cDNA Clone
C15ORF41/Codanin-1 (Alligator)

Plasmid
pFBDMb StrepII 3FLAG Alligator CDAN1 2A2A 6His C150rf41 D196A
Parent Plasmid
pFBDMb
Expressed
StrepII 3FLAG Alligator CDAN1 2A2A 6His C150rf41 D196A
Genbank
CDAN1 codon optimised XM_019496591.1; C15orf41 XM_006272326.3
Tag
6His
3FLAG
StrepII
Species
Alligator mississippiensis
Sequence of Insert
GGATCCGCCACCATGTGGAGCCACCCGCAGTTCGAAAAAATGGACTACAAAGACCATGACGGTGATTATAAAGATCATGATATCGATTACAAGGATGACGATGACAAGATGGCAGCTGCGCTGGAGCTAGTGCTGCGAGAGGAGGTGGCGCCCGGCGCCCTGGTGCACTGGCTCAAGCACGACCCCGGGCGCCGCTCGGCCGAGGAGAACCATATCCATGAAAAGCTGGTATCTCTTAGTTTGCCTCAGAAAGACTTTGTGCCTTTCTTCTTGAATTTTTTAAGGGAGCAAACCGGTCAGATCCTGACCAATGGGCCTTCCACCCCTGCAAAAACACCGAATTCCAAGGCCCTTGGAAACTCTGCTGGCCGTGGGAGCCAAAGGAGAGGCTCAGAAAGGAGGGCAGGAAACACAACAGGGTCAAGCAGCAGCCGAATGCAGCTCTTTACCCAAAAAGGCTCTGCTAACTCCTGTTCCCCAGATACCAGCTTTGCCCCTTCTGCTGTGTCAGGTGGCTCTCCTGCATTTACTGGATCAAACCTGTCTAGCCCCAGCAGTGATTTCCCTAGTGTGGTCTCCAGTGTGAGCCCAAGCTTTGGTTGCAGCCCTGTATTTAACCACAGTGAGAGGCGCTCAGCTCAGAAGGCCAACTTGGGGAACTTTTTTGTGGCCATGCCAGAAGTTCAGCCGACAAGGCGAGGCAGAAGAAAGGGCAACAGCTCCACCAGTACCTCTAGCCGGCAGGTGGCTCGGGATCTTGGACGATGTCTTGCTGATGAGGAGGATGGGAAGAGTGATAACACTTCATGGAGTGGAGGGAGGAAGAAGCGCAATGAAGTGTTGGGTGTCTCTGCCAGTTCCCCACCTGATCAGCTGAACCTCAACAACTTGGAGGAGTTCCCACCCATGTGCGCTTCTTCTGGCTTCACAAACAAAAGTAAGCCATCAAGACGAATTAACCCCACTCCAGTGAGTATTGAGCGCCCGCTCTCTAAACCCAAGATGTGCTTCACTTCTACACCAGTCAGCCAATCTCCAGCTGCTCGGTTTCCATCTGGAGCAAGTCATGAAGCCTTTGTGACCATCCAGGAAGGAAATGTTGCTTCCACTGCAGGGAGCAGCCTTCAAGAGGAGAGAGAGATGCTGAAGAAAGAACGATGCAAGTTGCTGCACCAGGCTTCTTCTCCTGCAGGCCTGTCTCTGGAGCCCAGCACTCCTACCAAGCTTAGCTACACTCGAAGTGCAAGCCTCCCTCCTGAGGGCCATCTGATGACCTGTGCATATCTCAGTAAGGTCTCCTGCAAAAAGCAACTAGATCAGCTGGCCTTGCTTTATTCATCTTGTATAGCAGAAAACCTGGTTCCGAACATCTTCCTGGAGCTCTTTTTTGTTCTGCAGCTGCTAACATCCAGGGGAATATCTGCAGAAGATGGAGAGAGTGATCTGGAATTCAATCAAGGATGTAAAGGTGCAGTAGAGAGGCAGCATTTTCATAATGTGCACAACTGTGTCTATTTTGCTGTCCAGGTCTTGGATCGTCAGTATGAACTTATTTCCCACTTAGAGAAGGGGACCTTGAAACTCTTGGCTGAGAACGAGCGGATTGCGTCCTTTTCCCCTCACCTGCACAAGAGGCTGAGGCAGGCTTATGAAAGCAGCACAGCCAAGGTTTCTCTCCTGCTGCCTTCATCTGTACAATCTGTTTCTTTCCAGCCAGAAACTGATAATCGCTCTAACTTTCCCAGTGACAGGGCATTTCATATTTTTAAGAAGCAAAGGGACATCTTCTATGAGTTGCTGCGTGAATGGGAAGATAACCATGAAAAACCAGCTTGGGATTTTGAAAGAGTCCTGGGCAACAAGATCAGGGCTATGATGGCTCACCTTACAGCAACTTGTAACCACAGCCATTTTGCCAGACTCTTTCAAAAACAGATTATCCAGATGTGTAAAGGTCCCGTTGGTGGTGGCACAAGCTGGGGAGACACCCCAGACCAGGACGTCCTTAATATGTTGGGCTGTGATGATCTGAGTCGGCTGAAGAGGCTGCAGGAGAGATTTGTCGCTCCTCAGAGCATCAGAGGGCCTTGCCCACCCCCTTCCTTCCCAGGGTGCCAGCAATTCTTCAGGGACTTCATCCTCAGCGCAGGAAGCTATCAGTTCAATCAACACCTCATGGATAACCTGTGCCTAAAAATACTTGAGCTGGATGGCCTTACTTTGGTAGAGCATGAGCCTAGCGATGGTGAAGCAGACATGGAGGAACAGGATGAAAAGAAACATTTCACCGTTGTCCTGATGAGCCTCCGGCTCCTGGCAAAATTTCTTGGATTTCTTGTTTTCCTTCCGTATCGCACAGTGGAGCCACCAACAAGAGACTTGCACGAGTCTGCAGTGGCATTAAGAAATCAAAGCCTACCTGTACTGGATGTATTGAAACTCCTGCAGCGAGCTATCCAGGGCCGGCGTACTATCCTCACTATACCTTGGATTGTGGAGTTCCTCTCCCTCGTAGATCATATTGCTCCTTTTCTTGACTACTATGGGACAGTATTTTCCCTCTTGCTGCAAGTGTACAGGTCCATGGTACCCTCTGAAGATAAGGAGATGAGTTTCCTAAACAAGCTGTTGATCCTTGCAGTGTTGGGTTGGCTTTTTCAGTTTCTGTTCCAGATCCCCTCTGTCCCAGAGGAGCTGTTCTTTACCAGTGAAGTCAGACAGGATGGATTGATGATGGATACCATGTCATCTGCTCAGGCCTTGGATTCTGCAACTTTGGTGGATCAGCAGTTACTTTATACCTGCTGTCCATATCTTGGTGAGCTGCGGAAGCTGCTGGCCTCCTTTGTGGCAGGCAGTGGAGCAAAGAATGGTGGCTTTATAAGAAAAATAACCCCAACAGCTGCAGAGTCCTTGGCACCCAAACCTTCTGTCACACAGCAGAAACTGCAGGCAGAGCTGGAGCAGGCCTTCTTCCACAATCAGCCCCCATCACTGCGGAGAACAGTGGAATTTGTGGCAGAGAGGGTGGGTTCCAACTGTGTTAAGCATATCAAGGCCACTCTGGTAGCAGAGCTTGTCAAAAGGGCAGAGGTCATGCTGCAGGAAAAAGTGAAGGAGGACAATACTAATCATGACAAACTGCTAGATGAGGTGTGCACTCAGCTTTATGAAGAAGGGGCACAGGCTTTCCTCAAAGGCAGAGAATTTTGCAGGAAGAAAGGTCCTGAAGCTGTGAGAGTTCTTCTGCCAGAAGAGACGTCTGCAGCTGTCCTGAGCAGTGCAGAGGATATTGCAGTGAGGCTGGCTACTGAAAAGGCATGTACCTGGCTCTCCACCAACATCACAGCACTGATCAAAAGGGAAGTGAGGACCACATTCAGTCGAATGCTGAAAATCCAGGGTCCTTCCTTACCTAGTGAGGATACACAAGAGATGAAGAAGGACTGCCCTCCAGGATGCCAGCATCATGCTCCATTTCCCTCTGAAATCATCAATGAGATCAAAGATGTTCTCTGTATTGCTGTGGGACCAAGGGATGGAGATGAAGCGATTCATTATGCCCATCTGGAGTGCTTGTTGGAGAAGCTGAGTCAAACACTTCAATGCAGAAAGTTCATGTGTCCTACCTCGGAACAGCAGCTGGCTAAGTGTACCATAGAGTTGGCTTCTCTTTTAGTTTCAGACCGCATTCCGATCCAAGGTCTTGAGCTTCAGACCCAGAAATACCCTGAAAGACAGCGATCAAAGAATCATCCCATCTGCAACCTCCTCACATCGCTGCTCTCTGTCTGGAAGGAAGATTTTGTGATGCTTGTTCCAGTGCAGCTGATCTTCAGCAAGAAGAACGTTGGCTATGTTGCAGAAGCTAAGCAGCGAGAGTGGGACTTGTTCCTGTTCATGCTTCATGGCCTGGTTGAGTACAATCTGATGGGAAATGCGGAGATAGAGAGCTACTTGCAAAGTCTCCAGGAATTTGCCTGGCCCTCAGACTTCTTAAAAGAGCTGGAAACTCTGTCCAGAGTGTTTGAATCTGAGCTTCATATAGAAGAACTCAGGACTAATCCTTGTGAATTGGTGAGACAATCTCTAGGCGCTGTGACAGCACAAAGCGAGGGCAGAGGAAGTCTTCTAACATGCGGTGACGTGGAGGAGAATCCCGGCCCAGAAGGGAGAGGAAGTCTTCTAACATGCGGTGACGTGGAGGAGAATCCCGGCCCAATGCACCATCACCATCACCATATGAAGTTGAGCAAGGCGCAGTACGAGGAGATCGCCCGGTTCCTGGGGCACGTGCAGCCCACCCGCCAGAGCCTGAGGCGGCTGAAGGAGCGATTCCCCAGTCAATCGCAGTCCACTCTGCTGAGCATCTTCTCCCAGGAGTACCAGAAACAAATCAAAAGAACACATGCCAAACATCACACTGCTGAGGCTATTGAAACTTACTATCAAAGGTACCGGAGTAGGGTGATGAAAAATGCAGCTGCCCCTGTATTATTGGAGCTAGCCAATGAGGTGGACTTTGCACCATCATTGATGGCTCGAATTGTGCTGGAAAGATTTTTACAAGAACAGGAGCAAGGTATCCCATCCAAGACTCTTATAAACAGTATGTTACGGGACCCTTCTCAGATTCCAGATGGAGTTCTAGCAAATCAGGTCTATCAGTGTACTGTGAATGACTGTTGTTATGGACCACTGGTGGACTGCATCAAACATGCTATTGGACATGAACATGAAGTCTTGCTACGAGAAATGCTTCTGAAGAAAAATCTCTCTTTCCTAGCTGAAGATCAGCTTCGTGCAAAGGGTTATGACAAAACACCAGCCTTTATTTTGGAAGTGCCAGTAGCTGTTGAAGGCCACATAATTCACTGGATTGAAAGTAAAGCTTCATTTGGTGATGAAAGCAGCCACCAGTCATACCTTCAGGACCAATTCTGGAGCTACTGGAATAGATTTGGTCCTGGATTAGTCATCTATTGGTATGGTTTTATTGAAGAGCTAGACTGTCATCGGGAACGCGGTATCCTGCTAAAAGACTGTTTTCCTACTGACATTGTAACACTGCGACACAGCATGGCTCAACACTGAGCGGCCGC
Amino Acid Sequence
MWSHPQFEKMDYKDHDGDYKDHDIDYKDDDDKMAAALELVLREEVAPGALVHWLKHDPGRRSAEENHIHEKLVSLSLPQKDFVPFFLNFLREQTGQILTN
GPSTPAKTPNSKALGNSAGRGSQRRGSERRAGNTTGSSSSRMQLFTQKGSANSCSPDTSFAPSAVSGGSPAFTGSNLSSPSSDFPSVVSSVSPSFGCSPV
FNHSERRSAQKANLGNFFVAMPEVQPTRRGRRKGNSSTSTSSRQVARDLGRCLADEEDGKSDNTSWSGGRKKRNEVLGVSASSPPDQLNLNNLEEFPPMC
ASSGFTNKSKPSRRINPTPVSIERPLSKPKMCFTSTPVSQSPAARFPSGASHEAFVTIQEGNVASTAGSSLQEEREMLKKERCKLLHQASSPAGLSLEPS
TPTKLSYTRSASLPPEGHLMTCAYLSKVSCKKQLDQLALLYSSCIAENLVPNIFLELFFVLQLLTSRGISAEDGESDLEFNQGCKGAVERQHFHNVHNCV
YFAVQVLDRQYELISHLEKGTLKLLAENERIASFSPHLHKRLRQAYESSTAKVSLLLPSSVQSVSFQPETDNRSNFPSDRAFHIFKKQRDIFYELLREWE
DNHEKPAWDFERVLGNKIRAMMAHLTATCNHSHFARLFQKQIIQMCKGPVGGGTSWGDTPDQDVLNMLGCDDLSRLKRLQERFVAPQSIRGPCPPPSFPG
CQQFFRDFILSAGSYQFNQHLMDNLCLKILELDGLTLVEHEPSDGEADMEEQDEKKHFTVVLMSLRLLAKFLGFLVFLPYRTVEPPTRDLHESAVALRNQ
SLPVLDVLKLLQRAIQGRRTILTIPWIVEFLSLVDHIAPFLDYYGTVFSLLLQVYRSMVPSEDKEMSFLNKLLILAVLGWLFQFLFQIPSVPEELFFTSE
VRQDGLMMDTMSSAQALDSATLVDQQLLYTCCPYLGELRKLLASFVAGSGAKNGGFIRKITPTAAESLAPKPSVTQQKLQAELEQAFFHNQPPSLRRTVE
FVAERVGSNCVKHIKATLVAELVKRAEVMLQEKVKEDNTNHDKLLDEVCTQLYEEGAQAFLKGREFCRKKGPEAVRVLLPEETSAAVLSSAEDIAVRLAT
EKACTWLSTNITALIKREVRTTFSRMLKIQGPSLPSEDTQEMKKDCPPGCQHHAPFPSEIINEIKDVLCIAVGPRDGDEAIHYAHLECLLEKLSQTLQCR
KFMCPTSEQQLAKCTIELASLLVSDRIPIQGLELQTQKYPERQRSKNHPICNLLTSLLSVWKEDFVMLVPVQLIFSKKNVGYVAEAKQREWDLFLFMLHG
LVEYNLMGNAEIESYLQSLQEFAWPSDFLKELETLSRVFESELHIEELRTNPCELVRQSLGAVTAQSEGRGSLLTCGDVEENPGPEGRGSLLTCGDVEEN
PGPMHHHHHHMKLSKAQYEEIARFLGHVQPTRQSLRRLKERFPSQSQSTLLSIFSQEYQKQIKRTHAKHHTAEAIETYYQRYRSRVMKNAAAPVLLELAN
EVDFAPSLMARIVLERFLQEQEQGIPSKTLINSMLRDPSQIPDGVLANQVYQCTVNDCCYGPLVDCIKHAIGHEHEVLLREMLLKKNLSFLAEDQLRAKG
YDKTPAFILEVPVAVEGHIIHWIESKASFGDESSHQSYLQDQFWSYWNRFGPGLVIYWYGFIEELDCHRERGILLKDCFPTDIVTLRHSMAQH*


(self cleavage at 2A2A sequence)
Vector Type
Baculovirus
Antibiotic
Amp
Full Snapgene Map
pFBDMb StrepII 3FLAG Alligator CDAN1 2A2A 6His C150rf41 D196A 762.64 KBSnapgene files can be opened using software available here: www.snapgene.com
DU Number
DU63151
Location
PPU
MTA
Low Temp
No
Price
£125.00
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