KEGG   Bacillus sp. JS: MY9_1089
Entry
MY9_1089          CDS       T02027                                 
Name
(GenBank) 3'-5' exoribonuclease
  KO
K03698  3'-5' exoribonuclease [EC:3.1.-.-]
Organism
bjs  Bacillus sp. JS
Brite
KEGG Orthology (KO) [BR:bjs00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03019 Messenger RNA biogenesis [BR:bjs03019]
    MY9_1089
Messenger RNA biogenesis [BR:bjs03019]
 Prokaryotic type
  Bacterial mRNA degradation factors
   RNA degradosome components
    Ribonucreases
     MY9_1089
SSDB
Motif
Pfam: HD tRNA_anti-codon Myo5a
Other DBs
NCBI-ProteinID: AFI27628
LinkDB
Position
1123367..1124311
AA seq 314 aa
MAKGIMLHEVGEQVDQYLLIKSSTKGIASNGKPFLTLMLQDQSGDIEAKLWDAKQSDEVT
YAPQTIVKVVGDVHHYRGRTQLKLRNIRPVSENENVNIDDFLETAPIPKNEMMDTITQYI
FEMKNPNIQRITRFLVKKHEAEFMDYPAATKNHHEFVSGLAYHVVSMLNLAKAIADLYPS
LDRDLLYAGVILHDLGKVKELSGPVSTSYTVEGNLLGHISIMVTELSKAAEELQIDSEEV
LILQHLILSHHGKAEWGSPKPPMVKEAEILHYIDNLDAKMNMMDRALERVKPGEYTERVF
ALENRSFYKPTFHK
NT seq 945 nt   +upstreamnt  +downstreamnt
atggctaaagggattatgctacatgaggttggcgaacaggtggaccagtatctattgatt
aaatcctcgacgaaagggattgcaagcaatggaaaaccgtttttgacgctgatgctgcaa
gaccagtcaggcgatattgaagcaaagctgtgggatgccaagcaaagtgatgaagtgacc
tatgcgccgcagacgattgtcaaggttgtcggcgatgttcaccattaccgcggacgcacc
cagctgaagctaagaaatatcagaccagtaagcgaaaatgaaaacgtcaatattgatgat
tttctagaaactgcaccgattccgaaaaatgaaatgatggataccatcactcaatatata
tttgaaatgaaaaatccgaatatccagcgaatcacaaggtttttagtgaaaaaacatgaa
gctgaatttatggattatccggcggctacgaaaaatcaccacgagtttgtctcaggtttg
gcgtatcatgttgtctctatgctgaacttggcaaaagcaatagcagatttatatccgtct
cttgatcgtgatctgctttatgccggtgttattctgcatgatcttggaaaagtgaaggag
ctgtccggccctgtttccacttcatacacggttgaaggcaatttgctcggccatatttcg
attatggtgacagagctttcaaaagcggctgaggagcttcaaatcgattctgaagaggtg
ttaattcttcagcacttgattttgagtcaccatggcaaagcggaatggggcagtccgaaa
ccgccgatggtgaaagaagcggaaattcttcactatatagacaacctggatgcaaaaatg
aatatgatggacagagcgcttgagcgagtgaagccgggcgagtatactgaacgtgtattt
gcgctggaaaaccgttccttttataaaccgacatttcataaataa

DBGET integrated database retrieval system