Gene
KWMTBOMO02920
Pre Gene Modal
BGIBMGA003639
Annotation
hypothetical_protein_KGM_02398_[Danaus_plexippus]
Location in the cell
Cytoplasmic Reliability : 1.266 Nuclear Reliability : 1.268
Sequence
CDS
ATGAACGCGAGCGTAAAGAAGAAGGATGGCAAACAAATATTGGAATCGTCTCTACGTTCAGTTAGTACAATGCTTACAAGGAAAATTAACGCTGTCAAGTGCATTCACGAAACAGCGATACAAATAGCAAGGAACTTCAATTATGTTAAAAATGCATCGGAAATACAGGATTTTACATATTGTTCGGCTAAATACTCGAATTTCACATACGAGATACCAGGAGACAAGCCCGTTTCAGATGAAAAATCTAAACCGAAGTTCACAAAAAACAATCCACACTACACTACAGTATCTCTAGTGAGGGATTCGCATTTTTATGATATTAACGTCAATACGAACCACAGCTGTGTGCACGTTCCGACAAATATATTTTATTTAGAGAATAACGTCTTTAATGCAATAGAATGGTCAAAAGAACTGAATCAGGTATTTACAAAAAACTATCAGTCGGATCCGTCTCTGTCGTGGCAGTACTTCGGTAGCTCTCACGGAGTTTTAAGGTTTTACCCCGGTATGCCTTGGAATACAAAGGAAGTAGATACGTACGATTGCAGAGTTATGTCTTGGTATATTGAAGCCGCCACTTGTTCCAAGGACGTCATCATCCTGTTCGACATATCTGGTTCAATGACCGGATTCAAGAATTACGTGGCAAGAAGAACTTTGCGGTCCTTATTGGACACTTTGTCGAACAATGACTATGTTAATGTTTATAAGTTTAACGATACGGTAACCGAAGTTGTGAAATGCTTTAAAGGATTGGTTCAGGCCACTCCCGAGAATCTTAAAACTATTACCGCAACTTTAGAGCCTTTTGTCGACGCGGAAGGACACTTGAAACCTAATGTACCTTTAGCAGGAAACGCCAATTTAACGGCCGCATTCGTGAAAGCTTTCGACACTTTAAAAGAGAGAAGAAAACAATGCAATGTGAGCAGTACACAGGGCTGTAATCAGTTGATTATGGTGATAACAGACTACGTCGCCGGGAATCTTAGTGACGTGTTCGAAAAATACAACAGAGTTGTCGTCAACGGAAAAACGTATACTCCGGTCAGGGTATTCACTTACCTCATCGGAAAAGAAGTTACAAATGTACCAGAAATAGAATGGATGGCTTGCTCTAACAGAGGTTATTTTGTACACATACATTCTGTAGAAGAAGTACAGCAGCAAGTGTTGAAGTACATCAACGTGATCGCCCTTCCCATGATCCTAGTGGCAGAGAAGCCACCTCCAACGTGGACCCACGCCAATATAGATTACACGAGGACCGCGAAATGGGATGTCAGCGGTGATATCGATAAGCCGGGTGAGGACAAATTAGTGACTTCAGTGGCCATCCCAGCTTTTGATTTCAAAAAAGACGATAACAGCAGTAATGCGAGACTGCTAGGCGTTGCAGGAACTGATGTCCCCATCGATAGCATAGCCAAATTGGCTCAACCACATCAGTTGGGAGTTAATGGTTATTCTTTTATTGTGAGTAATAATGGATATTTGCTTCTACACCCTTTGCTCATAACATCGATAAATGGAAATATGCAAGACAATTACAATAGCGTAGATTTCGTCGAAGTGGAACAAGTAGATGACGGTAAAGGTTCACGCGAACTAGGGGAACAAATTAAGAAATTACGTGCAAGTCTGGTCGATGGAGAAGATGGCTACATGAAGGAAGTTAAAGTTCTGTATCATTATGATAACATGAGGCGTATAGCGCGCGTCGAACACGATTATTTCTTTAATCGACTTGTGGGAACTCCGTTTTCTATGGGTATTTCTTTGCCTAAGGGATACGGAGACACGGAGCTTTTGCTTAAGGATAATCCTCTTGAGGCCAAACAAGGAAAGGCACTCACCGGAATAAATGTAACAGATTATTTCAAATTTAGCTACAGAGTTCATCCCGATTGGGTCTACTGCAAGTATCACTATTTGGAAGGCCACGAATCGGAGAATGTGGAGTTGGAAGTCTGGAAATTCCTTGTGAGGATATCCCACAACGATCTGAATATTACAGAAGAACAGTACATGCAAGAAACTGCGAAAGAAGTTCCCTGGTCCATTGAAACGCACTGTGGCAACGCGACCCGGGAGTTAGGAGTCGATGACTACTATTGTAACGAGGATCTAGTCAAACAACTCGTTTTTGATGCTAAGTTAACGACTCCTTACTTCGAAAATTGGGATGCGACCAATGAAGAAATTAATTTAGCTAAAAAATACAATGTTAGCGTCCGTTTCATAGCTACAGCCAGTGGACTGACTAGATGGCATTATATAAATGATAAAACAAAAAACGAAAAGGTCAATGACACTGGTTATCGGCATAAGGAGTACAAGGGGAAAGTATTCGGCGATATTTATTTCAACGCTATCGAGGAAAACTGGTACAAAGCGGCAGTACTCCAGCACATGATCAACAAGGAGTCCCTAGTTATATCGACCCCGCTACCCATATTGGACGACATCATACAAAACAAGCCTCCGGTACAGAATGAGGACGGAGACATCACAGTGACTTCTACCTACGCAATTTTTTATAAAGACGGCGAATCCGAGACTCCGGCTTCGGTTGTTGGATTCGAATATTCATATTTGAGTTTCTATGATCGGTTCATGGAAATAACGAACGTCAGCTGGAGTGGCAGTAGGGAAGTAACATGTAGCGGTGAAGATTACGATTGTTATCTCATCGATAGCTCAGGGTACATAGTTCTGTCCAAAGACAAGGAAGAAGTCGGCCAATTCTTCGGGATCGTCAACAAATACGTCTTACAATCATTTCTGGATCAGAATATATTTCAACACGTTGAAGTTTTCGACTATCAAGCTTTGTGTCCAATAGACATATTGCCGGAGAAGAATAATTCATGGTCGCTGGTGAATACATTCACCTTAGTCGGGAATATCCTGCGATGGTTGCTCGTGGAAACACTTTTCTTGCTATCGAACGTTTACAACTGGAAGGAATATTACGTTTACGGCGAGGTTATGGAAATTTATGAAACAACGGAAGAGCCCACCACCACTGCAATCCCACCATTGAATAACGGATCGGAGGCTGCGAAGGAACCAGAAGAAAATCCATTCTCGTGTGACCACATAATAAAGCTGTTCATATTGAATCAGACATATTTCTCGGAGGCAATGGGCGCTTCGCCCGTCGTTTACAAGGACGAACCGGGGGAGTGCCACCCGGCGTATTGGGCTTCGTTAGTGAAGAAAACAAATTTACTACTTGTCGTTGTGAAAACTGAAAACAGACGTTATCCGGATACGTGCAAGGAGCCACCGAATACGAAACCACGTCCGACCAGCGAGTCCACCGCCAGCCGCGAGCCCTGTCATAAGTTGGATTTAGGCGCCCTGCACAGACGACGTCTTGAAGATTGCTTCACATACCATGATGAGGAACGGCACATCATGGCGTGCGATCACGCGAACATTCTGGCAACTGACTCAATTGTTTTGGGTATATTAGCTTCAATAGCTATTCTGTCATACAAAACGAACTGTTCGGCTAGCATTCAATATGATGCCCCTGGCAAGATATCGTTCAACTCGGTGCAGGCGTGGGCAGTCAAACTTGGTACAGAATTATATCATTTTGGTGAGTTTATTACTCGGAAGAAAGAAGTTCAGGATAGTTTTAAGTCCGCGCAAATTGAAGTGCGGGATGGAGAAAAATTAGTACAAAATATGGCGGACGATATTCGAGCCATGATGGAGCTCAAAATTAGTGCCGTTAAAAGGATCGTAGAAGCGGCTGAGAACATGGCGTTCGATAAACAAAATGAACCTGTACCGGAAGATTTTCAATTTTACAATAGCAAAGAAATGGACGAACCTTACGATGATGTATCGTTGACGACCACACCAGAACCGGAATTCAATGTTGATAATTGGATTGTTCGACCGCCAACGAAAAGTGCTCATCTACAAGCGAATCCCCACTTTTCAAACATACCTGTGAACGCCAATTTTAGTAGCGTTCATGTTCCTACCAATGTTTATGCTTGGGCGCCGGAAGTAATAAAAGGAATACATTGGTCCGAAGGCTTAGATACGCACTTTATCAATAATTATCAAAGTGATCCGACACTCTCTTGGCAGTACTTCGGCAGTTCAACAGGATTCATGAGGCATTACCCTGCAATGAAATGGCGGGCTGATCCTGTTGATATATACGATTGTCGTACAAGAGCTTGGTACATGGAAGCGGCAGCCAGTCCAAAGGATGTAGTAATTTTGGTCGATCGCAGCGGGTCAATGACTGGACAAAGACGGGATATAGCTAAGCACGTTGTTACGAATATATTGGATACCCTCGGTAATAATGATTTCGTCAGCGTCATGACCTTTGCTGATACAGTCGAAGAAATTGTACCTTGCTTTGAAGATTCCCTTGTTCAGGCAACTTTAGGTAATCTACGTGAGCTGAAATTGGCATTGGATAATTTTGAAACAATGGAAATAGCAAACTTTTCTGCAGCTTTGACTAGGGCGTTCGAGTTATTAGAAATCTATCGAAACAACAGTGGCGGAGCTAATTGTAATCAGGCAATTATGCTAGTTACTGATGGCGTTCCATACAACTACAAAGAAATTTTCGAGAGATACAATTGGAAATACGAGACTCCAGTGAGGGTGTTCACGTACCTGATAGGGCGCGAGGTTGCTGATGTCAGGGAAGTGAAATGGATGGCTTGTGCAAATCGAGGATTCTACGTTCATCTCAGTACTTTAGCAGAAGTAAGGGAGCGGGTCTTGGAGCACGTTAATGTTTTGGCGCGGCCCCTTGTGTTGCAAAGAGAAAAACATCCTGTAGTTTGGACTCCTGTATATGCAAATGTTACCGATCCTAAAGTGGCTGATTATCTGTGGGAGCAACGCGAAAGAGCCGAACAGAAGGAGCGTTTCTTGAGTCAGCGAAGGGACAAGGTACTCTTCAACTCTGAGAAAGAACAGGATCGCCGTTGGAGAATCACACAGATGAAACAGGGGCAGTACAGTGAACTAGGAAACTCCCAGTATCAGTTGATGACTTCAGTTTCTATGCCGGTCTACGATCTTCGCCATAATGAGATGCGTATTGCTAAATTATTGGGAGTAGCTGGCACGGACGTTCCCTTATCAGAAATACAAGCTCTAATGACACCTTATAAGATTGGAGTCAACGGGTATGCCTTTATAGTGACCAACAACGGATACATTTTGTTACATCCTGACTTGCGACCTGTGTTTCAACAAATCCTAAAGCCGAGCTACAACAGTGTGGATATGATTGAAGTTGAGTTGTTTGATGATGACCGAGGACCTAGGAACTTCAGCAAGGAGCTAACTGCGCTCCGTAAAGAAATCATCGATCAAAAGACAGGCAATAAAGTGATGAACGTCAAATATCACTTGGATGACATGAAAAGAGTATCGCGAGCTAAGAAGCATTACTTCTGGACGGGCATCAGTGACTCACCGTTTACTTTGGTAGTTACGATCCCCGAGAACTACGGACGTCATCGTATCACACCTCCCCCGACGGATGATATTCACCGCTTATCGCTCACATCCAAGAACATATCGGCCCGGCAGTATTTATCTGATAAATGGAGCGTCCACCCTGATTGGTAA
Protein
MNASVKKKDGKQILESSLRSVSTMLTRKINAVKCIHETAIQIARNFNYVKNASEIQDFTYCSAKYSNFTYEIPGDKPVSDEKSKPKFTKNNPHYTTVSLVRDSHFYDINVNTNHSCVHVPTNIFYLENNVFNAIEWSKELNQVFTKNYQSDPSLSWQYFGSSHGVLRFYPGMPWNTKEVDTYDCRVMSWYIEAATCSKDVIILFDISGSMTGFKNYVARRTLRSLLDTLSNNDYVNVYKFNDTVTEVVKCFKGLVQATPENLKTITATLEPFVDAEGHLKPNVPLAGNANLTAAFVKAFDTLKERRKQCNVSSTQGCNQLIMVITDYVAGNLSDVFEKYNRVVVNGKTYTPVRVFTYLIGKEVTNVPEIEWMACSNRGYFVHIHSVEEVQQQVLKYINVIALPMILVAEKPPPTWTHANIDYTRTAKWDVSGDIDKPGEDKLVTSVAIPAFDFKKDDNSSNARLLGVAGTDVPIDSIAKLAQPHQLGVNGYSFIVSNNGYLLLHPLLITSINGNMQDNYNSVDFVEVEQVDDGKGSRELGEQIKKLRASLVDGEDGYMKEVKVLYHYDNMRRIARVEHDYFFNRLVGTPFSMGISLPKGYGDTELLLKDNPLEAKQGKALTGINVTDYFKFSYRVHPDWVYCKYHYLEGHESENVELEVWKFLVRISHNDLNITEEQYMQETAKEVPWSIETHCGNATRELGVDDYYCNEDLVKQLVFDAKLTTPYFENWDATNEEINLAKKYNVSVRFIATASGLTRWHYINDKTKNEKVNDTGYRHKEYKGKVFGDIYFNAIEENWYKAAVLQHMINKESLVISTPLPILDDIIQNKPPVQNEDGDITVTSTYAIFYKDGESETPASVVGFEYSYLSFYDRFMEITNVSWSGSREVTCSGEDYDCYLIDSSGYIVLSKDKEEVGQFFGIVNKYVLQSFLDQNIFQHVEVFDYQALCPIDILPEKNNSWSLVNTFTLVGNILRWLLVETLFLLSNVYNWKEYYVYGEVMEIYETTEEPTTTAIPPLNNGSEAAKEPEENPFSCDHIIKLFILNQTYFSEAMGASPVVYKDEPGECHPAYWASLVKKTNLLLVVVKTENRRYPDTCKEPPNTKPRPTSESTASREPCHKLDLGALHRRRLEDCFTYHDEERHIMACDHANILATDSIVLGILASIAILSYKTNCSASIQYDAPGKISFNSVQAWAVKLGTELYHFGEFITRKKEVQDSFKSAQIEVRDGEKLVQNMADDIRAMMELKISAVKRIVEAAENMAFDKQNEPVPEDFQFYNSKEMDEPYDDVSLTTTPEPEFNVDNWIVRPPTKSAHLQANPHFSNIPVNANFSSVHVPTNVYAWAPEVIKGIHWSEGLDTHFINNYQSDPTLSWQYFGSSTGFMRHYPAMKWRADPVDIYDCRTRAWYMEAAASPKDVVILVDRSGSMTGQRRDIAKHVVTNILDTLGNNDFVSVMTFADTVEEIVPCFEDSLVQATLGNLRELKLALDNFETMEIANFSAALTRAFELLEIYRNNSGGANCNQAIMLVTDGVPYNYKEIFERYNWKYETPVRVFTYLIGREVADVREVKWMACANRGFYVHLSTLAEVRERVLEHVNVLARPLVLQREKHPVVWTPVYANVTDPKVADYLWEQRERAEQKERFLSQRRDKVLFNSEKEQDRRWRITQMKQGQYSELGNSQYQLMTSVSMPVYDLRHNEMRIAKLLGVAGTDVPLSEIQALMTPYKIGVNGYAFIVTNNGYILLHPDLRPVFQQILKPSYNSVDMIEVELFDDDRGPRNFSKELTALRKEIIDQKTGNKVMNVKYHLDDMKRVSRAKKHYFWTGISDSPFTLVVTIPENYGRHRITPPPTDDIHRLSLTSKNISARQYLSDKWSVHPDW
Summary
Uniprot
EMBL
Proteomes
Interpro
SUPFAM
SSF53300
SSF53300
Gene 3D
ProteinModelPortal
PDB
5GJW
E-value=1.24256e-69,
Score=675
Ontologies
GO
Topology
Length:
1877
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.18317
Exp number, first 60 AAs:
0.00043
Total prob of N-in:
0.00175
outside
1 - 1877
Population Genetic Test Statistics
Pi
269.009866
Theta
183.188373
Tajima's D
1.262307
CLR
0.378122
CSRT
0.733263336833158
Interpretation
Uncertain
