Entry |
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Symbol |
PARP1, ADPRT, ADPRT_1, ADPRT1, ARTD1, PARP, PARP-1, PARS, PPOL, Poly-PARP, pADPRT-1
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Name |
(RefSeq) poly(ADP-ribose) polymerase 1
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KO |
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Organism |
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Pathway |
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Network |
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Element |
N01434 | Base excision and strand cleavage by bifunctional glycosylase |
N01435 | Base excision and strand cleavage by NEIL glycosylase |
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Drug target |
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Brite |
KEGG Orthology (KO) [BR:hsa00001]
09120 Genetic Information Processing
09124 Replication and repair
03410 Base excision repair
142 (PARP1)
09130 Environmental Information Processing
09132 Signal transduction
04064 NF-kappa B signaling pathway
142 (PARP1)
09160 Human Diseases
09166 Cardiovascular disease
05415 Diabetic cardiomyopathy
142 (PARP1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03032 DNA replication proteins [BR:hsa03032]
142 (PARP1)
03036 Chromosome and associated proteins [BR:hsa03036]
142 (PARP1)
03400 DNA repair and recombination proteins [BR:hsa03400]
142 (PARP1)
Enzymes [BR:hsa01000]
2. Transferases
2.4 Glycosyltransferases
2.4.2 Pentosyltransferases
2.4.2.30 NAD+ ADP-ribosyltransferase
142 (PARP1)
DNA replication proteins [BR:hsa03032]
Eukaryotic type
DNA Replication Termination Factors
Other termination factors
142 (PARP1)
Chromosome and associated proteins [BR:hsa03036]
Eukaryotic type
Centrosome formation proteins
Centriole proteins
142 (PARP1)
DNA repair and recombination proteins [BR:hsa03400]
Eukaryotic type
SSBR (single strand breaks repair)
BER (base exicision repair)
Other BER factors
142 (PARP1)
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SSDB |
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Motif |
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Other DBs |
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Structure |
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LinkDB |
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Position |
1:complement(226360691..226408093)
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AA seq |
1014 aa
MAESSDKLYRVEYAKSGRASCKKCSESIPKDSLRMAIMVQSPMFDGKVPHWYHFSCFWKV
GHSIRHPDVEVDGFSELRWDDQQKVKKTAEAGGVTGKGQDGIGSKAEKTLGDFAAEYAKS
NRSTCKGCMEKIEKGQVRLSKKMVDPEKPQLGMIDRWYHPGCFVKNREELGFRPEYSASQ
LKGFSLLATEDKEALKKQLPGVKSEGKRKGDEVDGVDEVAKKKSKKEKDKDSKLEKALKA
QNDLIWNIKDELKKVCSTNDLKELLIFNKQQVPSGESAILDRVADGMVFGALLPCEECSG
QLVFKSDAYYCTGDVTAWTKCMVKTQTPNRKEWVTPKEFREISYLKKLKVKKQDRIFPPE
TSASVAATPPPSTASAPAAVNSSASADKPLSNMKILTLGKLSRNKDEVKAMIEKLGGKLT
GTANKASLCISTKKEVEKMNKKMEEVKEANIRVVSEDFLQDVSASTKSLQELFLAHILSP
WGAEVKAEPVEVVAPRGKSGAALSKKSKGQVKEEGINKSEKRMKLTLKGGAAVDPDSGLE
HSAHVLEKGGKVFSATLGLVDIVKGTNSYYKLQLLEDDKENRYWIFRSWGRVGTVIGSNK
LEQMPSKEDAIEHFMKLYEEKTGNAWHSKNFTKYPKKFYPLEIDYGQDEEAVKKLTVNPG
TKSKLPKPVQDLIKMIFDVESMKKAMVEYEIDLQKMPLGKLSKRQIQAAYSILSEVQQAV
SQGSSDSQILDLSNRFYTLIPHDFGMKKPPLLNNADSVQAKVEMLDNLLDIEVAYSLLRG
GSDDSSKDPIDVNYEKLKTDIKVVDRDSEEAEIIRKYVKNTHATTHNAYDLEVIDIFKIE
REGECQRYKPFKQLHNRRLLWHGSRTTNFAGILSQGLRIAPPEAPVTGYMFGKGIYFADM
VSKSANYCHTSQGDPIGLILLGEVALGNMYELKHASHISKLPKGKHSVKGLGKTTPDPSA
NISLDGVDVPLGTGISSGVNDTSLLYNEYIVYDIAQVNLKYLLKLKFNFKTSLW |
NT seq |
3045 nt +upstreamnt +downstreamnt
atggcggagtcttcggataagctctatcgagtcgagtacgccaagagcgggcgcgcctct
tgcaagaaatgcagcgagagcatccccaaggactcgctccggatggccatcatggtgcag
tcgcccatgtttgatggaaaagtcccacactggtaccacttctcctgcttctggaaggtg
ggccactccatccggcaccctgacgttgaggtggatgggttctctgagcttcggtgggat
gaccagcagaaagtcaagaagacagcggaagctggaggagtgacaggcaaaggccaggat
ggaattggtagcaaggcagagaagactctgggtgactttgcagcagagtatgccaagtcc
aacagaagtacgtgcaaggggtgtatggagaagatagaaaagggccaggtgcgcctgtcc
aagaagatggtggacccggagaagccacagctaggcatgattgaccgctggtaccatcca
ggctgctttgtcaagaacagggaggagctgggtttccggcccgagtacagtgcgagtcag
ctcaagggcttcagcctccttgctacagaggataaagaagccctgaagaagcagctccca
ggagtcaagagtgaaggaaagagaaaaggcgatgaggtggatggagtggatgaagtggcg
aagaagaaatctaaaaaagaaaaagacaaggatagtaagcttgaaaaagccctaaaggct
cagaacgacctgatctggaacatcaaggacgagctaaagaaagtgtgttcaactaatgac
ctgaaggagctactcatcttcaacaagcagcaagtgccttctggggagtcggcgatcttg
gaccgagtagctgatggcatggtgttcggtgccctccttccctgcgaggaatgctcgggt
cagctggtcttcaagagcgatgcctattactgcactggggacgtcactgcctggaccaag
tgtatggtcaagacacagacacccaaccggaaggagtgggtaaccccaaaggaattccga
gaaatctcttacctcaagaaattgaaggttaaaaaacaggaccgtatattccccccagaa
accagcgcctccgtggcggccacgcctccgccctccacagcctcggctcctgctgctgtg
aactcctctgcttcagcagataagccattatccaacatgaagatcctgactctcgggaag
ctgtcccggaacaaggatgaagtgaaggccatgattgagaaactcggggggaagttgacg
gggacggccaacaaggcttccctgtgcatcagcaccaaaaaggaggtggaaaagatgaat
aagaagatggaggaagtaaaggaagccaacatccgagttgtgtctgaggacttcctccag
gacgtctccgcctccaccaagagccttcaggagttgttcttagcgcacatcttgtcccct
tggggggcagaggtgaaggcagagcctgttgaagttgtggccccaagagggaagtcaggg
gctgcgctctccaaaaaaagcaagggccaggtcaaggaggaaggtatcaacaaatctgaa
aagagaatgaaattaactcttaaaggaggagcagctgtggatcctgattctggactggaa
cactctgcgcatgtcctggagaaaggtgggaaggtcttcagtgccacccttggcctggtg
gacatcgttaaaggaaccaactcctactacaagctgcagcttctggaggacgacaaggaa
aacaggtattggatattcaggtcctggggccgtgtgggtacggtgatcggtagcaacaaa
ctggaacagatgccgtccaaggaggatgccattgagcacttcatgaaattatatgaagaa
aaaaccgggaacgcttggcactccaaaaatttcacgaagtatcccaaaaagttctacccc
ctggagattgactatggccaggatgaagaggcagtgaagaagctgacagtaaatcctggc
accaagtccaagctccccaagccagttcaggacctcatcaagatgatctttgatgtggaa
agtatgaagaaagccatggtggagtatgagatcgaccttcagaagatgcccttggggaag
ctgagcaaaaggcagatccaggccgcatactccatcctcagtgaggtccagcaggcggtg
tctcagggcagcagcgactctcagatcctggatctctcaaatcgcttttacaccctgatc
ccccacgactttgggatgaagaagcctccgctcctgaacaatgcagacagtgtgcaggcc
aaggtggaaatgcttgacaacctgctggacatcgaggtggcctacagtctgctcagggga
gggtctgatgatagcagcaaggatcccatcgatgtcaactatgagaagctcaaaactgac
attaaggtggttgacagagattctgaagaagccgagatcatcaggaagtatgttaagaac
actcatgcaaccacacacaatgcgtatgacttggaagtcatcgatatctttaagatagag
cgtgaaggcgaatgccagcgttacaagccctttaagcagcttcataaccgaagattgctg
tggcacgggtccaggaccaccaactttgctgggatcctgtcccagggtcttcggatagcc
ccgcctgaagcgcccgtgacaggctacatgtttggtaaagggatctatttcgctgacatg
gtctccaagagtgccaactactgccatacgtctcagggagacccaataggcttaatcctg
ttgggagaagttgcccttggaaacatgtatgaactgaagcacgcttcacatatcagcaag
ttacccaagggcaagcacagtgtcaaaggtttgggcaaaactacccctgatccttcagct
aacattagtctggatggtgtagacgttcctcttgggaccgggatttcatctggtgtgaat
gacacctctctactatataacgagtacattgtctatgatattgctcaggtaaatctgaag
tatctgctgaaactgaaattcaattttaagacctccctgtggtaa |