SGID Silkworm Genome Informatics Database
Gene
KWMTBOMO13576
Annotation
PREDICTED:_uncharacterized_protein_LOC105841762_[Bombyx_mori]
Location in the cell
Mitochondrial   Reliability : 1.138 Nuclear   Reliability : 1.487
 

Sequence

CDS
ATGAGACGCACACGTGCTAAGCTGAGCGGAGCAGAAATTGAAGAGATAAGAAAACAAGACAAAGAAAGATACAAGAAAAAGAAAGCTGAAGGAGGGTACCTCCCGCTCAGCGGGAGGAGAATCCCTCCGTGCCTCCGAGCAATCGGAGGCACGCTGCCCCTCGTATTCTGGGGGGGCAACAATTGCCTAGAGGAAGGAGGCGGCAGCACGAGCCGCGAAAAAGATCTATTCGTGCATCCTGAGCGTTGCGACAGTGCACTCTCACTGCGCTCGACGCGAAGCTCTGCGAGGGGCTACGCGTCGAGTGGTCGAGAGTCGCCGCTTTTGCTTCGGAATACTACCGGACGGTTCGCCAGCAGAGCCAACGCTGATGCGAAAACTCGGAGGAAGCGGAAGACGGTCAAGAGACCGGTGACTTCCGCTCCCTCCGACTCCTCGGAAATTGAACCCGCGCCCGCCAAGTTTTTGGCGGTCGAGGAAAGAACGGCGACTATTGCGGCGTCGTCTGCCAAAGAACAGGATGTTCGGATAACCTGCGGCGGATTGGCAACCGGCTCGCTGCGAGGCGGGAGAACCCGTTGTGGGAAGGCCGAACGAATCAGGGAGGGAGAGGTTGAGCGGTTGTGCCGCTCCCTTATGGAGACTGAACCCACTGACCTCCACAAAACTTTCGAAACCTCTCTGGATATTGTCTCCAAGGTGGCGAGCAAATCAGGCTCCTTAAAGGGCACGTACGTGCATGCCCTGAATTGCGTGGTCACTGCCATGGGTAGACTCTTAGAGGCATTTCTCCAGCGCACTGCCACGGAGGAAACAGCTGGCCTGCGGTCGCAGCTGGAGAGTCTACAGGCTTTGTACGCCTGCGTTCAGAGTGAGAATGCAGAGCTTCGGGCGGAAAGTGTAAAGTTGCGGGAGGAGATGGCCGCCATGCGTGTGGCCATTGATGGTGTAAGGAGACAGCGGGGCAGTTCAGTTTCCCCACCACCACCATCCCAAGTGCAAGAGGCCATAGTGGCGGAAAAAGATAAGGAGATCGAAGACCTCAAGAGACGCCTAGCCATTCTTGAGGCTCGCACCTCTATAGTAGTGCGCGCGAGGCCACCGCTGGCACACGAGCGGCCAGCGCAAGCATCACTAACGCCTAAGACCGCGGCTGCACCGGCGCCCGCGAACGCCACTGCGGCCAAACTGACTACACGGTCCAAGACTGCTGGGCGACGAACACCCGCCCAACCTGAGAGGCCTCAGGCTGCTGCTTCTGCCCCGCCCCAGCCTGCGAAGGCGGGGCCTGGCAGAAGCCGCAACAATCCAAAGGGGTGTGTGAATGCCACCCAGCCAGCGCAACACCCCCAGCCCCGTCCATTGCCTCCCGCCCCGTCCAACATGGACGCAGCCTGGACGACGGTAGTGAAGCGGGGTCGAAGGAGGGCGCAAGACGTACCTAACCCCCGTCCCGTTCCGACAGTCAATGCTCCCCAGGTAGTGGGTCGAGCAGCAACTGAAGGGAAAAGAAAGGGAGGGCGCAAGGCAAGAAAACCGCGCGCCCCGCGGTCGGCGGCTGTCGTATTGGAGCTGCTGCCGGCTGCCAAGGAAAAGGGCCTCACCTATGGGGAGGTGATGGCCCGGGCGCGCGCTAGCGTCGACGTGGATGCCATGGGCGTGGAGGGTGGCCTCCGAGTCCGGCACACCGCCAACGGGGCCCGGTTGCTGGAGTGTCCTGGTGCCAACACCAGTGCGGCCGCGGACAAGCTAGCAACCCGGCTCCGTGAAATCCTGCCGGACCCAGAAGTGGTACGTATAGACAGGCCCGTCAAAATGGCAGAAGTCAAAGTGACGGGCCTGGATGAATGCGCCACAAAGGAGGAAGTGGCCGCCGCCATTGCATCGCAGGGCAATTGCGCCCTCACGCAGGTCAGAGTGGGAGAGCTGCGAAGCTCTTACTCTGGAGCCTTCACTGCGTGGGCCCGTTGCCCTATGCAGGCGGCCACGCTCCTGGCTACGCCTCCACAAGGTCGGCCCGCCGACTCACCAGGGAGGCTGCGCGTGGGCTGGGTGATGGCCCACGTGCAGTTACAGAAGGCCCGCCCCTGGCGATGCCTCCGGTGCTTCGGCACCGGGCACGGCCTCGCCAGGTGCCCATCGGCCGTGGACCGCAGCGGGCTTTGTTTCCGCTGCGGCCAGCCCGGACACAAAGCGGTCTCCTGCACAGCCGCCGCGCCACACTGCGTGCTATGCGACGCGGCGAAGCGGCGGGCCGATCATCGGGCTGGGGGCCCGGCCTGTCTTTCCGCCCCCTCCTCCACAAAGAGGAGGCGTGGCGGGAAAAAGAAGAAAATAACAGAGGAAGAGCCGGCTGCGTGTAAAGCAGCCGGCCAGTCAGTTCCCACCGCGGCCGTCGGGCCGCAAGCGAACGTGAACCACTCCGCCAGGGCGCAGGATCTCCTCGTCCACACCATGGCGGAGTGGTTCATCGACATCGCGATCGTTGCGGAGCCATACTTCGTACCTCCCGACCGGGAGGATTCCTGGGCCGGAGATGTTGATGGCTCCGTGGCGATCGTGATGCGACAGTCAGCGGCGTTACCCCCCCTTGGAATGGTGGCCAGGGGATCCGGGTACGTCGTAGTTAGGGTCAACGAAACCGTCGTGATCGGGGTGTACTTCTCTCCGAACAGGAGTCTCGCTGAGTTCGAACGGTTCCTGGGTGGACTCGAGGCGTTGGTTCATCGCTTCGAGTCTCGCCCGGTGATACTGGCGGGGGACCTCAACGCTAAATGTACAGCGTGGGGCTCCCCCCGCACGGACTCGCGCGGCGAGTTCCTGTCGGAGTGGGCTTTCGCGACCGGTCTCTGTCTTCTGAACAGAGGTTCGGTCGCGACCTGCGTGCGGTGGAACGGGGAATCACACGTGGACGTGTCGTTCGCGTCTCCGTCCGCCGCACGCCGTGTCCGTGGCTGGCGTGTTCTCGAGGGGGCGGAGACGCTCTCGGACCATCGATTTGTCCGATTTGAGCTCTCCGTTTCCACTTCGTTGAATACGCCGGCCGAAGACGCCCGCGGCGAGGAGGAGCTCCCGCGTAGCGCTCCCCGATCATTCCCACGATGGGCACTGAAGCGCCTGAATAAGGTGCTCGCGGTGGAGGCGGCCACAGTGGCCGCGTGGGCGCCGATGCCCGCGCGTCTAGTGGACGTGGAGTCGGAGGCCGATTGGTTCCGGGGTACGATGCGTCGCGTCTGCGATGCTGCGATGCCCCGGGTCAGCGGCCGCGCTCCACGTGGCGGTGCGTATTGGTGGACGCCCGAGATCGCACTCCTCAGAGAGGAGTGCGTGCGGGCACGCCGCCGAAGCGCCCGCCACCGCCGTCGCCGTCTTCGCGGTATGGATTTCGCGGAGGTGGCGGCCCGCTTACATGCCGACTGCCGTGAAAAGCAGGAGGTTCTGCGGCGGGCCATCGGCAAGGCCAAGTCTCAGAGCATGAAGACGCTCCTGGAGACGCTCGATCAGGATCCCTGGGGGCGCCCGTACCAGACGGTACGCAAGAAATTGCGACCGTGGGCGCTCCCGGTGACGGAGCGTCTCCAGCCTCAGCAGCTGCGGGATATTGTCTCCGGGCTATTCCCGCGGATGGAGAGGGACTTTGAGCCCCCCTTCATGGGCGTGCCGCCACGCCTTGACGTGAGCGGTGATGCCCCTGCTGAGGTGGTTCCTCCGAGCATATCGGAGCAGGAGATTCGTGCGGCCGTGTCGAGGATGCGGAGGAAAGACGCGGCCCCCGGCCCTGACGGTGTTCACGGTCGGGTTTGGGATTTGGCCTTCGGTGCCCTTGGGGACCGGCTCGTGCGGCTCTTTGAAGCCTGCCTCGAGTCGGGGCGGTTTCCAAAGCAGTGGAAGACGGGCAGACTTGTTCTGCTAAGGAAGGAGGGACGCCCTGCGGACTCACCTGCGGGGTATCGTCCCATCGTGTTGCTGGACGAAGCGGGAAAACTGCTCGAGCGGGTGGTGGCCGCCCGCATCGTCCAGCACCTGACGGGAGTGGGTCCTGATCTGTCAGCGGAGCAGTTCGGATTCAGGGAGGGCCGCTCGACCATCGACGCGGTGATGCGCGTGCGCGCCCTCTCTGATGAGGCTGTCGGCCGGGGTGGGGTTGCACTGGCGGTGTCCCTGGACATCGCCAATGCGTTCAACACCCTGCCCTGGTCGGTAATCGCGGGGGCGCTGCAGTATCATGGCGTCCCTGCGTATCTCCGTCGGCTGATCGGGTCCTACCTCGAGGATAGGTCGGTCGTGTGCACCGGGCACGGTGGGACGGTGCTCCGCTTCCCCGTTGAGCGCGGTGTTCCACAGGGGTCGGTCCTTGGCCCTCTCTTGTGGAACATCGGCTATGATTGGGTCCTGCGGAGCGCCCTTAGCGCTCCTCTCCCGGGTCTAAGCATAGTTTGCTACGCGGACGACACTTTGGTCGTGGCCCGGGGGAAGGATTTGCGCGAGTCTGCTCGTCTTTCCTGCGCGGGGGTGGCCTTCGTCATCGGCAGGATCCGACGGTTGGGTCTGGAGGTGGCGCTTGATAAATCCCAGGCCCTGTTGTTTCACGGGGCCCGGAGAGCGCCGCCTCAGGGGGCCCACCTCGTGATCGGAGGCGTTCGCGTCGAGATCGAGGCAACCGGGTTGCGGTACCTCGGTCTCGTACTGGACGGTCGTTGGAGCTTCCGCGCTCACTTTGAAAGATTAGGTCCCCGACTGATGGCGGCTGCCGGCTCGCTGAGTCGGCTGTTGCCGAACGTCGGGGGGCCTGACGTGGTAGTGCGCCGCCTCTACACGGGGGTGGTGCGGTCGATGGCACTGTACGGGGCTCCCGTGTGGTGCCACGCCCTGACCCGTGACAACGTTGCGGCGTTGCGACGTCCGCAGCGTGCGATTGCGGTCAGGGCGGTTCGTGGATACCGCACCGTCTCGTTTGAGGCGGCGTGCGTGCTAGCTGGGACGCCTCCCTGGGACCTAGAAGCGGAGGCGCTCGCTGCGGATTACGCGTGGCGATGCGATCTCCGCTCCAGGGGGGAGCCGCGCCCCGGCGCGGCGGAAGTTCGAGCGCGGAAACTTCAATCTCGGCGTGCCGTGCTCGAGGCGTGGTCTCGCCGCCTGGCGGACCCCGCCTACGGACGACGGACTGTCGAGGCGATCCGCCCGGTCCTCTCGGACTGGGTGAATCGCGACCGAGGACGTCTCACCTTCCGAGCGACGCAGGTGCTCACGGGACACGGCTGTTTCGGTCGCTACCTGCACCTCGTCGCCCGGAGGGAGCCGACGCCGAAGTGCCACCACTGCAGTGGCTGCAACGAGGACACGGCGGAGCACACGCTCGCGTACTGCACCGCTTTCGCGGAGCAGCGCCGCGTCCTCGTTGCAAAAATAGGACCGGACTTGTCGCTTCCGACCGTCGTGGCTACGATGCTCGGCAGCGACGAGTCCTGGCAGGCGATGCTCGACTTCTGCGAATCCACCATCTCGCAGAAGGAGGCGGCGGAACGGGAGAGGGAGAGCTCTTCTTCCCTCTCGGCGCCGTGCCGCCGCCGTCGAGCCGGGGTTCGGAGGAGGGCGTTTGTCCAGCTCCAGCCCCTATGA
Protein
MRRTRAKLSGAEIEEIRKQDKERYKKKKAEGGYLPLSGRRIPPCLRAIGGTLPLVFWGGNNCLEEGGGSTSREKDLFVHPERCDSALSLRSTRSSARGYASSGRESPLLLRNTTGRFASRANADAKTRRKRKTVKRPVTSAPSDSSEIEPAPAKFLAVEERTATIAASSAKEQDVRITCGGLATGSLRGGRTRCGKAERIREGEVERLCRSLMETEPTDLHKTFETSLDIVSKVASKSGSLKGTYVHALNCVVTAMGRLLEAFLQRTATEETAGLRSQLESLQALYACVQSENAELRAESVKLREEMAAMRVAIDGVRRQRGSSVSPPPPSQVQEAIVAEKDKEIEDLKRRLAILEARTSIVVRARPPLAHERPAQASLTPKTAAAPAPANATAAKLTTRSKTAGRRTPAQPERPQAAASAPPQPAKAGPGRSRNNPKGCVNATQPAQHPQPRPLPPAPSNMDAAWTTVVKRGRRRAQDVPNPRPVPTVNAPQVVGRAATEGKRKGGRKARKPRAPRSAAVVLELLPAAKEKGLTYGEVMARARASVDVDAMGVEGGLRVRHTANGARLLECPGANTSAAADKLATRLREILPDPEVVRIDRPVKMAEVKVTGLDECATKEEVAAAIASQGNCALTQVRVGELRSSYSGAFTAWARCPMQAATLLATPPQGRPADSPGRLRVGWVMAHVQLQKARPWRCLRCFGTGHGLARCPSAVDRSGLCFRCGQPGHKAVSCTAAAPHCVLCDAAKRRADHRAGGPACLSAPSSTKRRRGGKKKKITEEEPAACKAAGQSVPTAAVGPQANVNHSARAQDLLVHTMAEWFIDIAIVAEPYFVPPDREDSWAGDVDGSVAIVMRQSAALPPLGMVARGSGYVVVRVNETVVIGVYFSPNRSLAEFERFLGGLEALVHRFESRPVILAGDLNAKCTAWGSPRTDSRGEFLSEWAFATGLCLLNRGSVATCVRWNGESHVDVSFASPSAARRVRGWRVLEGAETLSDHRFVRFELSVSTSLNTPAEDARGEEELPRSAPRSFPRWALKRLNKVLAVEAATVAAWAPMPARLVDVESEADWFRGTMRRVCDAAMPRVSGRAPRGGAYWWTPEIALLREECVRARRRSARHRRRRLRGMDFAEVAARLHADCREKQEVLRRAIGKAKSQSMKTLLETLDQDPWGRPYQTVRKKLRPWALPVTERLQPQQLRDIVSGLFPRMERDFEPPFMGVPPRLDVSGDAPAEVVPPSISEQEIRAAVSRMRRKDAAPGPDGVHGRVWDLAFGALGDRLVRLFEACLESGRFPKQWKTGRLVLLRKEGRPADSPAGYRPIVLLDEAGKLLERVVAARIVQHLTGVGPDLSAEQFGFREGRSTIDAVMRVRALSDEAVGRGGVALAVSLDIANAFNTLPWSVIAGALQYHGVPAYLRRLIGSYLEDRSVVCTGHGGTVLRFPVERGVPQGSVLGPLLWNIGYDWVLRSALSAPLPGLSIVCYADDTLVVARGKDLRESARLSCAGVAFVIGRIRRLGLEVALDKSQALLFHGARRAPPQGAHLVIGGVRVEIEATGLRYLGLVLDGRWSFRAHFERLGPRLMAAAGSLSRLLPNVGGPDVVVRRLYTGVVRSMALYGAPVWCHALTRDNVAALRRPQRAIAVRAVRGYRTVSFEAACVLAGTPPWDLEAEALAADYAWRCDLRSRGEPRPGAAEVRARKLQSRRAVLEAWSRRLADPAYGRRTVEAIRPVLSDWVNRDRGRLTFRATQVLTGHGCFGRYLHLVARREPTPKCHHCSGCNEDTAEHTLAYCTAFAEQRRVLVAKIGPDLSLPTVVATMLGSDESWQAMLDFCESTISQKEAAERERESSSSLSAPCRRRRAGVRRRAFVQLQPL

Summary

Pfam
PF14529   Exo_endo_phos_2        + More
PF00078   RVT_1
PF01421   Reprolysin
Interpro
IPR001878   Znf_CCHC        + More
IPR036875   Znf_CCHC_sf       
IPR036691   Endo/exonu/phosph_ase_sf       
IPR005135   Endo/exonuclease/phosphatase       
IPR000477   RT_dom       
IPR024079   MetalloPept_cat_dom_sf       
IPR001590   Peptidase_M12B       
IPR000663   Natr_peptide       
SUPFAM
SSF56219   SSF56219        + More
SSF57756   SSF57756       
Gene 3D
PDB
1WDU     E-value=6.689e-09,     Score=151

Ontologies

Topology

Length:
1872
Number of predicted TMHs:
0
Exp number of AAs in TMHs:
0.0396200000000002
Exp number, first 60 AAs:
0.01817
Total prob of N-in:
0.00158
outside
1  -  1872
 
 

Population Genetic Test Statistics

Pi
167.690296
Theta
132.01252
Tajima's D
0
CLR
338.55073
CSRT
0.370481475926204
Interpretation
Uncertain

Multiple alignment of Orthologues

 
 

Gene Tree

 
 
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