KEGG   Pleuronectes platessa (European plaice): 128457551
Entry
128457551         CDS       T09923                                 
Symbol
kdm6bb
Name
(RefSeq) lysine (K)-specific demethylase 6B, b
  KO
K11448  lysine-specific demethylase 6B [EC:1.14.11.68]
Organism
pplt  Pleuronectes platessa (European plaice)
Brite
KEGG Orthology (KO) [BR:pplt00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03036 Chromosome and associated proteins [BR:pplt03036]
    128457551 (kdm6bb)
Enzymes [BR:pplt01000]
 1. Oxidoreductases
  1.14  Acting on paired donors, with incorporation or reduction of molecular oxygen
   1.14.11  With 2-oxoglutarate as one donor, and incorporation of one atom of oxygen into each donor
    1.14.11.68  [histone H3]-trimethyl-L-lysine27 demethylase
     128457551 (kdm6bb)
Chromosome and associated proteins [BR:pplt03036]
 Eukaryotic type
  Histone modification proteins
   Histone demethylases
    128457551 (kdm6bb)
SSDB
Motif
Pfam: JmjC KDM6_C-hel KDM6_GATAL
Other DBs
NCBI-GeneID: 128457551
NCBI-ProteinID: XP_053298271
LinkDB
Position
15:16883889..16905975
AA seq 1713 aa
MYHQAELYSGRNTWDSYPAGGPNRGQWAPVNTHLWSHTNRCQEGRNQSHHPPSSRLYNRG
ERTVNHGQDKGISKGHRQHPRVWEGKDPPFEAQNWQPNSSRSFHNRAENNNGYPTAAGER
YATWDNNVSNSEHGAPRLHRNNRELQPPPERWAPSDCRRSSPGRMMNNRPGPWKRPAHHQ
RRDQLHQHSPSPPHSLSPREECPAKRRRDSGPDQSPHPGSRHLPLLAPSPPRHHHRHQDD
WKPLSDRVGPFHHSDHRTSATQQTETSKLRAGGHGFSNSNPAAPNQSCGSRPPHHGSRGK
VERKNLSPPADHTRVPYSHQNHHYHYQRHTGHPRAPQHNLPLHPPEDSRSHHHKQSTEPQ
RTHQRSILRDPALAHSSGADSPYSSLLCSPKDGGSTASSPCALSSPSSYTVPIGRKDPAI
IRQCSPGLSAEQRLHGSPPSHNQTRFSDVKYRKSSQPLCSRQLPHSRSRASKLDKELEQH
AKPECKQKEKLGKKEKKGDILKMSRKGDERKRRKKKEEKRPGERKRKRDKAVTMEGKLGM
KIRKREMSTSISASAEDKVSRMETPIPETPKHKHRVRSERAEGTHRPFANTSHPKCTSQQ
LPSKSGNHKMSKKNSGPQKHPVKNLTMTSPRKTSAKQTSRKPTTVSSKSDGRPRGKPDDT
LPSLLFKALAPLSAACSTSAEQGGVLNAPDLQPVGVREIGDNLANTPPVLSWQGSPVSSL
EEDEDELGKGVISRPVLQPSPTQCSPHPVDNDSSDDTEKEPCGSLRADSSDRSEYCDTPR
STDQVAEEQSKEDVDSNGETSGSLLRELCHHKAGLDDVFKSLATFLGGQRVSRRGGPFGG
PPESTAGGVKYSSSLELGPDIHCQEHHDFSPKSDPTASSKPAHIKSPTHVTSDSLGKSHS
PKEPRTEPVADAPVQEPETVVKVKQEGKDSEILPERIDSSLLDGSLSAELRVTTTDTASL
TSLLTVSTKEERGPSTEPGHRCADRKRKQKDKDGGGEEEIKIKIKTKESSVICPKNKVNE
VKDSEERGVSSAERAISKSSSRPLKDSRIGQISQENQSPRGKDIRREKEDTGNAEVKVER
EEKKEVITELENNKSSAARNPESKAPNPASTLTINPSKLCVSTPASKPPRSLAPVDPLKL
KALSMGLCKELKILLFKVESAGRHTFNISEVEEQRVPLSKINIGNTATEVIRSCKGTRVK
GKFRESYLLSSFSVKPDIAVKTPIPREKLNPPTPSIYLESKRDAFSPVLLQFCTDPKNAV
TVIRGLAGSLRLNLGLFSTKSLVEANAEHAVEVRTQVQQPADENWDTSGSAQTWPCESSR
SHTTIAKYAQYQASSFQESLQEEKESENEDEGEQTQSSDEAATAKAVLMLANSKGGPPST
PTSTPSSDQKTAGKIIKFGTNIDLSDPKRWKPQLQELLKLPAFMRVESSHNMLSHVGNTI
LGMNTVQLYMKVPGSRTPGHQENNNFCSVNINIGPGDCEWFAVHEHYWEDINRFCEKHGV
DYLTGSWWPVLEDLYSSNIPVYRFIQRPGDLVWINAGTVHWVQAVGWCNNIAWNVGPLNS
YQYQLALERFEWNKVKKVKSIVPMIHVSWNVARTIKITDQDTFKMLKHCLMQSIKHIQIL
RDQLVAGGKKISYQSRVKDEPPYYCNECDVEVFDLLFVTSDSSSKKTYVVHCEDCARAKT
PSLAGVVVLEQYRMEELMKTYDSFTLAPSPISK
NT seq 5142 nt   +upstreamnt  +downstreamnt
atgtatcaccaggcagagctgtactctggccgtaacacatgggactcctatccagctgga
ggtcctaacagaggacaatgggctccagtgaacactcacctctggagccacacaaacaga
tgccaagaagggcgcaatcaatcacatcatccgccatcaagtcgtctctataacaggggg
gagagaacagtcaaccatggtcaggacaaaggtatctcaaaggggcacagacagcatcca
cgtgtatgggagggtaaagatccgccgtttgaggcccagaactggcaacccaactcctcg
cgctcattccacaaccgagctgaaaacaacaacggttatccaaccgcagccggagagcgc
tacgcaacctgggacaataacgtcagcaactctgagcatggtgctcctcgccttcatcgc
aacaacagagagctccagccaccgccagagagatgggccccctcagactgtcgcaggagc
tccccaggcaggatgatgaacaacagaccggggccctggaaacgaccggcccaccatcag
cggcgagaccaattacaccagcacagtccatccccgcctcactctttatctccaagggaa
gagtgtcctgctaagaggaggagggactctggtcctgatcagtcacctcatcctggatca
agacatctacctttactggccccctccccgcctcgccaccaccaccgtcaccaagatgac
tggaagcccctcagcgacagggtgggtcctttccaccactctgaccacaggacctcagca
acacagcaaacggaaacctctaaacttcgagctggcggacatggcttcagtaacagtaac
ccggcagctccaaaccagagttgtggcagcagaccgccacatcacggaagcagagggaag
gtcgagcggaaaaacctgtctccaccagcagaccacacccgtgtgccttacagccaccaa
aaccatcattaccactaccaacggcacacaggccatcccagagcaccacagcacaacctg
ccacttcaccctccagaggactcacggagccatcaccacaaacaaagcacagaacctcaa
cgcactcatcaaagaagcattttaagggatccagccctcgcccattcttctggtgcagac
tccccttattcatccctcctctgcagccctaaagatggaggatccactgccagcagtcca
tgtgctctctccagtccctcttcatacacagtgcccatcggcaggaaagatcctgcgatc
attcgtcagtgtagtcccggcctcagtgcagagcagagactccacggaagccccccctca
cacaaccagaccaggttttcggacgtcaagtacagaaagagttcacagccgctctgctca
cgacagctcccccacagcagatcgagagccagcaagcttgacaaggagctggagcaacac
gcaaaacctgagtgcaaacaaaaagagaagctggggaagaaagagaaaaagggggatatt
ctgaagatgagcagaaaaggcgatgaaagaaaaaggcggaagaaaaaagaggagaaaagg
ccgggcgagcgaaaaaggaaaagagataaagctgttacaatggagggaaagttaggcatg
aaaatcaggaagagggagatgtccacctccatctcagcctcagcagaggataaagtgagt
aggatggagactccgatcccagagacacccaaacacaagcacagggtgaggagtgaacga
gcggaggggacacacaggccgtttgcaaatacttctcatcctaaatgcacttcacaacag
ctgccctcaaaatctggaaaccacaaaatgtccaaaaagaacagcggtccccagaaacac
cctgtcaaaaatctaacaatgacatcccccaggaaaaccagcgccaaacagaccagcagg
aagcccaccactgtctcatcgaagtcagacggcagaccgagaggaaagccagacgataca
ctcccttcacttttgtttaaagccttagcacctctcagtgcagcatgttccacgagtgca
gagcagggaggtgttctcaatgccccggacctccagcccgtgggggtgagggaaatagga
gacaacctcgcgaacactcctcctgttctgagctggcagggctctccagtgtcgagtctg
gaagaggatgaggacgagttagggaagggagtgatcagtcgacctgtcctccagcccagc
cccactcagtgctccccccaccctgtggacaacgacagctcggacgatacggaaaaggag
ccttgcggaagtttgcgagctgacagcagcgacaggtcagaatactgtgatacgcctcgg
tccaccgatcaagttgcagaggaacaatcaaaagaagacgtggacagcaatggggagaca
tctgggtctcttctccgtgagctttgccaccacaaagcagggctggacgacgtcttcaag
agcctggccaccttcctcggaggccagagggtctcgcgtcgaggcggcccgtttggtggc
cctccagagagcactgccggaggggtgaagtactcctcttctcttgaacttgggccagat
atacactgccaggagcatcacgatttctcccccaagtccgatcccacagcgtcctccaaa
cctgctcatattaaatcaccgactcacgttacctcagactcgcttgggaaatcccacagt
ccgaaagaaccgagaactgaacctgtcgccgacgccccagtgcaggagcctgagactgtc
gtgaaagtaaaacaagaaggtaaagattccgagatcctccctgagagaattgactcatct
cttctcgacgggtcactgagtgcagagctgagagtgaccaccacagatacagcctctctc
accagcctcctcactgtttccaccaaggaagagagaggacccagcacggagcccggacac
agatgtgcagacagaaaaagaaaacaaaaggataaggacggaggaggggaagaagagatc
aagattaagattaagacaaaggaaagcagtgtcatctgtcccaaaaacaaagtaaatgaa
gttaaggattcggaagagaggggtgtttcatccgcggagagagccatctccaaaagttct
agcagacctctcaaagatagtaggataggccagatttctcaggaaaatcaatcgccacga
ggcaaggacatccggagagagaaagaagacactgggaacgctgaggtcaaagtagaaaga
gaggagaagaaggaagtgatcactgagttagaaaacaataaatcgtccgcggctagaaac
ccagaatcgaaagctccaaacccagcgtcaactttaacaatcaacccatccaaactgtgt
gtctcaacaccggcgagcaaacccccccgctccttagcgccagtcgatccactgaaactg
aaagcgctgtccatgggcttgtgtaaggagctgaagatcctgctgttcaaagtggagagc
gccggaagacacacgttcaacatatcagaggtggaggagcagagggtcccactttccaag
atcaacatcggcaacacggcaacagaagtgatcagatcctgcaaggggacgagggtgaag
gggaagttcagggagtcgtacctgctttcttcattttccgttaaacccgacatcgccgtc
aagacgcccattcctcgagaaaagctcaaccctccgacaccaagtatctacttggagagc
aagagggacgccttctctccagttctgcttcagttctgcactgaccccaaaaatgctgtc
actgtcatcagaggccttgccggctccctccgcctgaacctcgggcttttctccaccaaa
tccctggtggaggccaatgcagaacatgcagtggaggtgaggactcaggtgcagcagccc
gctgatgagaactgggataccagcggctcggcgcagacgtggccctgcgaaagcagccgc
tcacacaccaccatcgccaaatacgcccagtaccaggcctccagcttccaggagagcttg
caggaggagaaggagagtgagaatgaagacgaaggagagcaaacacagagctcggacgaa
gcagccaccgcaaaagctgtcctgatgttagccaacagtaaaggaggtcccccctcaact
cccaccagcacacccagctcagaccagaaaactgctggaaagatcattaaatttgggacc
aatattgatctctcagaccctaaaaggtggaagccccagctgcaggagctgctgaagctg
ccggccttcatgagagtggagtccagccacaacatgctcagccatgtcggtaacaccatc
ctgggcatgaacactgtgcagctctacatgaaggtgccgggaagccgcaccccgggtcac
caagagaacaacaatttctgctccgtcaacatcaacatcggacctggtgactgtgagtgg
tttgccgtccacgagcattactgggaagacatcaacagattctgtgagaagcacggggta
gattacctcacagggtcctggtggccagtgctggaggacctctacagctccaacatccct
gtgtaccgcttcatccagaggccgggcgacctggtgtggatcaatgcagggactgtgcac
tgggtccaggccgtgggctggtgcaacaacatcgcctggaatgtgggaccactcaactcg
taccagtatcaactcgccctggagcgctttgagtggaacaaggtgaagaaggttaagtca
atcgttcccatgatccacgtttcctggaatgtggctcgaaccatcaagatcaccgatcag
gacacattcaagatgctcaaacactgcctgatgcagtccatcaagcacatccagattcta
agagaccagctggtggccggagggaagaagatctcttaccagagccgcgtgaaggatgag
ccgccatactactgcaacgagtgtgacgtggaggtgtttgacctgctcttcgtgacgagt
gacagcagcagtaagaagacctacgtggtgcactgtgaggactgcgcccgagctaagacc
ccgtctctggcaggagtcgtggtgctggaacagtatcgaatggaggagctgatgaaaacc
tatgacagcttcactctggctccatcgcccatttctaagtga

DBGET integrated database retrieval system