cDNA Clone
ZAP3

Synonyms
C14orf170; PPP1R169; ZAP113; YLPM1
Plasmid
pBabeD puro 3FLAG ZAP3
Parent Plasmid
pBabeD puro 3FLAG
Expressed
3FLAG ZAP3
Genbank
NM_019589.2 with one silent change
Tag
3FLAG
Species
Human
Sequence of Insert
GGATCCATGTACCCGAATTGGGGCCGGTATGGCGGGAGCAGCCACTATCCGCCGCCACCGGTCCCACCGCCGCCGCCAGTGGCGCTTCCTGAGGCCTCGCCGGGGCCCGGGTACTCGAGCTCGACGACTCCCGCGGCCCCCTCCTCCTCGGGCTTCATGAGCTTCCGCGAACAGCACTTGGCGCAGCTCCAGCAGCTGCAGCAGATGCACCAGAAGCAAATGCAGTGCGTGCTTCAGCCCCACCACCTTCCTCCGCCCCCTCTGCCGCCCCCGCCAGTGATGCCGGGGGGCGGCTACGGAGACTGGCAGCCGCCACCGCCACCGATGCCCCCGCCACCCGGGCCGGCCCTCAGCTATCAGAAGCAGCAGCAGTACAAACACCAGATGCTCCACCACCAACGAGACGGGCCTCCTGGTTTGGTTCCAATGGAGCTGGAATCCCCCCCTGAATCTCCCCCTGTGCCGCCTGGGTCCTATATGCCCCCATCTCAGTCTTACATGCCCCCACCTCAGCCGCCACCCTCTTACTACCCCCCGACCTCATCTCAGCCCTACCTGCCTCCTGCTCAGCCGTCCCCTTCGCAGTCCCCACCTTCCCAATCCTACCTGGCGCCCACCCCTTCTTACTCATCCTCCTCCTCTTCCTCGCAATCCTATTTGAGCCATTCCCAGTCCTACTTGCCCTCTTCTCAGGCATCTCCTTCCCGCCCCTCCCAGGGCCATTCTAAATCCCAACTACTAGCTCCACCACCACCGTCCGCCCCCCCTGGAAATAAGACAACTGTCCAGCAAGAGCCTTTGGAGAGTGGGGCCAAAAACAAGAGTACTGAACAGCAGCAAGCCGCCCCTGAGCCAGATCCCTCTACGATGACTCCACAGGAACAGCAGCAGTATTGGTATCGACAGCACTTGCTTAGTTTGCAACAGAGGACAAAAGTTCATTTGCCAGGACACAAAAAGGGTCCTGTGGTAGCAAAGGATACACCAGAGCCGGTAAAAGAAGAAGTTACAGTACCTGCCACCAGTCAAGTTCCAGAATCTCCTTCTTCTGAGGAGCCCCCATTGCCACCTCCAAATGAGGAAGTGCCACCTCCTCTCCCACCTGAGGAACCCCAGTCTGAGGACCCAGAAGAAGATGCCAGGTTAAAGCAGTTGCAGGCTGCAGCAGCACACTGGCAGCAGCACCAGCAGCATCGAGTCGGTTTCCAGTATCAGGGAATAATGCAGAAGCACACTCAGTTACAGCAGATTCTACAACAGTATCAGCAGATTATACAGCCCCCACCACATATACAGACCATGTCTGTAGATATGCAGCTGCGGCATTATGAGATGCAGCAGCAACAGTTTCAACATCTTTACCAAGAATGGGAGCGAGAGTTTCAGCTATGGGAGGAACAACTCCATTCCTATCCTCATAAAGATCAGCTTCAGGAGTATGAGAAGCAGTGGAAAACATGGCAGGGACATATGAAAGCCACTCAGAGCTATCTCCAGGAGAAAGTCAATTCATTTCAGAACATGAAGAACCAGTATATGGGGAACATGTCAATGCCACCTCCTTTTGTTCCATATTCTCAGATGCCTCCACCTCTACCTACAATGCCCCCTCCAGTGTTGCCTCCTTCATTGCCACCACCAGTGATGCCCCCTGCCCTCCCTGCTACAGTGCCACCACCTGGCATGCCCCCACCTGTTATGCCACCTTCTCTACCAACCTCTGTTCCCCCACCAGGGATGCCTCCTTCTCTCTCTTCTGCAGGGCCACCACCAGTTCTCCCCCCACCTTCCCTGTCTTCTGCAGGGCCACCACCAGTTCTTCCCCCACCATCTCTCTCTTCAACAGCACCTCCACCTGTCATGCCCCTCCCACCATTGTCTTCAGCTACACCTCCTCCAGGAATACCTCCCCCTGGAGTTCCACAAGGGATACCTCCTCAGTTAACAGCAGCCCCAGTTCCACCAGCCTCCAGTTCACAGAGCTCGCAAGTTCCAGAGAAACCTAGACCAGCACTGCTTCCTACTCCTGTGTCTTTTGGTTCTGCCCCACCGACAACTTACCATCCTCCGTTGCAATCAGCTGGTCCATCAGAACAAGTGAATTCAAAAGCTCCTTTGAGCAAGTCTGCTCTGCCATACAGTTCATTCTCATCTGATCAAGGACTTGGGGAGTCTTCAGCTGCTCCATCTCAGCCAATCACTGCAGTGAAGGACATGCCAGTGAGATCAGGTGGCCTGCTTCCAGATCCTCCTAGAAGTAGTTACTTGGAAAGTCCAAGAGGCCCAAGATTTGATGGTCCTCGAAGATTTGAGGATTTAGGGTCAAGGTGTGAAGGACCGAGACCCAAAGGGCCTCGTTTTGAAGGAAATCGCCCCGATGGGCCAAGACCCAGATATGAAGGTCACCCAGCAGAGGGCACTAAAAGCAAGTGGGGAATGATTCCCCGGGGGCCAGCATCTCAATTTTATATTACCCCCAGTACATCCCTAAGTCCTCGACAGAGTGGACCACAGTGGAAAGGCCCCAAACCAGCTTTTGGACAGCAGCATCAGCAGCAACCTAAGTCACAAGCAGAACCTCTTTCAGGAAACAAAGAACCATTAGCAGACACCAGTAGTAACCAGCAGAAGAATTTTAAAATGCAATCAGCTGCATTTTCCATTGCTGCAGATGTAAAGGATGTCAAGGCGGCTCAGTCAAATGAGAATCTAAGCGACTCTCAACAAGAGCCACCTAAAAGTGAAGTCTCGGAAGGGCCCGTAGAGCCCTCTAATTGGGACCAGAATGTTCAAAGTATGGAGACTCAAATCGACAAAGCCCAAGCTGTTACTCAGCCTGTACCCCTTGCGAATAAGCCTGTACCTGCTCAATCTACTTTTCCTTCAAAAACAGGGGGGATGGAGGGAGGAACAGCAGTAGCAACATCATCATTAACAGCAGATAATGATTTTAAACCTGTGGGTATTGGTCTACCCCATTCAGAAAACAACCAAGATAAAGGCCTGCCTCGGCCAGATAATAGAGATAATAGATTAGAAGGCAATAGAGGCAACAGCTCATCTTACAGAGGTCCTGGGCAAAGCAGAATGGAAGACACACGGGATAAAGGTCTAGTAAACAGAGGTCGCGGCCAGGCAATCAGTCGAGGCCCAGGATTGGTCAAGCAAGAAGACTTTCGGGATAAGATGATGGGTAGAAGAGAAGATAGTCGAGAGAAGATGAACAGAGGAGAAGGTAGCCGGGACAGAGGGTTGGTGAGGCCTGGAAGCAGTCGGGAGAAAGTGCCAGGTGGTCTTCAAGGGAGCCAGGACAGGGGTGCAGCTGGCAGCCGAGAAAGGGGACCACCTCGGAGGGCTGGCAGTCAGGAGAGGGGACCTCTTCGAAGGGCTGGGAGTAGAGAGAGAATACCACCCCGAAGAGCTGGGAGCAGGGAGAGAGGACCACCTCGAGGGCCTGGCAGTCGAGAAAGGGGACTGGGAAGATCAGATTTTGGTCGTGATAGAGGTCCATTCAGACCAGAACCAGGAGATGGTGGGGAAAAAATGTATCCATATCACCGGGATGAGCCTCCTAGGGCTCCATGGAACCATGGAGAAGAGCGAGGGCATGAAGAGTTTCCATTAGATGGTAGAAATGCTCCAATGGAACGAGAAAGACTCGATGACTGGGATAGAGAGAGATACTGGAGAGAATGTGAACGTGACTATCAAGATGATACACTAGAGCTCTATAACAGAGAGGACAGGTTCTCAGCACCACCATCTCGGTCTCATGATGGAGATAGGCGAGGCCCTTGGTGGGATGATTGGGAGAGAGACCAGGATATGGATGAGGACTACAATAGGGAAATGGAAAGGGACATGGACAGGGATGTGGATCGGATTTCAAGACCTATGGATATGTATGATAGAAGTTTGGATAATGAGTGGGACAGAGATTATGGGAGACCACTGGATGAACAAGAATCACAGTTTCGTGAACGGGATATTCCATCTCTTCCACCTTTACCGCCCCTCCCACCTCTTCCACCTTTGGATAGATATCGGGATGATAGATGGAGAGAAGAAAGAAATCGAGAGCATGGGTATGATCGAGATTTCCGTGATAGGGGTGAGTTGAGGATTCGAGAGTATCCAGAAAGAGGAGATACATGGCGGGAAAAGCGAGATTATGTTCCTGACAGAATGGACTGGGAAAGAGAACGGTTGTCAGACAGATGGTACCCATCTGATGTGGATAGACATTCCCCCATGGCGGAACATATGCCCTCCTCACATCATTCCTCAGAAATGATGGGGTCCGATGCAAGCTTAGACTCTGACCAAGGCCTTGGAGGGGTAATGGTTCTCAGTCAGAGGCAGCATGAAATCATTTTGAAAGCTGCACAAGAACTGAAAATGCTTCGGGAACAGAAAGAACAGCTTCAAAAGATGAAAGACTTCGGGTCTGAGCCACAGATGGCTGACCATCTACCACCTCAGGAATCAAGATTGCAGAATACATCTTCAAGACCTGGAATGTATCCGCCTCCAGGGTCGTATAGACCTCCCCCTCCTATGGGCAAACCACCAGGTTCAATTGTAAGACCCTCTGCTCCACCAGCAAGATCATCTGTTCCTGTGACCAGGCCACCTGTCCCAATACCACCACCTCCACCTCCTCCACCTCTACCTCCTCCTCCTCCAGTGATAAAGCCACAAACTTCAGCTGTAGAACAGGAACGATGGGATGAAGATTCTTTCTATGGGCTCTGGGATACAAATGATGAACAAGGACTGAATTCAGAATTTAAGTCAGAAACTGCAGCAATTCCATCTGCTCCAGTATTACCACCCCCACCTGTTCACTCTTCCATTCCCCCTCCTGGCCCAGTGCCTATGGGTATGCCACCAATGTCCAAGCCACCACCAGTACAACAGACTGTTGATTATGGCCATGGCCGAGATATATCCACTAATAAAGTTGAACAGATACCTTATGGAGAAAGAATAACTCTACGCCCAGATCCACTACCTGAAAGATCAACTTTTGAGACAGAGCATGCAGGCCAACGTGATCGTTATGATAGAGAAAGAGATCGTGAGCCTTATTTTGATCGTCAAAGTAATGTCATAGCAGATCATCGAGATTTTAAAAGGGATCGTGAGACACATAGAGATCGAGACCGGGATCGTGGTGTTATTGACTATGACCGGGATCGATTTGACAGAGAACGCCGACCCCGAGATGATAGAGCTCAGTCATATCGAGACAAAAAAGACCATTCCTCATCCAGAAGAGGGGGTTTTGATAGGCCATCCTATGACCGGAAGTCTGACCGACCAGTCTATGAAGGACCATCCATGTTTGGAGGAGAACGAAGGACTTATCCTGAGGAGCGAATGCCTCTGCCAGCTCCTTCACTGAGCCACCAGCCACCTCCAGCTCCACGAGTCGAGAAGAAGCCTGAATCAAAGAATGTGGACGATATTTTGAAACCACCGGGCCGGGAGAGCAGACCTGAGAGAATTGTTGTTATAATGAGAGGATTACCTGGCAGTGGAAAGACACATGTTGCAAAACTTATTCGAGATAAGGAGGTAGAATTTGGAGGACCTGCACCCAGAGTTCTAAGCCTGGATGATTACTTCATCACTGAAGTGGAAAAAGAAGAAAAAGATCCAGATTCTGGAAAGAAAGTGAAAAAGAAGGTAATGGAATATGAATATGAAGCTGAGATGGAGGAGACTTACCGCACCAGCATGTTCAAAACTTTCAAAAAGACTCTGGATGATGGCTTTTTTCCCTTCATCATCCTGGATGCCATCAATGACAGAGTTAGGCATTTTGACCAGTTTTGGAGTGCAGCAAAAACCAAGGGATTTGAGGTATATTTGGCTGAAATGAGTGCAGATAACCAGACTTGTGGCAAGAGAAATATTCATGGAAGAAAGCTTAAAGAAATAAATAAGATGGCTGATCACTGGGAAACTGCACCTCGTCACATGATGCGTCTAGATATTCGTTCTTTGCTGCAAGATGCTGCTATTGAAGAGGTAGAGATGGAAGATTTTGATGCAAATATCGAAGAACAGAAAGAAGAAAAGAAAGATGCAGAGGAAGAGGAAAGCGAACTGGGTTACATTCCGAAAAGCAAATGGGAGATGGACACATCTGAGGCAAAGCTAGACAAGTTGGATGGCTTGAGGACTGGTACTAAAAGGAAACGTGACTGGGAGGCCATTGCCAGCAGAATGGAGGATTATCTTCAGCTCCCCGATGATTATGATACTCGTGCTTCTGAGCCTGGGAAGAAGAGGGTCAGATGGGCAGACCTGGAAGAGAAGAAGGATGCAGATAGGAAAAGGGCCATAGGTTTTGTGGTCGGACAGACTGATTGGGAGAAGATCACAGATGAAAGTGGTCACCTGGCTGAAAAAGCCCTCAATCGAACCAAATATATATGAGCGGCCGC

Amino Acid Sequence
MDYKDHDGDYKDHDIDYKDDDDKGSMYPNWGRYGGSSHYPPPPVPPPPPVALPEASPGPGYSSSTTPAAPSSSGFMSFREQHLAQLQQLQQMHQKQMQCV
LQPHHLPPPPLPPPPVMPGGGYGDWQPPPPPMPPPPGPALSYQKQQQYKHQMLHHQRDGPPGLVPMELESPPESPPVPPGSYMPPSQSYMPPPQPPPSYY
PPTSSQPYLPPAQPSPSQSPPSQSYLAPTPSYSSSSSSSQSYLSHSQSYLPSSQASPSRPSQGHSKSQLLAPPPPSAPPGNKTTVQQEPLESGAKNKSTE
QQQAAPEPDPSTMTPQEQQQYWYRQHLLSLQQRTKVHLPGHKKGPVVAKDTPEPVKEEVTVPATSQVPESPSSEEPPLPPPNEEVPPPLPPEEPQSEDPE
EDARLKQLQAAAAHWQQHQQHRVGFQYQGIMQKHTQLQQILQQYQQIIQPPPHIQTMSVDMQLRHYEMQQQQFQHLYQEWEREFQLWEEQLHSYPHKDQL
QEYEKQWKTWQGHMKATQSYLQEKVNSFQNMKNQYMGNMSMPPPFVPYSQMPPPLPTMPPPVLPPSLPPPVMPPALPATVPPPGMPPPVMPPSLPTSVPP
PGMPPSLSSAGPPPVLPPPSLSSAGPPPVLPPPSLSSTAPPPVMPLPPLSSATPPPGIPPPGVPQGIPPQLTAAPVPPASSSQSSQVPEKPRPALLPTPV
SFGSAPPTTYHPPLQSAGPSEQVNSKAPLSKSALPYSSFSSDQGLGESSAAPSQPITAVKDMPVRSGGLLPDPPRSSYLESPRGPRFDGPRRFEDLGSRC
EGPRPKGPRFEGNRPDGPRPRYEGHPAEGTKSKWGMIPRGPASQFYITPSTSLSPRQSGPQWKGPKPAFGQQHQQQPKSQAEPLSGNKEPLADTSSNQQK
NFKMQSAAFSIAADVKDVKAAQSNENLSDSQQEPPKSEVSEGPVEPSNWDQNVQSMETQIDKAQAVTQPVPLANKPVPAQSTFPSKTGGMEGGTAVATSS
LTADNDFKPVGIGLPHSENNQDKGLPRPDNRDNRLEGNRGNSSSYRGPGQSRMEDTRDKGLVNRGRGQAISRGPGLVKQEDFRDKMMGRREDSREKMNRG
EGSRDRGLVRPGSSREKVPGGLQGSQDRGAAGSRERGPPRRAGSQERGPLRRAGSRERIPPRRAGSRERGPPRGPGSRERGLGRSDFGRDRGPFRPEPGD
GGEKMYPYHRDEPPRAPWNHGEERGHEEFPLDGRNAPMERERLDDWDRERYWRECERDYQDDTLELYNREDRFSAPPSRSHDGDRRGPWWDDWERDQDMD
EDYNREMERDMDRDVDRISRPMDMYDRSLDNEWDRDYGRPLDEQESQFRERDIPSLPPLPPLPPLPPLDRYRDDRWREERNREHGYDRDFRDRGELRIRE
YPERGDTWREKRDYVPDRMDWERERLSDRWYPSDVDRHSPMAEHMPSSHHSSEMMGSDASLDSDQGLGGVMVLSQRQHEIILKAAQELKMLREQKEQLQK
MKDFGSEPQMADHLPPQESRLQNTSSRPGMYPPPGSYRPPPPMGKPPGSIVRPSAPPARSSVPVTRPPVPIPPPPPPPPLPPPPPVIKPQTSAVEQERWD
EDSFYGLWDTNDEQGLNSEFKSETAAIPSAPVLPPPPVHSSIPPPGPVPMGMPPMSKPPPVQQTVDYGHGRDISTNKVEQIPYGERITLRPDPLPERSTF
ETEHAGQRDRYDRERDREPYFDRQSNVIADHRDFKRDRETHRDRDRDRGVIDYDRDRFDRERRPRDDRAQSYRDKKDHSSSRRGGFDRPSYDRKSDRPVY
EGPSMFGGERRTYPEERMPLPAPSLSHQPPPAPRVEKKPESKNVDDILKPPGRESRPERIVVIMRGLPGSGKTHVAKLIRDKEVEFGGPAPRVLSLDDYF
ITEVEKEEKDPDSGKKVKKKVMEYEYEAEMEETYRTSMFKTFKKTLDDGFFPFIILDAINDRVRHFDQFWSAAKTKGFEVYLAEMSADNQTCGKRNIHGR
KLKEINKMADHWETAPRHMMRLDIRSLLQDAAIEEVEMEDFDANIEEQKEEKKDAEEEESELGYIPKSKWEMDTSEAKLDKLDGLRTGTKRKRDWEAIAS
RMEDYLQLPDDYDTRASEPGKKRVRWADLEEKKDADRKRAIGFVVGQTDWEKITDESGHLAEKALNRTKYI*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU67260
Location
PPU
MTA
Low Temp
No
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.