| Entry |
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| Symbol |
hdac6
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| Name |
(RefSeq) histone deacetylase 6
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| KO |
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| Organism |
acs Anolis carolinensis (green anole)
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| Brite |
KEGG Orthology (KO) [BR:acs00001]
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:acs01009]
100560628 (hdac6)
09182 Protein families: genetic information processing
03019 Messenger RNA biogenesis [BR:acs03019]
100560628 (hdac6)
04131 Membrane trafficking [BR:acs04131]
100560628 (hdac6)
03036 Chromosome and associated proteins [BR:acs03036]
100560628 (hdac6)
Enzymes [BR:acs01000]
3. Hydrolases
3.5 Acting on carbon-nitrogen bonds, other than peptide bonds
3.5.1 In linear amides
3.5.1.98 histone deacetylase
100560628 (hdac6)
Protein phosphatases and associated proteins [BR:acs01009]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-1
PP1-interacting proteins (PIPs)
100560628 (hdac6)
Messenger RNA biogenesis [BR:acs03019]
Eukaryotic type
mRNA surveillance and transport factors
mRNA cycle factors
Stress granule specific factors
100560628 (hdac6)
Membrane trafficking [BR:acs04131]
Autophagy
Aggrephagy
Other aggrephagy associated proteins
100560628 (hdac6)
Chromosome and associated proteins [BR:acs03036]
Eukaryotic type
Histone modification proteins
HDACs (histone deacetylases)
Class II HDACs
100560628 (hdac6)
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| SSDB |
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| Motif |
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| Other DBs |
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| LinkDB |
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| Position |
2:86342470..86416595
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| AA seq |
1102 aa
MASDLGNDPILDPPSVPRAPLKKANRKGGLPEAKRKGRAKRLNKDAEELLASMQRLDLTT
ECTVPVGTGLVFDERMTEFCCPWDESFPECPERLVAIRDKLLQCGLLERCVPVLAREISE
EEILLAHSPEYLALMKSTETMSKAELKSLSDTFDSVYLHPNSYHCACLAAGSVLQVVEKV
WSGELCNGLAVVRPPGHHAQHDKMDGYCMFNNVGIAAQYARQKLGVDRVLIVDWDVHHGQ
GTQYLFEDNPSVCYFSIHRYEGGNFWPHLPESDSHAVGRGRGEGYNINVPWDQIGMGDAD
YLAAFLHILMPVALEFQPQLVLVAAGFDSVIGDPKGEMATTPGCFAHLAHLLMPLSGGKL
VLSLEGGYNLQSLAEGTCTVLKALLGDPCPLLDSPLAPCRSALHSVSQTIAAHSKFWKAL
RRISVDVPQENGEVSVTLQPLSTPSVNEILSKSAAELMKPLPPSRTGIVYDEKMMEHYNM
WDSQHPELPQRVSRIFQRHGELRLTERCCRLSARLASEEELRMCHSLAYVETVKSTATMK
PRDLHRQGDQYNSIFICTSSYECARLAAGSAFSAVEAVLSGEVQNAVAIVRPPGHHAESD
TACGFCFFNSVALSARYAQRLTGRPMRVMILDWDVHHGNGTQHMFENDPSVLYISIHRYD
NGTFFPTSEDADYDQVGLGPGKGFTLNVPWNCPRMGDPEYLAAFHQIVMPVAYEFNPELV
LVSAGFDAARGDPLGGCLVTPECKAHMTHLLLGLAGGKVVVVLEGGYNLESISESMTMCT
RSLLGDPPPALGRLKAPHPSALQSLACVASVHRKYWASLRLEVPALLWEKPRTRFGKGFP
IPNDFLIKASQELLQSPTAQLVNPADEVVVALGSLQIEDSLAEEGDMASSSLSPDSNSVS
EEAQPKVASSLEETEPTDESQREGMSTGSSSVEVESSDKEAEVSPPDHPTVKVEIELLDE
ATGGCSSFCETLGDDPVDGVSLGQPTSLGLFYAVTPLSWCPHLDSVLPVPPTGLNVLEPC
SECGSKVENWICLVCYKVCCGRYINQHMVAHNSESGHPLVLSFADLSAWCYECQAYVHHP
TLFEAKSLAHTMKFGVDVAVPS |
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| NT seq |
3309 nt +upstreamnt +downstreamnt
atggcttcagatttgggaaatgaccctatattggatcctccatctgtacctcgggcacct
ctgaaaaaagcgaacagaaagggaggtttgccagaggccaagaggaaaggacgggccaag
cggttgaacaaagatgcggaggaactgcttgcgagcatgcagcggttggatctcacaaca
gaatgtacagtgccagtaggaacgggcctggtgtttgatgaacggatgacagagttttgc
tgtccatgggatgaaagttttccagagtgtccagagcggctggtggccatccgagacaaa
ctgctgcaatgtggactgctggagcgctgtgtcccagtgctggcccgagaaatttctgag
gaagagatccttttggctcacagtccggagtacctggcactgatgaaatcaactgaaaca
atgagcaaggctgagctaaaatccctgtcagacacatttgattcagtttatctacatcca
aattcctaccactgtgcctgcctcgctgctggatctgtcctgcaagtcgtggagaaagtc
tggtctggggagctctgtaatgggcttgctgtggtcaggccacctggacaccatgctcag
catgataagatggatggctactgtatgttcaacaatgtaggcattgcagcccaatatgct
cggcagaaattgggagttgaccgggtgcttattgttgattgggatgtgcatcacgggcaa
ggcacccagtacttatttgaagacaatcccagtgtctgttatttttccatccatcgctat
gaaggtggcaacttctggccacacctccctgagtccgacagccatgccgtgggcagaggt
cggggagagggatacaacatcaacgtgccctgggaccagataggaatgggggatgcagac
tacctcgctgcctttttgcatatcctgatgcctgtggccttagagtttcagccccagttg
gtactggttgctgctggctttgactctgtaattggtgaccctaagggagaaatggccacc
acccctggatgttttgctcacctggcacatctgttgatgcccctgtctggaggcaagctg
gttctgtctcttgagggtgggtacaatctccagtccttggcagagggaacctgcacagtc
ctcaaggctcttcttggagacccctgccctctgctggactcaccccttgcaccatgcaga
agtgccctccattcggtgtcccagacgattgcagctcatagcaaattctggaaggctcta
agaaggatcagtgttgacgtgcctcaggaaaatggagaagtcagtgtaactttgcaacca
ctcagcaccccatctgtaaatgagatcctgtctaagtcagcagctgaactgatgaaaccc
ctgccaccttcacgcacagggatagtctatgatgagaagatgatggagcattacaatatg
tgggacagtcaacacccagagttgcctcagagagtctcccggatcttccagcgccatggg
gagctacgtctcacagagcggtgctgtcggctctcagctcggcttgcctctgaagaggag
ctgcggatgtgccatagcctggcctatgtggagacagtgaagtcaacagccaccatgaag
ccccgcgacctgcatcgccagggtgaccagtacaattccatcttcatctgcaccagctcc
tatgaatgtgcccggctggcggctggttccgccttcagcgccgttgaagctgtgctctct
ggggaggttcaaaatgctgtggccattgtccgaccccccggacaccatgctgaatcggac
accgcctgtggcttctgcttcttcaactctgtggccttgtctgctcgatatgcacagcgc
ctgactgggaggcctatgagggtgatgatactggactgggatgttcaccatggcaatggg
acccagcatatgtttgaaaatgatcccagtgtcttgtacatctccatccatcgatatgac
aatgggactttcttccccacctctgaggatgcggactatgaccaggtgggcttggggcct
ggcaagggcttcacccttaatgtgccttggaactgtccccggatgggagaccccgaatac
ctggctgccttccatcagattgtcatgcctgttgcctatgagttcaatccagagctggtc
ctggtttctgctggtttcgatgctgctcgcggggaccctctgggtggatgccttgtgacc
cccgaatgtaaggcacacatgacccatcttctcttgggcctggcaggaggcaaagtggta
gttgtcctggagggcggctacaacctagagtccatatcggagtccatgaccatgtgcact
cgcagcctcctaggggatcctccccctgccttgggacgcctcaaggctcctcaccccagt
gctctgcagtctttggcctgtgtagcgtctgtgcaccgcaagtattgggccagcctccga
ctggaagtgcctgctcttttgtgggagaagcctaggactcggtttgggaagggatttccc
attccaaatgacttccttataaaagcttcccaggaactccttcagagccccacagctcaa
ctcgtgaatcctgctgacgaagtggtcgtggctttgggctccctccaaatagaggacagc
cttgcggaggaaggagacatggcttccagctctctctcacctgattccaattcagtaagt
gaagaggctcagccaaaagttgcgagctccttggaagagactgagccgaccgatgagagc
cagagagaaggcatgtcaacggggagctcctctgtcgaagtggagtcttcggacaaagag
gcagaagtgagcccaccagaccaccccacagtaaaagttgagatagagctactggatgaa
gccacaggtggatgttcttccttctgtgagacacttggagatgatccagtggatggagtg
agtttgggacagcccacctcccttgggctgttctatgctgtcacacccttatcatggtgt
ccgcaccttgactcggtgttacctgttcctcccactggcttgaatgtgctggagccttgt
tcagaatgcggcagcaaggtggagaattggatctgcttggtttgctacaaggtttgctgt
ggtcgctatattaatcagcacatggtcgctcacaattcagaatcggggcatccgctggtg
ctcagctttgcagatctctctgcctggtgctatgagtgccaagcctacgtccaccacccg
actctctttgaagccaagagcttggctcacacaatgaagttcggggtggacgtggctgta
ccttcctaa |
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