cDNA Clone
ZGRF1

Synonyms
C4orf21
Plasmid
pcDNA5D FRT/TO GFP ZGRF1-HA
Parent Plasmid
pcDNA5D FRT/TO GFP
Expressed
GFP-ZGRF1-HA
Genbank
NM_018392.4 GI:254826808 with silent change g5505a
Tag
HA
GFP
Species
Human
Sequence of Insert
GGATCCATGGAAAGCCAAGAATTTATTGTTCTATATACTCATCAAAAGATGAAGAAGTCAAAAGTGTGGCAAGATGGAATTCTGAAGATCACTCACTTAGGAAACAAAGCAATTTTATATGATGACAAAGGAGCATGTTTGGAGAGTCTGTTTCTTAAATGCCTTGAGGTGAAACCTGGAGATGACTTAGAAAGTGATCGATACTTAATCACAGTTGAAGAGGTTAAAGTTGCTGGAGCCATAGGTATTGTTAAGCAGAATGTCAATAAAGAAGCACCAGAGTTAAATTCAAGGACATTTATATCCTCTGGCCGATCTCTTGGATGTCAGCCCTCTGGCTTAAAAAGGAAGTTTACTGGTTTTCAAGGACCACGTCAGGTTCCAAAGAAAATGGTTATTATGGAAAGTGGTGAATCAGCTGCATCACATGAGGCTAAGAAAACTGGCCCTACTATTTTTTCTCCATTCTGCAGCATGCCTCCTTTGTTTCCTACTGTTGGCAAGAAAGATGTAAATAATATACTGGCAGACCCTGAGAACATTGTGACTTACAAGAACAGGGAGAGAAATGCCATGGATTTTTCTTCGGTTTTTTCTCCATCCTTCCAGATTAACCCAGAAGTGCTGTGTGAAGAAAATTATTTTTGCTCACCTGTCAATTCTGGAAATAAGCTTTCAGACTCTTTACTGACCAATGAGCCTGTGAAAAGAGATAGTTTGGCATCTCACTATTCAGGAGTTTCACAAAACATCAGAAGCAAAGCACAGATATTAGCTCTTCTGAAGTCCGAATCATCTAGTTCATGTGAGGAACTAAATTCTGAGATGACAGAGCATTTTCCTCAAAAACAACCACAAGGAAGTTTAAAAATTGCTACTAAACCAAAGTACCTAATTCAACAGGAAGAGTGTGCTGAGATGAAGAGCACAGAAAATTTATACTACCAGCATCAATCAGAAAATACCATGAGAAATAAAAGCCGGTGGGCCATGTATTTATCCTCACAGAGTTCACCTATACATTCTTCTACTGTAGATGGGAATGATACAGAAAGGAAACCCAAGGCCCAGGAAGATGATGTAAATTCTAATTTGAAAGACCTTTCATTACAAAAAATTATACAGTTCGTTGAAACGTATGCTGAAGAGAGGAAAAAGTATAATGTAGACCAGTCAGTCGGTAATAATGATCCATCCTGGAATCAGGAAGTAAAATTAGAAATTCCTTCATTCAATGAAAGCAGTAGCTTACAGGTTACTTGTAGCAGTGCAGAAAATGATGGTATATTATCAGAATCTGACATTCAAGAAGATAATAAAATACCTTTTAATCAAAATGACAAGGGGTGCATTAAAGGATCAGTTCTCATTAAAGAAAATGCTCAGGAGGTAAATACATGTGGAACACTGGAAAAGGAGTATGAACAATCAGAGTCATCTCTGCCAGAACTGAAACATCTCCAAATTGAATCTAGTAATAATTCTAGGATCTCTGATGACATTACAGACATGATTTCTGAAAGTAAAATGGATAATGAAAGTCTTAATAGTATTCATGAATCTCTGAGTAATGTAACACAACCATTTTTGGAGGTAACTTTTAATCTGAACAATTTTGAGACCAGTGACACTGAGGAGGAATCACAGGAAAGCAACAAAATTTCCCAGGATTCAGAGAGTTGGGTAAAGGACATTTTGGTTAATGATGGCAATTCATGTTTTCAAAAGAGGTCTGAGAATACAAACTGTGAAGAGATTGAGGGTGAACATTTGCCATTCTTAACATCTGTTAGTGACAAACCTACAGTGACATTTCCTGTTAAAGAGACTCTGCCATCACAGTTTTGTGATAAAACTTATGTGGGTTTTGACATGGGAATATGTAAAACTGAAAACACAGGAAAAGAAATAGAGGAGTATAGTGACACATTAAGCAATTTTGAATCTTTCAAGTGGACTGATGCTGTATACGGAGATAATAAAGAAGATGCTAATAAACCTATTCAAGAAGTCAGAATTAACTATGATTTTGCTTTACCCCCGAATAAATCTAAAGGTATAAACATGAATTTACATATTCCTCATATTCAAAACCAGATTGCTGAAAACAGTAATCTATTTTCAGAAGATGCTCAACCTCAGCCTTTTATTTTGGGAAGTGACTTAGACAAAAATGATGAACATGTTTTACCCTCAACTTCTAGTAGTGACAACAGTGTCCAACTATTAAATACCAATCAGAATCACTATGAATGTATTGCACTTGATAAATCAAATACCCACATTTCCAATTCTTTGTTTTACCCACTGGGAAAAAAGCATCTTATTTCCAAAGACACAGAAGCACATATATCTGAACCTGAAGATTTGGGAAAGATTAGAAGTCCACCCCCTGACCATGTTGAGGTTGAAACTGCCAGAGAAGGCAAACAATACTGGAATCCTAGAAATTCTTCAGAACTTTCTGGATTAGTAAATACCATTTCTATTTTAAAGTCGCTATGTGAACACAGTACTGCTTTAGACAGCTTGGAAATATTGAAAAAGAAAAATACTGTCTTTCAGCAAGGAACTCAACAGACGTATGAGCCAGATAGCCCTCCTGAAGTGAGGAAACCATTTATTACAGTAGTTTCACCAAAGTCTCCTCATCTGCACAAGGATTCTCAACAGATACTAAAAGAAGATGAAGTTGAACTAAGTGAACCACTTCAGTCTGTGCAGTTCTCTTCCTCGGGAAGTAAAGAAGAGACTGCTTTTCAAGCTGTTATTCCTAAACAAATAGAGAGAAAAACCTGTGACCCTAAGCCTGTTGAGTTTCAAGGACATCAAGTAAAAGGATCAGCTACTAGTGGTGTAATGGTCAGAGGACACAGCTCACAGCTAGGATGCAGTCAGTTTCCAGATAGCACTGAGTATGAAAACTTTATGACAGAGACACCAGAGTTACCTAGCACGTGTATGCAGATTGACTTCTTGCAGGTGACATCACCAGAAGAAAACATCTCTACATTGAGCCCTGTTTCTACCTTTTCTTTGAACTCAAGAGATGAAGACTTCATGGTAGAATTCTCTGAGACGTCCCTGAAAGCAAGAACTTTACCTGATGATCTTCATTTTCTCAACTTGGAGGGGATGAAAAAATCCCGTTCTCTGGAGAATGAGAACCTTCAAAGGCTTTCATTATTAAGTAGAACCCAGGTTCCACTTATTACTTTGCCACGTACTGATGGGCCACCTGACTTAGACTCTCATTCGTATATGATCAACTCTAACACATACGAGTCTTCTGGCTCCCCCATGCTCAATTTGTGTGAAAAGTCAGCAGTTCTTTCGTTTAGCATTGAGCCTGAGGACCAAAATGAAACCTTTTTCTCTGAAGAATCTAGGGAAGTGAATCCAGGGGATGTTTCACTTAATAATATATCTACTCAGAGCAAGTGGCTGAAATATCAAAACACATCCCAATGCAACGTGGCTACTCCAAACAGAGTTGATAAGAGAATAACTGATGGCTTCTTTGCTGAGGCTGTTTCTGGGATGCATTTTAGAGACACAAGTGAAAGACAGAGTGATGCTGTCAATGAAAGCTCTTTAGACTCTGTGCATTTGCAAATGATAAAAGGCATGCTCTATCAACAGCGGCAGGATTTTAGCAGTCAAGATTCGGTTTCCAGAAAGAAAGTACTTTCTCTGAATTTAAAGCAGACTTCTAAGACAGAGGAAATTAAAAATGTATTAGGAGGGTCTACCTGCTACAACTACAGTGTAAAGGATTTACAGGAGATAAGTGGCTCTGAGCTGTGCTTTCCAAGTGGGCAGAAAATAAAATCTGCTTATCTTCCCCAAAGGCAAATTCACATACCAGCTGTTTTTCAGTCTCCTGCTCATTATAAGCAGACTTTCACATCTTGCCTCATAGAACATCTAAATATATTGCTGTTTGGGTTAGCACAAAACCTGCAGAAAGCTCTTTCAAAAGTTGACATATCATTTTATACATCATTGAAGGGAGAGAAACTGAAAAACGCAGAAAATAATGTACCATCCTGCCATCATAGTCAACCTGCAAAACTTGTCATGGTTAAAAAGGAAGGTCCAAATAAGGGTCGTCTCTTTTATACATGTGATGGACCCAAAGCTGATCGATGTAAATTCTTTAAATGGCTTGAGGACGTGACTCCAGGATATTCAACACAGGAAGGAGCTCGACCTGGCATGGTTTTAAGTGATATTAAGAGTATTGGCTTATATTTAAGAAGTCAAAAGATACCACTTTATGAGGAATGCCAGCTTTTGGTGAGAAAAGGATTTGATTTTCAGAGAAAACAGTATGGCAAACTAAAGAAGTTTACTACTGTAAATCCTGAGTTTTATAATGAACCAAAAACCAAACTTTATCTTAAGCTAAGTCGGAAGGAAAGATCTTCAGCTTATAGCAAAAATGATCTTTGGGTGGTTTCAAAAACCCTAGACTTTGAGCTGGATACTTTTATCGCATGTAGTGCTTTCTTTGGACCATCATCTATCAATGAGATAGAAATACTGCCTTTGAAAGGCTATTTCCCTTCTAATTGGCCCACTAACATGGTTGTCCATGCGTTATTGGTTTGTAATGCTAGCACAGAACTGACTACTTTGAAAAACATTCAGGACTACTTTAATCCAGCTACTCTACCTCTAACACAGTACCTGTTAACAACGTCTTCGCCAACTATAGTTAGTAACAAAAGAGTCAGTAAGAGAAAATTTATCCCACCAGCCTTCACAAATGTCAGTACAAAATTTGAACTACTCAGCCTAGGAGCAACATTGAAGTTAGCTAGTGAGTTGATTCAGGTACACAAGTTAAACAAGGATCAAGCTACAGCTCTAATTCAAATAGCTCAAATGATGGCATCACATGAAAGCATTGAAGAAGTGAAGGAACTGCAAACTCATACCTTCCCTATCACAATCATACATGGTGTGTTTGGAGCAGGAAAGAGTTACTTGCTGGCAGTGGTGATTTTGTTCTTTGTACAGCTGTTTGAAAAGAGTGAAGCTCCCACCATTGGAAATGCAAGGCCGTGGAAACTTCTGATTTCTTCTTCTACTAATGTGGCTGTTGACAGAGTACTTCTTGGGCTTCTCAGTCTTGGATTTGAAAACTTTATCAGAGTTGGGAGTGTTAGGAAGATTGCCAAACCAATTTTACCTTATAGCTTGCATGCTGGCTCAGAAAATGAAAGTGAACAGTTAAAAGAACTACATGCACTAATGAAAGAAGACCTGACTCCTACGGAAAGAGTCTATGTGAGAAAAAGCATTGAGCAGCATAAACTGGGGACCAATAGAACCCTGCTGAAGCAGGTTCGAGTAGTTGGAGTTACCTGTGCAGCCTGCCCATTCCCATGCATGAATGATCTTAAATTTCCTGTAGTTGTGCTGGATGAGTGTAGTCAGATAACTGAACCGGCCTCTCTCCTTCCCATTGCAAGGTTTGAGTGTGAAAAGCTGATTCTTGTTGGAGATCCCAAACAGCTACCTCCTACTATTCAGGGTTCTGATGCAGCTCATGAAAATGGATTGGAACAAACTCTTTTTGATCGACTTTGCTTAATGGGTCACAAGCCAATTCTATTGAGAACTCAATACCGTTGTCATCCTGCAATCAGTGCTATTGCTAATGATCTGTTTTACAAAGGAGCCCTCATGAATGGTGTAACAGAAATAGAGCGGAGCCCTTTATTGGAATGGCTACCAACCCTGTGTTTTTATAATGTTAAAGGACTAGAACAGATAGAAAGAGATAACAGCTTTCATAATGTGGCAGAAGCTACGTTTACACTCAAGCTGATTCAATCACTGATTGCAAGTGGAATAGCAGGCTCTATGATTGGTGTGATAACATTATACAAATCCCAGATGTACAAGCTTTGTCATTTACTCAGTGCTGTGGACTTTCACCATCCTGATATTAAAACTGTGCAGGTGTCCACAGTAGATGCTTTTCAGGGAGCTGAAAAGGAGATCATTATTCTGTCCTGTGTAAGGACAAGACAAGTAGGATTCATTGATTCAGAAAAAAGAATGAATGTTGCATTGACTAGAGGAAAGAGGCATTTGTTGATTGTGGGAAATTTAGCCTGTTTGAGGAAAAATCAACTTTGGGGACGAGTGATCCAACACTGCGAAGGAAGGGAAGATGGATTGCAACATGCAAACCAGTATGAACCACAGCTGAACCATCTCCTTAAAGATTATTTTGAAAAACAAGTGGAAGAAAAACAGAAGAAAAAGAGTGAAAAAGAGAAATCTAAAGATAAATCTCATTCAGCGGCCGC

Amino Acid Sequence
MVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICT
TGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIF
FKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHN
VYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNH
YLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKSGLGSMESQEF
IVLYTHQKMKKSKVWQDGILKITHLGNKAILYDDKGACLESLFLKCLEVK
PGDDLESDRYLITVEEVKVAGAIGIVKQNVNKEAPELNSRTFISSGRSLG
CQPSGLKRKFTGFQGPRQVPKKMVIMESGESAASHEAKKTGPTIFSPFCS
MPPLFPTVGKKDVNNILADPENIVTYKNRERNAMDFSSVFSPSFQINPEV
LCEENYFCSPVNSGNKLSDSLLTNEPVKRDSLASHYSGVSQNIRSKAQIL
ALLKSESSSSCEELNSEMTEHFPQKQPQGSLKIATKPKYLIQQEECAEMK
STENLYYQHQSENTMRNKSRWAMYLSSQSSPIHSSTVDGNDTERKPKAQE
DDVNSNLKDLSLQKIIQFVETYAEERKKYNVDQSVGNNDPSWNQEVKLEI
PSFNESSSLQVTCSSAENDGILSESDIQEDNKIPFNQNDKGCIKGSVLIK
ENAQEVNTCGTLEKEYEQSESSLPELKHLQIESSNNSRISDDITDMISES
KMDNESLNSIHESLSNVTQPFLEVTFNLNNFETSDTEEESQESNKISQDS
ESWVKDILVNDGNSCFQKRSENTNCEEIEGEHLPFLTSVSDKPTVTFPVK
ETLPSQFCDKTYVGFDMGICKTENTGKEIEEYSDTLSNFESFKWTDAVYG
DNKEDANKPIQEVRINYDFALPPNKSKGINMNLHIPHIQNQIAENSNLFS
EDAQPQPFILGSDLDKNDEHVLPSTSSSDNSVQLLNTNQNHYECIALDKS
NTHISNSLFYPLGKKHLISKDTEAHISEPEDLGKIRSPPPDHVEVETARE
GKQYWNPRNSSELSGLVNTISILKSLCEHSTALDSLEILKKKNTVFQQGT
QQTYEPDSPPEVRKPFITVVSPKSPHLHKDSQQILKEDEVELSEPLQSVQ
FSSSGSKEETAFQAVIPKQIERKTCDPKPVEFQGHQVKGSATSGVMVRGH
SSQLGCSQFPDSTEYENFMTETPELPSTCMQIDFLQVTSPEENISTLSPV
STFSLNSRDEDFMVEFSETSLKARTLPDDLHFLNLEGMKKSRSLENENLQ
RLSLLSRTQVPLITLPRTDGPPDLDSHSYMINSNTYESSGSPMLNLCEKS
AVLSFSIEPEDQNETFFSEESREVNPGDVSLNNISTQSKWLKYQNTSQCN
VATPNRVDKRITDGFFAEAVSGMHFRDTSERQSDAVNESSLDSVHLQMIK
GMLYQQRQDFSSQDSVSRKKVLSLNLKQTSKTEEIKNVLGGSTCYNYSVK
DLQEISGSELCFPSGQKIKSAYLPQRQIHIPAVFQSPAHYKQTFTSCLIE
HLNILLFGLAQNLQKALSKVDISFYTSLKGEKLKNAENNVPSCHHSQPAK
LVMVKKEGPNKGRLFYTCDGPKADRCKFFKWLEDVTPGYSTQEGARPGMV
LSDIKSIGLYLRSQKIPLYEECQLLVRKGFDFQRKQYGKLKKFTTVNPEF
YNEPKTKLYLKLSRKERSSAYSKNDLWVVSKTLDFELDTFIACSAFFGPS
SINEIEILPLKGYFPSNWPTNMVVHALLVCNASTELTTLKNIQDYFNPAT
LPLTQYLLTTSSPTIVSNKRVSKRKFIPPAFTNVSTKFELLSLGATLKLA
SELIQVHKLNKDQATALIQIAQMMASHESIEEVKELQTHTFPITIIHGVF
GAGKSYLLAVVILFFVQLFEKSEAPTIGNARPWKLLISSSTNVAVDRVLL
GLLSLGFENFIRVGSVRKIAKPILPYSLHAGSENESEQLKELHALMKEDL
TPTERVYVRKSIEQHKLGTNRTLLKQVRVVGVTCAACPFPCMNDLKFPVV
VLDECSQITEPASLLPIARFECEKLILVGDPKQLPPTIQGSDAAHENGLE
QTLFDRLCLMGHKPILLRTQYRCHPAISAIANDLFYKGALMNGVTEIERS
PLLEWLPTLCFYNVKGLEQIERDNSFHNVAEATFTLKLIQSLIASGIAGS
MIGVITLYKSQMYKLCHLLSAVDFHHPDIKTVQVSTVDAFQGAEKEIIIL
SCVRTRQVGFIDSEKRMNVALTRGKRHLLIVGNLACLRKNQLWGRVIQHC
EGREDGLQHANQYEPQLNHLLKDYFEKQVEEKQKKKSEKEKSKDKSHSAA
AYPYDVPDYA*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU49946
Location
PPU
MTA
Notes
N.B. Recommend propagation at 30 degrees.
Price
£125.00
To submit an order for this reagent acceptance of the Dundee Material Transfer Agreement is required at checkout.