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VPS13C (NM_020821) Human Tagged ORF Clone

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SKU
RG220562
VPS13C (tGFP-tagged) - Human vacuolar protein sorting 13 homolog C (S. cerevisiae) (VPS13C), transcript variant 2A
  • TrueORF®
    TrueORF®

    Expression-ready ORF plasmid with C-terminal tag(s)

    Click here to learn more.

ORF Plasmid: tGFP DDK
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Datasheet SDS Plasmid Map
NM_020821 in other vectors (2)
Reconstitution Protocol
$4,676.00
3 Weeks*
Size
Bulk Requests & Clone Modifications

Other products for "VPS13C"

Frequently Bought Together (3)

TA150041 Mouse monoclonal turboGFP antibody, clone OTI2H8 100 ul
$447.00
PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each 100 pmol
$59.00
PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug 10 ug
$750.00
Specifications
Product Data
Type Human Tagged ORF Clone
Target Symbol VPS13C
Synonyms PARK23
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>RG220562 representing NM_020821
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGTGCTGGAGTCGGTGGTCGCGGACTTGCTGAACCGCTTCCTGGGGGACTATGTGGAGAACCTGAACA
AGTCCCAGCTGAAGCTGGGCATCTGGGGCGGAAATGTGGCTTTAGATAATCTACAGATAAAAGAAAATGC
CCTGAGTGAATTGGATGTTCCTTTTAAAGTCAAGGCTGGCCAAATTGATAAATTAACTTTGAAGATTCCT
TGGAAGAACCTTTATGGAGAAGCAGTTGTTGCGACCCTGGAAGGATTATACCTGCTTGTTGTCCCTGGAG
CAAGTATTAAGTATGATGCTGTAAAAGAAGAAAAATCCTTGCAGGATGTTAAACAGAAAGAGCTATCCCG
AATTGAAGAAGCCCTTCAAAAAGCAGCAGAAAAAGGCACACATTCAGGGGAGTTCATATATGGCTTGGAG
AACTTTGTTTACAAGGACATCAAGCCTGGACGTAAACGTAAAAAGCACAAAAAACATTTTAAGAAACCTT
TTAAAGGTCTTGATCGTTCAAAAGATAAGCCAAAAGAAGCCAAAAAGGATACATTTGTGGAAAAATTGGC
AACTCAAGTAATAAAAAATGTACAAGTAAAAATCACAGATATTCACATTAAATATGAAGATGATGTCACT
GATCCAAAGCGGCCTCTTTCATTTGGTGTCACACTGGGAGAGCTTAGTCTACTGACTGCAAATGAACACT
GGACTCCATGCATATTAAATGAAGCAGACAAAATTATATACAAGCTTATACGACTTGATAGTCTTAGCGC
CTACTGGAATGTAAATTGCAGCATGTCTTACCAGAGATCAAGGGAACAGATTTTGGATCAGCTGAAAAAT
GAAATTCTTACAAGTGGAAATATACCCCCAAATTATCAATACATTTTCCAGCCAATATCAGCCTCTGCAA
AACTCTACATGAATCCTTATGCAGAATCAGAGCTCAAAACGCCCAAACTGGATTGCAACATAGAAATACA
AAATATTGCCATTGAACTGACCAAACCTCAGTACTTAAGTATGATTGACCTTTTGGAGTCAGTGGATTAT
ATGGTTAGGAATGCGCCTTATAGGAAATACAAGCCTTATTTACCACTTCATACCAATGGTCGACGATGGT
GGAAATATGCAATTGATTCTGTTCTTGAAGTTCATATAAGAAGGTATACACAGATGTGGTCATGGAGTAA
CATAAAAAAGCACAGGCAGTTACTCAAGAGTTATAAAATTGCCTACAAAAACAAGTTAACACAGTCTAAA
GTCTCAGAAGAAATACAGAAAGAAATTCAGGACTTGGAGAAGACTCTAGATGTTTTTAACATAATTTTAG
CAAGGCAACAAGCACAAGTTGAGGTGATTCGGTCTGGGCAAAAATTAAGGAAAAAGTCTGCTGACACAGG
CGAGAAACGTGGAGGCTGGTTTAGTGGGTTGTGGGGTAAGAAAGAGTCTAAGAAAAAGGACGAAGAATCA
TTGATTCCTGAAACTATTGATGACCTTATGACTCCAGAGGAAAAAGATAAACTCTTCACTGCCATTGGTT
ATAGTGAGAGTACCCACAACCTAACTTTACCTAAGCAGTATGTTGCCCATATTATGACCCTGAAGTTAGT
AAGCACCTCTGTTACGATAAGAGAAAACAAGAATATTCCAGAAATACTAAAAATTCAGATAATTGGCCTG
GGCACTCAAGTATCTCAGCGACCAGGAGCACAAGCACTTAAGGTAGAAGCGAAATTAGAACACTGGTATA
TAACAGGTTTGAGACAGCAGGATATTGTGCCATCACTTGTGGCTTCAATTGGTGACACTACATCATCCTT
GCTTAAAATTAAATTTGAAACCAATCCGGAGGATAGTCCTGCTGACCAGACTCTGATTGTTCAGTCCCAG
CCTGTGGAGGTCATCTATGATGCTAAAACTGTCAATGCAGTGGTTGAATTCTTTCAATCAAATAAGGGAT
TGGATCTTGAGCAAATAACATCAGCAACATTGATGAAGCTGGAAGAAATTAAGGAGAGAACAGCTACAGG
ACTTACACATATTATTGAAACTCGAAAAGTCCTTGATTTAAGGATAAATCTGAAGCCTTCTTATCTAGTA
GTTCCACAGACGGGTTTCCACCATGAAAAGTCAGATCTTCTGATTTTAGATTTTGGTACATTTCAGCTCA
ACAGTAAAGATCAAGGTTTACAGAAGACTACTAATTCATCTCTGGAAGAAATAATGGATAAGGCATATGA
CAAGTTTGATGTTGAAATAAAAAATGTACAACTACTTTTTGCAAGAGCAGAGGAAACCTGGAAAAAGTGT
CGATTTCAGCATCCATCAACTATGCATATATTGCAACCCATGGATATTCATGTTGAGTTGGCTAAGGCCA
TGGTAGAAAAAGACATTAGAATGGCCAGATTTAAAGTGTCAGGAGGACTTCCTTTGATGCATGTGAGAAT
TTCTGACCAGAAGATGAAAGATGTGCTATATTTGATGAACAGTATACCTTTGCCACAGAAATCATCAGCC
CAGTCTCCAGAGAGACAGGTATCCTCAATTCCTATTATTTCAGGTGGTACAAAAGGTCTACTTGGTACTT
CACTATTGCTAGACACTGTGGAATCAGAGTCTGATGATGAGTATTTTGATGCTGAAGATGGAGAACCACA
GACTTGTAAAAGTATGAAAGGATCAGAACTTAAAAAAGCTGCAGAGGTCCCAAATGAGGAGCTCATCAAT
CTTCTACTCAAGTTTGAAATTAAAGAAGTGATTTTGGAATTTACTAAACAGCAGAAAGAAGAAGATACAA
TTCTAGTATTTAATGTTACTCAGTTAGGAACAGAGGCCACAATGAGAACATTTGACTTAACTGTGGTATC
TTATTTAAAGAAAATCAGCTTGGATTATCATGAAATTGAAGGATCCAAAAGGAAGCCCCTTCACTTGATT
AGCTCTTCTGACAAACCTGGATTAGATCTTTTGAAAGTGGAGTATATTAAGGCTGATAAGAATGGACCTA
GTTTTCAAACTGCTTTTGGAAAAACTGAACAAACAGTTAAGGTGGCCTTTTCATCTTTAAATCTGTTGCT
GCAAACACAAGCTCTTGTCGCTTCTATTAATTACCTCACAACCATTATTCCATCTGATGATCAAAGCATA
AGTGTTGCTAAGGAGGTACAAATTTCAACTGAAAAACAACAAAAAAATTCAACTCTGCCAAAAGCGATTG
TATCCTCCAGAGATAGTGACATTATTGATTTCAGGCTATTTGCCAAGTTGAATGCTTTCTGTGTCATTGT
TTGCAACGAAAAGAACAATATCGCCGAAATCAAGATTCAAGGACTGGATTCCTCCCTTTCTCTCCAGTCA
AGAAAGCAGTCACTTTTTGCCCGACTAGAAAATATTATTGTCACAGATGTTGATCCAAAGACAGTTCATA
AGAAAGCTGTGTCAATAATGGGAAATGAAGTTTTCCGTTTTAATTTGGATTTGTATCCAGATGCTACTGA
GGGGGATTTGTATACTGACATGTCCAAAGTGGATGGTGTGCTGTCTCTGAATGTTGGCTGTATTCAGATT
GTCTATCTTCATAAATTCCTTATGTCACTTCTGAACTTCCTGAATAATTTCCAGACAGCCAAAGAGTCTC
TGAGTGCTGCCACTGCCCAGGCTGCAGAAAGGGCTGCCACAAGTGTGAAAGATCTTGCCCAGAGGAGTTT
TCGTGTTTCCATCAATATTGATTTGAAAGCACCGGTTATAGTCATCCCACAGTCTTCTATTTCCACCAAT
GCAGTAGTGGTAGATCTTGGGTTAATCAGAGTTCATAATCAGTTCAGTCTGGTGTCTGATGAAGACTACT
TAAATCCTCCAGTAATTGATAGAATGGATGTGCAGCTAACAAAGCTTACACTTTATAGGACAGTGATCCA
GCCAGGCATCTACCATCCTGATATTCAGCTGTTGCACCCAATTAACTTGGAATTTCTTGTAAATCGGAAT
CTAGCTGCATCTTGGTACCACAAGGTGCCTGTTGTGGAAATTAAAGGACATCTTGATTCAATGAATGTTA
GTCTAAATCAAGAAGATCTTAATCTTTTATTTAGGATACTAACAGAAAATCTCTGTGAGGGTACTGAAGA
CTTGGATAAAGTGAAACCAAGAGTACAAGAGACAGGTGAAATTAAAGAGCCCCTTGAAATCTCTATATCA
CAAGATGTACATGATTCAAAAAATACTTTAACAACTGGAGTGGAAGAAATTAGGTCTGTAGACATCATTA
ATATGCTGCTGAATTTTGAAATTAAAGAGGTTGTGGTTACTTTGATGAAAAAATCAGAAAAGAAAGGAAG
GCCTTTACATGAGCTAAATGTCCTGCAACTTGGAATGGAAGCTAAAGTTAAAACCTATGACATGACTGCT
AAAGCTTATCTAAAAAAAATTAGTATGCAGTGCTTTGATTTCACTGACTCTAAAGGGGAACCTCTTCACA
TTATTAACTCTTCTAATGTGACTGACGAACCCCTTCTGAAAATGTTACTGACAAAGGCAGACAGTGATGG
ACCAGAATTTAAAACTATTCATGACAGTACCAAACAGAGACTGAAGGTTTCATTTGCATCCTTAGACTTA
GTACTTCATTTGGAAGCTTTACTTTCCTTCATGGATTTTTTATCATCTGCTGCTCCATTCTCTGAGCCTT
CCTCTTCTGAGAAGGAATCCGAGCTGAAACCACTTGTGGGGGAGTCCAGAAGTATCGCTGTCAAAGCTGT
ATCCAGCAACATTTCCCAAAAGGATGTGTTTGATTTAAAGATCACAGCTGAATTAAATGCATTTAATGTC
TTTGTCTGTGATCAGAAGTGTAACATTGCAGATATTAAAATACATGGAATGGATGCCTCTATTTCTGTGA
AGCCTAAGCAGACTGATGTGTTTGCCAGACTTAAAGATATTATAGTTATGAATGTAGATTTGCAGTCCAT
TCACAAAAAGGCTGTCTCTATTTTGGGAGATGAAGTCTTTAGGTTCCAACTGACTCTTTATCCAGATGCC
ACAGAAGGAGAGGCCTATGCTGATATGTCCAAAGTAGACGGCAAACTTAGTTTTAAAGTGGGTTGTATTC
AGATTGTTTATGTTCATAAATTCTTCATGTCTCTTTTGAACTTCCTCAACAATTTCCAAACTGCTAAAGA
AGCTTTGAGTACAGCCACAGTCCAGGCTGCAGAAAGAGCTGCTTCCAGCATGAAAGACTTGGCTCAAAAG
AGTTTCCGCCTTTTGATGGATATTAATTTGAAAGCACCAGTTATTATTATTCCTCAGTCTTCAGTATCAC
CTAATGCTGTTATAGCAGATCTGGGTTTAATCAGAGTTGAAAACAAGTTTAGCTTGGTTCCTATGGAACA
TTATTCTCTTCCTCCAGTCATTGATAAAATGAACATCGAACTCACTCAGTTGAAGCTGTCAAGAACTATT
TTGCAGGCTAGCTTGCCACAAAATGACATTGAAATTTTAAAACCAGTCAACATGCTTTTGTCCATACAGC
GAAACTTAGCAGCAGCATGGTATGTGCAAATTCCAGGGATGGAGATAAAAGGAAAACTAAAACCTATGCA
GGTTGCTCTCAGTGAAGATGACTTGACAGTTTTAATGAAAATTTTGCTAGAAAATCTTGGAGAAGCTTCC
TCACAACCAAGCCCTACACAGTCTGTGCAGGAGACTGTAAGAGTGAGAAAAGTTGATGTTTCAAGTGTAC
CTGACCATCTCAAAGAACAAGAAGATTGGACAGACTCAAAGCTCTCTATGAACCAGATTGTCAGTCTCCA
ATTTGACTTTCACTTTGAATCTCTTTCCATTATCCTTTATAACAATGATATCAACCAGGAATCTGGAGTT
GCATTTCATAATGACAGTTTCCAACTTGGTGAACTCAGACTACATCTTATGGCCTCCTCAGGGAAGATGT
TTAAGGATGGCTCAATGAATGTCAGCGTTAAACTTAAGACATGCACCCTTGATGATCTCAGAGAAGGAAT
TGAGAGAGCAACATCGAGAATGATTGACAGAAAGAATGACCAAGATAACAACAGTTCTATGATTGATATA
AGTTACAAACAAGACAAAAATGGAAGTCAAATTGATGCTGTTCTTGACAAGCTGTATGTATGTGCCAGTG
TGGAATTTCTGATGACTGTGGCAGATTTCTTTATCAAAGCTGTGCCTCAGAGTCCAGAAAATGTGGCAAA
AGAAACACAGATTTTACCAAGACAGACTGCCACAGGGAAGGTCAAGATAGAGAAAGATGACTCTGTTAGA
CCAAATATGACTTTAAAGGCCATGATCACAGATCCAGAAGTGGTATTTGTTGCCAGCCTGACAAAGGCTG
ATGCTCCTGCTCTGACAGCCTCGTTTCAGTGCAACCTTTCTCTGTCAACATCCAAACTCGAACAGATGAT
GGAAGCTTCTGTGAGAGATCTGAAAGTGCTCGCTTGCCCTTTTCTCAGAGAAAAGAGAGGGAAAAACATT
ACCACAGTCTTGCAGCCCTGTTCTTTATTTATGGAAAAATGTACGTGGGCTTCAGGAAAGCAAAATATAA
ATATTATGGTTAAAGAATTTATAATTAAGATTTCACCCATAATTCTTAATACTGTGTTGACAATCATGGC
TGCATTGTCTCCAAAAACAAAAGAAGATGGATCCAAAGATACGTCTAAGGAAATGGAAAATCTTTGGGGT
ATCAAATCGATTAATGATTATAACACTTGGTTTCTTGGTGTTGACACGGCAACAGAAATAACGGAAAGCT
TCAAAGGCATTGAACATTCACTGATAGAGGAAAATTGTGGTGTTGTTGTAGAATCCATTCAAGTTACCTT
AGAATGTGGCCTTGGACATCGAACTGTACCTTTATTATTGGCAGAGTCTAAGTTTTCAGGAAATATTAAA
AATTGGACTTCTCTAATGGCTGCTGTTGCTGACGTGACACTACAGGTGCACTATTACAATGAGATCCATG
CTGTCTGGGAGCCACTGATTGAGAGAGTGGAGGGGAAGAGACAATGGAATTTAAGGCTTGATGTAAAGAA
GAACCCAGTTCAGGATAAAAGTTTGCTGCCAGGAGATGATTTTATTCCTGAGCCACAAATGGCAATTCAT
ATTTCTTCAGGAAATACAATGAATATAACAATATCCAAAAGTTGTCTTAATGTTTTCAACAATTTAGCAA
AAGGTTTTTCAGAGGGCACTGCTTCTACTTTTGACTACTCTTTAAAGGACAGAGCTCCTTTTACGGTAAA
AAATGCTGTAGGTGTTCCCATTAAGGTGAAGCCCAATTGTAATCTCAGAGTAATGGGCTTCCCTGAGAAA
AGTGATATTTTTGATGTTGATGCTGGCCAGAATTTGGAACTGGAGTATGCCAGCATGGTACCTTCAAGTC
AAGGGAACCTATCTATATTGAGCCGTCAAGAAAGCTCCTTCTTCACTCTGACCATTGTACCTCATGGATA
TACAGAAGTTGCAAATATCCCTGTGGCCAGACCTGGACGGCGATTGTATAATGTACGGAATCCCAATGCC
AGTCATTCTGACTCTGTCTTGGTACAAATTGATGCAACTGAAGGGAATAAAGTAATTACCCTTCGCTCTC
CTCTACAGATCAAAAACCATTTCTCCATTGCATTTATCATCTATAAATTTGTTAAGAATGTTAAGCTATT
GGAGCGCATTGGGATAGCCAGACCTGAAGAGGAGTTCCATGTTCCTTTAGATTCATATAGATGTCAATTG
TTTATCCAGCCAGCTGGAATCTTAGAGCATCAGTACAAAGAATCTACCACTTATATTTCCTGGAAGGAAG
AACTTCATAGGAGCAGGGAAGTCAGATGCATGTTGCAGTGTCCATCAGTAGAAGTCAGCTTCTTACCTCT
CATAGTGAATACAGTTGCTCTGCCTGATGAATTGAGCTACATATGTACACATGGGGAAGACTGGGATGTA
GCTTACATTATTCATCTTTATCCTTCTCTCACTTTGCGGAATCTTCTCCCATATTCCCTAAGATATTTAC
TTGAGGGAACAGCAGAAACTCATGAGCTGGCAGAAGGCAGTACTGCTGATGTTCTGCATTCGAGAATCAG
TGGTGAAATAATGGAATTAGTCCTGGTGAAATACCAGGGCAAAAACTGGAATGGACATTTCCGCATACGT
GATACACTACCAGAATTCTTTCCTGTGTGTTTTTCTTCTGACTCCACAGAAGTGACGACAGTCGACCTGT
CAGTCCACGTCAGGAGAATTGGCAGCCGGATGGTGCTGTCTGTCTTTAGTCCCTATTGGTTAATCAACAA
GACTACCCGGGTTCTCCAGTATCGTTCAGAAGATATTCATGTGAAACATCCAGCTGATTTCAGGGATATT
ATTTTATTTTCTTTCAAGAAGAAGAACATTTTTACTAAAAATAAGGTACAATTAAAAATTTCAACCAGTG
CCTGGTCCAGTAGTTTCTCATTGGATACAGTGGGAAGTTATGGGTGTGTGAAGTGTCCTGCCAACAATAT
GGAGTACCTGGTTGGTGTTAGCATCAAAATGAGCAGTTTCAACCTTTCACGAATAGTTACCCTGACTCCC
TTTTGTACCATTGCAAACAAGTCATCATTAGAACTAGAAGTTGGCGAGATTGCATCTGATGGCTCAATGC
CAACTAATAAATGGAACTATATTGCTTCTTCAGAGTGCCTTCCATTTTGGCCAGAAAGTTTGTCAGGCAA
ACTTTGTGTGAGAGTGGTGGGCTGTGAAGGATCTTCCAAACCATTCTTTTATAACCGACAGGATAATGGC
ACTTTATTGAGCTTAGAAGATCTGAATGGGGGTATCTTGGTGGATGTAAACACTGCCGAACATTCAACTG
TCATAACTTTTTCTGATTACCATGAGGGATCTGCACCTGCCTTGATAATGAACCATACACCATGGGACAT
CCTCACATACAAACAGAGTGGGTCACCAGAAGAAATGGTCTTGCTGCCAAGACAGGCTCGACTTTTTGCC
TGGGCAGATCCTACTGGTACCAGAAAACTTACATGGACATATGCAGCAAATGTTGGGGAACATGATCTGT
TAAAGGATGGATGTGGACAGTTTCCATATGATGCAAACATCCAGATACACTGGGTATCATTTCTGGATGG
GCGCCAGAGAGTTTTGCTTTTCACCGATGATGTTGCCTTGGTTTCCAAAGCACTGCAGGCAGAAGAAATG
GAACAGGCTGATTATGAAATAACCTTGTCTCTCCACAGTCTTGGGCTTTCACTGGTTAACAATGAAAGCA
AGCAGGAAGTTTCCTATATTGGGATAACCAGTTCTGGTGTTGTTTGGGAGGTGAAACCAAAGCAGAAATG
GAAGCCATTTAGTCAAAAGCAGATAATCTTATTGGAACAATCCTATCAGAAACATCAAATATCAAGAGAC
CATGGCTGGATTAAGCTAGATAATAATTTTGAGGTCAATTTTGATAAAGATCCAATGGAAATGCGCCTCC
CTATTCGTAGCCCTATTAAACGAGACTTTTTATCAGGAATTCAGATTGAATTTAAGCAGTCTTCTCACCA
GAGAAGTTTAAGGGCCAGGTTGTACTGGCTTCAGGTTGATAATCAGTTACCAGGTGCAATGTTCCCTGTT
GTATTTCATCCTGTTGCCCCTCCAAAATCTATTGCTTTAGATTCAGAGCCCAAGCCTTTCATTGATGTGA
GTGTCATCACAAGATTTAATGAGTACAGTAAAGTCTTACAGTTCAAGTATTTTATGGTCCTCATTCAGGA
AATGGCCTTAAAAATTGATCAAGGGTTTCTAGGAGCTATTATTGCACTGTTTACCCCAACAACAGACCCT
GAAGCTGAAAGAAGACGGACAAAGTTAATCCAACAAGATATTGATGCTCTAAATGCAGAATTAATGGAGA
CTTCAATGACTGATATGTCAATTCTTAGTTTCTTTGAACATTTCCATATTTCTCCTGTGAAGTTGCATTT
GAGTTTGTCTTTGGGTTCCGGAGGTGAAGAATCAGACAAAGAAAAACAGGAAATGTTTGCAGTTCATTCT
GTCAACTTGCTGTTGAAAAGCATAGGTGCTACTCTGACTGATGTGGATGACCTTATATTCAAACTTGCTT
ATTATGAAATTCGATATCAGTTCTACAAGAGAGATCAGCTTATATGGAGTGTTGTTAGGCATTACAGTGA
ACAGTTCTTGAAACAGATGTATGTCCTTGTATTGGGGTTAGATGTACTTGGAAACCCATTTGGATTAATT
AGAGGTCTGTCTGAAGGAGTTGAAGCTTTATTCTATGAACCCTTCCAGGGTGCTGTTCAAGGCCCTGAAG
AATTTGCAGAGGGGTTAGTGATTGGAGTGAGAAGCCTCTTTGGACACACAGTAGGTGGTGCAGCAGGAGT
TGTATCTCGAATCACCGGTTCTGTTGGGAAAGGTTTGGCAGCAATTACAATGGACAAGGAATATCAGCAA
AAAAGAAGAGAAGAGTTGAGTCGACAGCCCAGAGATTTTGGAGACAGCCTGGCCAGAGGAGGAAAGGGCT
TTCTGCGAGGAGTTGTTGGTGGAGTGACTGGAATAATAACAAAACCTGTGGAAGGTGCCAAAAAGGAAGG
AGCTGCTGGATTCTTTAAAGGAATTGGAAAAGGGCTTGTGGGTGCTGTGGCCCGTCCAACTGGTGGAATC
GTAGATATGGCCAGTAGTACCTTCCAAGGCATTCAGAGGGCAGCAGAATCAACTGAGGAAGTATCTAGCC
TCCGTCCCCCTCGCCTGATCCATGAAGATGGCATCATTCGTCCTTATGACAGACAGGAATCTGAGGGCTC
TGACTTACTTGAGAATCATATCAAAAAGTTGGAAGGAGAGACTTACCGATACCACTGTGCTATTCCTGGA
AGCAAGAAGACAATCCTTATGGTTACAAATAGGCGAGTGTTGTGTATAAAGGAAGTTGAAATCCTGGGCC
TTATGTGTGTAGACTGGCAATGTCCATTTGAAGATTTTGTATTTCCTCCTAGTGTCAGTGAAAATGTGCT
AAAAATTTCAGTTAAGGAACAGGGTCTGTTCCACAAAAAAGACAGTGCCAATCAAGGCTGTGTTCGAAAA
GTTTACCTGAAGGACACCGCCACAGCAGAGAGAGCATGTAATGCCATTGAGGATGCACAGTCAACGAGAC
AGCAGCAAAAATTGATGAAGCAGTCATCAGTGAGACTTCTCAGACCCCAATTGCCATCT

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>RG220562 representing NM_020821
Red=Cloning site Green=Tags(s)

MVLESVVADLLNRFLGDYVENLNKSQLKLGIWGGNVALDNLQIKENALSELDVPFKVKAGQIDKLTLKIP
WKNLYGEAVVATLEGLYLLVVPGASIKYDAVKEEKSLQDVKQKELSRIEEALQKAAEKGTHSGEFIYGLE
NFVYKDIKPGRKRKKHKKHFKKPFKGLDRSKDKPKEAKKDTFVEKLATQVIKNVQVKITDIHIKYEDDVT
DPKRPLSFGVTLGELSLLTANEHWTPCILNEADKIIYKLIRLDSLSAYWNVNCSMSYQRSREQILDQLKN
EILTSGNIPPNYQYIFQPISASAKLYMNPYAESELKTPKLDCNIEIQNIAIELTKPQYLSMIDLLESVDY
MVRNAPYRKYKPYLPLHTNGRRWWKYAIDSVLEVHIRRYTQMWSWSNIKKHRQLLKSYKIAYKNKLTQSK
VSEEIQKEIQDLEKTLDVFNIILARQQAQVEVIRSGQKLRKKSADTGEKRGGWFSGLWGKKESKKKDEES
LIPETIDDLMTPEEKDKLFTAIGYSESTHNLTLPKQYVAHIMTLKLVSTSVTIRENKNIPEILKIQIIGL
GTQVSQRPGAQALKVEAKLEHWYITGLRQQDIVPSLVASIGDTTSSLLKIKFETNPEDSPADQTLIVQSQ
PVEVIYDAKTVNAVVEFFQSNKGLDLEQITSATLMKLEEIKERTATGLTHIIETRKVLDLRINLKPSYLV
VPQTGFHHEKSDLLILDFGTFQLNSKDQGLQKTTNSSLEEIMDKAYDKFDVEIKNVQLLFARAEETWKKC
RFQHPSTMHILQPMDIHVELAKAMVEKDIRMARFKVSGGLPLMHVRISDQKMKDVLYLMNSIPLPQKSSA
QSPERQVSSIPIISGGTKGLLGTSLLLDTVESESDDEYFDAEDGEPQTCKSMKGSELKKAAEVPNEELIN
LLLKFEIKEVILEFTKQQKEEDTILVFNVTQLGTEATMRTFDLTVVSYLKKISLDYHEIEGSKRKPLHLI
SSSDKPGLDLLKVEYIKADKNGPSFQTAFGKTEQTVKVAFSSLNLLLQTQALVASINYLTTIIPSDDQSI
SVAKEVQISTEKQQKNSTLPKAIVSSRDSDIIDFRLFAKLNAFCVIVCNEKNNIAEIKIQGLDSSLSLQS
RKQSLFARLENIIVTDVDPKTVHKKAVSIMGNEVFRFNLDLYPDATEGDLYTDMSKVDGVLSLNVGCIQI
VYLHKFLMSLLNFLNNFQTAKESLSAATAQAAERAATSVKDLAQRSFRVSINIDLKAPVIVIPQSSISTN
AVVVDLGLIRVHNQFSLVSDEDYLNPPVIDRMDVQLTKLTLYRTVIQPGIYHPDIQLLHPINLEFLVNRN
LAASWYHKVPVVEIKGHLDSMNVSLNQEDLNLLFRILTENLCEGTEDLDKVKPRVQETGEIKEPLEISIS
QDVHDSKNTLTTGVEEIRSVDIINMLLNFEIKEVVVTLMKKSEKKGRPLHELNVLQLGMEAKVKTYDMTA
KAYLKKISMQCFDFTDSKGEPLHIINSSNVTDEPLLKMLLTKADSDGPEFKTIHDSTKQRLKVSFASLDL
VLHLEALLSFMDFLSSAAPFSEPSSSEKESELKPLVGESRSIAVKAVSSNISQKDVFDLKITAELNAFNV
FVCDQKCNIADIKIHGMDASISVKPKQTDVFARLKDIIVMNVDLQSIHKKAVSILGDEVFRFQLTLYPDA
TEGEAYADMSKVDGKLSFKVGCIQIVYVHKFFMSLLNFLNNFQTAKEALSTATVQAAERAASSMKDLAQK
SFRLLMDINLKAPVIIIPQSSVSPNAVIADLGLIRVENKFSLVPMEHYSLPPVIDKMNIELTQLKLSRTI
LQASLPQNDIEILKPVNMLLSIQRNLAAAWYVQIPGMEIKGKLKPMQVALSEDDLTVLMKILLENLGEAS
SQPSPTQSVQETVRVRKVDVSSVPDHLKEQEDWTDSKLSMNQIVSLQFDFHFESLSIILYNNDINQESGV
AFHNDSFQLGELRLHLMASSGKMFKDGSMNVSVKLKTCTLDDLREGIERATSRMIDRKNDQDNNSSMIDI
SYKQDKNGSQIDAVLDKLYVCASVEFLMTVADFFIKAVPQSPENVAKETQILPRQTATGKVKIEKDDSVR
PNMTLKAMITDPEVVFVASLTKADAPALTASFQCNLSLSTSKLEQMMEASVRDLKVLACPFLREKRGKNI
TTVLQPCSLFMEKCTWASGKQNINIMVKEFIIKISPIILNTVLTIMAALSPKTKEDGSKDTSKEMENLWG
IKSINDYNTWFLGVDTATEITESFKGIEHSLIEENCGVVVESIQVTLECGLGHRTVPLLLAESKFSGNIK
NWTSLMAAVADVTLQVHYYNEIHAVWEPLIERVEGKRQWNLRLDVKKNPVQDKSLLPGDDFIPEPQMAIH
ISSGNTMNITISKSCLNVFNNLAKGFSEGTASTFDYSLKDRAPFTVKNAVGVPIKVKPNCNLRVMGFPEK
SDIFDVDAGQNLELEYASMVPSSQGNLSILSRQESSFFTLTIVPHGYTEVANIPVARPGRRLYNVRNPNA
SHSDSVLVQIDATEGNKVITLRSPLQIKNHFSIAFIIYKFVKNVKLLERIGIARPEEEFHVPLDSYRCQL
FIQPAGILEHQYKESTTYISWKEELHRSREVRCMLQCPSVEVSFLPLIVNTVALPDELSYICTHGEDWDV
AYIIHLYPSLTLRNLLPYSLRYLLEGTAETHELAEGSTADVLHSRISGEIMELVLVKYQGKNWNGHFRIR
DTLPEFFPVCFSSDSTEVTTVDLSVHVRRIGSRMVLSVFSPYWLINKTTRVLQYRSEDIHVKHPADFRDI
ILFSFKKKNIFTKNKVQLKISTSAWSSSFSLDTVGSYGCVKCPANNMEYLVGVSIKMSSFNLSRIVTLTP
FCTIANKSSLELEVGEIASDGSMPTNKWNYIASSECLPFWPESLSGKLCVRVVGCEGSSKPFFYNRQDNG
TLLSLEDLNGGILVDVNTAEHSTVITFSDYHEGSAPALIMNHTPWDILTYKQSGSPEEMVLLPRQARLFA
WADPTGTRKLTWTYAANVGEHDLLKDGCGQFPYDANIQIHWVSFLDGRQRVLLFTDDVALVSKALQAEEM
EQADYEITLSLHSLGLSLVNNESKQEVSYIGITSSGVVWEVKPKQKWKPFSQKQIILLEQSYQKHQISRD
HGWIKLDNNFEVNFDKDPMEMRLPIRSPIKRDFLSGIQIEFKQSSHQRSLRARLYWLQVDNQLPGAMFPV
VFHPVAPPKSIALDSEPKPFIDVSVITRFNEYSKVLQFKYFMVLIQEMALKIDQGFLGAIIALFTPTTDP
EAERRRTKLIQQDIDALNAELMETSMTDMSILSFFEHFHISPVKLHLSLSLGSGGEESDKEKQEMFAVHS
VNLLLKSIGATLTDVDDLIFKLAYYEIRYQFYKRDQLIWSVVRHYSEQFLKQMYVLVLGLDVLGNPFGLI
RGLSEGVEALFYEPFQGAVQGPEEFAEGLVIGVRSLFGHTVGGAAGVVSRITGSVGKGLAAITMDKEYQQ
KRREELSRQPRDFGDSLARGGKGFLRGVVGGVTGIITKPVEGAKKEGAAGFFKGIGKGLVGAVARPTGGI
VDMASSTFQGIQRAAESTEEVSSLRPPRLIHEDGIIRPYDRQESEGSDLLENHIKKLEGETYRYHCAIPG
SKKTILMVTNRRVLCIKEVEILGLMCVDWQCPFEDFVFPPSVSENVLKISVKEQGLFHKKDSANQGCVRK
VYLKDTATAERACNAIEDAQSTRQQQKLMKQSSVRLLRPQLPS

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene Plasmid Map
ACCN NM_020821
ORF Size 11259 bp
OTI Disclaimer Due to the inherent nature of this plasmid, standard methods to replicate additional amounts of DNA in E. coli are highly likely to result in mutations and/or rearrangements. Therefore, OriGene does not guarantee the capability to replicate this plasmid DNA. Additional amounts of DNA can be purchased from OriGene with batch-specific, full-sequence verification at a reduced cost. Please contact our customer care team at custsupport@origene.com or by calling 301.340.3188 option 3 for pricing and delivery.

The molecular sequence of this clone aligns with the gene accession number as a point of reference only. However, individual transcript sequences of the same gene can differ through naturally occurring variations (e.g. polymorphisms), each with its own valid existence. This clone is substantially in agreement with the reference, but a complete review of all prevailing variants is recommended prior to use. More info
OTI Annotation This clone was engineered to express the complete ORF with an expression tag. Expression varies depending on the nature of the gene.
Components The ORF clone is ion-exchange column purified and shipped in a 2D barcoded Matrix tube containing 10ug of transfection-ready, dried plasmid DNA (reconstitute with 100 ul of water).
Reconstitution Method 1. Centrifuge at 5,000xg for 5min.
2. Carefully open the tube and add 100ul of sterile water to dissolve the DNA.
3. Close the tube and incubate for 10 minutes at room temperature.
4. Briefly vortex the tube and then do a quick spin (less than 5000xg) to concentrate the liquid at the bottom.
5. Store the suspended plasmid at -20°C. The DNA is stable for at least one year from date of shipping when stored at -20°C.
Note Plasmids are not sterile.  For experiments where strict sterility is required, filtration with 0.22um filter is required.
Shipping Ambient
Reference Data
RefSeq NM_020821.3
RefSeq Size 13400 bp
RefSeq ORF 11262 bp
Locus ID 54832
UniProt ID Q709C8
Cytogenetics 15q22.2
Summary This gene encodes a member of the vacuolar protein sorting-associated 13 gene family. Alternate splicing results in multiple transcript variants. [provided by RefSeq, Oct 2010]
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You're reviewing:VPS13C (NM_020821) Human Tagged ORF Clone
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"NM_020821" in other vectors (2)
SKU Description Size Price
RC220562 VPS13C (Myc-DDK-tagged)-Human vacuolar protein sorting 13 homolog C (S. cerevisiae) (VPS13C), transcript variant 2A 10 ug
$4,476.00
SC304842 VPS13C (untagged)-Human vacuolar protein sorting 13 homolog C (S. cerevisiae) (VPS13C), transcript variant 2A 10 ug
$4,776.00

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*Delivery time may vary from web posted schedule. Occasional delays may occur due to unforeseen complexities in the preparation of your product. International customers may expect an additional 1-2 weeks in shipping.