Silkworm Genome Informatics Database

Gene

KWMTBOMO07829

Annotation

reverse_transcriptase_[Danaus_plexippus]

Location

Bomo_Chr13(-):7590282-7596180 View in EpiBrowser

Location in the cell

Nuclear Reliability : 1.367

CDS

ATGAATGATGGCAAACTTACAAAAAACATTACCCCAGGAGGGTACCACTCTAGGTGGAGAATCCCTCCGTGCTTCCACTTCGGTGGGAGCATGCTGCCCCACGTATTCTGGGGGGGCAAAGCATGCCACGATGAAGGGGGCTGTGCGACGGGCAGCGGAAAACCCGTCGAACCGAGGTGTGCCAGCGCTGGCTCGACGCGCTCTGCGCTCGTCAGCGACTGCGAGGCGGCTGGCCCGAAAGGGAAAGTCAGGCGGAAGAGGAAATCGAGGGGAGTTTCTTCCCGCGAAGGGAAGGGGGGGCTAACGTCGTCCTCTGACACGGATGCCCCACCGGAGAAAGTGGTGGTAGTCTCCGATTCGGCCTCTGCCGCGGAGGAGATGCCGCCCCCTAAAGGGAGACCCGCTCGGGGGAAGGGCGCACCGTCACCGGCGCCGTCATCGGCGTCGATGTCTGTCGCCTCGCTGGACGGGCGGACGACAGAAGAGGAGGAGGGCGGTCTTCGGGACCCTGCCTTGGTCATAGGCAGGGCCATGAAGACCGTCAAGTCGTATGCGGCGACCAGTGCCAAAACCAAAGCTGCTGGCCGCAGGCTGCGGGAAGTCGTCTCGCGAGTCTCGAAGGTTCTGCCTTCGGTTGCTTCCGCCAATGACCAGGTGGTGCAGCTGATGGCGGAGAATTTGAGGCTCCGAGCACAGCTACAGGCGCAGCAGCGGCCCGATGGCAAGGTTGCTGCTACCAAGCGGGTAGCCGCGACGAGGTCGTCGCCCGCGTTGCCGCGTGCCGCTGGGACGCGGACTCCTCCGGCATCTGTGCCGGCGGTGTCGCCGCTGGTCTCCGGGGTCCCTCGGGGTCCCTGTCCCTCAGCGGCGGCTGGCGACCCGTGGCCCGTGCTGCCACCATCGCGCGCGGTACAGCGGCGTTCGCGTCTCCCGTCGCCGCGGTCTAGGGAGGCGACGGCCGTCGAGCGGCAGCAGGGATCCGCGGGGCCACGGATCTTGGGCCTGCCGGAACCGAATTGCTACAGCCTGGACGAGATTATCGATCGCACCGTCCAGGCTGTAATGGAAAGGCTGGGTGGCGGGCTGGCGGCTCTCGAAGCGAAACGTATTGTCGCTGGTGACGCTGAACGGCCTGCGTCTACACATGCCGCGGTGCCGGGTGCTGCAGTGACCCGCTCCACCCCCGTACAGGCTCCAGCTACTAGGGCGGGCCCGGGCGAGACAGAGCCAAGCGGGGGGGCGGCGCTAACGCGAAGTGCACATCGCAAGCGCCTCAACCCCGTCCGCTGCCCCCGCCCCCGTCTAACATGGACGAGGGGTGGAATGTGGTGGCCCGGCGGGGGTCGAGCGCCTGTGGCCGCCAAGAAAAAGAAGACGAAGAAGAAGTCGACGCGCGCGCCGCGGTCGGCGGCAGTGGTCTTAACGCTGCTGCCGGCCGCCGAGGCCAAGGGCGTGTCATACGGAGATGTAGTCTCCCGGGCGTGCGCGGCTATTGATCTGGACGAGATCGGGGCGGGGGAGGGCCTCCGCTGTAGGCTGACGGCCAATGGGGCCAAGCTACTAGAGTGTCCCGGTGCCGATAGTTCCGGCATCGCGGAGCGTCTGGCGGCGAAGCTCCGTACGGTTCTGCCTGAGGAGGAGGTTCGAGTGCACAGGCCGGTCAAAATGGCTGAATTGAGAGTGACCGGCCTGGACGACTGCACCACTAAGGATGAGGTGGCGGCGGCTATTGCCGCCCGGGGCAACTGCGCCCTGGAGAATATAACCGTAGGCGAGCTGCGCCTCGGTTATACCGGGGCTGGCTCTGTTTGGGTGCGTTGCCCGGTAGAGGCGGCCACCTCCTTGGCTGCTCCTCCGCCCGGGAGACCGTCGGGGGAACCGGGCAGGTTGCGCGTGGGCTGGATAGCGGCCCGCGTGCGCCTTCTCGAACCACGCGCCTGGCGGTGCCTCAGATGCTTCAGCACTGGGCACTGCCTTGCTAAATGCGCGAGTGCCGTTGACCGCAGCGGATTGTGCTTTCGCTGTGGTCAGCCGGGACACAAGGCGGCCGTGTGCTCGGCTGCGCCGCACTGCTTATTATGTGCGGCGGCCGGGCGCAAGGCTGACCACCGGGCCGGGGGCAAGGCCTGCCCTCCGGCCAGCAAGAATGCTGAACGAAATCGGCGCCGCCAAGCTAAGCGGCGTCAAAAGAAGCGGTTGGCCGGGGAGCACCGGCCGGCACTTTTCTTAATGGATCACACCTATCGCTTCCTGCAGGGAAACTTGAACCACTCCGCTGGGGCTCAGGACATGTTGCTCCAGACCATGGCGGAGTGGTCAATTGACGTGGCTGTGGTCGCCGAGCCATACTTCGTTCCCCCAGCGGATGACTGTTGGTTTGGGGACGTTGATGGCTTGGCGGCCATACATATCAGAAGAACCGCGATGGTCCCCCCCCTGGCGATGGTGACCAGGGGCCCCGGGATCGTCGCGGTACAGTTAGAAAATATCGTCGTGATCGGGGTGTACTTTTCTCCGAATCGGCCTACCGTCGAGTTCGAGCGGTTCCTGGACGGGCTAGAGGTGATCGCTCGTCACCTCGCTCCCCGTTCAGTGATACTGGCGGGGGACTTCAATGCGAAGTCTGTCGCTTGGGGTTCCCCATTCACGGACGCTCGTGGTAGGCTGCTGGAGGAGTGGGCGGTCGCGGTCGGTCTCTGTATCGTTAATAGGGGCTCGATCGCGACTTGCGTGCGGTGGACGGGCGAGTCTATCGTGGACCTGACGTTCGCGAGCTCGCCCGTCGCACGGCGCATCCTCGGCTGGAGAGTGGTGGTGGGGGCGGAATCGTTGTCCGATCACCGGTATATCCGGTACGATCTTTCTGCCCCTGCGCCGACGCCGGCTGCAGGTGCCCGCGGGGTTGACCCCCCGCAGAGTGCATCCCGGTCATTCCCTAGGTGGGCACTGAAGCTCCTGAACAGGGAGCTCCTGGTGGAGGCCTCTATGGTGGCGGCGTGGGCGCCCAAGCGCCCACAACCTGTTGATGTGGAAACCGAGGCCGAATGGTTCCGGGGCGCGATGCACCGCATATGTGATGCTTCGATGCCCCGGGTAGGCTCTCGGCACTCTGGACGGCGACAGTCGCCCTGGTGGTCGCCCGAAATTGCAAGACTGCGTGCGGTCTCCATTCGGGCGAGCCGCCGGTGCACTAGACACCGCCGTCGCCGCCGCCTGCGGCGCGACGAGCCCGTCGCGTTCGCGGAGGAGGAAGCTCGGCTGCACCGCGAATATCGCGCTGCGAAGGACGCCCTGCGGCTGGCCATCAGGCGGGCCAAGGAGCAGAACATGGAGAGACTCTTGGAGGCGCTCGAGGCGGATCCGTGGGGGAGCCCATACAAATTGGTACGCGGCAAGTTGCGCCCGTGGGCCCCCTCTATGACTGAGCGTCTCCAGCCCCAGCAGCTGCGGGACATCGTTTCGGCGTTGTTCCCGCAGGAGCGGGAGGGTTTTGTCCCTCCCGCTATGGGCGGGCCGTCTGACACCGTCGACGGCCAAGCTCCTGCTGAGGTGCCCCGTATTACCGAGGCAGAGCTCCGGGTGGCCGTTGTCAAGATGACTGCGAAAGACACGGCCCCCGGCCCGGACGGAGTCCACGGCCGGGTATTGGCCTTGGCCCTCGGTGCCCTGGGGGACCGGCTCCTTGAGCTATACAATGGCTGCTTGGAGTCGGGACGGTTTCCGTCGCTCTGGCGGACGGGTAGACTTGTGTTGTTGAGGAAGGAGGGGCGCCCGGTGGATACAGCCGCTGGGTATCGTCCTATCGTGCTGCTGGACGAGGCGGGAAAATTGCTGGAACGTATTCTGGCTGCCCGCATCGTTCGGCACCTGGTCGGGGTGGGGCCTGACCTGTCGGCGGAGCAGTACGGCTTCCGGGAGGGCCGTTCGACCGTGGATGCAATTCTTCGCGTGCGGTCCCTCTCGGACGAGGCCGTTTCTCGGGGTGGGGGGTCGGTTCTCGGCCCCCTCTTGTGGAATATCGGGTACGACTGGGTGCTGAGGGGCGCCCTCCTCCCGGGCCTCCGCGTTATTTGTTACGCGGACGACACGTTGGTCGTGGCCCGGGGGGATGATTTTAGGGAGTCTGCCCGTCTCGCCACAGCGGGAGTGGCCCTCGTCGTCGGAAGGATAAGGAGTCTGGGTCTCGACGTGGCGCTCAGTAAATCCGAGGCTCTGTGGTTTCACGGGCCGCGGAGGGCGCCACCAGTTGACACCCACATCGTGGTTGGAGGCGTCCGGATAGGGGTCGGGGTGCAGTTGAAGTACCTCGGCCTCGTGTTGGACAGCCGGTGGGCTTTTCGTGCTCACTTTGCGGAGCTGGTCCCCCGATTGATGGGGACGGCCGGTTCTTTGAGCCGGCTGCTCCCGAATATTGGGGGACCGGATCAGGTTGTGCGCCGCCTCTACGCGGGGGTGGTGCGATCGATGGCCCTGTACGGTGCACCTGTGTGGGCTGAGCCGCGCAACCGGGCCACTATGGCTCGGTTCCTGCGCCGGCCGCAGCGCACCGTTGCCATCAGGGTCATCCGCGGATATCGCACCGTCTCCTTCGAGGCGGCGTGTGTTTTGGCGGGGACGCCGCCATGGGAGCTGGAGGCGGAGTCGCTCGCTGCCGACTATCGGTGGCGCAGCGAGCTCCGTGCTCGGGGCGTGGCGCGTGTCCCCGAGAGTGAGCTGCGGGCGCGGAAGGCCCATTCTCGGCGGTCCGTGCTCGAGTCGTGGTCGAGGCGATTGGCCAACCCCACGTGGGGGCTACGGACCGTCGAGGCGGTTTACCCGGTCTTTGATGACTGGGTGAATCGTGGCGAGGGACGTCTCACCTTTCGTCTGGTGCAGGTGCTGACCGGGCACGGATGCTTCGGGAAGTACCTGCGCCGGATAGGGGCTGAGCCGACGACGAGGTGTCACCATTGTGGACACGACCTGGACACGGCGGAGCATACGCTCGCTGTCTGCCCCGCTTGGGAGGTGCAGCGCCGTGTCCTGGTCGCAAAGATAGGACCTGACTTGTCGCTGCCTGGCGTCGTGGCGTCGATGCTTGGCAGCGATGAGTCATGGAAGGCTATGCTCGACTTCTGCGAGTGCACCATCTCGCAGAAGGAGGCGGCGGGGCGAGTGAGGGAAAGCTCTCCTCACTACGCAGAAACCCGCCGCCGCCGAGCAGGGGGTCGGGACCGGGGTCGTATCGGTGACCTGGCCCCCTAA

Protein

MNDGKLTKNITPGGYHSRWRIPPCFHFGGSMLPHVFWGGKACHDEGGCATGSGKPVEPRCASAGSTRSALVSDCEAAGPKGKVRRKRKSRGVSSREGKGGLTSSSDTDAPPEKVVVVSDSASAAEEMPPPKGRPARGKGAPSPAPSSASMSVASLDGRTTEEEEGGLRDPALVIGRAMKTVKSYAATSAKTKAAGRRLREVVSRVSKVLPSVASANDQVVQLMAENLRLRAQLQAQQRPDGKVAATKRVAATRSSPALPRAAGTRTPPASVPAVSPLVSGVPRGPCPSAAAGDPWPVLPPSRAVQRRSRLPSPRSREATAVERQQGSAGPRILGLPEPNCYSLDEIIDRTVQAVMERLGGGLAALEAKRIVAGDAERPASTHAAVPGAAVTRSTPVQAPATRAGPGETEPSGGAALTRSAHRKRLNPVRCPRPRLTWTRGGMWWPGGGRAPVAAKKKKTKKKSTRAPRSAAVVLTLLPAAEAKGVSYGDVVSRACAAIDLDEIGAGEGLRCRLTANGAKLLECPGADSSGIAERLAAKLRTVLPEEEVRVHRPVKMAELRVTGLDDCTTKDEVAAAIAARGNCALENITVGELRLGYTGAGSVWVRCPVEAATSLAAPPPGRPSGEPGRLRVGWIAARVRLLEPRAWRCLRCFSTGHCLAKCASAVDRSGLCFRCGQPGHKAAVCSAAPHCLLCAAAGRKADHRAGGKACPPASKNAERNRRRQAKRRQKKRLAGEHRPALFLMDHTYRFLQGNLNHSAGAQDMLLQTMAEWSIDVAVVAEPYFVPPADDCWFGDVDGLAAIHIRRTAMVPPLAMVTRGPGIVAVQLENIVVIGVYFSPNRPTVEFERFLDGLEVIARHLAPRSVILAGDFNAKSVAWGSPFTDARGRLLEEWAVAVGLCIVNRGSIATCVRWTGESIVDLTFASSPVARRILGWRVVVGAESLSDHRYIRYDLSAPAPTPAAGARGVDPPQSASRSFPRWALKLLNRELLVEASMVAAWAPKRPQPVDVETEAEWFRGAMHRICDASMPRVGSRHSGRRQSPWWSPEIARLRAVSIRASRRCTRHRRRRRLRRDEPVAFAEEEARLHREYRAAKDALRLAIRRAKEQNMERLLEALEADPWGSPYKLVRGKLRPWAPSMTERLQPQQLRDIVSALFPQEREGFVPPAMGGPSDTVDGQAPAEVPRITEAELRVAVVKMTAKDTAPGPDGVHGRVLALALGALGDRLLELYNGCLESGRFPSLWRTGRLVLLRKEGRPVDTAAGYRPIVLLDEAGKLLERILAARIVRHLVGVGPDLSAEQYGFREGRSTVDAILRVRSLSDEAVSRGGGSVLGPLLWNIGYDWVLRGALLPGLRVICYADDTLVVARGDDFRESARLATAGVALVVGRIRSLGLDVALSKSEALWFHGPRRAPPVDTHIVVGGVRIGVGVQLKYLGLVLDSRWAFRAHFAELVPRLMGTAGSLSRLLPNIGGPDQVVRRLYAGVVRSMALYGAPVWAEPRNRATMARFLRRPQRTVAIRVIRGYRTVSFEAACVLAGTPPWELEAESLAADYRWRSELRARGVARVPESELRARKAHSRRSVLESWSRRLANPTWGLRTVEAVYPVFDDWVNRGEGRLTFRLVQVLTGHGCFGKYLRRIGAEPTTRCHHCGHDLDTAEHTLAVCPAWEVQRRVLVAKIGPDLSLPGVVASMLGSDESWKAMLDFCECTISQKEAAGRVRESSPHYAETRRRRAGGRDRGRIGDLAP

Uniprot

A0A0J7NFZ0 A0A0J7KRB8 J9K6F0 J9KJG8 X1WZ64 X1WJY4 + More
J9KM84

EMBL

LBMM01005474 KMQ91485.1 LBMM01003988 KMQ92922.1 ABLF02012448 ABLF02012450 + More
ABLF02012455 ABLF02012460 ABLF02041886 ABLF02011183 ABLF02041884 ABLF02011238 ABLF02018942 ABLF02041885

Proteomes

UP000036403 UP000007819

Pfam

PF00078   RVT_1        + More
PF14529   Exo_endo_phos_2
PF00098   zf-CCHC

Interpro

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

SUPFAM

SSF57756 SSF57756 + More
SSF56219 SSF56219

Gene 3D

3.60.10.10

ProteinModelPortal

A0A0J7NFZ0 A0A0J7KRB8 J9K6F0 J9KJG8 X1WZ64 X1WJY4 + More
J9KM84

PDB

1WDU E-value=6.68976e-12, Score=177

KEGG

101746120 no KO assigned | (RefSeq) uncharacterized LOC101746120

GO

GO:0008270 GO:0003676 GO:0003964 GO:0016021 GO:0005524 GO:0005634 GO:0006338 GO:0016818 GO:0003707 GO:0051537

Length:

1747

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.04001

Exp number, first 60 AAs:

0.02821

Total prob of N-in:

0.00157

outside

1 - 1747

Pi

0

Theta

0

Tajima's D

0

CLR

17.920885

CSRT

0

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree