Silkworm Genome Informatics Database

Gene

KWMTBOMO13228 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA009970

Annotation

putative_adaptor_protein_enigma_[Operophtera_brumata]

Location

Bomo_Chr22(+):10865865-10890910 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.803

CDS

ATGGCACAGTTAATAACTGTGCGGCTTAACAAATCAGATCATCAACCCTTGGGCTTCAGGCTGCAAGGAGGCAAGGACTTCGGCACCCCACTAGTCGTTCAAAAGGTGAATGGCGGCAGTGCGGCAGAGCGGGCTGGCTTGCAGGCCGGCGACGCTCTGATTCGCGTCAACAACACAGACGTGTTCACCCTGCGTCACCAAGACGCGCAGGACACCATCCGCGCTGCTGGTGCTAATTTAGAACTAACCGTTCAACGCGGGGGAGGTACATGGCGTCCATCAGTGACCCCGACCGGCAGCTTGCCGAGACCCGGCTCTCGTCCTCTGGGAGGTACTCCGACTCCGGTGACGAACACATCCTTGAAGGCGAACCCACAACCGTCGCGCAATTTCGGCTCCGGGCACAACAATGTCGCTAAGCCTTTCGGTTATATGAACGGTAACGACACCGTCAAGAGTGTCGTGAACAAACAATACAACACTCCTGTCAATATATACAGCGACAAGACAATTGCGGAGACCCTGTCGGCCCAAACCGAAGTACTGGCTGGTGGAGTACTCGGAGTTAATTTCAAGAAGAATGAGAAGACGTACGATGCTGAAAAAAGCGCTGTTTTCAAAGTACTTCAGGAGGAGCAAAACGACCCTGAACCAGAAGTGTCGACTCCGACCACCGGCTCAGTGCCCCCGGTGAGCGGACTCCGGCACGTGCAGGCGCCCGTCACGCGACCCGACGCGCCCGTCAACAACACGGGCGGCCTGCCTCCCGGACAGAACATTTGCGAGGAGTGCGAACGATTAATTACGGGAGTGTTTGTGCGCATCAAGGACAAGAATCTTCACGTGGAATGCTTCAAGTGTTCGACTTGCGGGAGCTCTTTGAAGAATCAGGGCTATTACAACATAAACGGTAAACTGTACTGCGACATCCACGCCAAGCTGGTCGCACGTCAGAATCCACCAGCGCCGAACTTGGACCCTGTAACCGTGCCACCCGGTGGCCGAGTTCCTACCAACACATACTCTACGCCTTTGCCGCCACTGTCTACCAATAACTACAGCAATGGATCGTCTTCGCTGTTCAGCCCTTCAAGCAACCTGTCTGGCCCGAAGCCGTTCGGGTCGTCGGTGGGGTCCGCGTACTCTCCGTCGCTGTCCCCCCGCTCGGCGCCGCTGTCCCCGCGCGGCCCCTCACCGCGCCCGCCCCGCCCCCCGCCGCACCCTTCGCCCCCAGCCCAGATTGTTCAAGAAACAACTAGTTGTGCTATACAATCCTTTTCACAGGAATCCTCTTGTGTGAGCCAAAACCTTGTGTATCAAACATCTACAGGTTCTCAACAACCTCCTAAGATTTATGAAAGCAACGAAAATATTCAAAAAGCTGAAATGTCTGTCAGTAAAGAAACCAGTGCAATGGCAATAAAATCGTCAAATGATCAAAATATAAATCTTTGTCAAGTGAAAGATGCACTTTTCAAGCCGAACGCAGAAAACTCTGTAAATCAAACTTCTAATACTCAAGAAGACCAGAAAATGTTTCTTAATGAAGATAATTTGTTAAAAACCGTGTCAAACCAATTTATCCATGAAAAACAAATCGCTGAAAAATATAATAGTAATACTGAAGTTATGAATTCAACAAGAAATGAAACTGGTTCGTTTGTTGAGACACAGAATCCTATGCAGATCTCGTCAAGTGATAAAAACAGACAATTACAAGAAACTGTTAAGGAAACTATGACAGAAGCATTGACCATCGCACCGAACAGGCCTTACTCGCCATTGCCTGTACCTCAGCCACTAAACGTAAAAACAGAACTTTATCATCAGGAAAAAAATGAACATCTATCAAATAAAACAATTCAGTACACATCGGTTCAACAAAATCAGAATCTTCCGAATCAACCATCTCCTATATTTACTCAACAACCCAAACGTGCTATTACACCCATTCCACCTATTAAAACATATAATCCACCTGAGAAGGTTGAAACACCAATTGCGATGCCTCCCGAAACCACCCCATATATTCCTGAAGATTTCAAAATAACCGTGGAACCGAGAGTAGAGCGTGAGGCAACATCTTCTCCATTTGTGGAAGCCTTAACTACTGCTCCTGAACGTCCGTACACACCTGTTAATATAAATGCTGCATCTATTGAAAGAGGTTCTCTAAGAGATGCCCTTACAATCGCTCCAGATCGACCCTATAGTCCTCTTCCCGTAAATATAGCAAATCAATTTAATCACACATCCACATCAAGTCTACACGTACAAACTGCAGCTTCTGAAATTGTCAAACCCGTTGCAACACAATCTTTCAATAATCAAGTAGTATCAGATCAAATGAACACTGAACTTTCGAATATGCAAAATACATATAATTTACAATCTTCGTCGGAGATGTCGGCATTTAAGCCTGTCAGCAAGCAAATTTTGATGCCTCCCCAAACACAAGACACTTCTCACTATTCTAATGTAATATCAGAAAGAAACATACACGAAACAACAATGTCTGAATCAACAATAATGCAACAATCAGCTTTTAAAACTAGCAGTGGGTTTTCTTCTGTAAAATCTGCACAAAATTACTTTGAACATCTAGATAAAAAAGAAACACTGTCATCGTCGGCAGTGAGGTCTATATCTGGTTTACATAAACCAGATAACATACCGTTATATCAAAAGAATTTTGAAAAACTTCCATCTCAAAGAGGTATATCACCAGATATGTACAAAGAAAAGCCAGTTTTGCAAAGGCCAGTAACACCATCAACTGATCCACCAAATAAGCAAAGAGATAAATCTAAGGAGCCTAAAGATTCATCTCAGAAGTATCCAGAAGTTTCCACTGCTAAGATTCCACAAAACCAAACACCTATATATCAAATACAACCACAGACCCCACTGCAGTTCCACAAAGATACTCCTATTACTATGACATTTCAACCTGTTACTGATGATAATTTCATGAGAAATTCACCTATTCGCAGTCGGCCTTCAACACCAAGTTTGATTAATAAACCGGCACCAATTATTCCTCACTATCAAATGAATTTGGTTACTGTAGAACATTTGGCACCAGAAAGTCATTTATATGATCCTTCTAGTCCTGAAGCAAGCCGCTCACCTACTCCTAAACCTAGGTCTCGATCTCCAGCACCAGGCCCTCCTCCAAATCCTTTAAAAGCTCAAGCACCTCGTATCAGAGAACCTGCACACTCGCATTCATTACTGACTCAAGCGACGGCAAATTTGCGAAAAGAACACGAATCTCAACAAAAACAAAGTCTTAATGTTGAATTCCAAGATAGATCTTGCGAAAAGAAGTTTGTGTCTGATCCATCGAGTATGATAAAAGAACAAACTCAATCAAATTTCGGGTACAAAAGTGAAAATTACGCAAAAGGAGACATTTCTATTAAAGAAGATTCAATGATGGCTCAAAATTTTGGACAACGGCAGATGCAGTCACAAAATGTTTCTGAATTCGGGCACACTACTGTTCAGACAACAAGAAAAACTTTTGAAGAATTCGAACGGACACAGTCAGCTAAGACGATTGAAATTCGTAAAGGGGGTTCATCTTTTGGCGATCAACAATTTTTAAACTCTAATATCCACCCCTCAGCAATAAACGCTAAACCTGTGTTTCCACCTCCCTCTATGACTTTACCTACCCAAGAAATGTTATCTGTCAATTCATCTAATTATCTTAATAACGAAAATAATGCAACTGCTAGTAGAAACACAGGCATTTATAAGCCAAAACCTTTGAATTCTGGTGCTAACCAAGGTCCAGTGTGTGATCCTACCCCGTCAACAGGTTCCAGTGTAGGAGCTGCCACACGTGGTAAAACTTTTGGGGTATCATCGGCACCAAAACGAGGAAGGGGAATATTGAATAAGCCTGCCCTGCCCGGCTCTCGTGTGCCACTTTGCGCATCTTGTAATGGAAACATTAGAGGTCCATTCATCACGGCTCTTGGACGCATATGGTGCCCCGAGCACTTCATCTGCGTGAATGCAACATGCAGACGTCCTCTGCAGGATATCGGATTCGTCGAAGAGAACGGACAGCTCTACTGTGAATTCTGTTTTGAGCAATACATAGCACCCGCCTGTGACAAATGTCATGCTAAAATTAAAGGCGACTGTTTAAACGCCATCGGTAAACACTTCCATCCAGAGTGCTTCAACTGCGTCTATTGCGGAAAGTTGTTCGGAAACAACCCGTTCTTCTTAGAAGACGGACTGCCATACTGCGAAGCAGATTGGAATGAGCTCTTTACAACAAAATGTTTCGCTTGCGGATTCCCCGTGGAGGCGGGCGACAGGTGGGTCGAGGCGCTCAACAATAACTACCACAGTCAGTGCTTCAACTGCACGGTGTGTAAAAAGAACCTTGAAGGACAGAGCTTCTTCGCCAAGGGAGGTCGGCCTTTCTGTAAAACACACGCCCGTTAA

Protein

MAQLITVRLNKSDHQPLGFRLQGGKDFGTPLVVQKVNGGSAAERAGLQAGDALIRVNNTDVFTLRHQDAQDTIRAAGANLELTVQRGGGTWRPSVTPTGSLPRPGSRPLGGTPTPVTNTSLKANPQPSRNFGSGHNNVAKPFGYMNGNDTVKSVVNKQYNTPVNIYSDKTIAETLSAQTEVLAGGVLGVNFKKNEKTYDAEKSAVFKVLQEEQNDPEPEVSTPTTGSVPPVSGLRHVQAPVTRPDAPVNNTGGLPPGQNICEECERLITGVFVRIKDKNLHVECFKCSTCGSSLKNQGYYNINGKLYCDIHAKLVARQNPPAPNLDPVTVPPGGRVPTNTYSTPLPPLSTNNYSNGSSSLFSPSSNLSGPKPFGSSVGSAYSPSLSPRSAPLSPRGPSPRPPRPPPHPSPPAQIVQETTSCAIQSFSQESSCVSQNLVYQTSTGSQQPPKIYESNENIQKAEMSVSKETSAMAIKSSNDQNINLCQVKDALFKPNAENSVNQTSNTQEDQKMFLNEDNLLKTVSNQFIHEKQIAEKYNSNTEVMNSTRNETGSFVETQNPMQISSSDKNRQLQETVKETMTEALTIAPNRPYSPLPVPQPLNVKTELYHQEKNEHLSNKTIQYTSVQQNQNLPNQPSPIFTQQPKRAITPIPPIKTYNPPEKVETPIAMPPETTPYIPEDFKITVEPRVEREATSSPFVEALTTAPERPYTPVNINAASIERGSLRDALTIAPDRPYSPLPVNIANQFNHTSTSSLHVQTAASEIVKPVATQSFNNQVVSDQMNTELSNMQNTYNLQSSSEMSAFKPVSKQILMPPQTQDTSHYSNVISERNIHETTMSESTIMQQSAFKTSSGFSSVKSAQNYFEHLDKKETLSSSAVRSISGLHKPDNIPLYQKNFEKLPSQRGISPDMYKEKPVLQRPVTPSTDPPNKQRDKSKEPKDSSQKYPEVSTAKIPQNQTPIYQIQPQTPLQFHKDTPITMTFQPVTDDNFMRNSPIRSRPSTPSLINKPAPIIPHYQMNLVTVEHLAPESHLYDPSSPEASRSPTPKPRSRSPAPGPPPNPLKAQAPRIREPAHSHSLLTQATANLRKEHESQQKQSLNVEFQDRSCEKKFVSDPSSMIKEQTQSNFGYKSENYAKGDISIKEDSMMAQNFGQRQMQSQNVSEFGHTTVQTTRKTFEEFERTQSAKTIEIRKGGSSFGDQQFLNSNIHPSAINAKPVFPPPSMTLPTQEMLSVNSSNYLNNENNATASRNTGIYKPKPLNSGANQGPVCDPTPSTGSSVGAATRGKTFGVSSAPKRGRGILNKPALPGSRVPLCASCNGNIRGPFITALGRIWCPEHFICVNATCRRPLQDIGFVEENGQLYCEFCFEQYIAPACDKCHAKIKGDCLNAIGKHFHPECFNCVYCGKLFGNNPFFLEDGLPYCEADWNELFTTKCFACGFPVEAGDRWVEALNNNYHSQCFNCTVCKKNLEGQSFFAKGGRPFCKTHAR

Uniprot

A0A3S2M6W1

EMBL

RSAL01000018 RVE52828.1

Proteomes

UP000283053

Pfam

PF00412 LIM

Interpro

IPR001781 Znf_LIM

ProteinModelPortal

A0A3S2M6W1

PDB

2DAR E-value=5.95714e-15, Score=202

KEGG

101742099 K19867 LIM domain-binding protein 3 | (RefSeq) PDZ and LIM domain protein Zasp

GO

GO:0016021 GO:0046872 GO:0008270 GO:0005515 GO:0051536 GO:0016491 GO:0016829 GO:0005737 GO:0048869 GO:0003676 GO:0015930

Length:

1488

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.00019

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00000

outside

1 - 1488

Pi

217.992617

Theta

197.913443

Tajima's D

-1.74138

CLR

1.895838

CSRT

0.0349982500874956

Interpretation

Possibly Positive selection

Source	Sequence	Identity	Evalue
28467696	CFACGFPVEAGDR	96.97	2e-20
28467696	HVPYPVK	96.77	2e-15
28467696	WVEAINNNYHSQCFNCTVCK	95.24	1e-09
28467696	IWCFGPEGTGPNIIVDCSK	100.00	1e-06
28467696	HFGPAPGAPR	100.00	5e-06
28467696	CEWPDEVADCDAEAFIGFR	100.00	5e-04
28556443	NQGYYNINGK	100.00	5e-04
28556443	AGLQAGDALIR	100.00	5e-04
28556443	VNNTDVFTLR	100.00	0.002
28556443	WVGGPEMELIAIATGGR	100.00	0.010

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics