Gene

KWMTBOMO06482  Validated by peptides from experiments

Pre Gene Modal

BGIBMGA011857

Annotation

PREDICTED:_maternal_protein_tudor_[Bombyx_mori]

Location

Bomo_Chr11(-):8652247-8664840      View in EpiBrowser

Location in the cell

Nuclear   Reliability : 2.713

CDS

ATGTATAGAGACAACAAGGAGGGTTTCGATAGATCAGGCTCGGGCCGGTTCAGCGACAAGTTTGGCGGTCGATCGGAGAGAGGCGAACGACGTGGAGGTGCTAGGCCCTGGGAGAACAATGCACCGACTCCGGCCGCAGCTTCTTCGGAAGAAACACCGTCCGAGCCGAGATCTGAACAGTCTAGCAGGCAACAATACGGAAGAAGAAAACCTAGGTCGGACCAACAGGAGAAGCCCGGCGGCAAGCCTGCCTGGAGGAGGGACGCCGGCGTCGGCCAGCGCCTGCGCCAGGCCGCCGAGGCCGCGTCCGCTATCGCCGTCCCTCTCTCGCACCGACACAAACGAGACAGCAGATTCAATCAGAGGGAAGACCGGGAGGAGAGGAATGGCGACGACCGCGCGACCAGACCGCGTGATGGGCGGCCGGAGCGTCGCGAACACCGACCTGAACACCGACCCGAACACCGACCTGAACATCGCACGGACCGACGCGAGCACTGGGGCGACAAGAGGGACGCCCAGCGACACGACAAGCCCCGCAGCAACTTCACGCCACGCGAGCGCGCCGACCGGTCCTTCGCTTCGGACAGCGACAAGAGCTTCCGGTCCCAAGCTCGCGCCCCGCCCGCCTACCGACACCTGCCCGACCCCGTCCCGCCGGAGATCGCGCGCTTCGCCGAGCCCGCCGTCCAACCCGACGCGCAACACGAGGTCTCCGTCACTTGGATCGTCTCCCCGGAGAACTTCTACTGCCAGATCCTGTCCGAGCAGCCGAGCTTCCTCGAAATGATGCACCGGATCCCTGAACTGTACAAGGGCGTCAAGAACTACACGGGCCCCGTAGATGTTGGCGCGTCTGTACTAGCGCGATACCCGGTCGACGGAGTTCTGTATCGAGCGACGATTGTTGCGATCCAACCTTTCTCAAAGTATATCGTTCGTTACGTTGACTTCGGTAACAAACAACTGGTGGACGCCAAGGACCTGTGGCAGCTAGACAAACAGTTATTAGCACTACCGAAAATGGCGGTACATTGTTCTCTAGTCGGAGTCGTACCTAAAGATGGCGAGTGGAAAGCGGATCCCGAGATAGATTTGTGCTTCAACGCCCCTCGATATCAGTGCGTGTTCCAAGATTGTTCCGAGGAACAATATAAGGTGTCACTGTGGAACAACGGTATCAGCGTTGCGGACATTCTAGTGGAAAAGCAACTCGCCATATTATCTGAACATCAGTCATCTGTTACTTTAAAAGATGAAGCTATCGATCTCATGATAATTGTCGGGCAGCAGATCCCATGCAGAGTGACTCACGTTGAATCTTTCGAAAAATTCTATGTGCAACTTGATTTAGAAAAGGCTGCTTTGGTTGAGACCGCGATTGCTGACTATGACAGTACCAAGTTAACTCCTCTAAGTGCAGACAGTCTTTCGGAGGGTGTTCATTGCACTGTAAAATATGAAGACAAAATATATCGCGCCATATTAGAAGATATATCGGATACGTCGAAGATAAAAGTCTCATTGCCTGATTATGGAAACGAAATTATAACAAAACTTGAAAATCTAATGATTTTACCAACAGAACTGAGCGTATATTATTACCAAGCATTGCAATGTTGTCTAAACAACTACAGTTCTGAATCGAAAACATTAATGACAGTGGATGAATTAAAACAGCGTCTAACCGGGAACAAATTTATAATCTATATCAATAGTGTAAATGAAATATGCCTCTCTACAACTTTGTATGACAGTAAAAGTGGTCAGAAAGTATCAATATTTGAACCAGATGAGGGAGCGTATGATGAAGTGATACAACTATGTGAGCGGTCCGTCTTTAATTATAACTTCGGACTTGCTTATTTATCGCATGCAGAGAACTTAAACGAAATATACATGCAAAAAGCCTCCGATGGAGATAAAATCGCTCAAATGCTCGAGGATCTTTACAACTTCTATGAGGAAGGAACGCCTGAACCGCTAACTAGCTTCGAGGTCGACGGTCTATGTGCAGTTAAGTCTTCAGATAGCAATTGGTATCGCGCCACGATCTTATCGATTGACGACAATGATGTAAAGGTACAATTCCCTGATTACGGTAACTCTGAAACTGTACCAAAAGAGTCAATCAAAAAATTAGATTGTAAATTTTACGAGCCCTGCGCATTAGCGCTGGAAGCAAGCTTGGGACTTGTTGCGTTACAAGAGGACACACTTCCGAAATTGTTGGAATGGACTAATGAAAAAGAAATACAGGTGACAATTGCTTTTGGCTCTGATGGATGGCTCGCAAGTTTACATATAGATGGTGTTGACTTGTCCATGAAATTGATAAGTGATAAGCTAGCAACACCACGAGTAGCTGTTGAAGAACAACCGAAATCAGAACCTCCTCCAACAGAGGAACCCATATCATTACCTGAAGGCTGCACTCAAGTTTATATTAGTCACATTGATTCACCTGGATTATTCTGGTTACAAATGCTGGACAAAGTTGAGAAAATTGAAGAGATTCAGGCAGAATTACAAGCCAATTTCGAAAGTTACAAAGACATTGAGAGTCGAGACTTGGGTACATTATGTGTCGCTAAGTATAGTGCAGATAATCAGTGGTATAGAGCTGAAATACTTGATTCCGATGCGGATATCACTACTGTTCGCTTTATTGATTACGGTAATACAGATGTTTTGGACAATGAGCCTGGTTTGATAAAAGTCATGCCAGATAATTTAAAGGAAATAGAACGTTTTGTTTTAAAATCTAGTGTTAACGCCATACCTACTGGCACTGGACAGTGGTCTGAGCCAGCTTCTGACTACTTCACGGAGCTAGTAGGCGACCTCTCCGTGCCTGTAGACGCACGCATCGTTCTCAAAGATACATTGACTTATGTTGATATCTATGTCAATGGTCAAAATCTCACAGACAAATTGGTTAGCGAGGGTCACGCAACAAGGTCCGAGGAACCAGAATGTGGAGATTTGCCATCATGCTTTGCAAGTCACGTTAATTCTCCTTCAGAATTCTGGATACAACTTGAAAGTGCAACTCCAGACTTGCAAGCTATGGAAGCAGCCATGGTAGATGCTGAAAATTTCCCTGAACTCACGGATAAAGAAGAAGGTGTAATATGTGCAGCCAAGTACCCAGAAGATGGAGAATGGTACAGAGCTCAAGTTATTGTAGATGGATCGGAAGGTACGGAAGTGCTTTTTATGGACTATGGCAATGCCTCGATTGCAAATGAGCTCCGTAATCTTCCCGATGAACTTAAATTAAAACCGGCCCTATCGAGGAAATGTGCTCTTCAAAAGCCTCGAAATATAAAGTCATGGTCTCGAAAGTCAGAAGTAAAATTTAATGAATTAGCTGCCGAGGGTGCTACTATTTTTAATGTCCAATTTATAGCAGCCGGTGATATATCCATAGTCGAATTGTACCTTGAAGGTAAATCAGTCACTGAAGAATTACTAGGGCTTTGCGATGACCAACCTCCTCCTCCTGAAAGACCCACACCCGTTGGACAAGATTTACACTCTAACGGCAAAGTATGTTATGTAAATTCAGTTGACGAATTTTATGTTCAATTAAATGATTCTGTGTCTAATCTTGATAAAGTCATAGAGAAATTGGAGATTGCAGAAGAATTTGATGAAGTGATAGATCTGCGAGTCGGCTCATTATGTGCTGCGTTTTGGTCAGAAGATGAACATTGGTATAGAGCAAAAGTATTAGAATTCTGTGACGTAGGTTACCATGTCCAGTTCATAGATTACGGAAATAAAGCAAAATGTGAGGAGTTTAGACAACTTCCTGAAGATATTGCTTTAATAGATCCTTTAGCTAAGTGTTGTCGTTTAGCTGGGGTGCCAAATGATACCAGCTTACATGAATCTGGACGAAATAAACTTGACGAATTCGCAGCTGAGGATGCGACATTCGAAATAGAATTTTTAGATAGCACCAAGGAACCAATTCTTGTTAAAATGTTAATTGACGGAAAAGACGTAACAACTACTTTCTCAAATGAGGCAACTAATATCGAAAGTGTAAATATAAGTGGAACTGAAAAAACTGACTTAGTAATATCAAAATGTACTAATTTTGCTACAAATCTAGAGGAAACTACCCTTACTGCCGAAAATAAATGTGACAATGATGAAACAGATATTTTAACTTCAAGCAACTCCGAAAAACCATTGACTGAATTGAGCCAAGAAAAATATACTACCGAACTTAACACTTCATTACCAGATCTTGATGAGAGCTTAGACAGTACTGGTACAGTTATCGAGAACAAGTCCTTTGAAGAAAAAGCAGACTGTGCAAGCGACGTCTTTTTGGAAAAAGAAAGCACTAGAGAAGAAATTTTAAGTTCTTCAGTTAATAATGAATTCACAGATATTACACATAATGAATCCACAGATATTACACATAATGAATCCACAGGTATTACACTCAAATCAGAGGAAACTGTAACAACACCCGATAGTGATGAATCTAAAAAAGATGAGTCTATTTCAGACACTGGGTATGCAAGTGCAATAGATCAAAAGGTTTCTAAAAAAGATTTAGGGTCGTCAAACGAATCTGAATCACCCAATGACACAAAATTGTCAAAGGAATTAGTAGAATTAGAATTAGAATCGTCAAGTAAAGAAACCGAAAGCATCACTGTTGCAGGAGAAAGTTTAGTTGAAGATAAAGCTAAGGCTGTTGTGGCTGATGGAAAATCAGTAAGCACAGAGGTACACAATACTGAAAAAAGTGAAAGTGAAAAATAA

Protein

MYRDNKEGFDRSGSGRFSDKFGGRSERGERRGGARPWENNAPTPAAASSEETPSEPRSEQSSRQQYGRRKPRSDQQEKPGGKPAWRRDAGVGQRLRQAAEAASAIAVPLSHRHKRDSRFNQREDREERNGDDRATRPRDGRPERREHRPEHRPEHRPEHRTDRREHWGDKRDAQRHDKPRSNFTPRERADRSFASDSDKSFRSQARAPPAYRHLPDPVPPEIARFAEPAVQPDAQHEVSVTWIVSPENFYCQILSEQPSFLEMMHRIPELYKGVKNYTGPVDVGASVLARYPVDGVLYRATIVAIQPFSKYIVRYVDFGNKQLVDAKDLWQLDKQLLALPKMAVHCSLVGVVPKDGEWKADPEIDLCFNAPRYQCVFQDCSEEQYKVSLWNNGISVADILVEKQLAILSEHQSSVTLKDEAIDLMIIVGQQIPCRVTHVESFEKFYVQLDLEKAALVETAIADYDSTKLTPLSADSLSEGVHCTVKYEDKIYRAILEDISDTSKIKVSLPDYGNEIITKLENLMILPTELSVYYYQALQCCLNNYSSESKTLMTVDELKQRLTGNKFIIYINSVNEICLSTTLYDSKSGQKVSIFEPDEGAYDEVIQLCERSVFNYNFGLAYLSHAENLNEIYMQKASDGDKIAQMLEDLYNFYEEGTPEPLTSFEVDGLCAVKSSDSNWYRATILSIDDNDVKVQFPDYGNSETVPKESIKKLDCKFYEPCALALEASLGLVALQEDTLPKLLEWTNEKEIQVTIAFGSDGWLASLHIDGVDLSMKLISDKLATPRVAVEEQPKSEPPPTEEPISLPEGCTQVYISHIDSPGLFWLQMLDKVEKIEEIQAELQANFESYKDIESRDLGTLCVAKYSADNQWYRAEILDSDADITTVRFIDYGNTDVLDNEPGLIKVMPDNLKEIERFVLKSSVNAIPTGTGQWSEPASDYFTELVGDLSVPVDARIVLKDTLTYVDIYVNGQNLTDKLVSEGHATRSEEPECGDLPSCFASHVNSPSEFWIQLESATPDLQAMEAAMVDAENFPELTDKEEGVICAAKYPEDGEWYRAQVIVDGSEGTEVLFMDYGNASIANELRNLPDELKLKPALSRKCALQKPRNIKSWSRKSEVKFNELAAEGATIFNVQFIAAGDISIVELYLEGKSVTEELLGLCDDQPPPPERPTPVGQDLHSNGKVCYVNSVDEFYVQLNDSVSNLDKVIEKLEIAEEFDEVIDLRVGSLCAAFWSEDEHWYRAKVLEFCDVGYHVQFIDYGNKAKCEEFRQLPEDIALIDPLAKCCRLAGVPNDTSLHESGRNKLDEFAAEDATFEIEFLDSTKEPILVKMLIDGKDVTTTFSNEATNIESVNISGTEKTDLVISKCTNFATNLEETTLTAENKCDNDETDILTSSNSEKPLTELSQEKYTTELNTSLPDLDESLDSTGTVIENKSFEEKADCASDVFLEKESTREEILSSSVNNEFTDITHNESTDITHNESTGITLKSEETVTTPDSDESKKDESISDTGYASAIDQKVSKKDLGSSNESESPNDTKLSKELVELELESSSKETESITVAGESLVEDKAKAVVADGKSVSTEVHNTEKSESEK

Similarity

Belongs to the class I-like SAM-binding methyltransferase superfamily. C5-methyltransferase family.

Uniprot

H9JQQ1   A0A2W1BM51   A0A3S2LH46   A0A1E1WMP3   A0A0N0PAT0   A0A212FP82   + More
A0A2H1WKT5   A0A194PW48   A0A2A4JPD5   A0A154P9H4   E2A740   A0A088AQP9   F4WZD5   A0A195B4E6   A0A195EU51   A0A0N0BDI0   A0A195E4W3   A0A151INI4   A0A0L7RE18   A0A3L8DQV7   A0A158NPA5   A0A151X1Q6   A0A026VVD0   E2B6R9   E9IE16   A0A2J7Q731   A0A232EWW3   K7JUI5   A0A067QXN3   A0A1B6I2I7   E0VL45   B0WGL1   V4ATG3  

Pubmed

19121390    28756777    26354079    22118469    20798317    21719571    + More
30249741    21347285    24508170    21282665    28648823    20075255    24845553    20566863    23254933   

EMBL

BABH01012279    BABH01012280    BABH01012281    BABH01012282    BABH01012283    KZ149967    + More
PZC76152.1    RSAL01000010    RVE53715.1    GDQN01002923    JAT88131.1    KQ461161    KPJ08016.1    AGBW02003646    OWR55519.1    ODYU01009339    SOQ53693.1    KQ459590    KPI97223.1    NWSH01000980    PCG73270.1    KQ434849    KZC08492.1    GL437252    EFN70772.1    GL888479    EGI60379.1    KQ976625    KYM79064.1    KQ981979    KYN31432.1    KQ435875    KOX70198.1    KQ979609    KYN20203.1    KQ976932    KYN07032.1    KQ414611    KOC69222.1    QOIP01000005    RLU22787.1    ADTU01001539    KQ982585    KYQ54332.1    KK107847    EZA47491.1    GL446000    EFN88653.1    GL762556    EFZ21178.1    NEVH01017447    PNF24389.1    NNAY01001816    OXU22838.1    AAZX01003548    KK853239    KDR09511.1    GECU01026573    JAS81133.1    DS235269    EEB14101.1    DS231927    EDS27040.1    KB200701    ESP00578.1   

Proteomes

UP000005204    UP000283053    UP000053240    UP000007151    UP000053268    UP000218220    + More
UP000076502    UP000000311    UP000005203    UP000007755    UP000078540    UP000078541    UP000053105    UP000078492    UP000078542    UP000053825    UP000279307    UP000005205    UP000075809    UP000053097    UP000008237    UP000235965    UP000215335    UP000002358    UP000027135    UP000009046    UP000002320    UP000030746   

PRIDE

H9JQQ1   

Pfam

PF00567   TUDOR        + More
PF00145   DNA_methylase

Interpro

IPR035437   SNase_OB-fold_sf        + More
IPR029063   SAM-dependent_MTases       
IPR001525   C5_MeTfrase       
IPR002999   Tudor       

SUPFAM

SSF53335   SSF53335       

Gene 3D

2.40.50.90    

ProteinModelPortal

H9JQQ1   A0A2W1BM51   A0A3S2LH46   A0A1E1WMP3   A0A0N0PAT0   A0A212FP82   + More
A0A2H1WKT5   A0A194PW48   A0A2A4JPD5   A0A154P9H4   E2A740   A0A088AQP9   F4WZD5   A0A195B4E6   A0A195EU51   A0A0N0BDI0   A0A195E4W3   A0A151INI4   A0A0L7RE18   A0A3L8DQV7   A0A158NPA5   A0A151X1Q6   A0A026VVD0   E2B6R9   E9IE16   A0A2J7Q731   A0A232EWW3   K7JUI5   A0A067QXN3   A0A1B6I2I7   E0VL45   B0WGL1   V4ATG3  

PDB

4Q5Y     E-value=1.29203e-21,     Score=260

KEGG

101742607    K18405 tudor domain-containing protein 1/4/6/7 | (RefSeq) maternal protein tudor

GO

GO:0008168  

Length:

1595

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.00221

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00011

outside

1  -  1595

 

 

Pi

315.20814

Theta

216.461449

Tajima's D

1.284878

CLR

0.021177

CSRT

0.738963051847408

Interpretation

Uncertain