Silkworm Genome Informatics Database

Gene

KWMTBOMO14834 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA012149

Annotation

PREDICTED:_uncharacterized_protein_LOC101741520_[Bombyx_mori]

Location

Bomo_Chr24(+):16007637-16034883 View in EpiBrowser

Location in the cell

Nuclear Reliability : 4.129

CDS

ATGGAACACAGTCGCCTGTTGAAGTTTCTTGTACCAGGAGACGATAACAAGCACGACATGGATGATGATAAGCTATCCTCGCCGACATTAAAAGTACAACATGACTATCATGATCCCGATAACGTACATGCGATAGTACCAGGAACGCAGGAACTTAGAGAGGTAGATGGCGCCACAACCAGTTCGACAAGCACGCAACTAGAGGCCGAAATTCAAAATGGCGGCTACACAGTCACGAGGACGTCTTACCAGGAGATCAGTGAAACGGTCGAAGGAATTAAGACCACAAAAACAACAGTCACGTTATCCGCCGAAACGAATCAAGGAAAAGAGACCACGGAAGATACGCGTCCAAAAACCAGAATACCTAAATTAAAATTCAGGCAAGCAGCAGAGAGACTCGCTGCTGAAAGGAGAAGGAATAGGCAACAGCAGGAGAAGCCGAAATTGGAGAGTCTCATACCAGTAGCGAAATCCTCGACCGTGAAGCGAAGCAGGTTCGGTGGAACACCGGCATTGACTGCGAAGCCGGTTGTTGTGAAACGCGAAACGAGGAAGCTGACAGACTCAGAGCCGGACGATGAATTCGAAAAGATATACGAAGAGATAGCGAATAGTGCAAGCGAAATTGACACTAACATACTAGACGTTAGAATCGAAGATCCCGAGAATCTAGAAAGCAAATTTGAGGAGATCGTTCATGATTACGACGAAAACAGAATCCAACCAATCAGGATCCCAAAGTTTCCGCGACGCCTCACGCATCGTACAAGCGAAAATCTACCTAAAATCAATAACGAAAGGATTAAAATACGCAATCCTAAATTGAAAGAATTAGCAACGCGTGTCCAGGATGACAATGAAAATCTCGGGAACACTAAATACGTAAGGACCCTTAGTGTTGATGCAATACGTGATCTAAAGCAAACCACATACTCAATAGAACTTGGCTCTGATAGTAAACGAAGTATATCGATTAGTGAAGCTATCGAAAAAACTCCTAATAACGAAAACTCTATTAAATACACTAAAATAACAACAAATTTAAAAATAGAAGACCTTAAAATGAGACAGTCAGACGAATTTACCTCTGCCACTGCTGATACAGCAAATATTAACAATAACGTAACAGCCGAAGACGATAGAAAGTTACAGGCTAATGCTGTCATAGAAGCCAAAATTCCTCAAGATATTTCCCAAGCATCAAAGTACACTGAAGATGCAGTTGTGAAACAAAACAGTCATGAACACAGTGCAGATAAAATATCGAATTTCAACGAGACTGACACTAATCAAGATGTACCAGACGCACCAAGCGACATGATTATCAGTAATGGCAGAAAATCTGAAGACGCTATCCAAAATTCCAATGTAACTAAACCTGCAAATCTACACGAGACTGGATTACGAAAAGATACAAAAAGTTTAGAAGCAACCACACGTAAATTTAATATAAATACAGAAAATCATTTTACCGAACTAAACAACAATGGAAGGAGTGTAGAAGATTTGAATCACTACAATCGAATTGACGATGATAATAAACATCTTAATCAAAAACCAATCGACACTGAAGACAATAAAAACGCATACGAACAAACAGAAGTAGAAAGTCTAACTGTAGCGACAAAACAAACTTACGGAAACGTTAAGGATGACACAATAAATCCAGCCGCTAAATACAAAATAGACAAAAAAGATACAAAAGATAAATCCGACATCTCTAACAGAGAACTAGACGGAAAAGGTGAATTCGAAGTGGTTAAAGGAAATGCTAAAGATGACACAATAAATCCAGCCGATAAATACGAAATAGGTAAACAAGATATAAAAGATAAATACGAGATCTCTAACAGAGAATTAGATGTGAAAGGTGAATTCGAAGTGGTAAAAGGAAATGCTAAAGATGACACAATAAGTCCAGCTAAATACCAAATAGACAAAAAAGATATAAAAGATAAATCCGACCTCTCTAACAGAGAATTAGAAGTAAAAGGTGAATTCGGAGTGGTAAAAGGAAAAGTGGCTAGGTTGGCCAAGCTTGACTCGGAGGGTGGCACCGAAAGAAAGATTTCAGAACAAAACTGCGAAGTCCCTAAGAAGAAAAGTATATTATCCAAGATAGCATTGTTTGAGCGTCAAGATGTCAATGACCTGAGTCCAAAGAGAAAGAATCGTCCACCTAAAATTGAAATTTACAATTCAATAGAAAAAGTGCACGTGCACACTCCGAAAATCGTGGACGAAGTCCTGAAACCAGTGCAAGAAAAAATAAACGTTAACGTCTCAGAAATAAAGGGCAATGTCGTATCCACAAATAAAACTTTACACAATGCTTCCCTTGAAACTATAAAGAAAATTGAAACAAAACGCGCTGACGTTGACTATATAAAAGTAACGGAGACAAAAGTCGAAAGAGCCACTAGTCCTATTTGGAAAATGGACTTTAATGCCATATTGAATAACAGCGATAGTCCCATGTTAGTTGATGCGCCGGTAATTTTACCGTCACCAAACGTAATTGGAAAATCATTCGACGGCGTCAATAGAGATGAAATTTCAAAAACCGCTGTGACCGAACAGAATAACATTTCGAAAGAAATATTAACACCTGTTCACAGGAATTTCGACCAAAACTCGACTGCAGAGATTCGATATTCAAATGAAACTATTGATTGGAGAACAAAAAGTATGAGTAAATTTTCTAGGACCACTTCACACGAAAATAATCTTAATTCACCGAAACTTAAAACCGATACTCCCGTACCCAATGATATTGAAATAAGATTCACTGGAAGCAAGTTTGAATTCTCAACGAATCGAATAAGTGAATCGTTCGATAATAGTCTTAGAATCCAACAAAATAATGTTGAAAATAGAATAATTAAGGAACCCAAATCGCCTAGAATCTTCGACAGACCGAGCACAGAAGAAATGATAAACAGATTCGACGTTAAAAAGACTACAAATGAAAACAAACCTTATGTTTCAAACAACAAGGACGTTAAAATTAGAACAGATATTCGAACGCCGATTTTTGAAAAAGAATTATGGACGAACAAATCATTTGAATATAAACCCAGTCACGTTAGAAATAAAGACGAAAATTACATCAAATTCGAAAATGACGCCGGAAGGAATTACCACAGTTTAAATAATAATTTGAACGTCACTAAATACAACGATGAAAGCGTTTTTAGTTCAGACAAAAATGAGCCTAATCTTTGTAGCGTAAGGCATAGAATCGTCGACGTGGAGAAACGCTCGAAGTCGCTCGCCGATTCTCAAACTGTCGGTAAAGCGAATAATAGTTTTTTAAGCCGAATGAAATCAGTTGACAGATTTGAAAACGTCAAACGGGATGGCGGCGTCAAAGATTTGGCGGGAAAACTTTCAGTGTCGGAGAGAATCGCCTTGTTCGAAGTGAGTTCTAGCGCACTCGACCGCGGTCCATCTGATCTAAGAACAAACAAAATGAAGATAATCTGGTTCATATTGTGCTTCTTTGTGTTCAGGAAGATAACTTCGGTCAAGATGGAGGAGTCTCCCGGAAGCGGGCGTCGGCGTTTGGACAACGGCAAACAAAAACGAGACACGAGAGACCTCACAGATGAACAATATAAGACCAGGGTCGCAGAACTGAACGAAGCTAAGCTGAAAGGGAGCGTGAAGGAAGTGGCTACTTTGAAACTACGCGACGGGACATTCATGCCGGTCATAGCCTTGGGCACGGCTTTGCTTCCTCCACGGTTAGCAACGGAAATAGTCGAGACAGCTATTGATATGGGCTACAGAGCTATAGATACCGCTTATATTTACGGCAACGAAAAGCTCATAGGAAAAGCGATCAAGAACAAGATTGACGACGGCACCGTGAGGCGAGACGAGCTCTTCATTATGGGTAAATTGTGGAGTACATTCCATCGCACTGATCTGGTGGAGACGGCCTGCAGGATTTCACTGGCAGACCTGGGCTTGGAGTTTTTCGACCTCTTCCTCATCCACAATCCAATGTCTTTGAAGGAAGGCAACAGTTCTATACCGAAGATATCATCAGTGATCCAATACTCTGAGTTCGACTACATGGACGCCTGGTTCGGCATGGAAGACCTCGTAGCGAAAGGCTTGGCCAAGAACATCGGGGTCAGCAACTTCAATTCGACCCAGATCCAGAAGATTTTAGACAAAGGCAAAGTCAAGCCCGCCGTTAACCAGGTCGAGTGTCATCCGTACCTGACTCAGCAGCGCCTCCACAAGTTCTGCGAGGAAAAGGAGATTATTCTGAGCTGCTTCAGCGTACTAGGGTCGAAGGGGACTCCGACAGAATACAAGAGCAACAACTTCTCCGTCATCGATGATCCCCTGGTACAAGTGATGGCTTCCGGCCTCGGGATCACGCCCGCCCAGCTGCTCATCAAATACCAGATCCAATGCGGTCACAACGCCATCGTGAAAGCCTCCACCGGAGCCCACCTGTGGGACAACCTTCAGGCGCTGAATGTAGACTTAACCACGGAACATATAAACGCATTGAACGCCCTAAACAAAAATAAGCGAACCTTCACATTCGTTGGAATGGGTGAAACTCACAAAAACTACCCGTTTTTAGCGCCATTTTAA

Protein

MEHSRLLKFLVPGDDNKHDMDDDKLSSPTLKVQHDYHDPDNVHAIVPGTQELREVDGATTSSTSTQLEAEIQNGGYTVTRTSYQEISETVEGIKTTKTTVTLSAETNQGKETTEDTRPKTRIPKLKFRQAAERLAAERRRNRQQQEKPKLESLIPVAKSSTVKRSRFGGTPALTAKPVVVKRETRKLTDSEPDDEFEKIYEEIANSASEIDTNILDVRIEDPENLESKFEEIVHDYDENRIQPIRIPKFPRRLTHRTSENLPKINNERIKIRNPKLKELATRVQDDNENLGNTKYVRTLSVDAIRDLKQTTYSIELGSDSKRSISISEAIEKTPNNENSIKYTKITTNLKIEDLKMRQSDEFTSATADTANINNNVTAEDDRKLQANAVIEAKIPQDISQASKYTEDAVVKQNSHEHSADKISNFNETDTNQDVPDAPSDMIISNGRKSEDAIQNSNVTKPANLHETGLRKDTKSLEATTRKFNINTENHFTELNNNGRSVEDLNHYNRIDDDNKHLNQKPIDTEDNKNAYEQTEVESLTVATKQTYGNVKDDTINPAAKYKIDKKDTKDKSDISNRELDGKGEFEVVKGNAKDDTINPADKYEIGKQDIKDKYEISNRELDVKGEFEVVKGNAKDDTISPAKYQIDKKDIKDKSDLSNRELEVKGEFGVVKGKVARLAKLDSEGGTERKISEQNCEVPKKKSILSKIALFERQDVNDLSPKRKNRPPKIEIYNSIEKVHVHTPKIVDEVLKPVQEKINVNVSEIKGNVVSTNKTLHNASLETIKKIETKRADVDYIKVTETKVERATSPIWKMDFNAILNNSDSPMLVDAPVILPSPNVIGKSFDGVNRDEISKTAVTEQNNISKEILTPVHRNFDQNSTAEIRYSNETIDWRTKSMSKFSRTTSHENNLNSPKLKTDTPVPNDIEIRFTGSKFEFSTNRISESFDNSLRIQQNNVENRIIKEPKSPRIFDRPSTEEMINRFDVKKTTNENKPYVSNNKDVKIRTDIRTPIFEKELWTNKSFEYKPSHVRNKDENYIKFENDAGRNYHSLNNNLNVTKYNDESVFSSDKNEPNLCSVRHRIVDVEKRSKSLADSQTVGKANNSFLSRMKSVDRFENVKRDGGVKDLAGKLSVSERIALFEVSSSALDRGPSDLRTNKMKIIWFILCFFVFRKITSVKMEESPGSGRRRLDNGKQKRDTRDLTDEQYKTRVAELNEAKLKGSVKEVATLKLRDGTFMPVIALGTALLPPRLATEIVETAIDMGYRAIDTAYIYGNEKLIGKAIKNKIDDGTVRRDELFIMGKLWSTFHRTDLVETACRISLADLGLEFFDLFLIHNPMSLKEGNSSIPKISSVIQYSEFDYMDAWFGMEDLVAKGLAKNIGVSNFNSTQIQKILDKGKVKPAVNQVECHPYLTQQRLHKFCEEKEIILSCFSVLGSKGTPTEYKSNNFSVIDDPLVQVMASGLGITPAQLLIKYQIQCGHNAIVKASTGAHLWDNLQALNVDLTTEHINALNALNKNKRTFTFVGMGETHKNYPFLAPF

Uniprot

H9JRI9

Pubmed

19121390

EMBL

BABH01031837 BABH01031838 BABH01031839

Proteomes

UP000005204

PRIDE

H9JRI9

Pfam

PF00248 Aldo_ket_red

Interpro

IPR023210   NADP_OxRdtase_dom        + More
IPR036812   NADP_OxRdtase_dom_sf
IPR018170   Aldo/ket_reductase_CS
IPR020471   Aldo/keto_reductase

SUPFAM

SSF51430 SSF51430

Gene 3D

3.20.20.100

CDD

cd06660 Aldo_ket_red

ProteinModelPortal

H9JRI9

PDB

1Q13 E-value=2.85532e-59, Score=585

KEGG

101741520 no KO assigned | (RefSeq) uncharacterized LOC101741520

GO

GO:0016491 GO:0008270 GO:0004190 GO:0006508 GO:0016701 GO:0006355 GO:0003824 GO:0008152 GO:0015930 GO:0055114

PANTHER

PTHR11732

Length:

1539

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.01709

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00000

outside

1 - 1539

Pi

157.381485

Theta

170.333563

Tajima's D

-1.65358

CLR

1443.085606

CSRT

0.0407979601019949

Interpretation

Possibly Positive selection

Source	Sequence	Identity	Evalue
28556443	TAVTEQNNISK	100.00	1e-09
28556443	VQHDYHDPDNVHAIVPGTQELR	100.00	0.003

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics