Entry
Name
(GenBank) hypothetical protein
KO
Organism
mfp Mycoplasmopsis fermentans PG18
Brite
KEGG Orthology (KO) [BR:mfp00001 ]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03032 DNA replication proteins [BR:mfp03032 ]
MBIO_0166
03036 Chromosome and associated proteins [BR:mfp03036 ]
MBIO_0166
09183 Protein families: signaling and cellular processes
02048 Prokaryotic defense system [BR:mfp02048 ]
MBIO_0166
Enzymes [BR:mfp01000 ]
5. Isomerases
5.6 Isomerases altering macromolecular conformation
5.6.2 Enzymes altering nucleic acid conformation
5.6.2.2 DNA topoisomerase (ATP-hydrolysing)
MBIO_0166
DNA replication proteins [BR:mfp03032 ]
Prokaryotic type
DNA Topoisomerases
MBIO_0166
Chromosome and associated proteins [BR:mfp03036 ]
Prokaryotic type
Chromosome partitioning proteins
Other chromosome partitioning proteins
MBIO_0166
Prokaryotic defense system [BR:mfp02048 ]
Toxin-antitoxin system (TA system)
Type II TA system
Type II TA system related factors
MBIO_0166
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
172168..174741
Genome browser
AA seq
857 aa AA seq DB search
MMNKNQENKLNDLLSKIIKENLDTIMADRFSRYSKYIIQQRALPDVRDGLKPVQRRILYS
MYELGLQWNKPFKKSARVVGDVIGKYHPHGDSSIYEAMVRMAQDWKMGHTLLEMHGNVGS
IDDDPAAAMRYTEVRLAALADLVIGDLKKNTVKFAPNFDDSEKEPVVLPSLIPNLLLNGA
KGIASGFATEMPPHNLNEILDASIAKIKNPDIQLSKLFKYVKGPDFPTGGVVYGQQGIYE
AFERGRGRITLVSRYRTFEDKKNKFIEINEIPYGVIKSKLVHDIDLIIAKESVSGLLEIK
DQSDRNGISILITLDKKANEEVILNYLLQKTEMQIYYTYNNVAIKNNSPQTLGLNDLLNC
YLDHVRDVKRKTLEFDLVKYKARLEIVLGFLKVAEITDEVIAVIRKSENSKAGVIQNLMN
HFGFTLNQATAIAELRLYKLSKTDKEAFLLEKEELEKQIKHVEMLLNDKEAFDQYLIETL
QEIKKQFGRPRRTTITEEAFKVSYNEADLVKEEETYIGVTKHGYLKRMSNKVVNSNDFLT
YGIKEGDKIICFEKSNTINNLLLFTNLGNYAMVPIYKIEESKWKDFGVHLSDFVELVSGE
ELVGAINVTDFNIQNYVCLFTKEAQGKRVVLKEFEVSRPNKTFTAMKLRKGDELVGAKLS
NGYKDVLLITKRGMASLYTENDVQIYGTKSNGTKSCYMPPMDSIVAFAMVEAHETLAMLA
NETYVKRIHVSNITKSGKKNLGKPIFAQLKTKPYIVTDAYPMTVDDYIFVTNDENQVLLE
RIVEYPITSINEGFSKIKINNSAALSFKKNETSSSSKPVEIKFEQPAPTEEAKFEKSEET
IEVLSKRVEELLKKFGK
NT seq
2574 nt NT seq +upstream nt +downstream nt
attatgaataaaaatcaagaaaacaaattaaatgatttattaagcaagattattaaagaa
aatcttgatactataatggctgaccgttttagtcgttattcaaaatatattattcaacaa
cgtgctttacctgatgttagagatggacttaaacctgttcaaagaagaattctttattct
atgtatgaattaggtttgcaatgaaataaaccttttaaaaaatctgctcgtgttgttggt
gatgttattggtaaatatcacccacatggtgatagttcaatttatgaagctatggttcgt
atggctcaagattgaaaaatgggacatacacttttagaaatgcatgggaatgttggatct
attgatgatgaccctgcagctgcaatgcgttatactgaagttagattagctgctttagct
gacttagttattggtgacttaaagaaaaatacagttaagtttgctcctaactttgatgat
agtgaaaaagagccagttgttttaccttcacttattccaaatttattattaaatggggct
aaaggtatagcttcaggttttgctactgaaatgccaccgcacaacttaaatgaaatatta
gatgcctcaattgcaaaaattaaaaaccctgatattcagctttcaaaattatttaaatat
gtaaagggacccgattttccaacaggtggtgttgtctatggacaacaaggaatttatgaa
gcttttgaaagaggaagaggaagaattactcttgtttcaagatatagaacttttgaagac
aaaaaaaataaatttatcgaaattaatgaaattccttatggtgttattaaatcaaaatta
gttcatgatattgatttaattattgctaaagaaagtgttagtggtctacttgaaattaag
gatcaatcagaccgaaatggaattagcattcttatcactttagataaaaaagccaatgaa
gaagttattttaaattacttgcttcaaaaaactgaaatgcaaatttactatacctataat
aatgtggctattaaaaataattcaccacaaactttaggtttaaatgatttattaaattgc
tatcttgatcacgttcgtgatgtcaaaagaaaaacactcgaatttgatttagttaaatat
aaagctagattagaaattgttttaggttttcttaaagttgcagaaattactgatgaagta
atcgcagttattagaaaaagtgaaaactcaaaagctggtgttattcaaaacttaatgaac
cactttggttttaccttgaatcaagcaacagctattgctgaattaagactttacaaactt
tccaaaactgataaagaagctttcttattagaaaaagaagaattagaaaaacaaatcaaa
catgtcgaaatgttactaaatgataaagaagcttttgatcaatacttaattgaaacattg
caagaaattaaaaaacaatttggccgtccaagaagaacaactattactgaagaagcattt
aaagtaagttacaatgaagctgacttagttaaagaagaagaaacttatattggagttaca
aaacatggctacttaaaaagaatgagcaacaaagttgtgaactcaaatgacttcttaact
tatggaattaaagaaggcgacaaaattatttgttttgaaaaaagcaacacaattaacaat
ttattgcttttcacaaatttaggtaattatgcaatggtacctatttataaaatagaagaa
agcaaatgaaaagattttggagttcacttaagtgactttgttgaattagtttcaggtgaa
gaattagttggcgcaattaatgtcactgactttaacatacaaaactatgtttgcttattt
actaaagaagctcaaggaaaaagagttgttttaaaagaatttgaagttagtcgtccaaac
aaaacttttacagctatgaaacttagaaaaggtgatgaattagttggagctaaactttca
aatggatataaagatgttttattaattaccaaacgtggtatggcttctttatatactgaa
aatgatgttcaaatttatggtaccaaatcaaatggaactaagagttgttatatgccacca
atggattcaattgttgcttttgcaatggttgaagctcatgaaactttagcaatgttagct
aatgaaacttatgttaaaagaattcatgtaagcaacatcactaaatcaggcaaaaagaat
ttaggtaaaccaatttttgctcaacttaaaacaaaaccttatattgttacagatgcctat
ccaatgacagttgatgattacatttttgtaacaaatgatgaaaaccaagttttactcgaa
agaattgttgaatatcctattacttctattaatgaaggattttcaaaaattaagatcaat
aattcagctgcattatcatttaaaaagaatgaaacttcttcatcttctaaacctgtagaa
atcaaatttgaacaaccagctcctactgaagaagctaagtttgaaaaatcagaagaaaca
attgaagtactttcaaaaagagttgaagaactcttgaaaaaatttggcaaataa