Silkworm Genome Informatics Database

Gene

KWMTBOMO15279

Pre Gene Modal

BGIBMGA005041

Annotation

PREDICTED:_zinc_finger_FYVE_domain-containing_protein_26_homolog_isoform_X1_[Bombyx_mori]

Location

Bomo_Chr25(+):8351613-8371820 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.649

CDS

ATGAATGAAGAGGAACTTAAATATGTACTACAACTATTGGATAATGGAAGTGAAAAAGTATTTGAGGAAATTCTTCAGTTCTATGAAGATGTCGATGAATCAAAATCACCGAAAGAGTTAAGTGAAGAAGCATTTGATTTTTTCACAAAAAATCTTAAGAATAATCCAGTGACAACAAATACTGTCCTTAGTTTTATACAACAGTATTGTTCTGAAAATAATGCCAAAAGAATTCAGGCTCTCTGCCTTCAAGTATGTAGAAATGAAGTGACAGAAGCCCAATCCATAGAAAGATTGATAACATTAATGTCATTAATAAAGTGGAATCAAAATTTTCAACCAGAGTTTGTCAATCATGTTTTGAAATATATATCGGAAGATGCCTTCAGGCAATACAGGAAACAAATATTATTAAGCTTAATACCACTTGATGTACCACAAATTCTGAACGACGCAGCTGATTCAATACATAAACATGAGCCCCAGAAAGAATTCAAATTGACCCCGGAGTACATGCTCGAACTTTGCTACCAAGATAAAACTCATTGGCTTTTAAAAGCAGCACAGGTTTACAAAAATCAACTGCACGATTTAAAAAATGTCACATTTAAAATAAATAATTTTACAAAACAGATTCTTATCATGGTTTTAATAGACCTTACAAATGGACCAGAAACTTATGATCTCCCATCACTAGTACATCAATTAACAAATATATTTTCGATATTGGATACGTACACTACAACGGATGATCAGTTACAATTCTATATAACAGAAGTAAAAAGAGAATTGACTATAATAAAATTTTGCTTAGAAAATAATTGCAAAATTATGAGCACATCCGTATTCACCCAAGTTTTGACACAAAGTGCTCTGGCTGTGATATCCCAAGTATGTAGACTTTCCAAAGTCGACCGCTACAAAGTTTCGCGTCTCTTAAACACTAATAATGACTTTATAAATGAACTCCTGGTTTTAAGCAACAAGAAGAACTTAACGGCGCAAGACGAATCTAATGTCAACTGGGATTTCTCCACTTATAATAGTTACTGTGCGATAACCAAAATAATTGATACAATCGTGAATTCTTCGGAAGGATCTGAAAATGTGGAGCACACCACAACATCTGTTGACGAAATAAGACGTCTAATTTTAGCTATCCAACCACTACAGTTCTGCATTGAAGTAATAGAAAATATATTTGCCTGCCTTTTTTTGAGATTTGAATACTTTTCTTGTTATGCCGAGCACAATCAGGACTACTCGTGTGGCGCCCATTCGGAATGTTCATACTTTTATTCAAAGAAGCAGGCCAAAAACACCAGCATCAATAGTGGCGCAGCCGGTTTTATGTGCAATGCGTATACGACTCAAATAATTTTGAACACTTTAAAATTATGTTTAGAGAATTTGGAAGATAACAATAACATTGATGAAATAGAGCAAAGTCTGAACGTGAGATTCAAGCAATTGGTGAAGGTTGTTAATCATTCCGTATGGAAGTTGCAGCTTGTTTCAACGTTATCGCCCGACACTAGTCCATTGAGACTAAAACTATGTTTAGATTATGTCGATGTAGACGAAAGCAGCGATGAAGAATCACGACTTGTAGAATTGAAACCCCAAAGAAAGAGGCCAAAAGTCAGAAGGAAACACAGCAGTAAACATGATGTAGAGCAAGTGATGCTCGCATCCACAATATCGACTGACGAATCTTACATGTCTTCTACGGGGAACGCTATAGATTTCGTTTCAATAATGCTAGCCAAGCCAACATGCTTGGTGGCTTTGGCACTTTATAACAACGATTTTCCCAAAGCCAATCAAATATTGGAGATGTTCGATTTAGCTGACTCCGAAATCGCAACGGAAGTCACATTCACTGAACAATTACGAAATTTAGTGGCTAAAATAAAGAACATCATTTACTATAGAGATGACACGCGTTATCCTACTAAAGAACTGTCTGCTTTATCCGTTGTTTCCACAGAAGTAATGGGTCTAGTTGAAGGATTTTTAGCTTCGAATAGAGCTCCGAATTCTTTTGATATTATGGAGTTAGGCGCGAGACATCCACACTTACAACTGTACAGCCATCAAAACGTACCTTTTATTAATTCTGTTGACATATTAATCAGTAGTGGGCTGAATAAAGAAATTACTTACGGTCTCATAAACGTAGTAGAAAGGAAACTCGCCGAAGTGAGAAACTGCACAGATATATCGGCAGTAAAGAAAACAAATTATATACGTTTCGTGGAAGACATTGTTAGTGTTATGTTTGAACTATTTGGGTATACAGAAAAATCCTTTGACTTCATTGACAATATTTGTGGTCTGCTAAGTGACTGTCGCGTTCCTATTAAATACAAAGAGTTCTGTAAGCTAAACCAAATATCTAAAGAACTAAAACAATCATGTGAAGATTTAGCGGGCATTGTTAGTCCAAATGAATCCAGTCCAGTTGATTTCAATTTGTTACAAAAGTACCATCAGATTTATATGAATGTCGTAGCCGCATCCGATAAGGATTTGTGCAATATAGCAGAAGTGTCTCGTCAAAGCAATAAAAAGACTCGAACACCTTACTTGAGAATGTGTTACATGTACTGCAAGACCGTCTCTCATTTAGAACAAGAAGACGATAAAAAACAGGACTCTGGTTCGATGGATATGCCATACTTTTTCGTGCTAGAAAAACAGCTTCATGACATATTTGGCAGAATGATAAATAGCAAAGATATCCCTGTAACCTATTTAGAACCGATTTGCAAAAAACTAAATGTGAATCTAATACCCAAATTGATACTAAACTTTTGTCCATCCATCACTTTGTCGGGTCAACACAAAGAGGCCAGCGAAATTATATTTAATAATTTACTGCAAGTTGTATATGACTTTAAAAATCCCGAAGAGAACTTATTCTTAGACCCGGTTGCTAATTTTGCGCCGTTGCCCCGTCGACCTGACACGCAGTGTTTGACATACATCGTTTTGAACAACTGGGTGTTAGCTCATATAATCAAGAAGGTTCACACATCGCCCGATGAAAACTGCCTGCAACAGAGCATGGACGTTCGCACAAGATGTCTTAATAATTATATGGAATTGGACAGGTTTAACTATACCAAAGATTTATTTGGGACCAACAAATATTTGGCTTCGCTACACACAACTATTGATCTCGATAAATTGTTCGCATTCATGCCGGAATTGTTAGATTCAGGCAAAATATTAAAATGCCTGAACCTGATAGATAATTTATCAGAACGCCAGTTGATGTGCAGTTCTAATTTGACGAATTTGAGGGACTTAATACTGTTTAAGCTCGCTACGAATCCAAAGATTACCGATAACTGGAATTATTGTCAATATTTAAGATGTTCGGAACTCAAAGTGGATCTCGTATTGAATAATATAAATTGTTGGCCGGCGGACGGAGCTTTGGAAGCTTTAGATTATCTAAGGTTTTTGTTGAATCAAGAATCTTTGGAGGAGAGCCTCTATGACAGATGCACTGAGTGGATGATAAAAATTCCATTGTATGATCAGATCGCCCCCATAATGGGTGTACACCACTGGTACGATATTTACGAGCAATCCTGTGAAACTCCCGAATGTGTTATCGACGCTCTAATGGACAGTCAGCAGTTTAAACTGTGCTTGGAATGGGCAGACGTCCACAACGTATCAGATAATATGAAAAACCTGATCGTTATGAATCTTTTGCGTCAATTATTTGAATATACAAATCAAGCGACGCCTTTGTTAGTCAAAGAACTTCTCTCCAGACTCTCGGCTTCCCAGGCCATCGACTTAATTCAGGAAGAAATGTCCAAAGTCCGGCATGTTGAAATCCTGCAAGTCTGCGTAGAGTTCATATCCGAACGCTCATTCGATTGGAAGGCCTTCGAGAATATCAAAATAGGTTTGCAAATAATGTTGGAAATCGACAAGAACTGGCGTCACATGTTCTGGGATCTAATAGATCGTCCTTTACTGATGATCGAACAGTTTTTAATGAATGCGAAACTCGATATTCTGGCCAACATATTAAACAAAATAGCGCCTAGTTTGAAAAAGGATCCCAGCGGCGATAATCTGTATTACAACATTAAACTAATCGAAGGCACGGTTATATCTCGGAACGCTGTCGACGCCCTGCTCAGGTTTTACGGCGAGAAGGCTCTCGACCTAAAGAATCCTAGAAACAACTGTCCCGTACTCCCGAAGCCGTCCGACGATTCGTTACTCCAATCAATAGACTCGATAAATATAGAGGCCGCCACGAGACCGTTCGTGATGCCCGAACAAGTGCCCACAAGAGACCAGTGGACCGAGGACTACTCGACGGATCGATGCATGCTGTGTCGTACGTCGATGTTTTCGATGATAATACGCCGGCACCATTGTCGGCGGTGCGGGCGGCTCGTGTGTCACGCTTGCTCCAGGCACAGAATGCAGGTACCAACATACCCGGGCGGGGTGAAGTTCAGAGTCTGCGACGATTGCTACGTCCAAACAATGAACAAGAGAAGCGGAACAGACAACGATAACCTGATGATGAGCAGCAACTCGGATTCGGCGGGCAGCGGAGTCACTTGCATGGACTGGTGTCTCTCCGTCAACTCTAAAAAGAACGAAGCGGTCCGGACTGAGTTCAGCTATGAATTCACGCCCAACGTCACCTTGTGCTTGTCGATCATGAAAATGCACACAATTAATCTGGACTATCCGAGGTTCTTACTGGACCGAAGCGACGAGGTAGCCCGTGAACTGTCCAACGGAGGGGACTCGCGCTTGTTGGTGCGAGCGAGACGATCCTTGCTGCTTGCCGCTGCCGAGATATACTCGCGAACACCGAACGAGATTGGGGGCGGCGGGCGCTCCGTCGTGGCGGAGACGGGCGCCGCGCATGCCGCGCGCTGCCTCGCGCACGCCGACGCCATGGCCACGCTCGTCAAGCACCAGGCGCACCATCTCATACCGCACCAGGGAGCTCATCCGAGTCAAATAGTGCGATCGTTATTAGAAGCGGAAAAATGGGAACTGGCCCTAGAGATAGCCACGAAGTCGGGGATACCCAGGAACAGCGTTTTGGCGGCATGGGGCAAAGCTTGCCTTAAGGCCGGGTGCTTCAAACAGGCGCGAGAGAAGTTCGCGCATTGTTTCAAGAACACCATGAACATTCCGAGCGACCTACCCGACGACTGTGAATACGGGCGGGAAGCGTCAGAGCCGCAATATGTGAATAGAAGACTCCAGAATAGGAGATATACAGAACGAACGAGCTCAGTGTCGAGTGCTCAGTCCGATGGCCGCCCGCGCACCAATCCACCACTGCTGAATGAGATAATCAGTATGCTTGAAGACATGAACTATCCAGTCAACCAGCAGCTGTTAAATAAAGCGGAAACGATCAAGGCGACAAATGAGAAATTAACCACAATGAACACGAGCAAAAAGAAGATCCAGCTAACTGAGCCGGCGCTTAATATCATGCACACATTAGCTAGCGTCAAAAAGATCAAGCAAGGCGACTACAGCGATTTCCAAACAGCTGTTGCACAACCAAAAAAGAGCTTGGCTCAAGGGCTTTTGAGACGTAACAACCACAGCACAGAGCCGAAAATTGACTACACCCTAAAAAGACTAGATCCGTTTTTTTACAAGGAATGCCTGTTCTATCTCGCTAATTACGGCTCTCAAGTAGCCAACATAGCGTTTTACATGAAGCACAGCGATCTAACCGAGGTACTGAGATATTGTTACGATAACATGGTCGATAAGGAGACTTTCACGGATTCCGTGTACATGGAGTGCTTAAAAAAAGATAAAGTCAATGACCTCTTGAAAACTATGACCGACTTGGATAGCTCTTTGAATATGTGGTCGGATTACATAATGCACATCTGTCGGACGCTGGAGGTGAGCAAGAGGCTAGAGGCACTATACGCGGTGCAGTGCGGGTCGGGACAGCACGCGCGCGCGTCCGCGTCGTGCGCGCTGCTGTACGCGCGTCCCGTGCGCACGCGCCAAGCGTTCGCCGCGCTCCTCGCCAGGCAGCACCACCTCACCGCCGCTCTGCATCATCTCTCGCAATGCGTTCCGCTGTCGAACAAACCTACAGATTCAAAATCAATTCACTTCAACTTAGACAAGGCCACTATAGATAATCTGATGACGACGATAACTCGACAAATGGAGTTAGCCAAATATTTGGCTGCGGCAGAAGCCAGCGAAAGATTGACAGAGAAAGTGTTAAACGAAGTGATCCCCGTGCAAACTGCACAGGAATCCAGAGGTGCTGACTTCCGTCCGCTCACTCTGTTTGGCTCGACCACAGATAAAATAAGACTTGTTGCCGCTGTCCTCGCTACTGGTCCCAATATAGAAAACGGATTTGAACTGGCTTTTAAAATCATTACCGAACATAAACTGGACTCTATGAATATATACACGCATGTAGCGAGATATCTGGTGCAAGTCGATCGATTTATAGAAGTCAAAACGTTAGCCAAATGCATACGAGCATCCAAAGAAACCGCAGCTAGTTTGATGAGCGATCAAGTTTTGGAATCTGGAGTTAGTGCTGTGGTGAAGAAATGCGAATCCCGCGGTCAGTTACACGACGAACAAGCAGAAATATTGATCGCCGATATACATAGTGTTACCATTAAGATATCTTGTTACTTGGTGTGCCGAAACGTGAGCAATGCTTATATTTTGGCTGCTCGTAATGATCGTACGAACGACCTTCGACGTGTACTAGATGAAGCCGAGCGCTTAAGAAATGATCAAGTCAGGAATGCTTGTTTGAAACGTCTAACTTCTAAGAATGTCTTGTAA

Protein

MNEEELKYVLQLLDNGSEKVFEEILQFYEDVDESKSPKELSEEAFDFFTKNLKNNPVTTNTVLSFIQQYCSENNAKRIQALCLQVCRNEVTEAQSIERLITLMSLIKWNQNFQPEFVNHVLKYISEDAFRQYRKQILLSLIPLDVPQILNDAADSIHKHEPQKEFKLTPEYMLELCYQDKTHWLLKAAQVYKNQLHDLKNVTFKINNFTKQILIMVLIDLTNGPETYDLPSLVHQLTNIFSILDTYTTTDDQLQFYITEVKRELTIIKFCLENNCKIMSTSVFTQVLTQSALAVISQVCRLSKVDRYKVSRLLNTNNDFINELLVLSNKKNLTAQDESNVNWDFSTYNSYCAITKIIDTIVNSSEGSENVEHTTTSVDEIRRLILAIQPLQFCIEVIENIFACLFLRFEYFSCYAEHNQDYSCGAHSECSYFYSKKQAKNTSINSGAAGFMCNAYTTQIILNTLKLCLENLEDNNNIDEIEQSLNVRFKQLVKVVNHSVWKLQLVSTLSPDTSPLRLKLCLDYVDVDESSDEESRLVELKPQRKRPKVRRKHSSKHDVEQVMLASTISTDESYMSSTGNAIDFVSIMLAKPTCLVALALYNNDFPKANQILEMFDLADSEIATEVTFTEQLRNLVAKIKNIIYYRDDTRYPTKELSALSVVSTEVMGLVEGFLASNRAPNSFDIMELGARHPHLQLYSHQNVPFINSVDILISSGLNKEITYGLINVVERKLAEVRNCTDISAVKKTNYIRFVEDIVSVMFELFGYTEKSFDFIDNICGLLSDCRVPIKYKEFCKLNQISKELKQSCEDLAGIVSPNESSPVDFNLLQKYHQIYMNVVAASDKDLCNIAEVSRQSNKKTRTPYLRMCYMYCKTVSHLEQEDDKKQDSGSMDMPYFFVLEKQLHDIFGRMINSKDIPVTYLEPICKKLNVNLIPKLILNFCPSITLSGQHKEASEIIFNNLLQVVYDFKNPEENLFLDPVANFAPLPRRPDTQCLTYIVLNNWVLAHIIKKVHTSPDENCLQQSMDVRTRCLNNYMELDRFNYTKDLFGTNKYLASLHTTIDLDKLFAFMPELLDSGKILKCLNLIDNLSERQLMCSSNLTNLRDLILFKLATNPKITDNWNYCQYLRCSELKVDLVLNNINCWPADGALEALDYLRFLLNQESLEESLYDRCTEWMIKIPLYDQIAPIMGVHHWYDIYEQSCETPECVIDALMDSQQFKLCLEWADVHNVSDNMKNLIVMNLLRQLFEYTNQATPLLVKELLSRLSASQAIDLIQEEMSKVRHVEILQVCVEFISERSFDWKAFENIKIGLQIMLEIDKNWRHMFWDLIDRPLLMIEQFLMNAKLDILANILNKIAPSLKKDPSGDNLYYNIKLIEGTVISRNAVDALLRFYGEKALDLKNPRNNCPVLPKPSDDSLLQSIDSINIEAATRPFVMPEQVPTRDQWTEDYSTDRCMLCRTSMFSMIIRRHHCRRCGRLVCHACSRHRMQVPTYPGGVKFRVCDDCYVQTMNKRSGTDNDNLMMSSNSDSAGSGVTCMDWCLSVNSKKNEAVRTEFSYEFTPNVTLCLSIMKMHTINLDYPRFLLDRSDEVARELSNGGDSRLLVRARRSLLLAAAEIYSRTPNEIGGGGRSVVAETGAAHAARCLAHADAMATLVKHQAHHLIPHQGAHPSQIVRSLLEAEKWELALEIATKSGIPRNSVLAAWGKACLKAGCFKQAREKFAHCFKNTMNIPSDLPDDCEYGREASEPQYVNRRLQNRRYTERTSSVSSAQSDGRPRTNPPLLNEIISMLEDMNYPVNQQLLNKAETIKATNEKLTTMNTSKKKIQLTEPALNIMHTLASVKKIKQGDYSDFQTAVAQPKKSLAQGLLRRNNHSTEPKIDYTLKRLDPFFYKECLFYLANYGSQVANIAFYMKHSDLTEVLRYCYDNMVDKETFTDSVYMECLKKDKVNDLLKTMTDLDSSLNMWSDYIMHICRTLEVSKRLEALYAVQCGSGQHARASASCALLYARPVRTRQAFAALLARQHHLTAALHHLSQCVPLSNKPTDSKSIHFNLDKATIDNLMTTITRQMELAKYLAAAEASERLTEKVLNEVIPVQTAQESRGADFRPLTLFGSTTDKIRLVAAVLATGPNIENGFELAFKIITEHKLDSMNIYTHVARYLVQVDRFIEVKTLAKCIRASKETAASLMSDQVLESGVSAVVKKCESRGQLHDEQAEILIADIHSVTIKISCYLVCRNVSNAYILAARNDRTNDLRRVLDEAERLRNDQVRNACLKRLTSKNVL

Uniprot

H9J6A0 A0A2W1BPG0 A0A194PH63 A0A3S2P8Z9 A0A212FJA5 A0A194RQ14 + More
A0A2H1WZ03 A0A0L7LG16

Pubmed

19121390 28756777 26354079 22118469 26227816

EMBL

BABH01019872 BABH01019873 KZ149994 PZC75494.1 KQ459604 KPI92388.1 + More
RSAL01000001 RVE55328.1 AGBW02008295 OWR53816.1 KQ460045 KPJ18116.1 ODYU01012138 SOQ58281.1 JTDY01001220 KOB74493.1

Proteomes

UP000005204 UP000053268 UP000283053 UP000007151 UP000053240 UP000037510 + More

PRIDE

H9J6A0

Pfam

PF01363 FYVE

Interpro

IPR028730   ZFYVE26        + More
IPR013083   Znf_RING/FYVE/PHD
IPR017455   Znf_FYVE-rel
IPR011011   Znf_FYVE_PHD
IPR000306   Znf_FYVE

SUPFAM

SSF57903 SSF57903

Gene 3D

3.30.40.10

ProteinModelPortal

H9J6A0 A0A2W1BPG0 A0A194PH63 A0A3S2P8Z9 A0A212FJA5 A0A194RQ14 + More
A0A2H1WZ03 A0A0L7LG16

KEGG

101743338 K19027 zinc finger FYVE domain-containing protein 26 | (RefSeq) zinc finger FYVE domain-containing p

GO

GO:0032266 GO:0046872 GO:0000281 GO:0000724 GO:0005524 GO:0006468 GO:0005488 GO:0016020 GO:0003677 GO:0008408 GO:0005112 GO:0015930

PANTHER

PTHR46591

Length:

2282

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.0546400000000001

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00030

outside

1 - 2282

Pi

24.435204

Theta

185.122431

Tajima's D

-1.226866

CLR

1601.852513

CSRT

0.0985450727463627

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics