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Vps13a (NM_173028) Mouse Tagged ORF Clone

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SKU
MG216978
Vps13a (tGFP-tagged) - Mouse vacuolar protein sorting 13A (yeast) (Vps13a), (10ug)
Interest in protein/lysate? Submit request here!
ORF Plasmid:
tGFP DDK
  $2,765.00
3 Weeks*
Bulk Requests & Clone Modifications

Frequently Bought Together (4)

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PRIMER Forward sequencing primer VP1.5, Reverse sequencing primer XL39, 100pmoles each
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PS100010 pCMV6-AC-GFP, mammalian vector with C-terminal tGFP tag, 10ug
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Other products for "Vps13a or NM_173028"

Specifications
Specifications
Product Data
Type Mouse Tagged ORF Clone
Target Symbol Vps13a
Synonyms 4930425F11; 4930516E05Rik; 4930543C13Rik; 9930023P20; Chac; Chorein; D330038K10Rik; mKIAA0986
Vector pCMV6-AC-GFP
E. coli Selection Ampicillin (100 ug/mL)
Mammalian Cell Selection Neomycin
Sequence Data
ORF Nucleotide Sequence
>MG216978 representing NM_173028
Red=Cloning site Blue=ORF Green=Tags(s)

TTTTGTAATACGACTCACTATAGGGCGGCCGGGAATTCGTCGACTGGATCCGGTACCGAGGAGATCTGCC
GCCGCGATCGCC

ATGGTATTCGAGTCGGTGGTCGTGGAAGTGTTGAACCGGTTCCTGGGAGACTATGTGGTGAACCTGGACG
AGTCCCAGCTCTCCCTGGGCATTTGGAAAGGAGCTGTGGCCCTCAAGAACCTTGTAATTAAAGAAAATGC
ATTGCATGAATTGGATGTACCATTCAAAGTTAAAGTTGGTCATATAGGTAGTCTTAAACTTAAAATTCCA
TGGAAAAACCTTTATACTCAACCAGTTGAAGCTGTTTTGGAAGAAATTTTTTTACTCATAGTGCCTTCTT
CTAGAATACAGTATGATCCTATCAAAGAAGAAAAGCAACTCATGGAAACAAAGCAACAGGAACTAAAAAG
AATAGAAAAAGCAAAACAGAAAGTATTTGATAAAGAAAAGCCTCGGGAGGAGAAACAGGACACGTTTACA
GAAAAGTTAGTTACTCAGATCATACAGAACCTTCAAGTGCAAATCTCCAGCATCCATATTCGTTATGAAG
ACGATATCACAAATGGAGACAAACCACTCTCTTTTGGTATTTCCCTTCAAAATATCAGCCTTCAGACAAC
TGATCAATACTGGATCCCATGTTTACATGATAATACTGAAAAGCTAGTCCGGAAGCTAATCCGATTAGAT
AATCTCTTTGCTTACTGGAATGTGAACTCTGAGATGTTTTATCTGAATGATTACGATGAATCGCTGAAAG
CCTTGAAAAATGGTATTGTGAATGAAAATATTGTTCCAGAAGGTTATGATTTTGTTTTTCGACCTATATC
TGCTAGTGCCAAACTTCAGATGAATCGACGATCAGATTTTGACTTTTCTGACCCCAAAATAAACCTGGCT
GTTGATTTACATACCATAGCAATTGAGTTTAATAAACCACAGTATTTCAGCCTCATGGAGCTTCTCGAGT
CAATTGACATGATGACACAAAACCAGCCGTACAGAAAGTTCAAGCCCAGTGTGCCTCTCCACCTCCACGC
CAAAGAGTGGTGGGCTTATGCTATACATAGTATTCTTGAAGTAAATGTTTGTCCCAGTTTACGGATGTGG
TCGTGGGAGCATATTAGAAACCATAGATACAAAATGAAACGATACAGAGAATTTTATAAGAAAAAATTAA
CAAGTAAGAAGCCATCTCCTGAAATTCTCATGTCTTTGGAGGAGTTGGAGAAAACTTTGGATGTTTTTAA
TATAACCATAGCTAGACAACAGGCAGAAGTTGAGGCAAAGAAAGCTGGATATAAAATTTACAAAGAAGGA
GTCAAAGATCCAGAAGATAATGCAGGATGGTTTGGCTGGTTGTGGACTTGGTCAGAATCAAATGCTAATC
AACAACAAGATGTGAAGCCTGGAATTCTGGAAGAAATGTTGACACCTGAAGAAAAGTCGTTACTTTATGA
AGCAATTGGTTATAGTGAAACAGCAGTTGACCCAACCTTGCCAAAAACATTTGAAGCCTTGAAGTTTTTT
GTTCACTTGAAAAGCATGTCTATTGTTCTAAGAGAAAATCACCAAAAGCCGGAGCTGTTAAACGTTGTAG
TGGAAGGACTTAGTACTTCTGTTGTGCAAAGACCAGGAGCACAAGCCATAAAATTTGAAACCAAAATTGA
TTCATTTCATATTACTGGCTTACCAGATGATTTCAAAAAACCCCACCTACTGTCTTCATTGGATGATACG
TCACTCCTCCAGATTACATTTGAGATAAATCCTTTAAATGAAACTGTTGCTCAGAGGTGCACCATAGAGG
CTGAGCCTCTAGAGATAATATATGATGCAAGGACAGTCAATAGTATAGTGGAGTTCTTCAGACCTCCGAA
AGATGTCCATCTAGCCCAACTTACTTCAGTAACTTTGACAAAACTTGAAGAATTTCGAGCAAAAACAGCA
ACAGGTTTGCTGTATGTTATTGAAACACAGAAAGTTCTTGATCTCAGAATTAATGTAAAGGCTTCATATG
TTATTGTCCCACAATATGGAAATTTTAGCCCTACGTCAAATCTACTTCTCCTGGATCTTGGTCATTTAAA
GGTGTCAAGTAAGCGTCGATCACTGCTGCCAGATGTGAGACCCAGTGAGGCCAGCCTTGAAGATATAATG
CACAGAGCGTATGACTCCTTTGATATTCAGCTTACGAGCATACAGTTGCTCTACAGTAGAGTGGGTGATA
ATTGGAAAGAGGCACGAAAGCTCAATGTATCTACACAGCATATTTTGATACCTATGCATGTCAATGTGGA
GCTCTCTAAAGCCATGGTTTTCATGGATATCAAGATGCCCAAATTCAAGATTTCTGGAAAGTTACCTCTT
GTTTCATTACGAATTTCGGATAAAAAACTGCAAGGCATTATGGAGTTGTTGGGAAGCATTCCAAAGCCTG
AACCTGTAACTGATGTATCTGCCCCTGCCAGATCATTCCAGATTCAAGCATCTGCTTTGCCAGTATCACA
CATTTCTCAGAAGTTAATCCCTTTATTGGAACAGCCTGTTACTGAAGATGACTCAGAGGAAGAATTTTTT
GATGCACCATGTAGTCCCTTGGAGGAGTGTCCTCAAGTGTCATGTAGAGATAAATGTACTCGACAGAAAA
AATTACAAAAGAAAGATTGTGTGATGAATCTTATTCAACTTAGGATGAGATTTGAAGTAGCAGAGGTGTC
CATTCAGTTTTATCACCTGGTGGGAGACTGTGAACTACCTGTGCTGGAAATGGGTGCTTTAGGATTGGGA
ACAGAAGCTGAGTTTAGAACATTTGACTTGAAAGGAAGTGCCTTTTTGAAAGAATTATGGCTAAAATGTC
CAGAATATTTAGATGAAAACAAGAAACCAGTTTATTTGATCACGACCCTGGATAACACAATGGAAGATTT
ATTAACATTGGAATTCATGAAGGTTGAAAAAAATGCACCAAATTTGAATAGTACCTATAACAATGTTTTA
CAACTTATTAAGGTGAATTTTTCCTCTTTGGATATTCATTTACACACTGAAGCACTTCTGAATACAATGA
ATTATCTTAATAATATTCTTCCGGAATTAAGGGAAAAATCTGCCTCGGTGTCTGCTGCAGAGCCGGAAGA
CAAAGGGGACATCATTAAAAAACTTGCTTTAAAGCTACCCACGAATGAAGATATTATTACCTTGCAGCTT
TTGGCAGAATTATCTTGTCTACAGATTTTTATTCAGGATCAGAAACAAAACATTTCTGAAATTAAAATTG
AAGGGCTTGATTCTGAGATGATTATGAAACCTCTAGTCACTGAAATAAATGCAAAGCTAAGGAATATAAT
TGTGTTAGATTCTGATAAAATGGCTATCTACAAAAAGGCTCTTTATATCACTGGAAAAGAAGTTTTCAGC
TTCAAAATGATTTCTTACATGGATGCAACTGCTGGCTATGCATACACAGATATGAGTGTGGTTGACATTC
GGGTTCATTTAACTGTTGGTTGCATTGAAGTAGTGTTCATCACAAAATTCCTGTATTCTATATTGGCATT
TATAGATAATTTTCAAGCAGTTAAAGATGCCTTGGCTGAAGCAACTGTTCAAGCAGCAGAGATGGCTGCT
GATGGTGTAAAGGAACTGGCTCGAAAGAGCTCTAGGTTTGCATTGGATGTTAACATCAAGGCTCCAGTTG
TGCTCATTCCACAGTCTCCAGTGTCTCAGAACGTTTTTGTTGCTGATTTTGGATTAATTACAATGAAAAA
TATATTTGTTACTGTAACAGAGACCCAGAGTAATATCCCACCTGTAATTGATTTGATAACAATAAAGTTG
AGTAAAATGAGACTATACAGGTCTCAGTTTAGGAATGATACATACCAGGAAGTGCTGGACCTGCTACTAC
CTTTGAACTTGGAAGTGATTGTCGAACGGAACTTATCCTGGGAATGGTACAAGGAAGTCCCTTGTTTTAA
TATAAAAGCTCAGCTAAAGCCCATGGAGTTCATTCTTAGTCAGGAAGACTTAACAACCGTCTTTCAAACA
TTGCATGGCAATATATGGTATGGACAAGATCTGAGTGCTCCATCTTCTGCAAATAAGGACCCAGAGACCA
TGACCAGTGGGGTCACCAGTCCTCCTGACCATTCGCCAGCTACTGTGGTGACCGCTGCTGTGGTGGAGGT
GCACCCACAGGCTTCTCAAGCGCACACGATGCTGAACGTGAGCTTCCAGACCGATTACCTCACCATGGCA
CTCTACAGTCCGGGGCCGGATGAGGCCTCCTTTACAGATGTTCGCGATCCTTCTCTGGAACTTGCTGAAT
TTAAGTTGGAGAATATTATAAGTAGTTTAAAAATATATACAGATGATTCTACAGTCTTTTCTTTCTCAGT
AAAAAACTGTATTTTAGATGATAAAAGGTCACATGTCATGAAAGCCACTCCTAGAATGATAGGATTGACT
GTTGGCTTTGACAAGAAGGACATGGTGGATATAAAGTATAGAAAAATCAAAACTTTTGTTGTGACTGATG
CAGTTGTCCAAGAAATGTACGTTTGTGCGAGTGTGGAGTTTCTGATGACTGTTGCCCATATCTTTTTTGA
TGCCTACATGACTAGTACGGCTTTAGAAACCAGCGTTCAAACAAGGACTACTAGAGAAGCACCTGCACAG
GAATTAGGGAAGTGGGAAATGAATATTCTTATTAAAAATCCAGAGATTGTGTTTGTGGCTGACATGACAA
GAAACGATGCTCCTGCCTTAGTCATTACGACACAGTGTGAAATTTGCTGCAAAGGTGAACCTACAAGCAA
TACAGTGACTGCTGCCATTAAAGATCTCCAAGTCAGAGCGTGCCCATTTCTTCCAGTCAAGAGAAAGGGC
AAAGTCACCACTGTTTTGCAGCCTTGTGACTTGTTTTATCAGGCTACTCAATTAGGTAGAGATCCACAAA
TGATTGATATATCAGTAAAATCTCTTACGCTAAAGGTTTCACCAGTTATCATAAATACCATAATAACTAT
TACTTCAGCACTTTACACAACTAAGGAAACTGTCCCAGAAGAAAACACTTCTAATATAGCACATTTATGG
GACAAGAAGGATACAAAGAATCTAAAAATGTGGTTTCTTGAAGAATCAAATGAAAGTGAAAAAGTAGTTC
CCACGAATGAAGTGATGCCGGGAGGAGAGACACTGAACTTGCGTATTGATTCTATTTTTATTGTTCTGGA
GGCTGGAATCGGTCATAGAACAGTGCCGATGCTGTTGGCAAAGGCGTGCTTCTCGGGGGAAAGCAAAAAC
TGGCTCTCTCTAATCAATCTTCACTGTCACCTGGAACTGGAAGTTCACTATTATAATGAAATGTTTGGTG
TTTGGGAACCTTTACTGGAACCCTTAGAAATTGATCAGACTGATGATTTTAGACCCTGGAATCTGGGCAT
CAAGATGAAAAAGAAAGCAAAAGAGGCCATTGTTGAGTCTGACAGTGAAGCAGAAAACTACAAAGTACCA
GAATATAAGACTGCCATAAGTTTTTATTCTAGAGACCAGTTAAACATTACATTATCCAAATGTGGCCTTG
TGATGTTAAATAATTTAGTTGAGGCGTTTACTGAAGCTGCTACTGGATCGTCATCTGTCTTCCTAAGAGA
TCTAGCACCATTCATGATTTTCAATTCTCTTGGACTTACTGTCTCTGTCTCACCAAGCGATTCTTTTAGC
GTTCTCAACGTTCCTTTGGCAAAATCATATGAACTGAAAAATGATGAGAGTTTAAGTATGGATTATGTAC
GAACGAAGGACAATGATCATTTCAATGCAATGACCAGCCTAAGCAGCAAGCTCTTCTTCATTCTCCTTAC
GCCTGCTAACCACTCTGTCGCTGACAAGATCCCTTTAACAAAAGTGGGACGCCGTCTGTACACTGTAAGA
CACAGAGAATCTGGGGTCGAAAGATCTATCATTTGTCAAATTGACACAGTTGAAGGAAGTAAGAAGGTAA
CAATCCGCTCACCAGTGCAGATTAAGAATCATTTTTCAATCCCAATTTCCGTTTTTGAAGGAGATACTTT
ATTGGGAATTGCTTCACCTGAAAATGAATTTAACATACCATTAGCATCTTACCGATCATCCCTTTCCCTG
GTGCCAGAAGACCAGGACTACCAGCTATGTGAAGGAATCGACTTTGAAGAAATCATAAAATATGATGGAC
AGCTTCTGAAGAAGAAATGTAGATCTACAAACCCTTCTAAGAAATCATTTGTTATTAATATTGTCCCAGA
AAAGGATAATTTGGCTTCCCTGTCAGTGTATTCGGAAGATGGTTGGGACTTACCATATGTCCTGCACTTG
TGGCCACCCATCCTCATCCGGAACCTTCTTCCCTACAAAGTTGCTTATTACATTGAGGGCATTGAGAACA
CTGTTGTTACTCTAAGTGAAGGACATTCATCACAGATCTATAATGTAGAAATGGACCAAGCCAAGCTACA
CTTAAAATTACTCGACTATCTTAATCATGATTGGAAAAGTGAATTTTATATAAGATCTAGTCAACAAGAC
ATCAATTTCATCAACTTTACCTGTCTCACAGAAATGGAAAAGAGTGACTTGGATATTGCTATCCATATGA
CTTACAACACTGGTCAGACAGTTGTGGCATTTCATAGTCCGTATTGGATGGTCAATAAAACCAATCGGAT
GCTACAGTACAAAGCAGATGGAATTCACCGAAAGCATCCACCTAATTATACAAAACCAGTTCTCTTTTCC
TTTCAGCCAAATCACTTTTTTAACAACAATAAGGTTCAGCTTATGGTAACTGATAGTGAGCTTTCAGATC
AGTTTTCAATTGATACTGTTGGTAGTCATGGAGCCATTAGATGCAAAGGTCTGAAAATGGAATACCAAGT
TGGTGTCACTATAAATCTCAGCAGTTTTAACATTACCAGAATTGTGACATTTATTCCGTTTTATATGATT
AAAAACAAAAGCAAATACCATATATCAGTAGCAGAAGAAGGAAGTGATAAATGGCTTTCTCTTGACTTAG
AGCAGAGTATCCCCTTTTGGCCTGAGAATGCCTCCAATATTCTTCTTATTCAAGTTGAGAGGAGTGAAGA
TCCTCCAAAAAGGATATATTTTAACAAGCAAGATAATTGTATTTTATTGAGACTGAATAATGAGCTTGGA
GGTATTATTGCAGAAGTTAATTTGGCTGAGCACTCTACAGTTATTACATTTTCAGATTACCATGATGGAG
CAGCTACATTCCTATTAATAAATCATACCAAGAGTGACCCTGTTCAGTACAACCAAAGTTCTCTCGGTGA
AATAGAAGATTCTCTTCCTCCTGGAAAAGCAGTCTATTATACATGGGCTGACCCAGTGGGCTCTAGAAAG
CTGAAGTGGAGCTGTGGGCAAAGCTATGGTGAAGTAACCCATAAGGATGATATGATGACGCCCATAAGTG
TGGGGAAAAAAACCATTTATTTAGTGTCGTTCTTTGAAGGCCTGCAGCGTATTATTTTATTCACTGAAGA
TCCAAGAGTGTTTAAAGTAACGTATGAAAGTGAAAAGGCAGAGTTAGCGGAGCTGGAAGTTGTGCTGGCG
TTACAGGATGTCGGGATTTCACTTGTCAATAACTATACAAAGCAAGAAGTAGCCTACATAGGCATTACAA
GTTCTGATGTGGTTTGGGAGGCAAAACCAAAGAAGAAGGCCAGGTGGAAGCCCATGAGTGTGAAGCACAC
AGAGAAGCTGGAGAAGGAGTTCAGGGAGTACACAGAGGCCTCGCCCTTGGAGGACAAAGTGGTCGAGTTG
GACAACATTCCGGTTCGTTTAACACCTAGTGGCAATGACATGAAAATTCTGCAACCACATGTGATACCTG
TCCGGAGAAATTACCTGCCAGCACTAAAAGTAGAATATAACACATCTGCACATCAGTCGTCATTCAGAAT
TCAGATTTATAGAATACAGATCCAAAATCAGATTCATGGTGCTATTTTCCCTTTCGTGTTTTATCCTATT
AAACCTCCAAGATCTGTCACCATGGACTCAGCACCAAAGCCGTTTACAGATGTCAGTATTGTCATGAGAT
CTGCAGGACATTCCCAAATATCACGCATTAAGTATTTCAAAGTGTTGATTCAAGAAATGGACCTCAGTTT
GGATCTTGGATTTGTGTATGCCCTAGCAGACCTTGTCACAAAAGCTGAAGTGACTGAGAAGACAGAGGTG
GAACATTTTCATAAGGATGTAGAAGCATTTGAACAAGAATATGAAGTTGTTTCATCAGTAGATCAATCAC
AAGTCAATCTCTTTGAATATTTTCATATATCTCCTATCAAGTTGCACTTGAGTGTTTCCCTGAGCTCTGG
TAGAGATGAAGCGAAAGACTCAGAACAACATGGAGGACTAATTCCTGTTCATTCGTTAAATCTTTTGCTG
AAGAGTATTGGTGCCACCCTCACAGATGTACAAGATGTAGTTTTTAAGCTTGCCTTTTTTGAACTCAACT
ACCAGTTCCATACAACATCTGAATTGCAATCTGAAGTAATAAGACACTATTCCAAACAGGCTATTAAACA
AATGTATGTACTCATTCTTGGACTTGACGTCTTGGGAAATCCCTTTGGCTTAATTAGAGAATTTTCAGAA
GGAGTAGAAGCGTTTTTTTATGAACCTTACCAGGGGGCTATCCAGGGTCCTGAAGAGTTTGTGGAGGGAA
TGGCGCTAGGATTGAAAGCACTAGTTGGTGGAGCCGTTGGTGGGCTAGCTGGTGCTGCCTCCAAAATCAC
CAGTGCTATGGCTAAAGGAGTAGCGGCCATGACCATGGATGAAGACTACCAGCAGAAGAGGAGAGAAGCA
ATGAATAAGCAGCCTGCTGGCCTTCGAGAGGGCATCACTCGAGGAGGAAAAGGCCTTGTCTCTGGTTTTG
TAAGTGGCATTACAGGGATTGTTACAAAGCCAATTAAAGGTGCTCAAAAGGAAGGAGCAGCAGGTTTCTT
CAAAGGTGTTGGAAAAGGTTTAGTTGGAGCAGTGACAAGGCCAACGGGTGGCATCATAGACATGGCCAGC
AGTACCTTTCAGGGAATCAAAAGAGCTACAGAGACTTCTGAAGTAGAGAGTTTACGACCTCCCAGATTCT
TTAATGAAGATGGAGTCATCAGACCTTACAGGTTGCGCGATGGTTCAGGAAATCAAATGTTACAGGTCAT
GGAAAATGGAAGATTTGCAAAATACAAGTATTTTACCCATGTCATGATCAATAAAACAGATATGTTCATG
ATAACAAGACGTGGCGTGTTGTTCGTAACAAAGGGAACATTTGGACAGCTTACATGTGAGTGGCAGTACA
CTTTTGATGAATTCACCAAAGAGCCGTTCATTGTCCATGGGAGAAGACTGCGCATTGAAGCCAAGGAACG
GGTGAAGTCTGTATTCCATGCCAAAGAATTTGGAAAAATCGTTAACTTCAAGACTCCAGAAGATGCTAGG
TGGATCCTCACAAAGCTGGAAGAAGCGAGAGAACCATCCCCGAGACTG

ACGCGTACGCGGCCGCTCGAG - GFP Tag - GTTTAA
Protein Sequence
>MG216978 representing NM_173028
Red=Cloning site Green=Tags(s)

MVFESVVVEVLNRFLGDYVVNLDESQLSLGIWKGAVALKNLVIKENALHELDVPFKVKVGHIGSLKLKIP
WKNLYTQPVEAVLEEIFLLIVPSSRIQYDPIKEEKQLMETKQQELKRIEKAKQKVFDKEKPREEKQDTFT
EKLVTQIIQNLQVQISSIHIRYEDDITNGDKPLSFGISLQNISLQTTDQYWIPCLHDNTEKLVRKLIRLD
NLFAYWNVNSEMFYLNDYDESLKALKNGIVNENIVPEGYDFVFRPISASAKLQMNRRSDFDFSDPKINLA
VDLHTIAIEFNKPQYFSLMELLESIDMMTQNQPYRKFKPSVPLHLHAKEWWAYAIHSILEVNVCPSLRMW
SWEHIRNHRYKMKRYREFYKKKLTSKKPSPEILMSLEELEKTLDVFNITIARQQAEVEAKKAGYKIYKEG
VKDPEDNAGWFGWLWTWSESNANQQQDVKPGILEEMLTPEEKSLLYEAIGYSETAVDPTLPKTFEALKFF
VHLKSMSIVLRENHQKPELLNVVVEGLSTSVVQRPGAQAIKFETKIDSFHITGLPDDFKKPHLLSSLDDT
SLLQITFEINPLNETVAQRCTIEAEPLEIIYDARTVNSIVEFFRPPKDVHLAQLTSVTLTKLEEFRAKTA
TGLLYVIETQKVLDLRINVKASYVIVPQYGNFSPTSNLLLLDLGHLKVSSKRRSLLPDVRPSEASLEDIM
HRAYDSFDIQLTSIQLLYSRVGDNWKEARKLNVSTQHILIPMHVNVELSKAMVFMDIKMPKFKISGKLPL
VSLRISDKKLQGIMELLGSIPKPEPVTDVSAPARSFQIQASALPVSHISQKLIPLLEQPVTEDDSEEEFF
DAPCSPLEECPQVSCRDKCTRQKKLQKKDCVMNLIQLRMRFEVAEVSIQFYHLVGDCELPVLEMGALGLG
TEAEFRTFDLKGSAFLKELWLKCPEYLDENKKPVYLITTLDNTMEDLLTLEFMKVEKNAPNLNSTYNNVL
QLIKVNFSSLDIHLHTEALLNTMNYLNNILPELREKSASVSAAEPEDKGDIIKKLALKLPTNEDIITLQL
LAELSCLQIFIQDQKQNISEIKIEGLDSEMIMKPLVTEINAKLRNIIVLDSDKMAIYKKALYITGKEVFS
FKMISYMDATAGYAYTDMSVVDIRVHLTVGCIEVVFITKFLYSILAFIDNFQAVKDALAEATVQAAEMAA
DGVKELARKSSRFALDVNIKAPVVLIPQSPVSQNVFVADFGLITMKNIFVTVTETQSNIPPVIDLITIKL
SKMRLYRSQFRNDTYQEVLDLLLPLNLEVIVERNLSWEWYKEVPCFNIKAQLKPMEFILSQEDLTTVFQT
LHGNIWYGQDLSAPSSANKDPETMTSGVTSPPDHSPATVVTAAVVEVHPQASQAHTMLNVSFQTDYLTMA
LYSPGPDEASFTDVRDPSLELAEFKLENIISSLKIYTDDSTVFSFSVKNCILDDKRSHVMKATPRMIGLT
VGFDKKDMVDIKYRKIKTFVVTDAVVQEMYVCASVEFLMTVAHIFFDAYMTSTALETSVQTRTTREAPAQ
ELGKWEMNILIKNPEIVFVADMTRNDAPALVITTQCEICCKGEPTSNTVTAAIKDLQVRACPFLPVKRKG
KVTTVLQPCDLFYQATQLGRDPQMIDISVKSLTLKVSPVIINTIITITSALYTTKETVPEENTSNIAHLW
DKKDTKNLKMWFLEESNESEKVVPTNEVMPGGETLNLRIDSIFIVLEAGIGHRTVPMLLAKACFSGESKN
WLSLINLHCHLELEVHYYNEMFGVWEPLLEPLEIDQTDDFRPWNLGIKMKKKAKEAIVESDSEAENYKVP
EYKTAISFYSRDQLNITLSKCGLVMLNNLVEAFTEAATGSSSVFLRDLAPFMIFNSLGLTVSVSPSDSFS
VLNVPLAKSYELKNDESLSMDYVRTKDNDHFNAMTSLSSKLFFILLTPANHSVADKIPLTKVGRRLYTVR
HRESGVERSIICQIDTVEGSKKVTIRSPVQIKNHFSIPISVFEGDTLLGIASPENEFNIPLASYRSSLSL
VPEDQDYQLCEGIDFEEIIKYDGQLLKKKCRSTNPSKKSFVINIVPEKDNLASLSVYSEDGWDLPYVLHL
WPPILIRNLLPYKVAYYIEGIENTVVTLSEGHSSQIYNVEMDQAKLHLKLLDYLNHDWKSEFYIRSSQQD
INFINFTCLTEMEKSDLDIAIHMTYNTGQTVVAFHSPYWMVNKTNRMLQYKADGIHRKHPPNYTKPVLFS
FQPNHFFNNNKVQLMVTDSELSDQFSIDTVGSHGAIRCKGLKMEYQVGVTINLSSFNITRIVTFIPFYMI
KNKSKYHISVAEEGSDKWLSLDLEQSIPFWPENASNILLIQVERSEDPPKRIYFNKQDNCILLRLNNELG
GIIAEVNLAEHSTVITFSDYHDGAATFLLINHTKSDPVQYNQSSLGEIEDSLPPGKAVYYTWADPVGSRK
LKWSCGQSYGEVTHKDDMMTPISVGKKTIYLVSFFEGLQRIILFTEDPRVFKVTYESEKAELAELEVVLA
LQDVGISLVNNYTKQEVAYIGITSSDVVWEAKPKKKARWKPMSVKHTEKLEKEFREYTEASPLEDKVVEL
DNIPVRLTPSGNDMKILQPHVIPVRRNYLPALKVEYNTSAHQSSFRIQIYRIQIQNQIHGAIFPFVFYPI
KPPRSVTMDSAPKPFTDVSIVMRSAGHSQISRIKYFKVLIQEMDLSLDLGFVYALADLVTKAEVTEKTEV
EHFHKDVEAFEQEYEVVSSVDQSQVNLFEYFHISPIKLHLSVSLSSGRDEAKDSEQHGGLIPVHSLNLLL
KSIGATLTDVQDVVFKLAFFELNYQFHTTSELQSEVIRHYSKQAIKQMYVLILGLDVLGNPFGLIREFSE
GVEAFFYEPYQGAIQGPEEFVEGMALGLKALVGGAVGGLAGAASKITSAMAKGVAAMTMDEDYQQKRREA
MNKQPAGLREGITRGGKGLVSGFVSGITGIVTKPIKGAQKEGAAGFFKGVGKGLVGAVTRPTGGIIDMAS
STFQGIKRATETSEVESLRPPRFFNEDGVIRPYRLRDGSGNQMLQVMENGRFAKYKYFTHVMINKTDMFM
ITRRGVLFVTKGTFGQLTCEWQYTFDEFTKEPFIVHGRRLRIEAKERVKSVFHAKEFGKIVNFKTPEDAR
WILTKLEEAREPSPRL

TRTRPLE - GFP Tag - V
Restriction Sites SgfI-MluI Cloning Scheme for this gene | Plasmid Map
ACCN NM_173028
ORF Size 9498 bp
OTI Disclaimer 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_173028.4, NP_766616.2
RefSeq Size 9850 bp
RefSeq ORF 9501 bp
Locus ID 271564
UniProt ID Q5H8C4
Cytogenetics 19 A-B
Summary May play a role in the control of protein cycling through the trans-Golgi network to early and late endosomes, lysosomes and plasma membrane.UniProtKB/Swiss-Prot Function
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Documents
Resources
"NM_173028" in other vectors (2)
SKU Description Size Price
MC225466 Vps13a (untagged) - Mouse vacuolar protein sorting 13A (yeast) (Vps13a), (10ug) 10 ug
$2,822.00
MR216978 Vps13a (Myc-DDK-tagged) - Mouse vacuolar protein sorting 13A (yeast) (Vps13a) 10 ug
$2,565.00

file-alt Citations

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