Solidesulfovibrio magneticus: DMR_09210
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Entry
DMR_09210 CDS
T00917
Name
(GenBank) putative two-component hybrid sensor and regulator
KO
K13924
two-component system, chemotaxis family, CheB/CheR fusion protein [EC:
2.1.1.80
3.1.1.61
]
Organism
dma
Solidesulfovibrio magneticus
Pathway
dma02020
Two-component system
dma02030
Bacterial chemotaxis
Brite
KEGG Orthology (KO) [BR:
dma00001
]
09130 Environmental Information Processing
09132 Signal transduction
02020 Two-component system
DMR_09210
09140 Cellular Processes
09142 Cell motility
02030 Bacterial chemotaxis
DMR_09210
09180 Brite Hierarchies
09183 Protein families: signaling and cellular processes
02022 Two-component system [BR:
dma02022
]
DMR_09210
02035 Bacterial motility proteins [BR:
dma02035
]
DMR_09210
Enzymes [BR:
dma01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.1 Methyltransferases
2.1.1.80 protein-glutamate O-methyltransferase
DMR_09210
3. Hydrolases
3.1 Acting on ester bonds
3.1.1 Carboxylic-ester hydrolases
3.1.1.61 protein-glutamate methylesterase
DMR_09210
Two-component system [BR:
dma02022
]
CheA family
CheA-CheYBV (chemotaxis)
DMR_09210
Bacterial motility proteins [BR:
dma02035
]
Flagellar system
Chemotaxis proteins
Two component system proteins
DMR_09210
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PAS_4
CheR
CheB_methylest
PAS_9
PAS_3
PAS
Response_reg
PAS_10
HATPase_c
PAS_8
HisKA
PAS_7
CheR_N
Lebercilin
ATG16
COG6_N
Occludin_ELL
Mod_r
Fez1
ATG14
HATPase_c_2
Motif
Other DBs
NCBI-ProteinID:
BAH74412
NITE:
DMR_09210
UniProt:
C4XK57
LinkDB
All DBs
Position
complement(1040856..1046933)
Genome browser
AA seq
2025 aa
AA seq
DB search
MAVKPFNLEYFGISSMDEGYKNESVRPSEPSGPPGESCHPPLPFPVVAICASAGGIQSLH
TLLNSMPALPHAALIVLMHLARDKASHLSEVLKDFTMLPVREIRQAMPVEAGTLYVLPPG
KALTIEHGVLILQELHDRNIFDRFLGSLAADQGCNAMAVILSGAGSDGARGAMQVAKADG
LVLVQDPSTAMHPDMPESAIATGIADKVLTLEELGTSLSRLHADTDASKETGADRLSKVF
DLLCQETGQDLSGYRPSTISRRIQKLRLLGGYNDLNAYLDVLERSAEERRKLFDSLFIGV
TSFFRDPEAFDSLWDKVFPEIVVGRAEGEALRVWVAGCSTGEEAYSVAMLLDEFLEDRRL
NLSVKIFATDIDANAVETARKGCYPEKALQGLSPTRLERHLIKGDEHCAVRPLLRERIVF
VRHNLLQDPPFVRIDLAVCRNLLIYLTPPLQEKALALLAGCLNPGGFLFLGSAETPKAES
LGLEPVDRKWRIFRSKPDADGAGVHRLARLQSIRLTMPAKAPGHAAAGKPAAEVVADIFK
RLYSPPAVLVNPSFKVMHINGDVRPFLALNAGEPSLLLPQLARQDLRRHLRSALLQAAET
LTPAVVSELRLPDEPAMLLNLRVEPVRNAAGRLESLLTIFESSPLPAQQDGRPGLACLGE
SELVQRYEDELFQAQELVGTVTEEYERLNEELRASNEELTSMNEELQSTNEEMDASREEL
QSLNEELAVKVEELAQAHAFVENLLRGAALPMIFLDNRLRILRFTPTATQVFHLAQADQG
RPLAEVKSQVQDETALAQAESTLTTGKETEAEVMHRDGRIFLKRVFPFFGPQGDTEGVVM
TYTDITKLKDAEEVLRRSNETLEGQVAARTRELEVARQEAERRAVELEAIMDQAPAAVWI
TRDTEARTIIGNQASYHVLRMAPGSNVSKTLEGVPYRALRNGYELPLQELPMQRATRGEH
VIGQEVDLVFADGQSRTIFGNAAPLRNFLGEIYGAVGVFLDITQLKSAQAEALRWQQLFE
RSEFGLVIVRVRDNTFLAVNPSFARERGYEAEELVGQPLFMLYPEAALPGLREHIAHADA
TGHELFEAMHMRKDGSTFPVLVEITVLMDDEGRPQTRLAYCLDITRRKVVEQQLHRALAA
AKAGTWEWNLSTNENVWSPETYRLYELDPDRHPASYDSWLLSVHPDDRDRAAHDVAEMAR
QEAPLAVEYRLNTHDGRERWLLSLGELQRDMHGTGTAYLGLVLDITERKRLERELHENEG
RYRSLFESMNEGLCLLEMVRDPDGQPVDYRVLDVNPAYGRILGVAPDQAVGRLVREIFNL
KQAPNLDVYVPLLETRQPATFESMLPELGKHFRVSAFALQGERFVAMFQDVTALWEARQA
EERSALRFRELFGFSPLPMGYMDQHGRILDLNRRFTELFGYTLEDIPTLDDWREKAYPDP
AYRREVIAQWDAALDNRRADTREIPSAEYRVTCKDGRIRDVLITGMTTEHGLLACFVDIT
ERKRFETHLAEREEQLRLFVEHAPAAIAMFDRDMTYLAVSRRWIDDYKLDERAVLGRSHY
EIFPEIPQRWKRIHQQCLAGAIERADSDPFVRLDGNTQFVSWEIRPWLTPEGAIGGIVCF
SEDVTLRKQAETAMLEAKNAAEAANRAKSEFLANMSHEIRTPLNGLLGMLQLLHSTTLDA
EQEEYAQMAIRAGNRLTRLLSDILDLSRIEAGRLPIVAAPFRLANVVQALRETFAPFCKE
KRLQLVFETEAALPEWLVGDELRIRQILFNLVGNALKFSTNGDVLVTMSRLPGVAAKHAR
ILFTVADNGIGIPDDKLDSVCEPFIQAEGSYTRSQQGAGLGLTITKRLVDLMHGTMALES
EAGVGTTAYVTLPVGLLSQSDLADSGAQDESGTPAVPCHVLLVEDDSISQRSIQRLLEKA
GYHVTVAGDGSQALEILRRAKFDCVLMDVQMPVLDGVTATKRIRSDVSGAVDRTIPIVAL
TAFAMSGDQDIFLKAGMDGYLSKPVSLEKMKQAIDQALAVHADKQ
NT seq
6078 nt
NT seq
+upstream
nt +downstream
nt
atggcggtaaaaccattcaacttggaatatttcgggatatcctcaatggacgaaggctat
aaaaatgagtctgtccgtccctccgagccgtcgggacctcctggagaatcgtgccatcct
cccctgccgtttccggtggtggccatatgcgcttccgccggcggcatacagtcgctgcac
acgctgctcaacagcatgcccgcgcttccccacgccgccctgatcgttctcatgcacctg
gccagggacaaggccagccatttgtctgaagtgctcaaggatttcaccatgcttcccgtt
cgggagatacgacaggccatgccggtcgaggccggaacgctttatgtcctgccgcccggc
aaggccctgaccatcgagcatggggtgctcatcctgcaagaactccatgaccgcaacatt
ttcgaccgattcctgggcagcctggccgccgatcaaggctgcaacgccatggccgtcatc
ctctcgggcgcgggttccgacggcgcgcggggagccatgcaggtcgccaaggccgacggc
ctcgtcctggtgcaggatccgtccacggccatgcacccggacatgccggaaagcgccatc
gccacggggatcgccgacaaggtgctgaccctggaggagctcggaacaagcctctcgcgg
ctgcacgccgacaccgacgccagcaaagagaccggcgccgaccgactaagcaaggtgttc
gacctgctgtgccaggaaaccggccaggacctttccggttatcgcccaagcaccatctcc
cggcgcatccagaaactgcgattgcttggcggatacaacgacctcaatgcctatctcgac
gttttggagcgcagcgccgaggaacggcgcaagctctttgattccctcttcatcggcgtg
acctccttctttcgcgaccccgaggcctttgacagcctttgggacaaggtcttcccggaa
attgtcgttggacgggccgagggcgaagccttgcgggtttgggtggcgggctgctccaca
ggggaggaagcctactccgtggccatgttgctggacgaattcctggaggatcgccgcctc
aatctgagcgtcaaaattttcgccacggacatcgacgccaacgccgtggaaaccgcccgc
aagggctgttatccggaaaaggccctgcaagggctctccccgactcgcctcgaacgccac
ctcatcaagggcgacgagcactgcgcagtgcggcccttgctacgcgagcgcatcgtcttt
gttcgccacaacctcttgcaagacccgccgtttgtccgcatcgacctggccgtttgccgc
aacctgctgatctatctcaccccgcccctccaggagaaggccctggccttgctcgccggt
tgtctcaatcccgggggttttttgttcctgggttcggccgagacgcccaaagccgagtcc
cttggcctggagccggtggatcgcaaatggcgcatcttccggtccaagccggatgcggac
ggggccggcgtccaccggctcgccaggttgcagagcatacgcctgacgatgcccgccaag
gccccgggccatgccgccgccggcaaaccggcggctgaggtggtcgccgatattttcaag
cgcctctacagcccgccggccgtgctggtgaacccgtccttcaaggttatgcacatcaac
ggagacgtgcgcccctttctggccctcaacgccggcgaacccagcctccttctgccccag
ttggcccgtcaggatctccgccgccacttgcgctcggccttgctgcaagccgccgaaacg
ctgacgcctgccgtggtttcggagcttcgcctgccagacgagccggccatgctgctcaac
ctgcgcgtggaacccgtgcgcaacgccgcggggcggctggaatccttgctgacgatcttc
gaaagcagccctctgccggcccaacaggacggccgcccgggtctggcctgccttggcgaa
tccgaactggtgcagcgatacgaggacgaattgttccaggcccaggaactcgtgggcacg
gtgacggaggaatacgagaggctcaatgaggaacttcgcgcctccaacgaagaactcacc
agcatgaacgaggagctgcaatcgaccaacgaggagatggacgcctcccgggaggaactc
caatccttgaacgaagagcttgccgtcaaggtggaagaactcgcccaggcccatgccttc
gtggaaaacctcctgcgcggcgccgccctgccgatgatctttctcgacaatcgcctgcgt
atcctgcgcttcacgcccacagccacccaggtgttccatctggcccaggccgaccagggg
cgtcccctggccgaagtcaaatcccaggtccaggacgagaccgccctggcccaggccgag
agcaccctgaccacgggcaaggaaaccgaagccgaggtcatgcaccgcgacggccgcatc
ttcctcaaacgcgtgtttccgttctttggtccccagggcgacaccgaaggcgtggtcatg
acctatacggacattaccaagctcaaggacgccgaggaggtgctgcgccgcagcaacgaa
accctggaagggcaagtcgcggcccgcacccgggaactggaggtcgcccgccaggaagcg
gagcggcgggccgtggaactggaagccatcatggaccaggccccggccgccgtctggatc
accagggacaccgaggcccgcaccatcatcggcaaccaggccagctatcatgtgctgcgc
atggccccgggcagcaacgtgagcaaaacccttgaaggcgtgccctaccgggccctgcgc
aacggctacgagctgccgctccaagagctgcccatgcagcgcgccacccggggcgagcat
gtcatcggccaggaggtcgacctggttttcgctgacggccaatccaggaccatcttcggc
aacgccgcaccgctgcgcaatttcctgggcgagatatacggggcggtcggcgtgttcctg
gacatcacccagctgaagtccgcccaggccgaggccctgcgctggcaacagcttttcgag
cgctccgaattcgggttggtcatcgtcagggtccgggacaacacctttttggccgtcaat
ccctccttcgcccgggaacggggctacgaagccgaggaactcgtcggccagccgcttttt
atgctctatcccgaggcagcgctccccggcctgcgggaacatatcgcccatgccgacgcc
accgggcacgaactgttcgaagccatgcatatgcgcaaggacggctccacgttcccggtc
ctggtcgagatcaccgtgcttatggatgacgaagggcggccgcagacacgccttgcctac
tgcctggacatcacccggcgcaaggttgtcgagcaacaactgcatcgggccctcgccgcg
gccaaggccggaacctgggaatggaacctgtccaccaacgagaacgtctggtcgccggaa
acctaccggctctatgaactggacccggacaggcacccggcttcgtacgactcctggctc
ttgtccgtgcatcccgacgaccgggaccgggccgcccacgacgtcgcggagatggcccgc
caggaagccccgctggccgtggagtaccggctcaacacccacgacggccgggagcgctgg
ctgttgtcccttggcgaactgcaacgcgacatgcacggcacgggcacggcatacctgggc
cttgtcctggacatcacggagcgtaagcgcctggagcgggagctccatgaaaacgaagga
cgctaccgctcgcttttcgagtccatgaacgaagggctgtgcctgctggaaatggtccgc
gacccggacgggcaacccgtggactaccgcgtcctcgacgtgaatccggcctatgggcgc
atccttggcgtcgcacccgaccaggccgtcggacggcttgtccgggagatctttaatctc
aagcaggctcccaatctggacgtctatgtcccgcttttggaaacgcgccaaccggcgacc
ttcgaatccatgctcccggaactgggcaagcactttcgcgtctcggcctttgcgctgcag
ggtgaacgcttcgtggcgatgttccaggatgtgaccgcgctgtgggaagcgcggcaggcc
gaggaacgcagcgccttgcgtttccgggaactgttcggtttctctccgctccccatgggt
tacatggaccagcacgggcgcatcctcgacctcaacaggcgcttcacggaactgttcggc
tataccctcgaggacattcccaccctggacgactggcgggagaaggcctaccccgatccg
gcctaccgtcgcgaggtcatcgcccagtgggacgccgccctggacaaccgccgcgccgac
acccgcgaaatccccagcgccgagtaccgcgtcacctgcaaggacggccggatccgcgac
gtgctcatcacgggcatgaccaccgagcacggcctgctggcctgtttcgtggacatcacc
gaacgcaaacgtttcgaaacgcacctcgccgaacgcgaggaacaactccggcttttcgtg
gaacacgcgccggcggccatcgccatgttcgaccgcgacatgacctacctcgccgtcagc
cgacgctggatcgacgactacaaactggacgagcgcgctgtcctcggccggtcgcactac
gagattttcccagaaataccgcagcgctggaagcggattcaccagcagtgcctggccgga
gccatcgagcgggccgacagcgaccccttcgtgcgcctggacggcaacacgcagttcgtc
tcctgggaaatccgtccctggctgactcctgagggagccatcggcggcattgtctgcttc
agcgaggacgtcaccctgcgcaaacaggccgaaacggccatgctggaggccaaaaacgcc
gccgaagccgccaaccgggccaaaagcgaattcctggccaacatgagccacgaaatccgg
acccccctcaacggcctcctgggcatgctccagctcctgcactccacgaccctcgacgcg
gagcaggaagaatacgcccagatggccattcgcgccggaaaccgtctgacccggcttctg
tccgacattctggatctttcccgcatcgaagcgggccgtctgcccatcgtggccgcgccg
tttcggctggcaaacgtcgttcaggccttgcgggagacgtttgcgccattttgcaaggaa
aagcgcctgcaactggtcttcgaaaccgaagcggccttgccggaatggctggtcggcgac
gagttgcgcatccgccagatcctgttcaatctggtcggcaacgccctgaagttttcaacg
aacggcgatgtgctggtgaccatgtccagactccccggcgttgcggcaaagcacgcccgc
atcctctttaccgtcgccgataacggcatcggcattcccgacgacaagctcgattcggtc
tgcgaaccattcatacaggccgaaggctcctacacgcgctcccagcagggagccggcctc
ggcctgaccatcaccaaacgcctcgtcgacctgatgcacggcaccatggccctggaaagc
gaggccggggtcggcacaaccgcctacgtcacgctgcccgtgggcctgttgtcgcaatcg
gatctcgcggactccggcgctcaggacgagtccggaacgcctgccgtgccgtgccacgtg
cttttggtggaagacgacagcatcagccaacgcagcatccaacgtcttctggagaaggcc
ggataccacgtcaccgttgccggcgacgggagccaggcgctggagatcctgcgccgggca
aaatttgactgcgtgctcatggacgtgcagatgccggtgctcgatggcgtcaccgccaca
aaacgcatccgcagcgacgtcagcggcgcggtggatcgcaccattcccatcgtggcgctc
acagcctttgccatgagcggcgatcaagacatttttttgaaggccggcatggacggctat
ctctcgaaacccgtcagcctggaaaaaatgaaacaagccatcgaccaagctcttgctgta
cacgccgacaagcaatga
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integrated database retrieval system