KEGG   Alligator sinensis (Chinese alligator): 102378568
Entry
102378568         CDS       T02922                                 
Symbol
SETD1B
Name
(RefSeq) histone-lysine N-methyltransferase SETD1B isoform X1
  KO
K11422  [histone H3]-lysine4 N-trimethyltransferase SETD1 [EC:2.1.1.354]
Organism
asn  Alligator sinensis (Chinese alligator)
Pathway
asn00310  Lysine degradation
asn01100  Metabolic pathways
Brite
KEGG Orthology (KO) [BR:asn00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00310 Lysine degradation
    102378568 (SETD1B)
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03036 Chromosome and associated proteins [BR:asn03036]
    102378568 (SETD1B)
Enzymes [BR:asn01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.354  [histone H3]-lysine4 N-trimethyltransferase
     102378568 (SETD1B)
Chromosome and associated proteins [BR:asn03036]
 Eukaryotic type
  Histone modification proteins
   HMTs (histone methyltransferases)
    HKMTs (histone lysine methyltransferases)
     102378568 (SETD1B)
   HMT complexes
    COMPASS/SET1 complex
     102378568 (SETD1B)
    COMPASS/SET1 complex (yeast)
     102378568 (SETD1B)
SSDB
Motif
Pfam: N-SET SET RRM_1 RRM_5
Other DBs
NCBI-GeneID: 102378568
NCBI-ProteinID: XP_006015257
UniProt: A0A1U7R0M6
Position
Unknown
AA seq 2008 aa
MQCLSKRSRQERKPRTLEDPGKKQSSSRSRGMENNAPAGASVEKRNHHWRSYKLIIDPAL
KKGQHKLYRYDGQHFSMPNSGIAPVDCVRDPRIGRIWTKTKELELSVPKFKIDEFYVGPV
PPKQVTFAKLNDNIRENFLTDMCKKYGEVEEVEILYNPKNKKHLGIAKVIFATVKGAREA
VQHLHNTSVMGNIIHVELDTKGETRMRFYGLLVSGLYTPQTLPVGNEQDASPTVNENLQL
TESLKRLKDSNLSSAGSSVTPNSSTPFSHDTAYSSCRQDTPNSYSQYTPQSQGTPLTPRL
GTPFSQDSTYSSRQTTPVYHYGQDSGYKPRRHDTKFTDAYNRRQGHHYVHNSAGVYRGSE
HQFNTYKSHQPEPVQYSHTPSLSHSGSSSYKSAFSPYQAPAVFPQSEEQQFPQTSRDAEY
RRPAPPPAETAAEGSAATNVDFVPVKEKQEEPPPLPESNCVTEQSTASFSQTPERSETPG
TPTMESEMQHNSLDSRIEMLLKEQRTKLPFLNEHDSDNEIRMEGSPISSSSSQLSPIPMY
SSNSQPSYRGQTPSSRPSSTGLEDISPTPLPDSDDDEPILGAPALGQNSRATSEASMTPI
DQLNRTSKPETSETKEMVPGDRSPASEKMDEGQHSSGEDMEISDDEMNSAPITSAECAKT
IVVNSSVNNSSVMAPSIPMPPPGFPPLPPPPPPQPGFPMPPPLPPPPPPTHPAVTVPPPP
LPAPPGVPPPHILPPLPPFHPGMFPVMQVDMISVLGNQWGGMPMSFQMQTQMLSRMMQGQ
NTYQYPPFMGGRMQFVNLPPYRPFSMGAVIGRGQQWPPLPKFDPSVPPPGYEPKKEDPHK
ATVDGVLLVIVKELKAIMKRDLNRKMVEVVAFRAFDDWWDKKERLAKASLTPVKSGGEVE
EKPKPKDRITSCLLENWNKGEGLGYEGIGLGIGLRGAIRLPSFKVKRKEPPEAASAGDQK
RIRPSTSIDDEDEESERDRDVPDVSSDLSKSNAEAVGVRRRPARPLELDSEGEEGDETSG
KEEESSSEKEEEPEEAGGLVKAVPSKEEEEEEDEDADEEEEEEEEDEEAGIEMNEKEEEP
DSEEEDAASPSSSKAEVESSDESEDSSEFESSSDSDEDEEEDEEEEEEDEEEEEDEVEEE
AVAEDQDREGMMADTELQPATQEPPDEEKETILELYPVDDYMDATSLGLGEPALVEKPEE
MEEIKPGENECSEVPEASIAAETLVDMEREQEEKLVPSPICVPVGEPEPDAAPEPEALEG
PKPESQGEEESVCPPTPAGAFGEPLPSKSSFFSKSDDSDVEARVKVRVSSAAEEEDRLPR
TPGREATVHSDPDTPILPAHKAPPSTLPLPSTPSKEDPLLPPERFPEQLTVTKTPLEEDI
PRTPGRDISAKSPHILAKSQSTDTIPVTPGSDGPLTGSSLALSSPQVPGSPFSYPSQSPG
INSGIPRTPGRDFNFTPTFSETGATIPCLLSGKKPSEDELDEKPFKEPPSASLMVSVNSV
PSPIPFASPPNADFHTDLELPPVEVVPGAALPCTPADGKISREDGKAEVKSVLLSPEAPL
IAAAILPPPPPPPSVLPPKRKPGRPKRSPPSVLSLDAYSGRPVDPPPVPVALMESAVSKE
LLGGHPDAFYGLKVPEAVTLDFRNDGFHEKVPPEAVAEKLPFKELENQWNEDFKEEELHA
KPKRQWRRQKKTPEDIPLIPSPEYSPPRPVFRPRSEFEEMTILYDIWNGGIDEEDIKFMC
ITYDRLLQQDNGMDWLNDTLWVYHPPTSFSTPKKKKRDDGMREHVTGCARSEGYYKIDKK
DKLKYLNNSRAFAEEPPADTQGMSIPAQPHASTRAGSERRSEQRRLLSSFTGSCDSDLLK
FNQLKFRKKKLKFCKSHIHDWGLFAMEPIAADEMVIEYVGQNIRQVIADMREKRYEDEGI
GSSYMFRVDHDTIIDATKCGNFARFINHSCNPNCYAKVITVESQKKIVIYSKQHINVNEE
ITYDYKFPIEDVKIPCLCGSENCRGTLN
NT seq 6027 nt   +upstreamnt  +downstreamnt
atgcaatgtctttcaaagagatccaggcaggagagaaagccgcgcacccttgaagaccca
ggcaaaaaacagagttcaagtcggagccgcggcatggagaacaacgcaccagccggcgct
tctgtcgagaagaggaatcaccattggagaagttacaagttgattattgacccggctctg
aaaaaaggacagcacaaactctatcgttacgatgggcagcattttagcatgcctaactcg
ggaattgccccggtggattgtgtcagagatcccaggataggacggatatggaccaaaacc
aaggagctggagctctctgttcccaaattcaagatcgacgagttctacgtggggccggtg
ccccccaagcaggtcaccttcgccaagctgaatgacaacatccgtgaaaacttcctgacc
gacatgtgcaagaaatacggggaggtggaagaggtggagatcctctacaaccccaagaac
aagaagcacctgggcattgccaaagtgatctttgccaccgtcaagggggcgcgagaagcc
gtccagcacctgcacaacacctcggtcatgggcaacatcatccacgtggagctggacacc
aaaggtgaaacccgcatgcggttctatggcttgctggtgagcggtctttacactcctcag
acccttcccgtaggcaacgaacaggatgcctcgcccacggtgaatgaaaatctgcagctg
acggagtctctaaaacgcctgaaagacagtaacctttcttctgcgggatcatccgtcacc
ccaaacagtagcaccccgttttcccatgacacagcctattccagctgtcggcaagacacc
ccaaactcatacagccaatataccccccagtcccaaggcaccccccttaccccgcggctg
gggactccgttttcccaagactcaacctattccagtcgtcagacgacaccggtgtaccat
tacggacaggactctgggtataaacccaggagacacgacacaaaatttacagatgcctac
aatagacggcaaggacatcactatgtccataactcggcaggtgtttacagagggtcggag
catcagtttaacacatacaaatctcatcagccagagccagtacaatattctcacactcct
tccttgagccattctggctcttcgagttacaaatctgccttctctccgtaccaagcgcca
gctgtatttcctcagtccgaggagcagcagtttccccagacttccagagatgctgagtac
cgaagacccgcgccaccgccggctgagacggcggcggaaggtagcgctgctaccaacgtt
gattttgtccctgtgaaagagaagcaggaggaacccccgcccctgccagaatccaactgt
gttactgagcaaagcacggcgtccttctctcagactccagaacggagcgagacgcctggc
acccccaccatggagtctgaaatgcagcataacagtttagactcaaggatcgagatgctc
ttgaaggagcagagaacaaagttacctttcctcaacgaacacgactcggacaatgagatc
cgcatggaaggcagccccatctcttcctcctcctcccagctctccccaatccccatgtat
agttccaactcccagcccagttaccgaggtcagacaccatcctcgcgcccctccagcact
ggcttggaggatattagtcccacgccattaccagactccgatgacgatgagcccatcctt
ggggcacctgctctgggccagaattcaagggcaacatcagaggccagtatgactcctatc
gatcagctgaataggacgtccaaacctgagacctctgaaaccaaggaaatggtgcctggt
gaccggagtccagcgtcagaaaaaatggatgagggtcagcattcgtcaggggaggacatg
gaaatatccgacgacgaaatgaattctgcaccgatcaccagtgcagagtgtgccaaaacc
atcgtggtgaactcctcggtcaacaactcgtctgtgatggctccctcgatacccatgccc
ccgccggggttcccgcctcttccgcccccgcccccgccccagccaggcttccccatgcca
ccgcctctgccaccgccgcctccacccactcacccggcggtcaccgtccctccacctcct
ctccccgcaccgcctggggtccccccaccccacatcttgcctccccttcctccgttccac
ccgggcatgtttcccgtcatgcaggtggatatgataagcgtcttgggcaaccagtggggt
ggcatgcccatgtcctttcagatgcaaactcagatgctgagccggatgatgcagggccag
aacacctaccagtacccaccgttcatggggggccggatgcagtttgtgaatcttcctccc
taccgccccttctccatgggggcagtcattggccgcgggcagcagtggcccccgttgccc
aagtttgacccctccgttcccccgccgggttacgagccaaagaaggaagacccgcacaaa
gctaccgtggacggcgtcctcttggtgattgtgaaagaactgaaagcaatcatgaaaagg
gacttgaaccgcaagatggtcgaggtggtggcgttcagggcgttcgacgactggtgggac
aagaaagaacgtctggcaaaggcatcgctcactccagtgaagtcgggaggagaagtggag
gagaaaccaaagccgaaggatcggatcacgtcctgtctcttggagaactggaacaaagga
gaagggctgggctacgagggaattggcctgggcattgggttgcgaggagccatccgcctg
ccgtctttcaaggtgaagagaaaggagccgcccgaagctgcctcagcaggggaccagaag
aggatcagaccctccacttccattgacgatgaagatgaagaatctgaaagggacagagac
gtgcccgacgtgtcttccgacctgtccaagagcaacgcggaagcggtaggcgttaggcgg
cggccagcaagaccactggagctggacagcgagggggaggaaggcgatgagacttcgggc
aaagaagaagaatcctcatcagaaaaggaagaggagccggaggaagcgggaggactggtg
aaagcagtgcctagcaaggaggaggaggaggaagaggatgaagatgctgatgaagaggag
gaggaggaggaggaggatgaagaagcaggcatagaaatgaatgaaaaggaagaggagcca
gactctgaggaagaagatgcagcgagtccctcatcctccaaagcggaagtcgagtcatcc
gacgaaagcgaggactcctcggaatttgagtccagttctgattctgatgaagacgaggag
gaagatgaggaggaggaggaggaagatgaggaggaggaggaagatgaggtggaagaggag
gcagtggctgaagaccaagacagagaaggcatgatggctgacaccgagcttcagcctgcc
actcaagagccacccgatgaagaaaaagagaccatcctggagctgtatccggtggatgac
tacatggatgcaaccagcctgggactcggggaaccagccctggtcgaaaaaccagaagaa
atggaagaaatcaagccaggagaaaatgagtgtagtgaagtgccggaagcatctattgct
gctgaaactctggtggatatggagcgagagcaggaggaaaagctcgtgccgtccccgatc
tgcgtgccagtgggggagcctgagccagacgctgcgccagagcccgaagcactcgagggt
ccaaagcctgaatctcaaggtgaagaagagagcgtctgtcccccgacaccagcgggagcg
tttggagagcccctgcccagcaagagcagcttcttcagcaagtccgacgacagtgatgta
gaagcgcgagttaaggtgagagtttcctctgcagcagaggaagaggacagactgcctcgg
actcctggacgggaggcgacggtccattcggatcctgatactcccatacttcccgctcat
aaggcgccaccctctacgcttcccctgccatccacgcccagcaaagaggatcctttgctc
cctccagagaggttcccagaacagctaactgtgaccaaaacacccctggaagaggatatc
cccaggacacccgggcgggacatttcagccaagtctccgcacatccttgcaaagtcgcag
agtactgacactattccagtcacccccggaagcgacggtccgctcacagggagcagcctg
gccttaagttccccccaggtcccagggagccccttttcctacccatcccagtctcctggg
atcaacagtggcattcctcgaactcccgggagggattttaacttcacacccacgttctcc
gagaccggtgctaccattccttgcctgttgtctggcaagaagccatccgaggatgagcta
gatgagaaacctttcaaagaacctcctagtgcttccttaatggtcagcgtgaacagtgtc
ccttcccccattccctttgccagccctcccaatgcagatttccacacagacctagagttg
ccacccgtcgaggtggtgccgggggcagctctgccatgcacgccagcagacgggaagata
tccagagaggacggcaaggcagaagtgaaatcggttttgctctcgccggaagcacctctc
attgctgctgctattcttcctccccctcctcctcctccttccgttctgccccccaaaagg
aaaccgggtcggccgaaacgatcgcccccctctgtcctttcgctggatgcctattctggc
agacccgtggatcctcctcctgtcccagtggccttgatggaaagtgccgtgagcaaagag
ctgctgggcggacatcccgatgctttttatgggttgaaagttcctgaagcagtcaccctg
gacttcaggaatgacggcttccacgagaaggtgcccccggaggccgtagccgagaaactc
ccgtttaaggaactggagaaccagtggaacgaggatttcaaagaagaagagcttcacgcg
aaacctaaaagacagtggcgaaggcagaagaagacacctgaggacatcccacttattcct
tccccggagtattccccaccccggcctgtcttcaggccccgctccgagtttgaggagatg
accattttgtacgatatttggaacgggggaatagacgaagaagacatcaagttcatgtgc
atcacgtacgaccgcttgttgcagcaagataatggtatggactggctcaacgataccctg
tgggtataccaccctcctaccagcttttccaccccgaagaagaagaagcgggacgatggg
atgcgggagcacgttaccggctgtgcacgaagcgaaggctattacaaaatcgataagaag
gacaaacttaaatacctcaacaacagccgcgcgttcgcagaggagccgccagctgatacg
cagggaatgagcatccctgctcagcctcatgcttccacccgggctggctccgagaggagg
tcggagcagcgcaggcttctctcgtctttcaccgggagctgtgacagcgacctactcaaa
tttaaccagctcaagttccggaagaaaaaactaaaattctgcaagagccacattcacgac
tggggactttttgctatggagcccatcgcagccgatgagatggtgattgaatacgtgggc
cagaacatcagacaggtcattgctgacatgcgagagaaacgatatgaagatgaaggcatt
gggagcagctacatgttcagggtcgaccatgacaccatcatcgatgccacaaaatgtgga
aactttgccaggtttattaatcacagctgcaatccaaattgctacgctaaagtcatcacc
gtggagtcccagaagaagattgtcatctactcgaagcagcacatcaacgtgaacgaggaa
attacctacgactacaagtttccgatcgaggacgtaaaaatcccatgtttgtgtggctct
gagaactgcagagggaccctgaactag

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Ontology (3)   
   KEGG BRITE (3)   
Pathway (2)   
   KEGG PATHWAY (2)   
Chemical substance (6)   
   KEGG COMPOUND (6)   
Chemical reaction (4)   
   KEGG ENZYME (1)   
   KEGG REACTION (3)   
Genome (1)   
   KEGG GENOME (1)   
Gene (81)   
   KEGG ORTHOLOGY (1)   
   RefGene (77)   
   NCBI-PROTEINID (1)   
   NCBI-Gene (1)   
   OC (1)   
Protein sequence (5)   
   UniProt (1)   
   RefSeq(pep) (4)   
DNA sequence (4)   
   RefSeq(nuc) (4)   
Protein domain (4)   
   Pfam (4)   
All databases (110)   

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