTEDNGKPEKPEPSSPSPRAPASSQHPSVPASPQGRNAKDLLLDLKNKILANGGAPRKPQLRAKKAEELDLQSTEITGEEELGSREDSPMSPSDTQDQKRTLRPPSRHGHSVVAPGRTAVRARMPALPRREGVDKPGFSLATQPRPGAPPSASASPAHHASTQGTSHRPSLPASLNDNDLVDSDEDERAVGSLHPKGAFAQPRPALSPSRQSPSSVLRDRSSVHPGAKPASPARRTPHSGAAEEDSSASAPPSRLSPPHGGSSRLLPTQPHLSSPLSKGGKDGEDAPATNSNAPSRSTMSSSVSSHLSSRTQVSEGAEASDGESHGDGDREDGGRQAEATAQTLRARPASGHFHLLRHKPFAANGRSPSRFSIGRGPRLQPSSSPQSTVPSRAHPRVPSHSDSHPKLSSGIHGDEEDEKPLPATVVNDHVPSSSRQPISRGWEDLRRSPQRGASLHRKEPIPENPKSTGADTHPQGKYSSLASKAQDVQQSTDADTEGHSPKAQPGSTDRHASPARPPAARSQQHPSVPRRMTPGRAPQQQPPPPVATSQHHPGPQSRDAGRSPSQPRLSLTQAGRPRPTSQGRSHSSSDPYTASSRGMLPTALQNQDEDAQGSYDDDSTEVEAQDVRAPAHAARAKEAAASLPKHQQVESPTGAGAGGDHRSQRGHAASPARPSRPGGPQSRARVPSRAAPGKSEPPSKRPLSSKSQQSVSAEDDEEEDAGFFKGGKEDLLSSSVPKWPSSSTPRGGKDADGSLAKEEREPAIALAPRGGSLAPVKRPLPPPPGSSPRASHVPSRLPPRSAATVSPVAGTHPWPQYTTRAPPGHFSTTPMLSLRQRMMHARFRNPLSRQPARPSYRQGYNGRPNVEGKVLPGSNGKPNGQRIINGPQGTKWVVDLDRGLVLNAEGRYLQDSHGNPLRIKLGGDGRTIVDLEGTPVVSPDGLPLFGQGRHGTPLANAQDKPILSLGGKPLVGLEVIKKTTHPPTTTMQPTTTTTPLPTTTTPRPTTATTRRTTTTRRTTTRRPTTTVRTTTRTTTTTTPTPTTPIPTCPPGTLERHDDDGNLIMSSNGIPECYAEEDEFSGLETDTAVPTEEAYVIYDEDYEFETSRPPTTTEPSTTATTPRVIPEEGAISSFPEEEFDLAGRKRFVAPYVTYLNKDPSAPCSLTDALDHFQVDSLDEIIPNDLKKSDLPPQHAPRNITVVAVEGCHSFVIVDWDKATPGDVVTGYLVYSASYEDFIRNKWSTQASSVTHLPIENLKPNTRYYFKVQAQNPHGYGPISPSVSFVTESDNPLLVVRPPGGEPIWIPFAFKHDPSYTDCHGRQYVKRTWYRKFVGVVLCNSLRYKIYLSDNLKDTFYSIGDSWGRGEDHCQFVDSHLDGRTGPQSYVEALPTIQGYYRQYRQEPVRFGNIGFGTPYYYVGWYECGVSIPGKW

Target ORF information:

RefSeq Version	XM_011536191.2
Organism	Homo sapiens(human)
Definition	Homo sapiens fibronectin type III domain containing 1 (FNDC1), transcript variant X2, mRNA.

Target ORF information:

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

XM_011536191.2

ORF Insert Sequence:

ATGGCCCCCG AGGCCGGGGC GACCCTGCGC GCGCCGCGCC GGCTGTCCTG GGCGGCGCTG 
CTGCTCTTGG CCGCGCTGCT CCCCGTCGCC TCCTCGGCGG CGGCCTCAGA AAAGGAAGTG 
CCCAACAAGC CCTTGCGTGT GCGTGTCCGG TCCTCAGATG ACAGGCTGTC CGTTGCGTGG 
AAGGCACCAC GCCTGTCTGG AGCCAAGAGT CCACGCAGAT CACGGGGTTT TCTCCTGGGC 
TACGGGGAGA GTGGCCGGAA GATGAATTAT GTTCCACTGA CAAGAGATGA ACGGACACAC 
GAAATTAAAA AGCTAGCCTC GGAATCCGTG TATGTGGTCT CCCTGCAGTC CATGAACTCT 
CAGGGCCGGA GCCAACCAGT CTACAGGGCT GCCCTAACAA AGCGAAAGAT TTCAGAAGAG 
GACGAATTGG ATGTACCTGA CGACATCAGC GTCCGGGTTA TGTCATCTCA GTCTGTGCTT 
GTGTCCTGGG TGGATCCTGT TCTGGAAAAA CAGAAGAAAG TTGTTGCATC AAGACAGTAC 
ACCGTGCGCT ATCGAGAGAA GGGGGAATTG GCCAGGTGGG ATTATAAGCA GATCGCTAAC 
AGGCGTGTGC TGATTGAGAA CCTGATTCCA GACACTGTGT ATGAATTTGC AGTCCGTATT 
TCACAGGGTG AAAGAGATGG CAAATGGAGT ACGTCAGTCT TCCAAAGAAC ACCAGAATCT 
GCCCCTACCA CAGCTCCTGA AAACTTGAAC GTCTGGCCAG TCAATGGCAA ACCTACAGTT 
GTCGCTGCAT CTTGGGATGC GCTACCAGAG ACTGAGGGGA AAGTGAAAGA ATACATTCTT 
TCATACGCCC CGGCTCTCAA ACCATTTGGA GCAAAGTCCC TCACCTATCC TGGAGACACT 
ACTTCTGCCC TGGTGGATGG TCTGCAGCCT GGGGAACGCT ATCTTTTCAA AATCCGGGCC 
ACAAACAGGA GAGGCCTGGG ACCTCACTCC AAAGCCTTCA TTGTCGCTAT GCCAACAACC 
AGTAAGGCGG ATGTTGAGCA GAACACGGAG GACAATGGGA AACCCGAAAA ACCTGAGCCT 
TCCTCACCTT CTCCCAGAGC TCCAGCTTCC TCCCAACACC CCTCTGTGCC TGCTTCTCCC 
CAAGGGAGAA ATGCCAAGGA CCTTCTTCTT GACTTGAAGA ACAAAATATT GGCTAATGGT 
GGGGCGCCCC GAAAACCCCA GCTTCGCGCC AAGAAGGCAG AGGAGCTGGA TCTTCAGTCG 
ACAGAAATCA CTGGGGAGGA GGAGCTGGGT TCCCGGGAGG ACTCGCCCAT GTCACCCTCA 
GACACCCAAG ACCAGAAACG GACCCTGAGG CCGCCAAGTA GACACGGCCA CTCGGTGGTT 
GCTCCCGGCA GGACTGCAGT GAGGGCCCGG ATGCCAGCGC TGCCCCGAAG GGAAGGCGTA 
GATAAGCCTG GCTTTTCCCT GGCCACGCAG CCCCGCCCAG GGGCGCCCCC CTCGGCTTCG 
GCCTCTCCTG CCCACCACGC GTCCACCCAG GGCACCTCTC ATCGTCCTTC CCTGCCTGCC 
AGCTTGAATG ACAACGACTT GGTGGACTCA GACGAAGATG AGCGCGCTGT GGGCTCCCTC 
CACCCCAAGG GCGCCTTCGC CCAGCCCCGG CCAGCCCTGT CCCCCAGCCG CCAGTCCCCG 
TCCAGCGTTC TCCGCGACAG AAGCTCTGTG CACCCCGGCG CAAAGCCAGC CTCGCCGGCC 
CGGAGGACCC CCCATTCAGG GGCCGCAGAG GAAGATTCCA GTGCCTCAGC CCCACCCTCA 
AGACTTTCTC CACCCCATGG GGGATCATCT CGGCTGCTGC CCACCCAGCC ACACCTGAGC 
TCTCCACTTT CCAAGGGCGG GAAGGATGGT GAGGACGCCC CAGCCACCAA CTCCAATGCG 
CCATCACGGT CCACCATGTC CTCCTCCGTC TCTTCTCATC TCTCGTCCAG GACGCAGGTC 
TCTGAGGGAG CGGAGGCTTC TGATGGTGAA AGCCACGGTG ACGGCGATAG GGAAGACGGC 
GGAAGGCAGG CGGAGGCCAC GGCCCAGACG CTGCGGGCCC GGCCTGCCTC TGGACACTTC 
CATTTGCTCA GACACAAACC CTTTGCTGCC AACGGGAGGT CTCCAAGCAG GTTCAGCATT 
GGGCGGGGAC CTCGGCTGCA GCCCTCCAGC TCCCCACAGT CGACTGTGCC CTCCCGAGCC 
CACCCCAGGG TTCCCTCTCA CTCTGATTCC CACCCTAAGC TTAGCTCAGG TATCCATGGA 
GACGAGGAGG ATGAGAAGCC GCTTCCTGCC ACCGTTGTCA ATGACCACGT GCCTTCCTCC 
TCCAGGCAGC CCATCTCCCG GGGCTGGGAG GACTTAAGGA GAAGCCCGCA GAGAGGGGCC 
AGCCTGCATC GGAAGGAACC CATCCCAGAG AACCCCAAAT CCACAGGGGC AGATACACAT 
CCTCAGGGCA AGTACTCCTC CCTGGCCTCC AAGGCTCAGG ATGTTCAACA GAGCACAGAC 
GCGGACACGG AGGGTCATTC TCCCAAAGCA CAGCCAGGGT CCACAGACCG CCACGCGTCC 
CCTGCTCGTC CGCCCGCAGC ACGGTCACAG CAGCATCCCA GTGTTCCCAG AAGGATGACA 
CCCGGCCGGG CCCCACAACA GCAGCCCCCT CCTCCCGTCG CCACGTCCCA GCACCACCCG 
GGACCCCAGA GCAGAGACGC GGGTCGGTCA CCTTCCCAGC CCAGGCTCTC ACTGACCCAG 
GCCGGGCGGC CCCGCCCCAC GTCGCAGGGC CGCTCCCACT CCTCCTCGGA CCCTTACACG 
GCGAGCTCCA GAGGGATGCT CCCCACGGCC CTCCAGAACC AGGACGAGGA TGCCCAGGGC 
AGCTACGACG ACGACAGCAC AGAAGTCGAG GCCCAGGATG TGCGGGCCCC CGCGCACGCC 
GCGCGCGCCA AGGAGGCAGC TGCGTCCCTT CCCAAGCACC AGCAGGTGGA GTCTCCCACA 
GGCGCAGGGG CAGGTGGCGA CCACAGGTCC CAGCGCGGAC ATGCGGCCTC CCCCGCCAGG 
CCCAGCCGAC CCGGCGGCCC CCAGTCCCGC GCCCGGGTAC CCAGCAGGGC AGCGCCGGGG 
AAGTCGGAGC CTCCTTCCAA GCGGCCCCTG TCCTCCAAGT CCCAGCAGTC GGTCTCAGCC 
GAGGACGACG AGGAGGAGGA CGCGGGATTT TTTAAAGGCG GGAAAGAAGA CCTTCTGTCT 
TCCTCTGTGC CAAAGTGGCC CTCTTCCTCC ACTCCCAGGG GCGGCAAAGA CGCCGATGGG 
AGCCTCGCCA AGGAAGAGAG GGAGCCTGCC ATCGCGCTTG CCCCTCGCGG AGGGAGCCTG 
GCTCCTGTGA AGCGACCTCT CCCCCCACCT CCAGGCAGCT CCCCCAGGGC CTCCCACGTC 
CCTTCCCGAC TGCCGCCTCG CAGCGCTGCC ACCGTGAGCC CCGTCGCGGG CACCCACCCC 
TGGCCGCAGT ACACCACGCG CGCCCCACCT GGCCACTTCT CCACCACCCC GATGCTGTCC 
TTGCGCCAGA GGATGATGCA TGCCAGATTC CGTAACCCTC TCTCCCGACA GCCTGCCAGA 
CCCTCTTACA GACAAGGTTA TAATGGCAGA CCAAATGTAG AAGGGAAAGT CCTTCCTGGT 
AGTAATGGAA AACCGAATGG ACAGAGAATT ATCAATGGCC CTCAAGGAAC AAAGTGGGTT 
GTGGACCTTG ATCGTGGGTT AGTATTGAAT GCAGAAGGAA GGTACCTCCA AGATTCACAT 
GGAAATCCTC TTCGGATTAA ACTAGGAGGA GATGGTCGAA CCATTGTAGA TCTGGAAGGG 
ACCCCCGTGG TGAGTCCTGA CGGCCTCCCA CTCTTTGGGC AGGGGCGACA TGGCACACCT 
CTGGCCAATG CCCAAGATAA GCCAATTTTG AGTCTTGGAG GAAAGCCGCT GGTGGGCTTG 
GAGGTCATCA AAAAAACCAC CCATCCCCCT ACCACTACCA TGCAGCCCAC CACTACTACG 
ACGCCCCTGC CTACCACTAC AACCCCGAGG CCCACCACTG CCACCACCCG CCGCACGACC 
ACCACCCGCC GCACGACCAC CAGGCGTCCA ACAACCACAG TCCGAACCAC TACGCGGACA 
ACCACCACCA CCACCCCCAC ACCCACCACT CCCATCCCCA CCTGTCCCCC TGGGACCTTG 
GAACGGCACG ACGATGATGG CAACCTGATA ATGAGCTCCA ATGGGATCCC AGAGTGCTAC 
GCTGAAGAAG ATGAGTTCTC AGGCTTGGAG ACTGACACTG CAGTACCTAC GGAAGAGGCC 
TACGTTATAT ATGATGAAGA TTATGAATTT GAGACGTCAA GGCCACCAAC CACCACTGAG 
CCTTCGACCA CTGCTACCAC ACCGAGGGTG ATCCCAGAGG AAGGCGCCAT CAGTTCCTTT 
CCTGAAGAAG AATTTGATCT GGCTGGAAGG AAACGATTTG TTGCTCCTTA CGTGACGTAC 
CTAAATAAAG ACCCATCAGC CCCGTGCTCT CTGACTGATG CACTGGATCA CTTCCAAGTG 
GACAGCCTGG ATGAAATCAT CCCCAATGAC CTGAAGAAGA GTGACCTGCC TCCCCAGCAT 
GCTCCCCGCA ACATCACCGT GGTGGCCGTG GAAGGTTGCC ACTCATTTGT CATTGTGGAC 
TGGGACAAAG CCACCCCAGG AGATGTGGTC ACAGGTTACT TGGTTTACAG TGCATCCTAT 
GAAGACTTCA TCAGGAACAA GTGGTCCACT CAAGCTTCAT CAGTAACTCA CTTGCCCATT 
GAGAACCTAA AGCCCAACAC GAGGTATTAT TTTAAAGTGC AAGCACAAAA TCCTCATGGC 
TACGGACCTA TCAGCCCTTC GGTCTCATTT GTCACCGAAT CAGATAATCC TCTGCTTGTT 
GTGAGGCCCC CAGGCGGTGA GCCTATCTGG ATCCCATTCG CTTTCAAACA TGATCCCAGC 
TACACGGACT GCCATGGACG GCAATATGTG AAGCGCACGT GGTATCGAAA GTTCGTGGGA 
GTTGTTCTTT GTAATTCACT GAGGTATAAA ATCTACCTCA GTGACAACCT GAAAGATACA 
TTCTACAGCA TTGGAGACAG CTGGGGAAGA GGTGAAGACC ATTGCCAATT TGTGGATTCA 
CACCTTGATG GAAGAACAGG GCCTCAGTCC TATGTAGAAG CCCTCCCTAC TATTCAAGGC 
TACTATCGCC AGTATCGTCA GGAGCCTGTC AGGTTTGGGA ACATCGGCTT CGGAACCCCC 
TACTACTATG TGGGCTGGTA CGAGTGTGGG GTCTCCATCC CTGGAAAGTG GTAA

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

PubMed

miR-1207-3p regulates the androgen receptor in prostate cancer via FNDC1/fibronectin.
Experimental cell research348(2)190-200(2016 Nov)
Das DK,Naidoo M,Ilboudo A,Park JY,Ali T,Krampis K,Robinson BD,Osborne JR,Ogunwobi OO

Activator of G-protein signaling 8 is involved in VEGF-mediated signal processing during angiogenesis.
Journal of cell science129(6)1210-22(2016 Mar)
Hayashi H,Al Mamun A,Sakima M,Sato M

A genome-wide association study identifies LIPA as a susceptibility gene for coronary artery disease.
Circulation. Cardiovascular genetics4(4)403-12(2011 Aug)
Wild PS,Zeller T,Schillert A,Szymczak S,Sinning CR,Deiseroth A,Schnabel RB,Lubos E,Keller T,Eleftheriadis MS,Bickel C,Rupprecht HJ,Wilde S,Rossmann H,Diemert P,Cupples LA,Perret C,Erdmann J,Stark K,Kleber ME,Epstein SE,Voight BF,Kuulasmaa K,Li M,Sch?fer AS,Klopp N,Braund PS,Sager HB,Demissie S,Proust C,K?nig IR,Wichmann HE,Reinhard W,Hoffmann MM,Virtamo J,Burnett MS,Siscovick D,Wiklund PG,Qu L,El Mokthari NE,Thompson JR,Peters A,Smith AV,Yon E,Baumert J,Hengstenberg C,M?rz W,Amouyel P,Devaney J,Schwartz SM,Saarela O,Mehta NN,Rubin D,Silander K,Hall AS,Ferrieres J,Harris TB,Melander O,Kee F,Hakonarson H,Schrezenmeir J,Gudnason V,Elosua R,Arveiler D,Evans A,Rader DJ,Illig T,Schreiber S,Bis JC,Altshuler D,Kavousi M,Witteman JC,Uitterlinden AG,Hofman A,Folsom AR,Barbalic M,Boerwinkle E,Kathiresan S,Reilly MP,O'Donnell CJ,Samani NJ,Schunkert H,Cambien F,Lackner KJ,Tiret L,Salomaa V,Munzel T,Ziegler A,Blankenberg S

MEL4B3, a novel mRNA is induced in skin tumors and regulated by TGF-beta and pro-inflammatory cytokines.
Experimental dermatology14(9)709-18(2005 Sep)
Anderegg U,Breitschwerdt K,K?hler MJ,Sticherling M,Haustein UF,Simon JC,Saalbach A

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FNDC1 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:

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