Entry
Name
(RefSeq) serine/threonine-protein phosphatase 4 regulatory subunit 3 isoform X1
KO
K17491 protein phosphatase 4 regulatory subunit 3
Organism
nvi Nasonia vitripennis (jewel wasp)
Brite
KEGG Orthology (KO) [BR:nvi00001 ]
09180 Brite Hierarchies
09181 Protein families: metabolism
01009 Protein phosphatases and associated proteins [BR:nvi01009 ]
100116286
09182 Protein families: genetic information processing
03400 DNA repair and recombination proteins [BR:nvi03400 ]
100116286
Protein phosphatases and associated proteins [BR:nvi01009 ]
Protein serine/threonine phosphatases
Phosphoprotein phosphatases (PPPs)
Protein phosphatase-4
Regulatory subunits
100116286
DNA repair and recombination proteins [BR:nvi03400 ]
Eukaryotic type
DSBR (double strand breaks repair)
HR (homologous recombination)
Protein phosphatase 4
100116286
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
4:complement(14800482..14809893)
Genome browser
AA seq
843 aa AA seq DB search
MTDTRRRVKLYALNADRQWDDRGTGHVSSSYIDRLKGTSLLVRAESDGTILLESKIQPDT
AYQKQQDTLIVWSESDNYDLALSFQEKAGCDEIWEKICQVQGKDPSVEITQDIVEESEDE
RFDDMSDSAPPIELPACELGRLEDINELIGNCLSSPMRKEKLAMALESEGYIRKLLNLFH
TCEDLGNMEGLHHLYDIFKNIFLLNKNALFEVMFSDDTIFDVVGCLEYEPTLPQPKKHRQ
YLQQLAKFKQAIPITNAELLAKIHQTYRVQYIQDVVLPTPSVFEDNMLSTLSSFIFFNKV
EIVTLIQDDEKFLTELFRQLTDENTPDSKRRDLVLFLKEFCNFSQNLQPQGKEAFYKTLT
ALGILPALEITLSINDAQTKTASIDILNYIVEYSPSVIRDYTLQQINNTEQDQMLVNVIV
TQLINDIDHELGGAVQLAGILRLLLDPENMMASVNKSEKADFLNYFYKNSIGTLIAPLLA
NTIGDRPVREDYRTVQLLGLILELLSFCVEHHTYHIKNCILNKDLLRKILVLMKSTHTFL
VLCALRFMRKIIALKDEFYNRYIIKGNLFAPVFDAFTRNNGRYNLLDSAILEMFEFIKLE
DIKSLCSHVVENFSKELEAIDYVQTFKALKLRYEQHQDKLKDRDRGALDSVPSILRNSRY
RRDQRQLDEEEEMWFNEEEDFDEGEAVVPAATADLVPPTSAKKQPSSPNSVAGSGIVDNP
NKDGSSPPHQQQHSPPQQQQQTILNNNTSNSNVSAVVAAAVTTTTVTTQQQINSGVSSTI
SGTNDLPVVSVTAEAMNSSATISAVDKTGSNIFKKGLVDYEGDSDEEDEESELSPTPKRQ
RLS
NT seq
2532 nt NT seq +upstream nt +downstream nt
atgacagacacacgcagaagagttaagttgtatgcgttaaatgcagacagacagtgggac
gatcgtggaacggggcatgtgtcctcgtcttacatcgataggctcaagggaacatcactg
ttagtcagggccgagagtgatggaactatcttgctagagagcaaaattcagcctgacact
gcctatcaaaaacaacaggatactttgattgtttggtcagaaagtgataattacgattta
gctctaagttttcaagaaaaagccggatgcgatgaaatatgggagaaaatatgtcaggtc
caaggcaaagatccctctgtggaaatcacccaggatattgtcgaagaatcggaagacgag
cgattcgacgacatgtcggactccgcgccacccatcgaactgcccgcctgcgaactcggt
cgcctcgaagatataaacgagctcataggaaactgcctttcttctcctatgcgaaaagaa
aagttggcaatggccttggaatcagagggttacattagaaaattactgaatctatttcat
acctgtgaagacttaggaaacatggagggactgcatcatttgtacgatatttttaagaat
atctttctcctaaataagaatgccctgttcgaagtaatgttcagtgatgacacgattttt
gacgtggtcggctgcctcgaatacgaaccaacgttgcctcagcccaagaagcatcggcag
tacctgcaacagttggccaagttcaagcaggcgatccccatcacgaatgccgagctatta
gccaagatccatcagacttaccgagtccagtacatccaagatgtcgtgctgccgacgccg
agtgtcttcgaggataacatgctcagcacgctaagtagctttatcttcttcaacaaggtc
gagatcgtcactctcatacaggacgatgaaaagttcctcacagagctgttccgccagctt
accgacgagaacacacctgacagcaagaggcgcgatctcgtgctcttccttaaggaattc
tgcaatttctcccagaacttacagccccagggtaaagaggctttttacaagactcttacg
gcgctgggcatcttgcctgccctggaaatcacacttagcattaatgacgcacagacgaaa
accgctagcatagatattttgaactacattgttgagtactcgccgagcgtcatcagagac
tacacattgcagcagatcaacaacacagaacaggatcagatgctcgttaacgtcatcgtc
acccaacttatcaacgatatcgatcacgaattaggtggcgcggtacaacttgctggcatc
ctacgtctgctgcttgatccggaaaacatgatggcctcagttaacaaatcggagaaggca
gacttcctcaattacttctataaaaacagcattggcacgttaatcgcgcctctcctagcc
aacactatcggtgacaggccggtacgtgaagactataggacggttcagctgctaggcttg
attctcgaactactgtcgttttgtgtcgagcatcacacctatcacatcaaaaactgcatt
ttgaacaaggacctcctgcggaaaatactcgtgctgatgaagtcgacacacacgttcctt
gttctctgtgcgcttaggttcatgcgcaagatcattgcactgaaggacgagttctacaac
cgatacattatcaagggaaacctctttgcacccgtgttcgacgctttcacccgtaacaat
ggccgctacaatctcctcgattctgctattctcgagatgttcgagtttatcaaactggag
gacatcaaatctctttgttcgcacgtcgtggaaaacttttcgaaagagctggaggcgatc
gactatgtacaaacgtttaaggccctaaaactgaggtatgagcagcatcaagacaagtta
aaagatcgtgataggggagcccttgacagcgtaccgtcgatactccggaatagccggtat
cgccgggatcagcgccaacttgacgaagaggaggagatgtggtttaacgaagaggaagac
tttgatgagggcgaggccgtcgtaccagcagctacagctgacctcgtgcctcctacttcg
gcgaaaaagcagccgagctcacccaactctgtcgcgggtagcggcattgtcgataaccca
aataaagacggtagcagtccgccgcaccagcaacagcactcgccgcctcagcaacaacag
cagaccattctcaataacaacacatccaacagcaacgtgtcggcagtagtagcagccgcg
gtcacaacgacgacggtcacgacgcaacagcagatcaatagcggtgtaagcagtacaatc
tcggggacgaatgacctacccgtggtcagcgttaccgcggaagcaatgaactccagcgcg
accatcagtgccgttgacaaaactggatctaacatttttaagaagggattggttgattat
gaaggtgattcggatgaagaagacgaagagtcagaactgagtccaacgcctaaacggcaa
cgactctcatag