KEGG   Alligator sinensis (Chinese alligator): 102378568Help
Entry
102378568         CDS       T02922                                 

Gene name
SETD1B
Definition
(RefSeq) histone-lysine N-methyltransferase SETD1B isoform X1
  KO
K11422  histone-lysine N-methyltransferase SETD1 [EC:2.1.1.43]
Organism
asn  Alligator sinensis (Chinese alligator)
Pathway
asn00310  Lysine degradation
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
    2.1.1.43  histone-lysine N-methyltransferase
     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)
BRITE hierarchy
SSDB OrthologParalogGFIT
Motif
Pfam: N-SET SET RRM_1 RRM_5
Motif
Other DBs
NCBI-GeneID: 102378568
NCBI-ProteinID: XP_006015257
UniProt: A0A1U7R0M6
LinkDB All DBs
Position
Unknown
AA seq 2008 aa AA seqDB search
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 NT seq  +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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