Silkworm Genome Informatics Database

Gene

KWMTBOMO09851

Pre Gene Modal

BGIBMGA013281

Annotation

PREDICTED:_fatty_acid_synthase-like_[Bombyx_mori]

Location

Bomo_Chr16(-):10269840-10324597 View in EpiBrowser

Location in the cell

Cytoplasmic Reliability : 1.311 Nuclear Reliability : 1.068 PlasmaMembrane Reliability : 1.558

CDS

ATGAAGGCTTCAGCAGGCAACACTACCACAGATCGAGGCGTGAAGTCTTCATCGGAACGTGACAGGATTGTCATCTCAGGGATGTCAGGTCTGTTTCCTGAGGCGCAATCCGTCCAAGAATTTGCTGATATTCTTTACAATAAGGTAAATCCTGTAACATCAGAGAACAGTCCTTGGTTGTATACACCACTAGAAATTGGCCCGTATTCAGGAAAAGCCCCAGGATCACAATATTTCGATGCACAATTTTTCAAAGTACATCAACGACTTGGAGAAAAAATGGACGTTATGTCGAGGAAGTTGTTGGAGCAATCTTACCAAGCTATTTACGACGCCGGTCTGAGCCCTCAGAGCTTAAATGGTAAAAATGTTGCCGTCTACATAGGTACTTCTATTTCTGAGACAGAAATAACTGGATTTCTTGATACATCTTCCAAGAGAGGTTTTGGAATAATGGGATGTAGTAAAACAATGTTCGCAAATCGTATCTCCTATTGGCTAAATGTAAAAGGTCCTTCCATGGCCGTGGACCAAGCATGTTGCAGCTCTATGAGTGCTCTACAGCTGGCATATCTTGCCATGAAAAGTAATGAATGTGAAGCTGCCATTGTTGGAGGATGTCATTTGAGTATGCTGCCTGAATCATCAGTTCATTACAACAGAATAAACAAGATAGCAAAAGATGGAAAGACTAGGTCGTTTGATCAAGAGGCCAACGGATGTGTTCTCTCTGATGCTATCAATGTTATTTTCTTGCAAAAAGCGAGTGATGCTTTGAGGGTATATGCTGATGTGGTCCATGCTAAGAATGAATACATTTCTTTGAAACAAGAAAATGAGTTTCCGAAGAGCGGATCATATAGGAAACCGCATGAAATTGCAAATTATTTAAAAGATTTTTATATAGAAGCGGATTTCGCCCCACAAGATGTCGACTACGTAGAGGCATTTGGCATCGGTAATCCGGAATCAGATAAATCTGAACTAGAAGCTTTAACTGATGTTTTCTGTGACAAGAAAACTAATCCATTGTATGTAGGCAGCGTGATGTCCAATATAGGTTTTACCGCAGCGGCTAGTGGCATTACATCCATTATAAAAGTGCTCCTTGGCTACCACAACGGTTTATTTGCTGGTAACCTGCATTACAATACGCCACGCCACGACATAAATGCAATAAAAGATGGACGAATTTGTATTCTTGACGATCACTGCCACATTAACGGAAATTACGCAGCAGTCAATGCCTTTTCAGTAACTGGAGTCAATGCTCATGTTCTGTTGAAAGGAAACCGTAAACCAAAGGACTTAGCCAAATATAAATCCAGCATACCACACCTGGTGACAGTATCAGGGAGACAAGATAGTTCAGTAAAAAAAGTACTTGATAATTTAAAATCAAGACCAATAGATCCAGAAGAACTAACATTATTTCACAACATACATTCGGTGGTGACTCCAGGGCACTTGGGAAGAGGCTACACAATTTTGCAAACGCAAGAGAATCAAACAGTAAGTTTAGGAGAAGCAGTGAACTATTTCGATAATGCCAAACGTCCGTTGTGGTTTGTGTACAGTGGGATGGGTTCTCAATGGCCTGGGATGGGCGCGGAACTTATGAATATCCCAATATTTTCCGCAGCTATTGAGCGCTGCCAAAAAGCAGTCGAATCTAAAGGAATAGACCTCGTGAAAATTATAACGTCTACTGATCCTGATATTTTCAATAATATTCTAAACGCTTTCTTGGGTATCGCGGCCATTCAGATCGGTTTGACAGATGTCACCTATGCACTTGGTTTGGTTCCTGATAATATCATTGGACACAGTGTGGGCGAGCTCGGCTGCGCTTATGCCGATGGTTGTCTAACAGCAGAGGAAATGATTTTGGCTGCGTATTCTCGTGGTCAAGCATCCATTGAGACTAAACTCATCAAGGGTTCTATGGCGGCCATCGGGATGGGATACAAACAAATCTTACCTCTGTGTCCTCCAGAAGTAGACGTGGCGTGTCACAACGGACCGGACTCTAGCACTATATCGGGCCCAGCGGATGTGACTGCCCATTTCGTAGCCGAACTGTCAGCCAAAGGAATATTTGCTAAAACAGTTCCTTCTGCGAATATCGCGTATCACTCTCGTTACATAGCTGCTGCTGGCTCCAACCTCTTACAAATGCTGAAGAAGGTCATAAAAAATCCACGTCTTCGTAGTGAACGTTGGGTTTCCACGTCTGTTCCTCAAGAGGATTGGAATAATGCAGCAGCCAAATACTGTTCCCCTGAATACCAAACTAATAATTTGTTGAACCCAGTTCTATTCGAGGAAACATCTCGACTTATCCCAAACAACGCCATTCTCATAGAAATAGCTCCACGTGGACTGCTACAGGCCATTCTGAAACGTTCAGTATCACCAGATTGCTTTAATATATCGTTAACTAAAAAAGGAGATGGTAACGTCATACATTTACTTCAAACCATTGGGAAGCTATACATTGAAGGATGCACACCAGACATCAAGGCTTTGTACCCAAAAGTAGAGTTACCAGTTTCAGCAGGGACTCCCATGCTATCACAATTAGTTAAATGGATGCATCTACAGGAATGGTACGTTCCAAAGCCACAAAGTACTGAAATAATAACTTGTGCAGTCTGCGAACATTTCATATCTGTGCATGACAAAGAGCATAGTTATTTAAGAGGAAACATTGCTCAAGGGAAAATGATATATCCTATTGGAGGAATTTTAGTTCTAGTTTGGGACACGTTATGCATGTCGATGCTATTGCCCAAAAAGAAGGTGTCGGTTAAATTTAGCGACGTTCATATAGAAGTGCAACCAATACTTTGCGAAGAAAAAATATTAAGACTGCGTGTAGCGATCAACAAGGGAAATGGACGATTTGAGGTTACAAACGCTGGATCTAAAGTTGCAAGTGGAATTATTTTTACTACAAGTAAAAATGTGATTAACAAAATGGATCATGCAGTTACTTCTATGGAACTAAATAAAAACGACGTATATCAACTACTATGGGAAAAAGGATACTCTTTCAGCGAAGAATTCCGTTTGATAAAGAGTGCAAATACGACTTTATCTGAAGCCATCGTAGAATGGCGAGACAACTGGGTGACGCTGATCGAGAATATGCTGCAACTGAATATCTTAAATCAGAACGATAATGGTGTTTCACTACCTGCTAAGATCTCTGACGTTATTCTTAATATTTTTGAACACGAAAAGCCAATATTTTCAAAAGATAGTTCATCCACATTAAAAGTAATTCGGTCTGAAGTATATGATTCGACGGAATGCGGGGGTGTGATCCTTAAGGGTATACGATTTCGTCAAATTCCTAGAATTTCATATCCCACGAGTCTGTTGGTTCCGTCTAGCAAAGACAAAACTGAATTGATAAAGTTGAAAATACAAACTTCCTCTTGTTCAAATACGATGCTTCTAAGCGCAGAACCTGGGAATATAAATTCCATTCATTGGTCTCAAGTCTTTGAACCATCTGGATCCGGAATTCTTGTGAAGGTTCACTACGCAAGTCTTACTCCTATAGATGGTGAAAAGGCAACAGGAGCAGTATCTCATCAAGTGAACGAAATCTGTTATGGTATGGATTACAGCGGTGTTACTGAAAGTGGACATCGTGTGATGGGTATAGTTCATCGAGGTGCTTGTCGAAATTATCTTCGAGCTCACCCTGATCTGTTGTGGCCAGTCCCGGATCACTGGAGTCTCGAAGATGCAGCAACTGTTCCTTTAGCTTATGCGTATGCTTTTTACTGTCTAATGATTAAAGCAAAACTTTATTCGGGTATGAAAATTTTAATACACGAAGGAGCTGGAGCACTCGGCCAGGCTGCCATATCCATTGCTCTTGCACACAAATGTCAAGTGTTCACTACAGTTGGTGACGTGAGAATGAAAAGTTTCTTGAAAAAGCTCTATCCAGAATTGAAAGAACAACACATTGGGAATTCTCGAGATGTGACTTTTGGTGACATGGTACTATCAGCAACAAATGGGAAAGGTTGCGATATTGTAATATGTAGTGTCGAACCCTGGCTCAAACATGTTTCACTTCAATGTGGTGGAGCTTTAAGCATTATAATTGATACGGCACAAATGTACAACCAGAATAAGTTCGAATTGCGTATGAATAGTCTGATCAATGATAGATCCTATGTGATTGCCGATTTTGTGTCCATGTTCGATTTTGCGAAAAATGAAGAATTTAAAAAATTACAAATCCTCGTGAGTGGGGGCATCTCCAAGGGCTACGTGCGACCACTAGGGCGAGTGACTTATGCTGCAGATGAAGCTCCACGAGCTCTACGCCTGTTATCGAAGAGTTGGCATCGAGGACATGTCCTTTTAAGACTTACAGATCGAGCGCTTCCAGCTAGCCTTAGGATTAACTGTACTTCTAAATGCAGCCATTTAATCATCTTCAGCGACGAATATTTTGGTATTCAGTTGGCAAAAAGGCTTATCAATAGAGGTGCCAGAATGTTACATATCTGTTGTTCGAAGCCTTCGTGGTATCTTCAACATCAAACAGAAAATCTTAAATCTCTTGGAGTGAATGTTATCGTTTCTTCAAATAACTTAAATGATTTGGATGATGTTGCAACCGTGCTAAAGAAAACTATAGCAATGGGACCGGTAGAAGGCGTATATTTGACGAGCTTCAAAGATATGGACAATAAATACATATCAAATAGCTTGGAATACCTTGATGTTATGTCACGAAAATTTTGCCCATCCCTCAAATATTTTGCAGTGATCACAAATAGTGAAAACGTCGGAAAACAAACGTCGATTTTCAGAGCAAAGGATAATTTAGTTATTTCACGTATTGAAGTTCAAAAGCCAGATTTTTGTGGGGATACAAATACTGAAGTACTGTTAGACAGAAGAGCTTGGGATCTATCGCTTTTAGGCGCAGTCGAGACAGGACTTTGCTCCAAGCTTCCATTGTTGGTCGCACAAATAAAGACTGAGACGTTGCCGCTGTATCAACAGCTTGCTGATGTCGCTGATCTACCATTATTAAATGAGGCTGGCGACATGACCACTCTACAAGATTTGGCTGCTAGAAGTGACAATATAAAAGTAATTAAGGAATTTTTACGTCTGAAATATCATGTTTGTATTTCGGAACACAACGTTTTGAAGTTAAATAAACATAAACTTCGTGAGATAGATTTTCTTGAAAACAACTTTGAGCACAAACAAGGTTTGGCTGTTTACTTCTCTCACATAGCTGAAGATGAAATCAGTTCCGATACTCCTATATACTTATTGCCTACTCTTGGTAATGAAAATGCGGAAAAACGAGTCGATGCACTGAAGTCTGAGTATTTGTGCGTTGTTCCTGGGATTGAAGGCCATCACGTAAGATTTCGTGGTCTCTGCGAGAGACTCAAACTGCCCGCGCTGGTGCTGCAGCCAAGTTTGGATGTGTTGCACGAAACCATAGAACAAGCCGCTCAACGCTACTCTAAGACACTCATGGAAAAAATTGGTGTCGGTAACACTTTCTACTTGCTTGGGTGCGATAGTGGGATTTTGATTGCGATGGAACTAGCTGCAATACTTGAAGAAAATGGTTTTTTGGGTACAATATTTTGTCTTGGAACTGCACCAGAAGATGTCAAGCCAGTAATTGAACAACAACTAGGCGCGTTCTCAACAGAGGACCAACTGCAGCTTGGAATTTTAAAACATATTTTTACGCTACTAACTGGTGAAGTACCATCAGATTTAGATGAAACTCTGCACCCTCACTCTTCTTGGAATGAAAAAATAGATGCTTATATCAAAATGATGGCCGATCGAATAACACAAACAAAGCAATATGTGAAAGCGATAGTACAATCCGTATATGCAAGAATTCTTAGCATCAAACAGTACGACTCTTCAACTTTGCCTACACTGAAATCTACAGTCGTAATACTCCGCTCTCCAGGATATTCATCAACTTCATCTGCATCGTCATACGTAATTGAAGATTTATCAGCACCACTTTGTGATGCTGCCAAAGATGTGCGATGTGCAGCCATCATCAATAAAAATTTGTCAACTGAAATATTGGAAGAATTCAAAACGAAGAATTTATGTGATAGCTTTGTGATAAATTTTGACGACAATTACTATAAGTAA

Protein

MKASAGNTTTDRGVKSSSERDRIVISGMSGLFPEAQSVQEFADILYNKVNPVTSENSPWLYTPLEIGPYSGKAPGSQYFDAQFFKVHQRLGEKMDVMSRKLLEQSYQAIYDAGLSPQSLNGKNVAVYIGTSISETEITGFLDTSSKRGFGIMGCSKTMFANRISYWLNVKGPSMAVDQACCSSMSALQLAYLAMKSNECEAAIVGGCHLSMLPESSVHYNRINKIAKDGKTRSFDQEANGCVLSDAINVIFLQKASDALRVYADVVHAKNEYISLKQENEFPKSGSYRKPHEIANYLKDFYIEADFAPQDVDYVEAFGIGNPESDKSELEALTDVFCDKKTNPLYVGSVMSNIGFTAAASGITSIIKVLLGYHNGLFAGNLHYNTPRHDINAIKDGRICILDDHCHINGNYAAVNAFSVTGVNAHVLLKGNRKPKDLAKYKSSIPHLVTVSGRQDSSVKKVLDNLKSRPIDPEELTLFHNIHSVVTPGHLGRGYTILQTQENQTVSLGEAVNYFDNAKRPLWFVYSGMGSQWPGMGAELMNIPIFSAAIERCQKAVESKGIDLVKIITSTDPDIFNNILNAFLGIAAIQIGLTDVTYALGLVPDNIIGHSVGELGCAYADGCLTAEEMILAAYSRGQASIETKLIKGSMAAIGMGYKQILPLCPPEVDVACHNGPDSSTISGPADVTAHFVAELSAKGIFAKTVPSANIAYHSRYIAAAGSNLLQMLKKVIKNPRLRSERWVSTSVPQEDWNNAAAKYCSPEYQTNNLLNPVLFEETSRLIPNNAILIEIAPRGLLQAILKRSVSPDCFNISLTKKGDGNVIHLLQTIGKLYIEGCTPDIKALYPKVELPVSAGTPMLSQLVKWMHLQEWYVPKPQSTEIITCAVCEHFISVHDKEHSYLRGNIAQGKMIYPIGGILVLVWDTLCMSMLLPKKKVSVKFSDVHIEVQPILCEEKILRLRVAINKGNGRFEVTNAGSKVASGIIFTTSKNVINKMDHAVTSMELNKNDVYQLLWEKGYSFSEEFRLIKSANTTLSEAIVEWRDNWVTLIENMLQLNILNQNDNGVSLPAKISDVILNIFEHEKPIFSKDSSSTLKVIRSEVYDSTECGGVILKGIRFRQIPRISYPTSLLVPSSKDKTELIKLKIQTSSCSNTMLLSAEPGNINSIHWSQVFEPSGSGILVKVHYASLTPIDGEKATGAVSHQVNEICYGMDYSGVTESGHRVMGIVHRGACRNYLRAHPDLLWPVPDHWSLEDAATVPLAYAYAFYCLMIKAKLYSGMKILIHEGAGALGQAAISIALAHKCQVFTTVGDVRMKSFLKKLYPELKEQHIGNSRDVTFGDMVLSATNGKGCDIVICSVEPWLKHVSLQCGGALSIIIDTAQMYNQNKFELRMNSLINDRSYVIADFVSMFDFAKNEEFKKLQILVSGGISKGYVRPLGRVTYAADEAPRALRLLSKSWHRGHVLLRLTDRALPASLRINCTSKCSHLIIFSDEYFGIQLAKRLINRGARMLHICCSKPSWYLQHQTENLKSLGVNVIVSSNNLNDLDDVATVLKKTIAMGPVEGVYLTSFKDMDNKYISNSLEYLDVMSRKFCPSLKYFAVITNSENVGKQTSIFRAKDNLVISRIEVQKPDFCGDTNTEVLLDRRAWDLSLLGAVETGLCSKLPLLVAQIKTETLPLYQQLADVADLPLLNEAGDMTTLQDLAARSDNIKVIKEFLRLKYHVCISEHNVLKLNKHKLREIDFLENNFEHKQGLAVYFSHIAEDEISSDTPIYLLPTLGNENAEKRVDALKSEYLCVVPGIEGHHVRFRGLCERLKLPALVLQPSLDVLHETIEQAAQRYSKTLMEKIGVGNTFYLLGCDSGILIAMELAAILEENGFLGTIFCLGTAPEDVKPVIEQQLGAFSTEDQLQLGILKHIFTLLTGEVPSDLDETLHPHSSWNEKIDAYIKMMADRITQTKQYVKAIVQSVYARILSIKQYDSSTLPTLKSTVVILRSPGYSSTSSASSYVIEDLSAPLCDAAKDVRCAAIINKNLSTEILEEFKTKNLCDSFVINFDDNYYK

Uniprot

A0A2A4K3Y0 A0A194QF04 A0A194QVD5

Pubmed

26354079

EMBL

NWSH01000156 PCG78965.1 KQ459053 KPJ04123.1 KQ461073 KPJ09498.1 + More

Proteomes

UP000218220 UP000053268 UP000053240

Pfam

PF02801   Ketoacyl-synt_C        + More
PF14765   PS-DH
PF00109   ketoacyl-synt
PF00698   Acyl_transf_1
PF16197   KAsynt_C_assoc
PF00975   Thioesterase

Interpro

IPR014030   Ketoacyl_synth_N        + More
IPR020843   PKS_ER
IPR016039   Thiolase-like
IPR020801   PKS_acyl_transferase
IPR020841   PKS_Beta-ketoAc_synthase_dom
IPR029058   AB_hydrolase
IPR001227   Ac_transferase_dom_sf
IPR020807   PKS_dehydratase
IPR016036   Malonyl_transacylase_ACP-bd
IPR016035   Acyl_Trfase/lysoPLipase
IPR023102   Fatty_acid_synthase_dom_2
IPR014031   Ketoacyl_synth_C
IPR011032   GroES-like_sf
IPR042104   PKS_dehydratase_sf
IPR032821   KAsynt_C_assoc
IPR036291   NAD(P)-bd_dom_sf
IPR014043   Acyl_transferase
IPR001031   Thioesterase

SUPFAM

SSF50129   SSF50129        + More
SSF55048   SSF55048
SSF53901   SSF53901
SSF53474   SSF53474
SSF52151   SSF52151
SSF51735   SSF51735

Gene 3D

1.10.1470.20 3.10.129.110 3.40.366.10 3.40.47.10 3.40.50.1820

ProteinModelPortal

A0A2A4K3Y0 A0A194QF04 A0A194QVD5

PDB

2VZ9 E-value=0, Score=1828

KEGG

101742625 K00665 fatty acid synthase, animal type [EC:2.3.1.85] | (RefSeq) fatty acid synthase-like

PATHWAY

00061    Fatty acid biosynthesis - Bombyx mori (domestic silkworm)
01100    Metabolic pathways - Bombyx mori (domestic silkworm)
01212    Fatty acid metabolism - Bombyx mori (domestic silkworm)

GO

GO:0004312 GO:0016491 GO:0009058 GO:0016788 GO:0016740 GO:0003824 GO:0008152 GO:0003676 GO:0004816 GO:0005737 GO:0006421 GO:0016155

Length:

2059

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

3.75677000000002

Exp number, first 60 AAs:

0.00145

Total prob of N-in:

0.11105

outside

1 - 2059

Pi

223.750767

Theta

184.990128

Tajima's D

0.277094

CLR

1.052928

CSRT

0.444527773611319

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree