cDNA Clone
FANCD2

Plasmid
pcDNA5 FRT/TO GFP FANCD2 K1346A
Parent Plasmid
pcDNA5 FRT/TO GFP
Expressed
GFP FANCD2 K1346A
Tag
GFP
Species
Human
Sequence of Insert
GCGGCCGCTATGGTTTCCAAAAGAAGACTGTCAAAATCTGAGGATAAAGAGAGCCTGACAGAAGATGCCTCCAAAACCAGGAAGCAACCACTTTCCAAAAAGACAAAGAAATCTCATATTGCTAATGAAGTTGAAGAAAATGACAGCATCTTTGTAAAGCTTCTTAAGATATCAGGAATTATTCTTAAAACGGGAGAGAGTCAGAATCAACTAGCTGTGGATCAAATAGCTTTCCAAAAGAAGCTCTTTCAGACCCTGAGGAGACACCCTTCCTATCCCAAAATAATAGAAGAATTTGTTAGTGGCCTGGAGTCTTACATTGAGGATGAAGACAGTTTCAGGAACTGCCTTTTGTCTTGTGAGCGTCTGCAGGATGAGGAAGCCAGTATGGGTGCATCTTATTCTAAGAGTCTCATCAAACTGCTTCTGGGGATTGACATACTGCAGCCTGCCATTATCAAAACCTTATTTGAGAAGTTGCCAGAATATTTTTTTGAAAACAAGAACAGTGATGAAATCAACATACCTCGACTCATTGTCAGTCAACTAAAATGGCTTGACAGAGTTGTGGATGGCAAGGACCTCACCACCAAGATCATGCAGCTGATCAGTATTGCTCCAGAGAACCTGCAGCATGACATCATCACCAGCCTACCTGAGATCCTAGGGGATTCCCAGCACGCTGATGTGGGGAAAGAACTCAGTGACCTACTGATAGAGAATACTTCACTCACTGTCCCAATCCTGGATGTCCTTTCAAGCCTCCGACTTGACCCAAACTTCCTATTGAAGGTTCGCCAGTTGGTGATGGATAAGTTGTCGTCTATTAGATTGGAGGATTTACCTGTGATAATAAAGTTCATTCTTCATTCCGTAACAGCCATGGATACACTTGAGGTAATTTCTGAGCTTCGGGAGAAGTTGGATCTGCAGCATTGTGTTTTGCCATCACGGTTACAGGCTTCCCAAGTAAAGTTGAAAAGTAAAGGACGAGCAAGTTCCTCAGGAAATCAAGAAAGCAGCGGTCAGAGCTGTATTATTCTCCTCTTTGATGTAATAAAGTCAGCTATTAGATATGAGAAAACCATTTCAGAAGCCTGGATTAAGGCAATTGAAAACACTGCCTCAGTATCTGAACACAAGGTGTTTGACCTGGTGATGCTTTTCATCATCTATAGCACCAATACTCAGACAAAGAAGTACATTGACAGGGTGCTAAGAAATAAGATTCGATCAGGCTGCATTCAAGAACAGCTGCTCCAGAGTACATTCTCTGTTCATTACTTAGTTCTTAAGGATATGTGTTCATCCATTCTGTCGCTGGCTCAGAGTTTGCTTCACTCTCTAGACCAGAGTATAATTTCATTTGGCAGTCTCCTATACAAATATGCATTTAAGTTTTTTGACACGTACTGCCAGCAGGAAGTGGTTGGTGCCTTAGTGACCCATATCTGCAGTGGGAATGAAGCTGAAGTTGATACTGCCTTAGATGTCCTTCTAGAGTTGGTAGTGTTAAACCCATCTGCTATGATGATGAATGCTGTCTTTGTAAAGGGCATTTTAGATTATCTGGATAACATATCCCCTCAGCAAATACGAAAACTCTTCTATGTTCTCAGCACACTGGCATTTAGCAAACAGAATGAAGCCAGCAGCCACATCCAGGATGACATGCACTTGGTGATAAGAAAGCAGCTCTCTAGCACCGTATTCAAGTACAAGCTCATTGGGATTATTGGTGCTGTGACCATGGCTGGCATCATGGCGGCAGACAGAAGTGAATCACCTAGTTTGACCCAAGAGAGAGCCAACCTGAGCGATGAGCAGTGCACACAGGTGACCTCCTTGTTGCAGTTGGTTCATTCCTGCAGTGAGCAGTCTCCTCAGGCCTCTGCACTTTACTATGATGAATTTGCCAACCTGATCCAACATGAAAAGCTGGATCCAAAAGCCCTGGAATGGGTTGGGCATACCATCTGTAATGATTTCCAGGATGCCTTCGTAGTGGACTCCTGTGTTGTTCCGGAAGGTGACTTTCCATTTCCTGTGAAAGCACTGTACGGACTGGAAGAATACGACACTCAGGATGGGATTGCCATAAACCTCCTGCCGCTGCTGTTTTCTCAGGACTTTGCAAAAGATGGGGGTCCGGTGACCTCACAGGAATCAGGCCAAAAATTGGTGTCTCCGCTGTGCCTGGCTCCGTATTTCCGGTTACTGAGACTTTGTGTGGAGAGACAGCATAACGGAAACTTGGAGGAGATTGATGGTCTACTAGATTGTCCTATATTCCTAACTGACCTGGAGCCTGGAGAGAAGTTGGAGTCCATGTCTGCTAAAGAGCGTTCATTCATGTGTTCTCTCATATTTCTTACTCTCAACTGGTTCCGAGAGATTGTAAATGCCTTCTGCCAGGAAACATCACCTGAGATGAAGGGGAAGGTGCTCACTCGGTTAAAGCACATTGTAGAATTGCAAATAATCCTGGAAAAGTACTTGGCAGTCACCCCAGACTATGTCCCTCCTCTTGGAAACTTTGATGTGGAAACTTTAGATATAACACCTCATACTGTTACTGCTATTTCAGCAAAAATCAGAAAGAAAGGAAAAATAGAAAGGAAACAAAAAACAGATGGCAGCAAGACATCCTCCTCTGACACACTTTCAGAAGAGAAAAATTCAGAATGTGACCCTACGCCATCTCATAGAGGCCAGCTAAACAAGGAGTTCACAGGGAAGGAAGAAAAGACATCATTGTTACTACATAATTCCCATGCTTTTTTCCGAGAGCTGGACATTGAGGTCTTCTCTATTCTACATTGTGGACTTGTGACGAAGTTCATCTTAGATACTGAAATGCACACTGAAGCTACAGAAGTTGTGCAACTTGGGCCCCCTGAGCTGCTTTTCTTGCTGGAAGATCTCTCCCAGAAGCTGGAGAGTATGCTGACACCTCCTATTGCCAGGAGAGTCCCCTTTCTCAAGAACAAAGGAAGCCGGAATATTGGATTCTCACATCTCCAACAGAGATCTGCCCAAGAAATTGTTCATTGTGTTTTTCAACTGCTGACCCCAATGTGTAACCACCTGGAGAACATTCACAACTATTTTCAGTGTTTAGCTGCTGAGAATCACGGTGTAGTTGATGGACCAGGAGTGAAAGTTCAGGAGTACCACATAATGTCTTCCTGCTATCAGAGGCTGCTGCAGATTTTTCATGGGCTTTTTGCTTGGAGTGGATTTTCTCAACCTGAAAATCAGAATTTACTGTATTCAGCCCTCCATGTCCTTAGTAGCCGACTGAAACAGGGAGAACACAGCCAGCCTTTGGAGGAACTACTCAGCCAGAGCGTCCATTACTTGCAGAATTTCCATCAAAGCATTCCCAGTTTCCAGTGTGCTCTTTATCTCATCAGACTTTTGATGGTTATTTTGGAGAAATCAACAGCTTCTGCTCAGAACAAAGAAAAAATTGCTTCCCTTGCCAGACAATTCCTCTGTCGGGTGTGGCCAAGTGGGGATAAAGAGAAGAGCAACATCTCTAATGACCAGCTCCATGCTCTGCTCTGTATCTACCTGGAGCACACAGAGAGCATTCTGAAGGCCATAGAGGAGATTGCTGGTGTTGGTGTCCCAGAACTGATCAACTCTCCTAAAGATGCATCTTCCTCCACATTCCCTACACTGACCAGGCATACTTTTGTTGTTTTCTTCCGTGTGATGATGGCTGAACTAGAGAAGACGGTGAAAAAAATTGAGCCTGGCACAGCAGCAGACTCGCAGCAGATTCATGAAGAGAAACTCCTCTACTGGAACATGGCTGTTCGAGACTTCAGTATCCTCATCAACTTGATAAAGGTATTTGATAGTCATCCTGTTCTGCATGTATGTTTGAAGTATGGGCGTCTCTTTGTGGAAGCATTTCTGAAGCAATGTATGCCGCTCCTAGACTTCAGTTTTAGAAAACACCGGGAAGATGTTCTGAGCTTACTGGAAACCTTCCAGTTGGACACAAGGCTGCTTCATCACCTGTGTGGGCATTCCGCCATTCACCAGGACACGAGACTCACCCAACATGTGCCTCTGCTCAAAAAGACCCTGGAACTTTTAGTTTGCAGAGTCAAAGCTATGCTCACTCTCAACAATTGTAGAGAGGCTTTCTGGCTGGGCAATCTAAAAAACCGGGACTTGCAGGGTGAAGAGATTAAGTCCCAAAATTCCCAGGAGAGCACAGCAGATGAGAGTGAGGATGACATGTCATCCCAGGCCTCCAAGAGCAAAGCCACTGAGGATGGTGAAGAAGACGAAGTAAGTGCTGGAGAAAAGGAGCAAGATAGTGATGAGAGTTATGATGACTCTGATTAGGCGGCCGC
Amino Acid Sequence
MVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHNVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSSRKGTIDAAAMVSKRRLSKSEDKESLTEDASKTRKQPLSKKTKKSHIANEVEENDSIFVKLLKISGIILKTGESQNQLAVDQIAFQKKLFQTLRRHPSYPKIIEEFVSGLESYIEDEDSFRNCLLSCERLQDEEASMGASYSKSLIKLLLGIDILQPAIIKTLFEKLPEYFFENKNSDEINIPRLIVSQLKWLDRVVDGKDLTTKIMQLISIAPENLQHDIITSLPEILGDSQHADVGKELSDLLIENTSLTVPILDVLSSLRLDPNFLLKVRQLVMDKLSSIRLEDLPVIIKFILHSVTAMDTLEVISELREKLDLQHCVLPSRLQASQVKLKSKGRASSSGNQESSGQSCIILLFDVIKSAIRYEKTISEAWIKAIENTASVSEHKVFDLVMLFIIYSTNTQTKKYIDRVLRNKIRSGCIQEQLLQSTFSVHYLVLKDMCSSILSLAQSLLHSLDQSIISFGSLLYKYAFKFFDTYCQQEVVGALVTHICSGNEAEVDTALDVLLELVVLNPSAMMMNAVFVKGILDYLDNISPQQIRKLFYVLSTLAFSKQNEASSHIQDDMHLVIRKQLSSTVFKYKLIGIIGAVTMAGIMAADRSESPSLTQERANLSDEQCTQVTSLLQLVHSCSEQSPQASALYYDEFANLIQHEKLDPKALEWVGHTICNDFQDAFVVDSCVVPEGDFPFPVKALYGLEEYDTQDGIAINLLPLLFSQDFAKDGGPVTSQESGQKLVSPLCLAPYFRLLRLCVERQHNGNLEEIDGLLDCPIFLTDLEPGEKLESMSAKERSFMCSLIFLTLNWFREIVNAFCQETSPEMKGKVLTRLKHIVELQIILEKYLAVTPDYVPPLGNFDVETLDITPHTVTAISAKIRKKGKIERKQKTDGSKTSSSDTLSEEKNSECDPTPSHRGQLNKEFTGKEEKTSLLLHNSHAFFRELDIEVFSILHCGLVTKFILDTEMHTEATEVVQLGPPELLFLLEDLSQKLESMLTPPIARRVPFLKNKGSRNIGFSHLQQRSAQEIVHCVFQLLTPMCNHLENIHNYFQCLAAENHGVVDGPGVKVQEYHIMSSCYQRLLQIFHGLFAWSGFSQPENQNLLYSALHVLSSRLKQGEHSQPLEELLSQSVHYLQNFHQSIPSFQCALYLIRLLMVILEKSTASAQNKEKIASLARQFLCRVWPSGDKEKSNISNDQLHALLCIYLEHTESILKAIEEIAGVGVPELINSPKDASSSTFPTLTRHTFVVFFRVMMAELEKTVKKIEPGTAADSQQIHEEKLLYWNMAVRDFSILINLIKVFDSHPVLHVCLKYGRLFVEAFLKQCMPLLDFSFRKHREDVLSLLETFQLDTRLLHHLCGHSAIHQDTRLTQHVPLLKKTLELLVCRVKAMLTLNNCREAFWLGNLKNRDLQGEEIKSQNSQESTADESEDDMSSQASKSKATEDGEEDEVSAGEKEQDSDESYDDSD*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU62203
Unit Source
Protein Phosphorylation and Ubiquitylation Unit
Location
PPU
MTA
Dundee
Low Temp
Yes
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.