Silkworm Genome Informatics Database

Gene

KWMTBOMO04837

Pre Gene Modal

BGIBMGA014553

Annotation

hypothetical_protein_TcasGA2_TC034914?_partial_[Tribolium_castaneum]

Location

Bomo_Chr8(+):16247138-16252710 View in EpiBrowser

Location in the cell

Nuclear Reliability : 2.839

CDS

ATGGAAGAGGAAGAACAGCCAGTTATCACCGCGTACTCCGGTGATAACGACTACAGTGATCAAGGAAGTATAGGAGAGAGCTTTGAGGTTTCCAGTGTGACGATACTGGAGAAAGACTGGGAACAGGTGGAAGACCCGTTTAAAAGAAGGGAGTCAATCAAACGGACGCCCCCAGGGGCATTAAAAGAACTTAAGACACCCAGTAAAATGGCGGATAGCGGCACGCTAGTACAGGAACATGTCTTTTTAACTCCTAAAGAAAAGATAGCTGAAGTAGCGGAAAATACACCAATGAGGCCAAAAAAGCGGAAAAAACTGTCCAGTCCGATAGTGATCCAACCCGTTGAAGCAGAGCCACCAGTGGAGTACCTGAAACTAAAAACTAAAATAGATAAGTTGGTAAAGTTCGGGAAAGAAAATAAAAATGTGCATCGGCAAATTAAGGACTTACTGATTGACCTCCCAGGACTGATGGAGCGGGTAACTATAAGATACAAGGACGATACAAATAAACCAACCGAAATGGAGCAAAAGTTTGAAGCCTACAAAAAGGAGCAAGAAGAAAAGATCAGGAGACTAGAACAGGAAATTAAGGAACTTAAGACACTGCATAAACGAGAGACTGGAGAGAACCAACTTTTCAAGCTTGACGATCAGATGATTAACAGCTATGACGACTTCTCGAAAGTTTCAAGCATGGACTGGACGCAGGATAGTTACAAAAGGACAAAGATAGGCCATGGAGACATCTTTCTGAGAACCACCGACTGTACAGTCTACTTCTGTGATGAGAGGGAGAAAGCACACTCGAGGCTGACAAGAAGGGTGCTAAGCCGATATCCAGAAGTGACTAAGAGCGAGAAGATGGCATGCGCAGGAGGAGCATACGTGACGGTGGAACGAGAAACCACCATCAAAACAAAAGAGGGGAGACAGACAGACAAAACGAGTGCTGTGATCATGTTCCATGATGCGACCAAACAGGACGGCCGAAGTCAAAAGGACATGTATGAGCTCCTGTCCGAATTAACCAAAATAGTGGAAGAGATGGGAAACAAAGAGCTGACTATTATAAAGCCCCAAGGAATCGATACAGGTGTAATAAGAAAGATGTTAGAAGTACTGTTCCGTGGAAAGGACATCGAATTAGAATTAAGGACACCTAAAAAAGGAGAAAACACAAACAATACGGAAACAAGAAAACGGGACGAGGTAATAGTCATAGAAGGAGGGACAACTACTTATGCGGACACCGTAAAGAGGCTAAAAGAAGGAATAAAAGGGACCGCATCCCTAGAAAACATAAAAGGTGTAAAAAAGACAGCCAAGGGACAAGTACTGGTAAGAGTGATGGGAAATATTGAGGAGATGACTGGAAAAATAAGAGAAATGATGCGAGATAGAAAGGTAAGAAGAACTGGGGGGAGCAAGAAAAAAGTATTACACATAAAAGGAATGGACAGCTCGGTGGAAATGGAGGAAGTAAGGGAGGACTTAAAGTCGACAAACTTGATAAAAAAAGTGGACAGCTTGGAGATAAGATCACTGAGACCGATGGGCGGTGGAAACCAGACGGCAACGGTGATCCTGGATGAAGAGGATGCAGGAAGGTTGCTTGCGGGTGGTAAGATAAATATAGACCGAGGGAAAGCCGCGCACGACCTACTTCTGGCAACTGCGAGCAGTATGAGCGCGGATCTAGTGATGCTATCTGAACCCAATAGAAAATTGGCAAAAGCTGCTGGATGGGAGTGTGACACCAGGGGAGATGCAGCCCTAGTTCTTCTTAATAAAACACTGACGGTTTCTGAAATTTATAGGGGGAAGGGATTCGTTGGGTTCAAGATGAAGCACTTTGCCGCGTTCAGCTGTTACATCTCTCCCAACTGCAGTTTTGAGGAGTTCAAAGCAGACGTCGATGAGCTTTGGACACTACTAAAAAAACAAAAGACACCGATCCTAGTGGCAGGAGATTTTAACTCTGCATCGAGAGCGTGGGGCAGTAAAGCAACCAACAAAAGGGGCCACTACCTGTTGGAAATGGTGGCGGACCTTGACATTGTCATCATGAATGAAGGCGTGACCCCAACTTTTGAAAGAGGAGACAGAACATCTAGGCCCGACATCACCATGGCCTCTGAAACGCTGGCAGGCAAGATTAGTAATTGGCAAGTGCGCGACGAGGAGACAATGAGCGGACATAAATATATAGCCTACGAGATAAAGCATGTATTGCCTCTATCCCAGTGCCATGCACAGATGAAAAGGTGGAACCTCCAAAGGCTGGACGTAGATAAGTTCAGTAAAAGCCTGAAAGGAGCGCAGATCTCGACTCCCATGGAACTGGTGCAGGCTACGACGGCAGCGTGTGATGCTTCTATGCCAAAGCAAAACAACCGCAAGAAAAAAGGAGTCTACTGGTGGAACAAGGAAATTGCGGAAGCAAGGAAGGAGTGTTTGAAATGCCGAAGGAGGTACACAAGGAATAACAAAAAGCTAGGAAAAGGGAAAGACAGGGAAAATAACGAAGAAAATGAACACAAAAAGCAGTATAAGGAAGCGAAACTGGAGCTACAAAGACGAATATGGAAAGCGAAAGACGATAAATGGAGGGAAGTGTGCGAGGAAGTCGACAATGATATATGGGGACTGGGATACAAAATAGTGTCAAAAAAGCTACGCGGAAACTCACCGATAAATATGGGCATGGCACAAATTCAAAGCATAGCTGATGGCCTCTTCCCGGAACACATAGATTTCGAACGGAAAACGAAACCGTCACAGGAGTTCCCAGAGGTGACCGAGGAGGAGATCATCCAACTAAAAGCTCGCATAAAGCTCAGGAAAGCCCCAGGGCCCGACCGGATTCCGCCGGAGATAGTGACTCTAGCAGTAGCAGTAATTCCAGACAGGATAAGGCTTGTGTTGCAGAAGGTGCTGGAGTCTGGCGTCTTCCCCAACAGCTGGAAAACAGCCAGACTAGTCCTGCTAAGAAAACCAGGCAAACCCGCTGAAGATCCTGCGGGGCACAGGCCGCTATGTCTACTGGACTGCTACGGAAAGCTGCTGGAGTCGCTGATCCTAGGCAGAATAGAAAAACAACTAGTACAATCGGACTGTTTACAAGATTCGCAGTACGGGTTCAGAAAGGGGAGGTCCACAGTGGATGCAGCCAACAAGCTACTTGAGATAGCGGAAGACGCGAGACGAGGAACCCACCGCACCAGAAGAATCTGCGCAGTAGTGGCCCTCGACGTCCGTAATGCTTTCAATTCTGCATCGTGGGAGCTCATCCTGGAGGAAATGGCTGCAATAGGTATGCCTCAATACATCTATAATATCATAAACAGCTACCTCCAGGACAGATGCATCATACTGACAGACGCTGAGGGAGGGGTTGTAGTGAAAAAGGTTACCGGTGGTGTTCCGCAGGGGTCGATACTGGGCCCCACGCTGTGGAACATACTGTATGATGGGGTACTGCGCCTCGAACTGGGGGATGGGGCACAATTAATAGGCTTCGCGGACGATTTAGCTCTGGTGGTGTCAGCAAAGAAGGAAGCAGAACTAATGGCAATAACGAATGTAGCCCTACAAAAGATCAGCGCTTGGATGAAGCAAAAGCGGCTACACTTGGCCCCAGAAAAGACCGAGGCAATTGTGCTAAGTGGGCGAAGAAAGCTTAGCGAGATTTGCTTTACCCTCCAGGGCGTCAGGGTGGTTCCAACCGACAAACTGAAATACCTCGGGTTTTGGTTTGACAAAAGTCTGAAGTTCGGCAAACACATTGAAGAAACAACTGGTAAAGCCGAAAGACTGACGACCGCCCTTGGCCAAATCATGCCCAGGAAAGGAGGGCCGAGGTCGAGCAAGCGCAGACTATTGGCGTCCGCAATACAATCTGTGATGTTATATGGAGCACCGGTGTGGGCAAAGGTAATGAATGTAGCGAAGTACAGGAACATGTATAGCAAAGTGCAACGACAGCTGGCAATACGCATCTGTGGAGCTTACCGTACCATATCGCTAGACGCCGTCTTGGTGATAGCGGGCCTGATACCGATAGAACGGCTAGCAAAGGAACGGCAACGCTACTACCACGAGGGGACAAGAACGAGAGAAGAGGAAAGAGCACATACAATAAAAGAATGGGAACGAGACTGGCAGAAGGAGGGAAAAGGTAAGTGGACTCGTACAATCATACCCAACCTTAGGCTCTGGATGGAACGGAAACATGGCGAAACCGACAGACTGCTGACACAGGCCCTAAGTGGGCATGGAGTTTTCAACACTTACCTGCATTCAATAGGGAAAGCAGAAAGCGCAAGTTGCCCATACTGCGAACATGTTGATACACCGGAACATGCCCTATTTCAATGCATAAAGTTCACAGAACTAAGAGGGAAAACGGAGGGAAGTGACGGAAAGGTGACTGTGGAAAACCTGATGGTGAGAATGATCCATAGTAAAGAAGAATGGGATAAATATGCGGGAATGCTCAAAGAGATAATGAGAGTGCGGGAAAAGGACGAAAGACTAAGGCAAGAATCTATCTATAATAATATATAA

Protein

MEEEEQPVITAYSGDNDYSDQGSIGESFEVSSVTILEKDWEQVEDPFKRRESIKRTPPGALKELKTPSKMADSGTLVQEHVFLTPKEKIAEVAENTPMRPKKRKKLSSPIVIQPVEAEPPVEYLKLKTKIDKLVKFGKENKNVHRQIKDLLIDLPGLMERVTIRYKDDTNKPTEMEQKFEAYKKEQEEKIRRLEQEIKELKTLHKRETGENQLFKLDDQMINSYDDFSKVSSMDWTQDSYKRTKIGHGDIFLRTTDCTVYFCDEREKAHSRLTRRVLSRYPEVTKSEKMACAGGAYVTVERETTIKTKEGRQTDKTSAVIMFHDATKQDGRSQKDMYELLSELTKIVEEMGNKELTIIKPQGIDTGVIRKMLEVLFRGKDIELELRTPKKGENTNNTETRKRDEVIVIEGGTTTYADTVKRLKEGIKGTASLENIKGVKKTAKGQVLVRVMGNIEEMTGKIREMMRDRKVRRTGGSKKKVLHIKGMDSSVEMEEVREDLKSTNLIKKVDSLEIRSLRPMGGGNQTATVILDEEDAGRLLAGGKINIDRGKAAHDLLLATASSMSADLVMLSEPNRKLAKAAGWECDTRGDAALVLLNKTLTVSEIYRGKGFVGFKMKHFAAFSCYISPNCSFEEFKADVDELWTLLKKQKTPILVAGDFNSASRAWGSKATNKRGHYLLEMVADLDIVIMNEGVTPTFERGDRTSRPDITMASETLAGKISNWQVRDEETMSGHKYIAYEIKHVLPLSQCHAQMKRWNLQRLDVDKFSKSLKGAQISTPMELVQATTAACDASMPKQNNRKKKGVYWWNKEIAEARKECLKCRRRYTRNNKKLGKGKDRENNEENEHKKQYKEAKLELQRRIWKAKDDKWREVCEEVDNDIWGLGYKIVSKKLRGNSPINMGMAQIQSIADGLFPEHIDFERKTKPSQEFPEVTEEEIIQLKARIKLRKAPGPDRIPPEIVTLAVAVIPDRIRLVLQKVLESGVFPNSWKTARLVLLRKPGKPAEDPAGHRPLCLLDCYGKLLESLILGRIEKQLVQSDCLQDSQYGFRKGRSTVDAANKLLEIAEDARRGTHRTRRICAVVALDVRNAFNSASWELILEEMAAIGMPQYIYNIINSYLQDRCIILTDAEGGVVVKKVTGGVPQGSILGPTLWNILYDGVLRLELGDGAQLIGFADDLALVVSAKKEAELMAITNVALQKISAWMKQKRLHLAPEKTEAIVLSGRRKLSEICFTLQGVRVVPTDKLKYLGFWFDKSLKFGKHIEETTGKAERLTTALGQIMPRKGGPRSSKRRLLASAIQSVMLYGAPVWAKVMNVAKYRNMYSKVQRQLAIRICGAYRTISLDAVLVIAGLIPIERLAKERQRYYHEGTRTREEERAHTIKEWERDWQKEGKGKWTRTIIPNLRLWMERKHGETDRLLTQALSGHGVFNTYLHSIGKAESASCPYCEHVDTPEHALFQCIKFTELRGKTEGSDGKVTVENLMVRMIHSKEEWDKYAGMLKEIMRVREKDERLRQESIYNNI

Uniprot

A0A139W9A6 X1WXT5 J9KNN8 J9L0J0

Pubmed

18362917 19820115

EMBL

KQ972544 KXZ75870.1 ABLF02004854 ABLF02041317 ABLF02023257 ABLF02027248 + More

Proteomes

UP000007266 UP000007819

Pfam

PF14529 Exo_endo_phos_2 + More
PF00078 RVT_1

Interpro

IPR000477   RT_dom        + More
IPR036691   Endo/exonu/phosph_ase_sf
IPR036875   Znf_CCHC_sf
IPR001878   Znf_CCHC
IPR005135   Endo/exonuclease/phosphatase

SUPFAM

SSF56219 SSF56219 + More
SSF57756 SSF57756

Gene 3D

3.60.10.10

ProteinModelPortal

A0A139W9A6 X1WXT5 J9KNN8 J9L0J0

PDB

1WDU E-value=1.40873e-08, Score=148

KEGG

NA

GO

GO:0003676 GO:0008270

Length:

1522

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

14.16481

Exp number, first 60 AAs:

0

Total prob of N-in:

0.00000

outside

1 - 1522

Pi

0

Theta

0

Tajima's D

-1.471586

CLR

291.985094

CSRT

0

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree