Salmonella enterica subsp. enterica serovar Newport USMARC-S3124.1: SN31241_33370
Help
Entry
SN31241_33370 CDS
T02779
Name
(GenBank) Ribosomal small subunit pseudouridine synthase A
KO
K06183
16S rRNA pseudouridine516 synthase [EC:
5.4.99.19
]
Organism
senn
Salmonella enterica subsp. enterica serovar Newport USMARC-S3124.1
Brite
KEGG Orthology (KO) [BR:
senn00001
]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03009 Ribosome biogenesis [BR:
senn03009
]
SN31241_33370
Enzymes [BR:
senn01000
]
5. Isomerases
5.4 Intramolecular transferases
5.4.99 Transferring other groups
5.4.99.19 16S rRNA pseudouridine516 synthase
SN31241_33370
Ribosome biogenesis [BR:
senn03009
]
Prokaryotic type
rRNA modification factors
16S rRNA modification factors
SN31241_33370
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
PseudoU_synth_2
S4
Motif
Other DBs
NCBI-ProteinID:
AGS30309
LinkDB
All DBs
Position
complement(3360521..3361216)
Genome browser
AA seq
231 aa
AA seq
DB search
MRLDKFIAQQLGVSRAIAGREIRGNRVTVDGDIIKNAAFKLLPEHAVAYDGNPLAQQHGP
RYFMLNKPQGYVCSTDDPDHPTVLYFLDEPVAYKLHAAGRLDIDTTGLVLMTDDGQWSHR
ITSPRHHCEKTYLVTLESPVADDTAAQFAKGVQLHNEKDLTKPATLEVITPVQVRLTISE
GRYHQVKRMFAAVGNRVVELHRERIGAITLDENLAPGEYRPLTEEEIASVG
NT seq
696 nt
NT seq
+upstream
nt +downstream
nt
atgcgacttgataaatttatcgctcagcagcttggcgtcagccgcgctattgccgggcgt
gaaattcgtggtaaccgcgttaccgtcgatggcgacatcattaaaaatgcggccttcaaa
ctgctcccggaacatgcggttgcgtatgacggcaatcccttagcgcagcaacacgggcca
cgctattttatgcttaacaagccgcagggatacgtttgttcaaccgatgatcccgatcat
ccaacggtactgtatttcctggatgagccggtggcgtataagctgcatgccgcaggacgt
ctggatatcgatactaccggtctggtgttaatgacagatgacggtcagtggtcgcaccgc
attacgtcgccgcgccatcactgtgaaaaaacctatctggtgaccctggagtcgccggtg
gccgacgatacggcagcgcaatttgcgaaaggcgtgcagttgcataatgaaaaagatctc
actaaacccgctacgctggaggtgataacacctgtgcaggtccgtctgaccatcagcgaa
ggccgttatcatcaggtgaagcggatgtttgccgcagtaggcaatcgcgttgtggaactg
caccgcgaacggattggcgccattacgctggatgagaatctggctcccggcgagtaccgc
ccgttgactgaagaagaaatcgccagcgtcggctaa
DBGET
integrated database retrieval system