Cyprinodon tularosa (White Sands pupfish): 119785317
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Entry
119785317 CDS
T07496
Symbol
dnmt1
Name
(RefSeq) DNA (cytosine-5)-methyltransferase 1 isoform X1
KO
K00558
DNA (cytosine-5)-methyltransferase 1 [EC:
2.1.1.37
]
Organism
ctul
Cyprinodon tularosa (White Sands pupfish)
Pathway
ctul00270
Cysteine and methionine metabolism
ctul01100
Metabolic pathways
Module
ctul_M00035
Methionine degradation
Brite
KEGG Orthology (KO) [BR:
ctul00001
]
09100 Metabolism
09105 Amino acid metabolism
00270 Cysteine and methionine metabolism
119785317 (dnmt1)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03000 Transcription factors [BR:
ctul03000
]
119785317 (dnmt1)
03032 DNA replication proteins [BR:
ctul03032
]
119785317 (dnmt1)
03036 Chromosome and associated proteins [BR:
ctul03036
]
119785317 (dnmt1)
09183 Protein families: signaling and cellular processes
02048 Prokaryotic defense system [BR:
ctul02048
]
119785317 (dnmt1)
Enzymes [BR:
ctul01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.37 DNA (cytosine-5-)-methyltransferase
119785317 (dnmt1)
Transcription factors [BR:
ctul03000
]
Eukaryotic type
Zinc finger
CXXC CpG-binding proteins
119785317 (dnmt1)
DNA replication proteins [BR:
ctul03032
]
Eukaryotic type
DNA Replication Termination Factors
DNA methylation enzymes
119785317 (dnmt1)
Chromosome and associated proteins [BR:
ctul03036
]
Eukaryotic type
Heterochromatin formation proteins
Other heterochromatin formation proteins
119785317 (dnmt1)
Prokaryotic defense system [BR:
ctul02048
]
Restriction and modification system (R-M system)
Type II R-M system
DNA methyltransferases
119785317 (dnmt1)
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
DNA_methylase
BAH
DNMT1-RFD
DMAP_binding
zf-CXXC
Motif
Other DBs
NCBI-GeneID:
119785317
NCBI-ProteinID:
XP_038143823
LinkDB
All DBs
Position
Unknown
AA seq
1506 aa
AA seq
DB search
MPTKTSLSLPEDVKKRLLMLGEDGSTEEDQLKEKLRLVHDFLQDDAQDQLTRLEEKMKSS
EISKEVYISKVKVLLGKELHLENGSLVDGAEQNGKANGFANGSHKEDEDVNVATEQDETE
TKSPAAPKGKGGRRSKANSETKKSPSSTRVTRNSGKQPTIVSMFSKVQKRKSEDLSGEAV
NGTIEPKQEDDTEEIQEEKRLKVDSDEKPATEESKSKTTKTGLTAKTPPPKCPDCRQYLD
DPDLKLFQGDPDNALEEPEMLTHETLSLFESNEDGFESYDHLPQHRITNFSVYDKRGHLC
PFDSGLIEKNVELYFSCYVKPIYDDSPGLTNGVFARKLGPINAWWITGFDGGEKALIGFT
TSFADYILMDPSDEYAPIFALMQEKIYMSKIVVEFLQKNPDATYEDLLNKIETAVPPAGL
NFNCFTEDTLLRHAQFVVEQVESYDEAGDSDEQPIIVTPCMRDLIKLAGVTLGKSMQLYW
RAARRQAIRHPTKIEKDNKGPTKATTTKLVYQIFDAFFADQIEQNDKEGGAKRQRCGVCE
VCQSPDCGKCTACKDMIKFGGSGKSKQACKQRRCPNLAVKEAEDDENVEEEDAPPEKPKK
VLQTKKKRQTQSKLAWIGEPVETVGKRHYYKKVSLNDEVLEVGDCVSVSSEDPSIPLYLA
RITSLWEDNNGKMFHAHWFLRGIHTVLGESSDPLELVIVDDCEDMLLSYVQGKVNVMYKA
PSNNWSMEGGVDVDLKVIEDDGKSFFYQFWYDVEFARFETPPKIEQSEDCKFRFCGSCAC
IKQRDEQATPRAFEPLENENNDNKAQYALACFKGEQFRVGDGVYLPPEAFSFSVKPASPV
KRSHRKEDVDEDLYPEYYRKSSDYIKGSNLDAPEPFRVGRIKEIFCHRRSNGKADTADVK
LRLYKFYRPENTHRGVKASYHTDINQLYWSDEEVTVSMSEVLGRCQVEYAEDLNESVQDY
SSGAPDRFYFLEAYNAKSKSFEDPPNHARSCAHKGKGKGKGKGKGKGKASQESQEPCSEP
QAPKVQKYRTLDVFSGCGGLSEGFHQAGISETLWAIEMWEPAAQAFRLNNPGTTVFTEDC
NVLLKLVMSGEKTNSLGQKLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSY
LSYCDYYRPKFFLLENVRNFVSFKNSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRR
RAIILAAAPGEKLPRYPEPLHVFAPRACSLTVAVDEKKYVSNVTRGNGGIYRTITVRDTM
SDLPEIRNGASALEISYNGEPQSWFQRQIRGTQYQPILRDHICKDMSALVEARMRHIPLA
PGSDWRDLPNIEVRLKDGTMTKKLRYTHHDKKNGRSSTGALRGVCSCAAGKTCDSADRQF
NTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRE
CARSQGFPDTYRFFGNVLDKHRQVGNAVPPPLSRAIGLEIKKCVFERMKEEQATADIKQE
KMDVSD
NT seq
4521 nt
NT seq
+upstream
nt +downstream
nt
atgccaacaaaaacgtccttgtctttgcccgaagacgtaaagaagaggctgctgatgctg
ggtgaagatggatctacagaggaggatcagcttaaagaaaagctgcggttggtgcatgat
tttctacaggatgatgctcaagaccaactgacaagacttgaggaaaaaatgaagagctct
gaaatctcaaaggaggtttacatctccaaagtgaaggtgttgctgggtaaagagcttcat
cttgagaacggctctctcgtggacggcgctgagcagaacggaaaggcgaacggctttgca
aatggctcccataaagaggatgaagatgtaaatgtggcgacagaacaggatgaaactgaa
accaagtcgccagcagctcccaaagggaagggtggacgcaggagcaaggcaaactctgaa
actaaaaaatccccaagcagtactagagtaacaagaaacagcgggaaacaaccaaccatt
gtgtccatgttctccaaagttcaaaagcgcaaatcagaggatctgagtggagaagctgtt
aatggaacaattgaaccaaagcaggaagacgacactgaggagatccaggaggagaaacgc
ctcaaggtggattcggatgaaaaacctgctacagaggagtcgaaatccaaaacgactaaa
actggacttactgcaaagactccacctcctaaatgtcctgactgcaggcagtatctggat
gacccagatctgaagttgtttcaaggggatcccgataacgcgcttgaagagccagagatg
ttaactcacgagactctgtcactgtttgagtcaaatgaggatggatttgagagctacgac
catctgccgcagcaccgcatcactaacttcagcgtgtatgacaaacgcggccatctttgc
ccttttgactcggggctgattgagaagaacgtggagctttacttcagctgctatgtaaaa
cccatctatgatgacagcccaggcttaaccaatggtgtttttgccagaaagcttggaccc
atcaatgcctggtggataactggttttgatggaggggaaaaggctttaatcggtttcaca
acatcttttgctgactacatcctgatggaccccagcgacgagtacgcccccattttcgcc
ctgatgcaggagaagatctacatgagcaagattgtggttgaattcctccagaaaaatccg
gacgccacctatgaggacctcctcaacaagatcgagactgctgtcccacctgcaggactg
aactttaactgcttcactgaggacacgctgctgcgccatgcccagtttgtggtggagcag
gtggaaagctatgatgaggccggcgactctgatgagcagcccattattgttaccccctgc
atgagagatctgatcaaactggcaggagtcactctaggaaagagcatgcagctgtactgg
agagccgccagacgacaggccatccgccacccaaccaagatagagaaggacaacaaagga
ccgaccaaggccaccaccaccaagctggtctaccagattttcgatgccttctttgctgac
caaatcgagcagaatgataaagagggaggagccaaacggcagcgctgtggagtctgcgag
gtgtgccagtctcccgattgtggtaagtgcacagcctgcaaggacatgatcaagtttgga
ggaagtggcaaaagcaagcaagcttgtaagcagagaagatgtccaaaccttgctgtgaag
gaggctgaggatgatgagaatgttgaagaggaagatgctccaccagagaagcccaaaaag
gttctccaaacgaagaaaaagagacaaacccagtccaaacttgcatggatcggtgagcct
gtggagactgtgggaaagaggcactactacaagaaggtctctttgaatgatgaagtgctg
gaagtgggagactgtgtctctgtttcatcagaagatccatccattcctctgtatctagca
aggatcacgtctctatgggaggacaataatgggaagatgtttcatgcccattggttcctt
cgaggcatccacactgtgcttggagagtcctctgatccactggagctcgtcattgttgac
gattgtgaagacatgctgctcagctacgtccagggaaaagtcaacgtaatgtacaaagcg
ccatcaaacaactggtccatggagggcggggttgatgttgacctcaaggtgattgaagat
gatggaaagagtttcttctatcagttctggtacgatgtggagtttgcccgatttgagact
ccccccaagattgaacaatcagaagactgcaagttcagattctgcggcagctgcgcctgt
attaaacagcgagatgagcaggcaacacctcgagcatttgagcctctggagaatgagaac
aatgacaacaaggctcagtatgcattagcctgcttcaagggagaacaattcagggttgga
gacggcgtctacctgcctcctgaagccttcagctttagtgtgaaaccggccagtccagtg
aaacgctcccacaggaaggaggatgtggatgaagatctgtatcctgagtattacaggaaa
tcttcagactacattaagggctcaaacctggatgctccagagcctttccgtgttggccgc
atcaaagaaatcttctgtcatcgccgcagcaatgggaaagctgacacagcggacgtcaaa
ctgagactctacaagttctacaggcctgagaacacacacagaggtgtcaaagccagttac
cacacagacatcaatcagctctactggagtgatgaagaagtgacggtcagcatgtcggaa
gttctcggtcgctgtcaagtagagtacgcagaggacctgaatgaatctgtgcaggattac
tccagtggtgcaccggaccgcttttatttcctggaggcgtacaatgctaaatcaaagagc
tttgaagatcctcccaaccacgcacgctcttgtgctcataaaggaaaaggaaagggcaaa
ggaaaaggtaagggtaaaggtaaggcgtcacaagagtctcaggagccttgctcggagccc
caggcaccgaaagtacagaaatatcggactcttgatgtgttttctgggtgtggtggactt
tctgaaggcttccaccaggctggtatttctgagacgctctgggctattgagatgtgggag
ccagctgcacaggcgttccgccttaacaatcccggcaccacggtgttcactgaggactgt
aatgtcctcctgaaactggtcatgtctggagagaagactaattctctcggccaaaagctg
cctcagaagggcgatgtggaaatgctgtgtggtgggcctccctgccaaggtttcagtggg
atgaaccgcttcaattctcgcacttattccaaattcaaaaactcactcgtggtttcatat
cttagttactgtgactattatcgaccaaagttcttcttgctggaaaacgtgaggaacttt
gtatcattcaaaaactccatggtcctgaagctgactctgcgctgtctggtgcggatgggc
taccagtgtacgtttggagtcctgcaggccggtcagtacggtgttgctcagactcgccgc
agagctatcatcctggctgctgctccaggagagaagctgcctcgctaccctgaacccctg
catgtgtttgctcccagagcgtgctcgcttacagtggcagtggatgagaaaaaatatgtc
agcaatgtgacacgaggtaacggtggcatctatagaaccatcacagtcagggacaccatg
tctgatctgcctgagattcgtaatggtgcttctgccttggagatttcctacaacggagaa
cctcagtcttggttccagaggcagatcagaggcacacaatatcagcctattctcagagac
cacatctgcaaggacatgagtgcattagtggaggccaggatgcgtcacattcctctggct
ccaggctcagactggagagatctgcccaacattgaagtccggttaaaagatggcaccatg
acaaagaaactacgttacacgcaccatgataagaaaaatggccgcagcagcactggtgct
ctcagaggcgtctgctcctgcgctgcagggaaaacctgtgactctgccgacaggcagttt
aacaccctaatcccgtggtgtctgccccacaccgggaaccgccataaccactgggccggg
ctctatggcagattggagtgggacggcttcttcagtacaactgtaaccaaccctgaaccc
atgggcaagcagggccgcgttctgcaccccgagcagcacagagttgtcagtgtgagggag
tgtgctcgctctcagggtttccctgacacctaccgcttcttcggaaacgttctggacaaa
cacagacaggttggaaatgctgttcctcccccgctctctagagccatcgggctggagatc
aagaaatgcgtctttgaaaggatgaaggaggaacaggctacagcagacatcaaacaagaa
aaaatggacgtctctgattaa
DBGET
integrated database retrieval system