KEGG   Salvelinus fontinalis (brook trout): 129819535
Entry
129819535         CDS       T11136                                 
Name
(RefSeq) histone-lysine N-methyltransferase SETDB1-B-like
  KO
K11421  [histone H3]-N6,N6-dimethyl-lysine9 N-methyltransferase [EC:2.1.1.366]
Organism
sfon  Salvelinus fontinalis (brook trout)
Pathway
sfon00310  Lysine degradation
sfon01100  Metabolic pathways
Brite
KEGG Orthology (KO) [BR:sfon00001]
 09100 Metabolism
  09105 Amino acid metabolism
   00310 Lysine degradation
    129819535
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03036 Chromosome and associated proteins [BR:sfon03036]
    129819535
Enzymes [BR:sfon01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.1  Methyltransferases
    2.1.1.366  [histone H3]-N6,N6-dimethyl-lysine9 N-methyltransferase
     129819535
Chromosome and associated proteins [BR:sfon03036]
 Eukaryotic type
  Histone modification proteins
   HMTs (histone methyltransferases)
    HKMTs (histone lysine methyltransferases)
     129819535
  Heterochromatin formation proteins
   Other heterochromatin formation proteins
    129819535
SSDB
Motif
Pfam: Tudor_5 SET DUF5604 Pre-SET Tudor_4 MBD Tudor_3 DUF4537 Chromo_MORC2_6th
Other DBs
NCBI-GeneID: 129819535
NCBI-ProteinID: XP_055731851
LinkDB
Position
22:1966033..1984658
AA seq 1153 aa
MESGDDEMEMTVGELQGWIQEEVENQDLVKLRRTQLAQMQNLVQRKEKQALCTRTLFNTA
CESVVECETVMKALYSKLGMEYRDTDSEDEGVGQQSVIEIDDGDADRNDNTMATDGVAAS
DSAPGEVPATDSDTENYNDMADDMESMPSSPAVTTPFVTVTVAPNEASNSNDTPATPLAE
SESEPPSPQEDSGDEYTPSKSKKISSKRPESSKRGRPRKGERKRRESVRTKHQLVSYRED
SLPAPANPSVPSKPQKPRAGDCSASTKQQNSSKGSTASPPKLQEASKSGSTVPLKQQETR
KETSTPFVVTSVSQAPTHAPNPATQPPPGLTEEEIKTDMKVLARRRTKTWHSGKITEIKL
SESGSRYKVDFSEKGRSMLSGHHIAFDHTASLERLYVGVRVVAKFKDAEQSWFYSGILAE
LPNRKNRMRFLVFFDDGTPSYVGLPDLHIVCRPLPEVWEDIEDEANREFIKEYIKVYPNP
PMAQYRPGQPINVEFEGIQRRTEVEQIDCSLLCVLFKDDEHKEWVYRGSLRLEHMANMKK
RVEEAKDKPPVTRPNSGGAVSTTTTIHQTSTAAANKPHVSPSSTVIPAQVTSNNVSQGQP
AAGKQSASVGRPLGQDRTTDKESSVITAKGSVTFTPHRCCPACLNCIRSKVEAKHRGRNP
LLIPLLCEFRRMKGRHRINNKTYFHIFYRSPCGLSLSNMTAVQDYLQQTRCDFLFLDMFC
LDPFVSVTTTYQPRPYKINIPDLTLGRENQPLSCINELNSIRPLSVIYNKQRVAASGVSI
NTSSDFLMGCDCTDGCRDRSACSCHQLTIQATALLPAGPEDVNAGYTHKRLEKRLSTGIY
ECNALCRCDPRVCSNRVVQHGLQLRLQLFMTMGKSWGIRCLDDIAKGTFVCTYTGIIMNK
KSLSTEGNMYMVNLNHIEGAESKEGYESEARCSDNESGSEEPIEEDKSEHDDDCDGGGDE
EEGNHDKEPLRMKNSYDEEEEPSDYEDNYEDKDYDVSEDDGGSDDDFRHNVSSMERSYVT
RRHAKILQEDPATKSGSDAKSSDQQDGTAEGIDKEASNATRHFFDGEESCYVIDAKLEGN
VGRYLNHSCQPNLFAQNVFVDTHDLRFPWVAFFASKRIRAGTELAWDYKCELGVKRSSRV
LNCRCDPECREKL
NT seq 3462 nt   +upstreamnt  +downstreamnt
atggagagtggggatgatgagatggagatgaccgtgggggagcttcagggctggatacag
gaggaggtggagaatcaagacttggtgaaactcaggaggacccagctggcccagatgcag
aacctagtgcagcggaaggagaagcaggccctctgcacccgcacccttttcaacactgcc
tgcgagtctgtggtggagtgtgagaccgttatgaaggcgctgtacagcaaactgggcatg
gagtacagagacacagactctgaagatgaaggagtgggccagcaaagcgtcattgagatc
gatgatggggacgctgacagaaacgacaacaccatggccacagacggagttgctgcttcc
gattcggctcctggagaagtcccagctacagacagtgacacagaaaattacaatgacatg
gcagatgacatggagagcatgccatcctctccagctgtgaccaccccttttgtgactgta
actgttgccccaaatgaagcctcaaactctaatgataccccagcaaccccccttgctgaa
tcagagtctgaaccaccaagtccacaagaagacagcggcgatgagtatactccatcaaaa
tcaaaaaagatctcatcaaaacgtccagagtccagcaaacgtggacggccgagaaaaggg
gaaaggaagagaagagaatctgtccgaaccaagcatcaacttgtgtcttacagggaagac
tcgcttcctgccccagcaaatccttctgtgccatcgaaaccacaaaagcccagagcaggt
gactgctctgcgtcgacaaaacagcagaactcaagcaaaggtagcacagcttccccacca
aaattacaggaggccagcaaaagtggttccactgtcccattaaaacaacaagagaccaga
aaagaaacgtccactccatttgtggtgaccagcgtgtcgcaagctccgacccatgcgccg
aaccctgccactcagccgcctcccggcctcacagaggaggagatcaagactgatatgaag
gtcctggctaggaggaggaccaagacctggcactcaggcaagattacagaaatcaaacta
tcagagagtggaagcaggtataaggtggactttagcgagaaggggagaagcatgctgtca
ggacaccacatagcctttgaccacaccgcttcactggagcggctgtacgtgggcgtgcgc
gtggtggccaagttcaaggacgccgagcagtcctggttctactctggcattctggctgag
ctccccaaccgaaagaaccgcatgaggttcctggtcttttttgacgacggcacaccttcc
tatgtcggtttgccggatctccacattgtttgcagaccactgccggaggtgtgggaggac
atagaggatgaggccaacagggagttcatcaaggaatacatcaaggtgtatcccaacccg
cccatggcccagtatagaccgggacagcccatcaacgtggagtttgaggggatccagagg
aggacagaagtagagcagattgactgcagcttgttgtgcgtcctcttcaaggatgacgaa
cataaggaatgggtgtaccgaggctctttgcgtctggagcacatggccaacatgaagaaa
cgtgttgaggaggcaaaggataaaccaccagtgacacggcccaacagtgggggagcagtt
tcgactactactacaatccaccagactagcacggctgctgccaacaaacctcacgtcagc
ccctcatcaacagtaataccagcgcaggtcacttcaaacaatgtcagccagggccagcca
gctgctggtaaacagtcagcatccgtagggaggcccttgggccaggatcgtacgaccgac
aaggagtcgtctgtcatcacagctaaaggttcggtcaccttcaccccccaccgttgctgc
cccgcctgcctgaactgcatccggtcaaaggtcgaggctaagcaccgtggacgcaacccg
ctgctcatccccctgctctgcgagttccgccgcatgaagggccgccaccggatcaataac
aagacgtatttccacatattttaccggtcgccgtgtggcctcagcctgagcaacatgact
gctgtgcaggactaccttcaacagacacgctgtgacttcctcttcctggacatgttctgc
ctggacccctttgtgtctgtgaccaccacctaccagccccggccctacaagatcaacatc
ccagacctgacgctgggcagagagaaccagccactgtcctgcatcaacgagctcaacagc
atccggccactctcggtgatctacaacaagcagcgtgtcgcagccagtggggtctccatc
aacaccagctcagactttctgatgggctgcgactgcaccgacggctgcagggataggtcg
gcatgctcctgtcaccagctgaccatccaggccacagccctgttgccagcgggccctgag
gacgtcaacgctggctacacacacaagaggctggagaaacgcctctccacaggtatatat
gagtgcaacgcactgtgccgctgtgacccgcgggtgtgctctaaccgggtggttcagcat
ggccttcagctgcggctacagctcttcatgaccatggggaagagctggggaatccgctgc
ctggatgacattgccaagggcaccttcgtctgcacctacactgggataatcatgaacaag
aagagtttgagcacagagggcaacatgtacatggtcaacctgaaccacatagaaggagct
gagagcaaggagggttacgagagtgaggcccgctgctccgacaatgagtcaggttcagaa
gagcccatagaagaagacaaaagtgaacatgatgatgactgtgatggtggtggtgatgag
gaagagggaaaccacgacaaagagccgctacgtatgaagaactcgtatgatgaagaagaa
gaacccagtgactatgaggacaattatgaggacaaggattatgatgtcagtgaagatgat
ggcggctctgatgatgacttcaggcacaacgtctcctctatggagaggagctacgtcacc
cgcaggcatgccaaaatactacaggaggacccagcgacgaaatcgggctctgacgccaaa
tcttctgaccagcaggacggtacagcagagggaattgacaaggaggcctcaaacgccact
aggcatttctttgatggggaggagtcatgctacgtcatcgatgcaaagctagaagggaat
gtgggtcgttacctcaatcatagctgccaaccaaacctgtttgcgcagaatgtttttgtg
gacacacatgaccttcgatttccctgggtggcgttctttgccagcaagcgcattagagct
ggtacagagctggcgtgggattataaatgtgagcttggtgtgaaaaggtcgtcaagagtc
cttaattgtcgctgtgatccagagtgcagggaaaagttatga

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