KEGG   Typha angustifolia (narrow-leaf cattail): 140774277
Entry
140774277         CDS       T11061                                 
Name
(RefSeq) ribonuclease 1-like
  KO
K01166  ribonuclease T2 [EC:4.6.1.19]
Organism
tang  Typha angustifolia (narrow-leaf cattail)
Brite
KEGG Orthology (KO) [BR:tang00001]
 09180 Brite Hierarchies
  09182 Protein families: genetic information processing
   03016 Transfer RNA biogenesis [BR:tang03016]
    140774277
Enzymes [BR:tang01000]
 4. Lyases
  4.6  Phosphorus-oxygen lyases
   4.6.1  Phosphorus-oxygen lyases (only sub-subclass identified to date)
    4.6.1.19  ribonuclease T2
     140774277
Transfer RNA biogenesis [BR:tang03016]
 Eukaryotic type
  3'processing and CCA adding factors
   3'processing factors
    140774277
 Prokaryotic type
    140774277
SSDB
Motif
Pfam: Ribonuclease_T2
Other DBs
NCBI-GeneID: 140774277
NCBI-ProteinID: XP_072973301
LinkDB
Position
13:complement(join(812142..812597,813498..813653,813744..813851))
AA seq 239 aa
MKTHSSLCFLLLALHLLIVLVSSSAKDFDFFYFVQQWPGSYCDTKRSCCYPVTGKPAADF
GIHGLWPNYNDGSYPSNCDPDSPFDSRKIKDLMPQMQENWPTLACPSGDGLKFWAHEWDK
HGTCSESVLDQHSYFETALNLQKKVNILTALLDAGIEPDGRFYSLTRIKNAIKSATGITP
GIECNRDESGNTQLFEIYLCVDSSGQEIIECPVYPRSRCTSRVEFPSFEGLSAGDVTEM
NT seq 720 nt   +upstreamnt  +downstreamnt
atgaagacccattcctccctttgtttcctcctcttagctcttcaccttttgatagtttta
gtttcatcctctgcaaaagatttcgatttcttctactttgttcagcagtggccaggctct
tactgtgacactaaacggagctgctgctacccagtcaccggaaagccagctgcagatttt
ggcatccatggcctctggccaaactacaatgatggatcatacccatcaaactgtgatcct
gatagcccttttgattcaaggaagatcaaggaccttatgccacagatgcaagaaaactgg
ccaaccttagcctgccccagcggcgacggcttaaagttctgggctcatgaatgggacaag
catggcacctgctccgagtctgttcttgatcaacattcctactttgagacagcccttaac
ctgcagaagaaagtgaacatacttactgccctcctggacgctggaatcgaaccagatggt
agattctatagcctgaccagaatcaagaacgctataaagtcagccactggcattacccca
ggcatagagtgcaacagagatgaatctggcaacacccaactgtttgagatctacctctgc
gtcgacagctctggacaggagatcatcgaatgccctgtttaccccaggagcaggtgcaca
tctcgggtcgagttcccatccttcgaaggtctttcagctggtgatgtaactgagatgtga

DBGET integrated database retrieval system