Raphanus sativus (radish): 130496982
Help
Entry
130496982 CDS
T06014
Name
(RefSeq) probable rRNA-processing protein EBP2 homolog
KO
K14823
rRNA-processing protein EBP2
Organism
rsz
Raphanus sativus (radish)
Brite
KEGG Orthology (KO) [BR:
rsz00001
]
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03009 Ribosome biogenesis [BR:
rsz03009
]
130496982
Ribosome biogenesis [BR:
rsz03009
]
Eukaryotic type
Pre-60S particles
Other pre-60S particles
130496982
BRITE hierarchy
SSDB
Ortholog
Paralog
Gene cluster
GFIT
Motif
Pfam:
Ebp2
Motif
Other DBs
NCBI-GeneID:
130496982
NCBI-ProteinID:
XP_056845732
UniProt:
A0A9W3C2M8
LinkDB
All DBs
Position
6:complement(8021050..8022498)
Genome browser
AA seq
298 aa
AA seq
DB search
MSFEEDDFMEENEMNMIDEDEPASDSEAESLSDSDEEITEKLAEPTKTAVYNRDGLLDKL
QDISWPEDIDWTHKLTVEIEQGQQAAVDVNDDLAREMAFYTQALEGTREAFEKLQEMGLP
FLRPGDYYAEMVKSDTHMEKVKSKLLYEKRQMEEAEERRKARDNKKMAKEVQSQKMKERA
KQKKDEIESVKKWRKQRQQSGFSEKGAGELDLEFGNGKSFQRGGGGGKKRPGVSPGDRSG
GKGKTASRMNNKKREFRDSKFGHGGRKGLSKQNTAETTNDFKGGFRGGKAGGNKRQKR
NT seq
897 nt
NT seq
+upstream
nt +downstream
nt
atgtcatttgaagaagatgattttatggaagagaatgagatgaacatgattgatgaagac
gaaccagcatccgactctgaagctgaatctctttcagattcagatgaagagatcactgag
aagttagccgagccgacaaagactgctgtctacaacagagatggccttctcgacaagctc
caagacattagctggccagaagatattgactggactcacaagctcaccgtcgagatcgag
caaggacaacaagccgccgtcgacgtaaacgacgacctcgctagagagatggctttctac
actcaagctttggaaggaacgagggaggccttcgagaagctccaggagatggggctgcct
tttttaagaccgggggattactacgcggagatggtgaagtcggacacgcacatggagaag
gtgaagtctaagcttctttacgagaagagacagatggaggaggctgaagagaggaggaaa
gctagggataacaagaagatggctaaggaggttcagtctcagaagatgaaggagagggct
aagcagaagaaggatgagattgagtctgtcaagaagtggaggaaacagaggcagcagagt
gggtttagtgagaaaggtgctggagagcttgatcttgagtttgggaatgggaagagtttt
cagagaggtggtggtggtggtaagaagagacctggtgtgtctcctggtgataggtcagga
gggaaagggaagaccgcttcgaggatgaataataagaagagggagtttagggactccaag
tttggtcatggtgggaggaaagggttgagcaagcagaacactgcagagactactaatgat
ttcaaaggcgggtttcgtggtggcaaagctggtggaaacaagagacagaagagatga
DBGET
integrated database retrieval system