Synonyms
HH114
Plasmid
pcDNA5D FRT/TO C15orf41 TEV RFP 2A 2A GFP CDAN1
Parent Plasmid
pcDNA5D FRT/TO mcs TEV RFP 2A 2A GFP mcs
Expressed
C15orf41 TEV RFP 2A 2A GFP 3C CDAN1
Genbank
NM_001130010.2 GI:589811559 (C15orf41) and NM_138477.2 GI:57222569 (CDAN1) with silent change g3660a and residue difference S421F (present in many published sequences for CDAN1)
Tag
GFP
mRFP
Species
Human
Sequence of Insert
View Sequence
CACCGGTGGCATGGCGGCCGTTTTGGAGTCGCTGCTGCGAGAAGAGGTGTCGGTCGCAGCCGTCGTGCGGTGGATCGCGCGCAGCACCCAGGGTTCGGAGGATAACGCTGGGGAGGCGGCCGCGCTGAGCTCACTCCGGGCCCTGCGGAAAGAATTCGTACCGTTCCTGTTGAACTTCCTGAGGGAGCAGAGCAGCCGCGTCCTCCCGCAGGGGCCCCCGACCCCCGCCAAGACCCCGGGCGCCTCGGCAGCCTTGCCAGGGAGGCCGGGAGGCCCGCCGCGGGGTAGCCGCGGGGCGCGCAGCCAGCTTTTCCCTCCGACCGAGGCCCAGAGCACCGCTGCCGAGGCCCCTCTGGCCCGCCGCGGGGGCAGGAGGCGGGGCCCGGGGCCGGCCCGCGAGCGTGGAGGCCGCGGCCTGGAGGAGGGGGTCAGCGGGGAGAGCCTGCCCGGAGCCGGGGGCCGGAGGCTTAGGGGCTCTGGCAGCCCCAGCCGCCCCAGCCTCACGCTGTCTGATCCGCCAAACCTCAGCAACCTGGAGGAGTTCCCTCCCGTAGGCTCGGTTCCCCCCGGCCCTACAGGGACGAAGCCTTCTCGCAGGATCAACCCAACTCCGGTGAGCGAAGAGCGGTCACTCTCCAAGCCCAAGACCTGCTTCACCTCACCCCCAATCAGCTGTGTCCCCAGTTCCCAACCCTCAGCCCTGGACACTAGCCCTTGGGGCCTTGGCCTTCCCCCAGGGTGCAGAAGTCTGCAAGAGGAGCGAGAGATGCTCAGGAAGGAGCGCTCTAAGCAGCTGCAGCAGTCACCTACCCCCACCTGTCCCACCCCAGAATTGGGGTCGCCCCTCCCCAGCCGGACAGGAAGCCTCACAGATGAACCTGCAGACCCTGCCAGAGTGTCTTCCCGCCAGCGCCTGGAGCTTGTAGCCCTTGTTTACTCCTCGTGCATTGCTGAGAACCTGGTACCAAACCTCTTCTTGGAGCTTTTCTTCGTCTTTCAGCTCCTCACTGCCCGGAGGATGGTGACTGCCAAGGACAGCGACCCTGAACTAAGTCCAGCTGTCCTAGATTCCCTGGAAAGTCCACTGTTCCAAAGCATCCACGATTGTGTCTTCTTTGCAGTGCAGGTTTTGGAGTGTCACTTTCAGGTTCTTTCCAACCTGGACAAAGGGACCTTGAAGCTGCTGGCTGAGAATGAGCGGCTGCTGTGCTTCTCACCAGCTCTGCAAGGCCGCCTTCGAGCTGCCTATGAGGGCAGTGTTGCCAAGGTCTTTCTGGTGATGCCTCCCTCTACTCAAGCTGTCTCCTTTCAGCCAGAGACTGACAATCGTGCCAACTTCTCCAGTGACCGAGCCTTTCATACTTTTAAGAAACAGAGGGATGTGTTTTATGAGGTGCTGCGAGAGTGGGAAGATCACCATGAGGAGCCTGGCTGGGATTTTGAGAAGGGCTTGGGCAGCAGAATCAGGGCCATGATGGGTCAGCTCTCCGCAGCCTGCAGCCACAGCCACTTTGTTCGGCTTTTCCAAAAACAACTACTCCAGATGTGTCAGAGCCCTGGTGGTGCTGGGGGCACCGTCTTGGGCGAGGCCCCAGATGTGTTGAGTATGCTGGGAGCTGACAAGCTGGGGCGGTTGTGGCGCCTACAGGAACGGCTTATGGCTCCTCAGAGCAGTGGGGGGCCCTGCCCACCCCCCACCTTCCCAGGCTGTCAAGGCTTCTTTAGGGACTTCATCCTTAGTGCCAGCAGCTTCCAGTTTAACCAGCATCTCATGGACAGTCTGAGCTTGAAGATCCAGGAGCTCAATGGTCTTGCCCTGCCCCAGCATGAGCCCAATGATGAAGACGGGGAGTCAGACGTAGACTGGCAGGGTGAGCGGAAGCAATTTGCTGTGGTGCTTCTTAGCCTGAGACTTTTGGCTAAATTCCTGGGCTTTGTGGCTTTCCTGCCATACCGGGGGCCTGAACCTCCCCCGACCGGTGAGCTTCAGGACTCCATTCTGGCCCTCAGGAGCCAGGTCCCTCCGGTCCTGGATGTGCGGACTCTGCTGCAGCGAGGGCTGCAGGCCCGCCGGGCGGTGCTCACCGTGCCCTGGCTGGTGGAGTTTCTCTCCTTTGCTGACCATGTTGTTCCCTTGCTGGAATATTACCGGGACATCTTCACTCTCCTGCTGCGCCTGCACCGGAGCTTGGTGTTGTCGCAGGAGAGTGAGGGGAAGATGTGTTTCCTGAACAAGCTGCTGCTACTTGCTGTCCTGGGCTGGCTTTTCCAGATTCCCACAGTCCCTGAGGACTTGTTCTTTCTGGAAGAGGGTCCCTCATATGCCTTTGAGGTGGACACAGTAGCCCCAGAGCATGGCTTGGACAATGCGCCTGTGGTGGACCAGCAGCTGCTCTACACCTGCTGCCCCTACATCGGAGAGCTCCGGAAACTGCTCGCTTCGTGGGTGTCAGGCAGTAGTGGACGGAGTGGGGGCTTCATGAGGAAAATCACCCCCACCACTACCACCAGCCTGGGAGCCCAGCCTTCCCAGACCAGCCAGGGGCTGCAGGCACAGCTCGCCCAGGCCTTTTTCCACAACCAGCCGCCCTCCTTGCGCCGGACCGTAGAGTTCGTGGCAGAAAGAATTGGATCAAACTGTGTCAAACATATCAAGGCTACACTGGTGGCAGATCTGGTGCGCCAGGCAGAGTCACTTCTCCAAGAGCAGCTGGTGACACAGGGAGAGGAAGGGGGAGACCCAGCCCAGCTGTTGGAGATCTTGTGTTCCCAGCTGTGCCCTCACGGGGCCCAGGCATTGGCCCTGGGGCGGGAGTTCTGTCAAAGGAAGAGCCCTGGGGCTGTGCGGGCGCTGCTTCCAGAGGAGACCCCGGCAGCCGTTCTGAGCAGTGCAGAGAACATTGCTGTGGGGCTTGCAACAGAGAAAGCCTGTGCTTGGCTGTCAGCCAACATCACAGCACTGATCAGGAGGGAGGTGAAAGCAGCAGTGAGTCGCACACTTCGAGCCCAGGGTCCTGAACCTGCTGCCCGGGGGGAGCGGAGGGGCTGCTCCCGCGCCTGTGAGCACCATGCTCCCCTCCCCTCCCACCTCATCTCCGAGATAAAAGACGTGCTCTCCTTGGCCGTGGGGCCACGGGACCCTGACGAGGGAGTCTCCCCAGAGCATCTGGAACAGCTCCTAGGCCAGCTGGGCCAGACGCTGCGGTGCCGCCAGTTCCTGTGCCCACCTGCTGAGCAGCATCTGGCAAAGTGCTCTGTGGAGTTAGCTTCCCTCCTCGTTGCAGATCAAATTCCTATCCTAGGGCCCCCGGCACAGTACAGGCTGGAGAGAGGGCAGGCTCGAAGGCTTCTGCACATGCTGCTTTCCTTGTGGAAGGAAGACTTTCAGGGGCCGGTTCCGCTGCAGCTGCTGCTGAGCCCAAGAAATGTGGGGCTTCTGGCAGACACAAGGCCAAGGGAGTGGGACTTGCTGCTATTCTTGCTACGGGAGCTGGTGGAGAAGGGTCTGATGGGACGGATGGAGATAGAGGCCTGCCTGGGCAGCCTCCACCAGGCCCAGTGGCCAGGGGACTTTGCTGAAGAATTAGCAACACTGTCTAATCTGTTTCTAGCCGAGCCCCACCTGCCAGAACCCCAGCTAAGAGCCTGTGAGTTGGTGCAGCCAAACCGGGGCACTGTGCTGGCCCAGAGCTAGATGCAT
Amino Acid Sequence
View Sequence
MILTKAQYDEIAQCLVSVPPTRQSLRKLKQRFPSQSQATLLSIFSQEYQK
HIKRTHAKHHTSEAIESYYQRYLNGVVKNGAAPVLLDLANEVDYAPSLMA
RLILERFLQEHEETPPSKSIINSMLRDPSQIPDGVLANQVYQCIVNDCCY
GPLVDCIKHAIGHEHEVLLRDLLLEKNLSFLDEDQLRAKGYDKTPDFILQ
VPVAVEGHIIHWIESKASFGDECSHHAYLHDQFWSYWNRFGPGLVIYWYG
FIQELDCNRERGILLKACFPTNIVTLCHSIAAAAENLYFQMDNTEDVIKE
FMQFKVRMEGSVNGHYFEIEGEGEGKPYEGTQTAKLQVTKGGPLPFAWDI
LSPQFQYGSKAYVKHPADIPDYMKLSFPEGFTWERSMNFEDGGVVEVQQD
SSLQDGTFIYKVKFKGVNFPADGPVMQKKTAGWEPSTEKLYPQDGVLKGE
ISHALKLKDGGHYTCDFKTVYKAKKPVQLPGNHYVDSKLDITNHNEDYTV
VEQYEHAEARHSGSQEGRGSLLTCGDVEENPGPEGRGSLLTCGDVEENPG
PMVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFIC
TTGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTI
FFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSH
NVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDN
HYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKLEVLFQGPTG
GMAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEF
VPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQ
LFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAG
GRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGTKPSRRINP
TPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQE
EREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSR
QRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSP
AVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLL
CFSPALQGRLRAAYEGSVAKVFLVMPPSTQAVSFQPETDNRANFSSDRAF
HTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHS
HFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERL
MAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELN
GLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYR
GPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEF
LSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVL
GWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCC
PYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQ
LAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQE
QLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALL
PEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRA
QGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVS
PEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGP
PAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPR
EWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLF
LAEPHLPEPQLRACELVQPNRGTVLAQS*
HIKRTHAKHHTSEAIESYYQRYLNGVVKNGAAPVLLDLANEVDYAPSLMA
RLILERFLQEHEETPPSKSIINSMLRDPSQIPDGVLANQVYQCIVNDCCY
GPLVDCIKHAIGHEHEVLLRDLLLEKNLSFLDEDQLRAKGYDKTPDFILQ
VPVAVEGHIIHWIESKASFGDECSHHAYLHDQFWSYWNRFGPGLVIYWYG
FIQELDCNRERGILLKACFPTNIVTLCHSIAAAAENLYFQMDNTEDVIKE
FMQFKVRMEGSVNGHYFEIEGEGEGKPYEGTQTAKLQVTKGGPLPFAWDI
LSPQFQYGSKAYVKHPADIPDYMKLSFPEGFTWERSMNFEDGGVVEVQQD
SSLQDGTFIYKVKFKGVNFPADGPVMQKKTAGWEPSTEKLYPQDGVLKGE
ISHALKLKDGGHYTCDFKTVYKAKKPVQLPGNHYVDSKLDITNHNEDYTV
VEQYEHAEARHSGSQEGRGSLLTCGDVEENPGPEGRGSLLTCGDVEENPG
PMVSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFIC
TTGKLPVPWPTLVTTLTYGVQCFSRYPDHMKQHDFFKSAMPEGYVQERTI
FFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSH
NVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDN
HYLSTQSALSKDPNEKRDHMVLLEFVTAAGITLGMDELYKLEVLFQGPTG
GMAAVLESLLREEVSVAAVVRWIARSTQGSEDNAGEAAALSSLRALRKEF
VPFLLNFLREQSSRVLPQGPPTPAKTPGASAALPGRPGGPPRGSRGARSQ
LFPPTEAQSTAAEAPLARRGGRRRGPGPARERGGRGLEEGVSGESLPGAG
GRRLRGSGSPSRPSLTLSDPPNLSNLEEFPPVGSVPPGPTGTKPSRRINP
TPVSEERSLSKPKTCFTSPPISCVPSSQPSALDTSPWGLGLPPGCRSLQE
EREMLRKERSKQLQQSPTPTCPTPELGSPLPSRTGSLTDEPADPARVSSR
QRLELVALVYSSCIAENLVPNLFLELFFVFQLLTARRMVTAKDSDPELSP
AVLDSLESPLFQSIHDCVFFAVQVLECHFQVLSNLDKGTLKLLAENERLL
CFSPALQGRLRAAYEGSVAKVFLVMPPSTQAVSFQPETDNRANFSSDRAF
HTFKKQRDVFYEVLREWEDHHEEPGWDFEKGLGSRIRAMMGQLSAACSHS
HFVRLFQKQLLQMCQSPGGAGGTVLGEAPDVLSMLGADKLGRLWRLQERL
MAPQSSGGPCPPPTFPGCQGFFRDFILSASSFQFNQHLMDSLSLKIQELN
GLALPQHEPNDEDGESDVDWQGERKQFAVVLLSLRLLAKFLGFVAFLPYR
GPEPPPTGELQDSILALRSQVPPVLDVRTLLQRGLQARRAVLTVPWLVEF
LSFADHVVPLLEYYRDIFTLLLRLHRSLVLSQESEGKMCFLNKLLLLAVL
GWLFQIPTVPEDLFFLEEGPSYAFEVDTVAPEHGLDNAPVVDQQLLYTCC
PYIGELRKLLASWVSGSSGRSGGFMRKITPTTTTSLGAQPSQTSQGLQAQ
LAQAFFHNQPPSLRRTVEFVAERIGSNCVKHIKATLVADLVRQAESLLQE
QLVTQGEEGGDPAQLLEILCSQLCPHGAQALALGREFCQRKSPGAVRALL
PEETPAAVLSSAENIAVGLATEKACAWLSANITALIRREVKAAVSRTLRA
QGPEPAARGERRGCSRACEHHAPLPSHLISEIKDVLSLAVGPRDPDEGVS
PEHLEQLLGQLGQTLRCRQFLCPPAEQHLAKCSVELASLLVADQIPILGP
PAQYRLERGQARRLLHMLLSLWKEDFQGPVPLQLLLSPRNVGLLADTRPR
EWDLLLFLLRELVEKGLMGRMEIEACLGSLHQAQWPGDFAEELATLSNLF
LAEPHLPEPQLRACELVQPNRGTVLAQS*
Vector Type
Mammalian
Antibiotic
Amp
DU Number
DU50043
Unit Source
Location
PPU
MTA
Notes
CDAN1 from DU49995 cloned into DU50029 SgrA1/NsiI
Bicistronic expression plasmid. Single fusion protein expressed which should autocleave at 2A 2A sequence.
Bicistronic expression plasmid. Single fusion protein expressed which should autocleave at 2A 2A sequence.
Price
£125.00
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