Plasmid
pCMV5-HA Claspin
Parent Plasmid
pCMV5 HA1
Expressed
HA-Claspin
Genbank
NM_022111
Tag
HA
Species
Human
Sequence of Insert
View Sequence
GGATCCATGACAGGCGAGGTGGGTTCTGAGGTTCACCTAGAAATCAATGACCCAAACGTCATTTCACAAGAGGAAGCAGATAGTCCTTCAGATAGTGGACAGGGCAGCTATGAAACAATTGGACCCTTGAGTGAAGGAGATTCAGATGAAGAGATATTTGTAAGTAAGAAGTTGAAAAACAGGAAGGTTCTACAAGACAGTGATTCCGAAACAGAGGACACAAATGCCTCTCCAGAGAAAACTACCTATGACAGTGCCGAGGAGGAAAATAAAGAGAATTTATATGCTGGGAAAAATACAAAAATC
AAAAGGATTTACAAAACTGTGGCAGACAGTGATGAAAGTTACATGGAAAA
GTCTTTGTATCAGGAAAATCTTGAAGCGCAAGTGAAACCTTGCTTAGAGC
TGAGTCTTCAGTCTGGAAACTCTACAGACTTTACCACTGACAGAAAGAGT
TCCAAAAAGCACATACATGATAAAGAAGGAACTGCAGGAAAAGCAAAAGT
AAAATCAAAAAGAAGACTTGAGAAAGAGGAGAGAAAAATGGAAAAAATTA
GACAGCTAAAAAAGAAGGAAACAAAAAACCAGGAAGATGATGTAGAACAG
CCATTTAATGACAGTGGCTGTCTTCTTGTGGATAAAGACCTTTTTGAAAC
TGGGTTGGAGGATGAAAATAACTCTCCATTGGAAGATGAAGAGTCATTAG
AATCAATAAGAGCAGCTGTAAAAAACAAAGTAAAAAAGCACAAGAAAAAA
GAACCATCTTTGGAGAGTGGGGTCCATTCATTTGAGGAAGGAAGTGAGTT
ATCAAAAGGAACCACGAGGAAGGAAAGAAAGGCAGCCAGATTAAGTAAAG
AAGCATTAAAACAACTGCATAGTGAGACTCAGCGCCTTATTCGAGAGTCT
GCACTGAACCTTCCATATCATATGCCTGAGAATAAAACCATTCATGATTT
CTTCAAACGTAAACCCCGGCCCACTTGCCACGGAAATGCCATGGCACTAT
TGAAGTCATCTAAATATCAGTCAAGCCATCACAAAGAAATCATAGACACT
GCAAATACTACTGAAATGAACAGTGATCACCATAGTAAAGGTTCTGAGCA
GACAACAGGTGCAGAAAATGAAGTGGAAACTAATGCACTCCCTGTAGTTT
CAAAGGAAACCCAGATCATTACTGGATCAGATGAGTCTTGCAGGAAGGAT
TTGGTAAAAAATGAAGAGCTAGAAATTCAGGAGAAACAGAAGCAGAGTGA
CATTAGACCTTCACCTGGGGACAGCTCAGTGTTGCAACAGGAATCCAACT
TCCTCGGGAACAATCACAGTGAGGAATGTCAGGTTGGAGGGCTTGTAGCA
TTTGAACCTCATGCCCTGGAGGGTGAAGGCCCCCAAAATCCAGAAGAAAC
AGATGAGAAAGTGGAAGAGCCTGAGCAGCAAAATAAATCATCAGCAGTTG
GGCCACCTGAAAAAGTGAGACGGTTTACTCTGGATAGACTTAAGCAACTG
GGAGTAGATGTTTCCATTAAACCACGGCTAGGTGCTGATGAAGATTCCTT
TGTGATACTTGAACCTGAAACCAACAGAGAACTGGAAGCCTTGAAGCAGC
GTTTCTGGAAGCATGCTAATCCAGCAGCCAAACCCAGGGCTGGTCAGACA
GTGAATGTGAACGTCATAGTGAAAGACATGGGCACTGATGGAAAGGAAGA
GCTAAAAGCAGATGTGGTACCTGTGACTTTAGCACCTAAGAAGTTGGATG
GGGCAAGCCACACAAAACCAGGTGAAAAGCTTCAGGTGTTAAAAGCTAAA
CTGCAAGAAGCAATGAAACTCCGAAGGTTTGAGGAGCGCCAGAAGCGCCA
AGCACTGTTTAAATTAGATAATGAAGATGGGTTTGAGGAAGAGGAGGAGG
AAGAGGAAGAAATGACAGATGAGTCTGAGGAAGATGGAGAAGAGAAGGTA
GAGAAAGAAGAGAAAGAGGAAGAACTAGAGGAAGAGGAGGAGAAAGAAGA
GGAGGAGGAAGAAGAAGGAAATCAGGAGACTGCAGAATTCCTTCTTAGTA
GTGAAGAAATAGAAACAAAAGATGAAAAAGAAATGGATAAAGAAAATAAT
GATGGCAGTAGTGAAATTGGCAAGGCAGTTGGCTTCCTCTCTGTTCCCAA
GTCTCTCTCATCAGATTCTACTTTACTTCTGTTTAAGGACAGCTCTTCCA
AGATGGGTTACTTTCCTACTGAAGAAAAATCAGAAACAGATGAAAACTCA
GGCAAGCAGCCTAGCAAACTGGATGAGGATGATTCATGTTCATTGCTAAC
AAAGGAGAGCAGCCACAATAGCAGCTTTGAGCTGATTGGCTCCACGATTC
CATCCTATCAGCCTTGCAACAGACAAACAGGCCGTGGGACCAGTTTTTTC
CCTACAGCAGGAGGATTCAGATCTCCTTCCCCTGGGCTATTTCGAGCCAG
TTTGGTCAGCTCAGCTTCTAAGAGTTCAGGGAAACTGTCTGAGCCTTCAC
TTCCCATAGAGGATTCCCAGGATCTGTATAACGCCTCCCCAGAGCCTAAG
ACACTTTTCCTAGGAGCAGGAGACTTCCAGTTCTGTTTAGAAGATGACAC
TCAGAGCCAACTGTTGGATGCAGATGGGTTCTTAAATGTTAGAAACCACA
GGAATCAGTACCAAGCTTTGAAGCCTCGATTGCCATTGGCCAGTATGGAT
GAGAATGCCATGGATGCCAACATGGATGAGCTGTTGGATTTGTGTACTGG
AAAGTTCACATCTCAGGCTGAAAAACATCTACCCAGGAAGAGTGACAAGA
AAGAGAACATGGAGGAACTTCTGAACCTTTGTTCAGGAAAATTCACTTCT
CAGGATGCCTCCACTCCAGCCTCATCAGAGTTAAATAAACAGGAGAAGGA
GAGCAGCATGGGTGATCCAATGGAAGAAGCACTTGCTCTTTGCTCAGGCT
CTTTTCCCACAGACAAGGAAGAGGAAGACGAGGAGGAGGAATTTGGAGAC
TTTCGGCTTGTTTCAAATGATAATGAGTTTGATAGTGATGAGGATGAACA
CAGTGACTCTGGTAATGATCTGGCACTGGAAGACCATGAAGATGATGATG
AAGAAGAACTCCTGAAGCGATCTGAGAAGTTGAAAAGGCAAATGAGGTTG
AGGAAATACCTGGAGGATGAGGCAGAGGTGTCAGGAAGTGATGTGGGAAG
CGAAGATGAGTATGATGGGGAAGAAATTGATGAATATGAAGAGGACGTAA
TTGATGAAGTACTTCCTTCTGATGAGGAACTGCAGAGTCAAATCAAGAAA
ATACACATGAAAACTATGTTGGATGATGATAAGCGACAGCTACGTTTATA
CCAAGAGAGGTACCTTGCTGATGGGGATCTGCACAGCGATGGTCCTGGGC
GAATGAGGAAGTTTCGATGGAAAAACATAGATGATGCTTCCCAGATGGAC
TTGTTCCACAGAGACTCTGATGATGATCAGACTGAAGAACAGCTTGATGA
GTCAGAAGCCAGGTGGAGGAAGGAGCGAATTGAACGAGAGCAGTGGCTTC
GGGACATGGCACAGCAGGGGAAAATTACAGCTGAAGAAGAAGAAGAAATT
GGGGAGGACAGTCAGTTTATGATACTGGCCAAGAAAGTTACAGCCAAAGC
ACTGCAGAAGAATGCCAGTCGCCCTATGGTTATTCAGGAATCAAAGTCTT
TGCTCAGAAATCCTTTTGAAGCCATCAGACCAGGAAGTGCTCAACAGGTG
AAGACAGGCTCACTGCTAAACCAGCCCAAAGCTGTGCTTCAGAAACTGGC
TGCTCTCTCTGACCATAACCCCAGTGCTCCTCGAAATTCAAGAAACTTTG
TCTTTCATACACTTTCTCCTGTCAAGGCTGAGGCGGCAAAGGAATCGTCT
AAGTCTCAGGTAAAGAAAAGGGGTCCATCTTTCATGACTTCTCCTTCACC
TAAGCACCTCAAAACAGATGATAGCACTTCAGGATTGACGCGAAGCATCT
TCAAATATTTGGAGAGCTAAGCGGCCGC
AAAAGGATTTACAAAACTGTGGCAGACAGTGATGAAAGTTACATGGAAAA
GTCTTTGTATCAGGAAAATCTTGAAGCGCAAGTGAAACCTTGCTTAGAGC
TGAGTCTTCAGTCTGGAAACTCTACAGACTTTACCACTGACAGAAAGAGT
TCCAAAAAGCACATACATGATAAAGAAGGAACTGCAGGAAAAGCAAAAGT
AAAATCAAAAAGAAGACTTGAGAAAGAGGAGAGAAAAATGGAAAAAATTA
GACAGCTAAAAAAGAAGGAAACAAAAAACCAGGAAGATGATGTAGAACAG
CCATTTAATGACAGTGGCTGTCTTCTTGTGGATAAAGACCTTTTTGAAAC
TGGGTTGGAGGATGAAAATAACTCTCCATTGGAAGATGAAGAGTCATTAG
AATCAATAAGAGCAGCTGTAAAAAACAAAGTAAAAAAGCACAAGAAAAAA
GAACCATCTTTGGAGAGTGGGGTCCATTCATTTGAGGAAGGAAGTGAGTT
ATCAAAAGGAACCACGAGGAAGGAAAGAAAGGCAGCCAGATTAAGTAAAG
AAGCATTAAAACAACTGCATAGTGAGACTCAGCGCCTTATTCGAGAGTCT
GCACTGAACCTTCCATATCATATGCCTGAGAATAAAACCATTCATGATTT
CTTCAAACGTAAACCCCGGCCCACTTGCCACGGAAATGCCATGGCACTAT
TGAAGTCATCTAAATATCAGTCAAGCCATCACAAAGAAATCATAGACACT
GCAAATACTACTGAAATGAACAGTGATCACCATAGTAAAGGTTCTGAGCA
GACAACAGGTGCAGAAAATGAAGTGGAAACTAATGCACTCCCTGTAGTTT
CAAAGGAAACCCAGATCATTACTGGATCAGATGAGTCTTGCAGGAAGGAT
TTGGTAAAAAATGAAGAGCTAGAAATTCAGGAGAAACAGAAGCAGAGTGA
CATTAGACCTTCACCTGGGGACAGCTCAGTGTTGCAACAGGAATCCAACT
TCCTCGGGAACAATCACAGTGAGGAATGTCAGGTTGGAGGGCTTGTAGCA
TTTGAACCTCATGCCCTGGAGGGTGAAGGCCCCCAAAATCCAGAAGAAAC
AGATGAGAAAGTGGAAGAGCCTGAGCAGCAAAATAAATCATCAGCAGTTG
GGCCACCTGAAAAAGTGAGACGGTTTACTCTGGATAGACTTAAGCAACTG
GGAGTAGATGTTTCCATTAAACCACGGCTAGGTGCTGATGAAGATTCCTT
TGTGATACTTGAACCTGAAACCAACAGAGAACTGGAAGCCTTGAAGCAGC
GTTTCTGGAAGCATGCTAATCCAGCAGCCAAACCCAGGGCTGGTCAGACA
GTGAATGTGAACGTCATAGTGAAAGACATGGGCACTGATGGAAAGGAAGA
GCTAAAAGCAGATGTGGTACCTGTGACTTTAGCACCTAAGAAGTTGGATG
GGGCAAGCCACACAAAACCAGGTGAAAAGCTTCAGGTGTTAAAAGCTAAA
CTGCAAGAAGCAATGAAACTCCGAAGGTTTGAGGAGCGCCAGAAGCGCCA
AGCACTGTTTAAATTAGATAATGAAGATGGGTTTGAGGAAGAGGAGGAGG
AAGAGGAAGAAATGACAGATGAGTCTGAGGAAGATGGAGAAGAGAAGGTA
GAGAAAGAAGAGAAAGAGGAAGAACTAGAGGAAGAGGAGGAGAAAGAAGA
GGAGGAGGAAGAAGAAGGAAATCAGGAGACTGCAGAATTCCTTCTTAGTA
GTGAAGAAATAGAAACAAAAGATGAAAAAGAAATGGATAAAGAAAATAAT
GATGGCAGTAGTGAAATTGGCAAGGCAGTTGGCTTCCTCTCTGTTCCCAA
GTCTCTCTCATCAGATTCTACTTTACTTCTGTTTAAGGACAGCTCTTCCA
AGATGGGTTACTTTCCTACTGAAGAAAAATCAGAAACAGATGAAAACTCA
GGCAAGCAGCCTAGCAAACTGGATGAGGATGATTCATGTTCATTGCTAAC
AAAGGAGAGCAGCCACAATAGCAGCTTTGAGCTGATTGGCTCCACGATTC
CATCCTATCAGCCTTGCAACAGACAAACAGGCCGTGGGACCAGTTTTTTC
CCTACAGCAGGAGGATTCAGATCTCCTTCCCCTGGGCTATTTCGAGCCAG
TTTGGTCAGCTCAGCTTCTAAGAGTTCAGGGAAACTGTCTGAGCCTTCAC
TTCCCATAGAGGATTCCCAGGATCTGTATAACGCCTCCCCAGAGCCTAAG
ACACTTTTCCTAGGAGCAGGAGACTTCCAGTTCTGTTTAGAAGATGACAC
TCAGAGCCAACTGTTGGATGCAGATGGGTTCTTAAATGTTAGAAACCACA
GGAATCAGTACCAAGCTTTGAAGCCTCGATTGCCATTGGCCAGTATGGAT
GAGAATGCCATGGATGCCAACATGGATGAGCTGTTGGATTTGTGTACTGG
AAAGTTCACATCTCAGGCTGAAAAACATCTACCCAGGAAGAGTGACAAGA
AAGAGAACATGGAGGAACTTCTGAACCTTTGTTCAGGAAAATTCACTTCT
CAGGATGCCTCCACTCCAGCCTCATCAGAGTTAAATAAACAGGAGAAGGA
GAGCAGCATGGGTGATCCAATGGAAGAAGCACTTGCTCTTTGCTCAGGCT
CTTTTCCCACAGACAAGGAAGAGGAAGACGAGGAGGAGGAATTTGGAGAC
TTTCGGCTTGTTTCAAATGATAATGAGTTTGATAGTGATGAGGATGAACA
CAGTGACTCTGGTAATGATCTGGCACTGGAAGACCATGAAGATGATGATG
AAGAAGAACTCCTGAAGCGATCTGAGAAGTTGAAAAGGCAAATGAGGTTG
AGGAAATACCTGGAGGATGAGGCAGAGGTGTCAGGAAGTGATGTGGGAAG
CGAAGATGAGTATGATGGGGAAGAAATTGATGAATATGAAGAGGACGTAA
TTGATGAAGTACTTCCTTCTGATGAGGAACTGCAGAGTCAAATCAAGAAA
ATACACATGAAAACTATGTTGGATGATGATAAGCGACAGCTACGTTTATA
CCAAGAGAGGTACCTTGCTGATGGGGATCTGCACAGCGATGGTCCTGGGC
GAATGAGGAAGTTTCGATGGAAAAACATAGATGATGCTTCCCAGATGGAC
TTGTTCCACAGAGACTCTGATGATGATCAGACTGAAGAACAGCTTGATGA
GTCAGAAGCCAGGTGGAGGAAGGAGCGAATTGAACGAGAGCAGTGGCTTC
GGGACATGGCACAGCAGGGGAAAATTACAGCTGAAGAAGAAGAAGAAATT
GGGGAGGACAGTCAGTTTATGATACTGGCCAAGAAAGTTACAGCCAAAGC
ACTGCAGAAGAATGCCAGTCGCCCTATGGTTATTCAGGAATCAAAGTCTT
TGCTCAGAAATCCTTTTGAAGCCATCAGACCAGGAAGTGCTCAACAGGTG
AAGACAGGCTCACTGCTAAACCAGCCCAAAGCTGTGCTTCAGAAACTGGC
TGCTCTCTCTGACCATAACCCCAGTGCTCCTCGAAATTCAAGAAACTTTG
TCTTTCATACACTTTCTCCTGTCAAGGCTGAGGCGGCAAAGGAATCGTCT
AAGTCTCAGGTAAAGAAAAGGGGTCCATCTTTCATGACTTCTCCTTCACC
TAAGCACCTCAAAACAGATGATAGCACTTCAGGATTGACGCGAAGCATCT
TCAAATATTTGGAGAGCTAAGCGGCCGC
Amino Acid Sequence
View Sequence
MYPYDVPDYAGSMTGEVGSEVHLEINDPNVISQEEADSPSDSGQGSYETI
GPLSEGDSDEEIFVSKKLKNRKVLQDSDSETEDTNASPEKTTYDSAEEEN
KENLYAGKNTKIKRIYKTVADSDESYMEKSLYQENLEAQVKPCLELSLQS
GNSTDFTTDRKSSKKHIHDKEGTAGKAKVKSKRRLEKEERKMEKIRQLKK
KETKNQEDDVEQPFNDSGCLLVDKDLFETGLEDENNSPLEDEESLESIRA
AVKNKVKKHKKKEPSLESGVHSFEEGSELSKGTTRKERKAARLSKEALKQ
LHSETQRLIRESALNLPYHMPENKTIHDFFKRKPRPTCHGNAMALLKSSK
YQSSHHKEIIDTANTTEMNSDHHSKGSEQTTGAENEVETNALPVVSKETQ
IITGSDESCRKDLVKNEELEIQEKQKQSDIRPSPGDSSVLQQESNFLGNN
HSEECQVGGLVAFEPHALEGEGPQNPEETDEKVEEPEQQNKSSAVGPPEK
VRRFTLDRLKQLGVDVSIKPRLGADEDSFVILEPETNRELEALKQRFWKH
ANPAAKPRAGQTVNVNVIVKDMGTDGKEELKADVVPVTLAPKKLDGASHT
KPGEKLQVLKAKLQEAMKLRRFEERQKRQALFKLDNEDGFEEEEEEEEEM
TDESEEDGEEKVEKEEKEEELEEEEEKEEEEEEEGNQETAEFLLSSEEIE
TKDEKEMDKENNDGSSEIGKAVGFLSVPKSLSSDSTLLLFKDSSSKMGYF
PTEEKSETDENSGKQPSKLDEDDSCSLLTKESSHNSSFELIGSTIPSYQP
CNRQTGRGTSFFPTAGGFRSPSPGLFRASLVSSASKSSGKLSEPSLPIED
SQDLYNASPEPKTLFLGAGDFQFCLEDDTQSQLLDADGFLNVRNHRNQYQ
ALKPRLPLASMDENAMDANMDELLDLCTGKFTSQAEKHLPRKSDKKENME
ELLNLCSGKFTSQDASTPASSELNKQEKESSMGDPMEEALALCSGSFPTD
KEEEDEEEEFGDFRLVSNDNEFDSDEDEHSDSGNDLALEDHEDDDEEELL
KRSEKLKRQMRLRKYLEDEAEVSGSDVGSEDEYDGEEIDEYEEDVIDEVL
PSDEELQSQIKKIHMKTMLDDDKRQLRLYQERYLADGDLHSDGPGRMRKF
RWKNIDDASQMDLFHRDSDDDQTEEQLDESEARWRKERIEREQWLRDMAQ
QGKITAEEEEEIGEDSQFMILAKKVTAKALQKNASRPMVIQESKSLLRNP
FEAIRPGSAQQVKTGSLLNQPKAVLQKLAALSDHNPSAPRNSRNFVFHTL
SPVKAEAAKESSKSQVKKRGPSFMTSPSPKHLKTDDSTSGLTRSIFKYLE
S*
GPLSEGDSDEEIFVSKKLKNRKVLQDSDSETEDTNASPEKTTYDSAEEEN
KENLYAGKNTKIKRIYKTVADSDESYMEKSLYQENLEAQVKPCLELSLQS
GNSTDFTTDRKSSKKHIHDKEGTAGKAKVKSKRRLEKEERKMEKIRQLKK
KETKNQEDDVEQPFNDSGCLLVDKDLFETGLEDENNSPLEDEESLESIRA
AVKNKVKKHKKKEPSLESGVHSFEEGSELSKGTTRKERKAARLSKEALKQ
LHSETQRLIRESALNLPYHMPENKTIHDFFKRKPRPTCHGNAMALLKSSK
YQSSHHKEIIDTANTTEMNSDHHSKGSEQTTGAENEVETNALPVVSKETQ
IITGSDESCRKDLVKNEELEIQEKQKQSDIRPSPGDSSVLQQESNFLGNN
HSEECQVGGLVAFEPHALEGEGPQNPEETDEKVEEPEQQNKSSAVGPPEK
VRRFTLDRLKQLGVDVSIKPRLGADEDSFVILEPETNRELEALKQRFWKH
ANPAAKPRAGQTVNVNVIVKDMGTDGKEELKADVVPVTLAPKKLDGASHT
KPGEKLQVLKAKLQEAMKLRRFEERQKRQALFKLDNEDGFEEEEEEEEEM
TDESEEDGEEKVEKEEKEEELEEEEEKEEEEEEEGNQETAEFLLSSEEIE
TKDEKEMDKENNDGSSEIGKAVGFLSVPKSLSSDSTLLLFKDSSSKMGYF
PTEEKSETDENSGKQPSKLDEDDSCSLLTKESSHNSSFELIGSTIPSYQP
CNRQTGRGTSFFPTAGGFRSPSPGLFRASLVSSASKSSGKLSEPSLPIED
SQDLYNASPEPKTLFLGAGDFQFCLEDDTQSQLLDADGFLNVRNHRNQYQ
ALKPRLPLASMDENAMDANMDELLDLCTGKFTSQAEKHLPRKSDKKENME
ELLNLCSGKFTSQDASTPASSELNKQEKESSMGDPMEEALALCSGSFPTD
KEEEDEEEEFGDFRLVSNDNEFDSDEDEHSDSGNDLALEDHEDDDEEELL
KRSEKLKRQMRLRKYLEDEAEVSGSDVGSEDEYDGEEIDEYEEDVIDEVL
PSDEELQSQIKKIHMKTMLDDDKRQLRLYQERYLADGDLHSDGPGRMRKF
RWKNIDDASQMDLFHRDSDDDQTEEQLDESEARWRKERIEREQWLRDMAQ
QGKITAEEEEEIGEDSQFMILAKKVTAKALQKNASRPMVIQESKSLLRNP
FEAIRPGSAQQVKTGSLLNQPKAVLQKLAALSDHNPSAPRNSRNFVFHTL
SPVKAEAAKESSKSQVKKRGPSFMTSPSPKHLKTDDSTSGLTRSIFKYLE
S*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU11298
Unit Source
Location
PPU
MTA
Notes
Sequence difference compared with NM_022111 CDS:
a1752g (silent) - originates from EST 7961377 used for amplification.
Estimated MW of expressed protein: 152449 Daltons
a1752g (silent) - originates from EST 7961377 used for amplification.
Estimated MW of expressed protein: 152449 Daltons
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.