Silkworm Genome Informatics Database

Gene

KWMTBOMO13255

Annotation

unnamed_protein_product_[Bombyx_mori]

Location

Bomo_Chr22(-):11687516-11702919 View in EpiBrowser

Location in the cell

Mitochondrial Reliability : 1.352 Nuclear Reliability : 1.934

CDS

ATGGTAGACCAGTCAACGATCCCCTTAGCTGATCAAGGATACCATACACCAGCTCCAATTGATCTGTTGTTAGGCTCGGATATCCTCGGACAGGTTTTAGATGGGACTAAAGTCTCATTGGGGCCCGGCAGGCCAATAGCCTTCGGCACGATATTTGATTTTGCATTGTTAGGACCCATACACGATTTGTATACTGCTCCTGTAAGCAAAACTGAATCGACTCACATTGTCAGCGCACAACCAGAACTCGAGGTATCTACACATGACATTCGCAAGAGCCTTGAGAAGTTCTGGGAATCTGAAGAGCCCCAACTTCATGTTGAAACTACCCCTTTGCAAGATCAGTGTGAAGAAATATTCCGCACTACCACTACTCGTAAACCCTCAGGTCAATATACGGTAACTTTACCCTTTTTACATAATATGCCCGAGTTAGGAAGTACCCATGCCATAGCATTGCGTAGGTTTCTTAATCTTGAAAAGAAGTTAAAAGCTGACCCATATCTCCGTGTGAAATACATTGACTTCATGGCAGATTATCAGAAGCTGGGTCACATGTCCCCATGCCACCCGAGTACTTTTGCTCATAAACCTCACTTCTATATCCCTCATCATGGTATCTTCAAGTCGGGATCAGACAAGCTACGCACTGTTTTTGATGGTAGCTGTAAAAGCTCAAATGGTGTCAGCCTAAATGACTGTTTACACACTGGTCCAGCTCTTCAACAGGACATTGTCGATATTATCTTGTCGTTTAGAACTCATCCCGTAGTTTTCAGCACTGACATTTGTATGATGTTCAGAAACATACTCATACATCCCGATCAGAGGCGTTACCAGCTCATTCTCTGGCGCTCTTCGCCAGATCAGCCCCTCCTTACATATGCTTTAAACACTGTTACATACGGGTTACGATCAAGCCCATATCATGCTATACGCACTTTAATCCAATTAGCGGATGATGAAGGTCATCGCTATCCTGCAGCTGCTCAAGTGCTGCGCAAGTCCATATTTGTCGATGATATTCTCACTGGTCACGATTCTGTAGTAAAGGCTCAAGCTCTCCAAAACGACTTGATTAACTTACTAGCCTTAGGTGGTTTTCAGCTCAGTAAATGGACCTCAAACTGCCCTCAGTTTCTCGAAAGATTTCCCGATGATCAGTGTGACATGCCCAAGGACTTTGACATCAGCCCAGACTCCAACTCCATAAAAGTATTAGGTATACAGTGGATTCCTCAATCGGATGAGTTAACTTATCGTATTTCTCTCCCCTCAATAGAACAAATTACCAAACGCTCAATCCTCAGCACAGTCGCCTCTCTTTATGACCCTAACGGTTGGGTTACTCCTGTTATCTTCCGCGCAAAGCTTCTCCTACAGAAGCTGTGGCTTCTAAAGTTAGAATGGGACGAACAAACCCCTGTTGAAGTGCAGACAGAATGGAACCGCATATCACAAGATCTGCCCCAATTGTCAACCCTTCGTTTGCCTCGCCTTATTTGTACAAACAAATTAAAGTCTACTTACTCGCTTCACGGGTTCGCAGACGCCTCAGAGGCAGGTTTTGCTGCCGTTATTTATCTCCATGAACTCGATGAGCACAGATGTGTCAACGTATACCTCGTAATTGCTAAATCACGAGTCGCACCCGTTAAAAATCGTCTTACCATCCCCAAAATGGAGTTATCTGCTGCAAGTCTCTTAACACAGCTTATGATACGTGTCTCGACTCAATTGTTGTCCCATATTACCATAAAGCAACACATATGCTGGTCAGACAGTACCATTGTCCTAGCATGGCTAAACACACCTCCTCATAGACTTCAGGTCTTTGAAGCTAACAGGGTTGCCAAGATAACATCCAATCCAATCACCTCCACATGGAAACATGTTCCTACAAACCTGAACCCTGCAGACTGTGCGAGCAGGGGAATGTCTGCCCAGTCACTATCAGCTCATGATCTTTGGTGGTCTCCTAGCTGGCTGAAGGAGCCTCCTGACACCTGGCCCAAAATGCCTCCTGCTCTAGGCCACCATGCATTACCAGGTCTGAAGCCCAAGAAAGTACCAGCTCATATAGCAGTTCCTGACCTCGACCTTGACTTGCTTACTCGATTCAGTTCTCTCGACAAGCTCGTTGGAGTGACAGCTTGCATAAAACGCTTTATTTTCAATTGTAGACACAACTCAACTGATAGGCGCTCTGGTCCCTTGACAGTTGGAGAACGTAGAGATGCTCTGTTATTATGGGTTCGCTCTGTTCAACACAATGAGTTTGCGGAAGATATTTACCGTCTTCAGGCAGGCAAGATTTGTACCGTTCGACTTCAGCGTCTTTCACCCTTGATGAAAGATGATCTCTTGAGAGTTGGTGGTCGCCTCACTCATGCGCCAATAAGATACGATGCTCAGCATCCTCTCGTTCTGCCCAGCTCTAGCCCACTAGTTGATCTCATCGTAGACCACTATCACAGAATAAACTGTCATCCTGGGGCTGACACATTACACGCTATCCTCCGTCAGCAGTTCTGGATACTCTCAGCACGTCGTGTCATCAGGCATCGCGTGTACAAATGCATTAGATGTTTCCGATATCGCGCTCAGGCCAGGGCTCCGTTGATGGCTGATTTGCCCGCAGACAGAGTCACACCCCAGCCAGTATTTAGTCAGGTCTCTACAGATTTTGCTGGCCCGTTTCTCATTAAATCTAGTACTTTACGTAACGCCAAACTCATGAAGGCATACTTTTGTGTCTTTGTTTGCTTATCTACTAAGGCGGTTCACTTGGAGCTCGTTTCGTCACTCAGCACTGAAGCGTTTCTTGCTGCAATGCAACGGTTTGTATCGCGTCGCGGTACTCCTACTCTTGTCCGTTCTGACTGTGGCACAAATTGTGTAGGAGCTAAGAATCATCTCATTGAGTATGTTGACCGGATGATTTCTGCATTTGGTGATGAAGCCCCATCCAAAACCACAATTTATCGCTGGTTTGCTGAGTTTCAACGTGGACGTGTCAAGCTCAGTGATGATCCCCGTCAAGGTCGTCCAAAAACTGCAGTCACCCAAGAAAACGTTGATGCTGTGCGTAAGCTGATTGAGGAAGATCGACATATGACATACCGCGAAATTCAGGCAACTTTAGACATTGGCATGAGTCAAATACAAATAATCTTGCATGAACAATTAGGTGTAAAAAACGGTTGTTTTCCCGATGGATACCGCATTCGCTCTGTGAAGAGCAAAAAGCGGCTCGCGTTACTTGGTGCGTCAGAACTCTCGAAAGATTCCACGCAGGATCCTCAAATGCTGTATAAAATATGCTCAAATGCTGTATCAGGTGACGAATCATGGATATACGCGTACGAACCCGAAACAAAAAATCAGTCACGAGTTTGGGTTTTCGAAAATGAGTTAAAGCCAACAAAAATTGTTCGTTCACGGAGTGACGCAAAAAAAATGGTGGCCATGTTTGTCTCCAAAACCGGCCATGTTACGACTATTCCTCTTGAGGGACAAAGAACGGTTAATGCAGAATGGAGGGTACCTCCCGCTCCGCGGGGGAGAATCCCTCCGTGCGGTCGAGCGATCGGCCGCACGCTGCCCCACCGTTTCTGGGGGGGCACACACTGTCACGCAGAAGGGGGCGACAGCACGGGTCGCGTAAGGGACAGGGTCCCCACCGTGCGCCTCGAGCGCTGCGAGAGCCTTATCTCGCTCTACTCGGCGCGGAGCTCCGCGAGGGGCGACGCGTCCAGTGGGCGGGAGACACCGGCGCTGTTCACCGACACGCGACAGCGGACTCGGCGGAAGCGGAAGTCGGCCCGACAGCCGGCATCCTCTGCTCCGTCTGACTCGTCCGAGGGTGAGCCTGCCAGCGCCAAATATATGGCGTTGGCGGAAGGGCCGGCGACTGCTGCGGCGTCGCCCGCCACCGGCTTCGAAAAAAGTTCCTCTTGCGGACTGGACGCTGCCTCCTCGGCGCAGTCCCGGGAAAAAATTGAGATTGGAGTGGTTCAGCGCCTAGAGCGCTCCCTAACGGAGGTGGGTCCCTCTGACCCCCTCCGAGCTTTCGAGGTGGTCGGAAAATTAGTTTCCGCAGTCGTGGCAACATCCGGCGGTGGACTCAAGGGTGACTGCGTGCGGGCCTTAAAATCCGGAGCGGCCACCCTAGAAGAACGTCTGAGGGAAGTGGTAGACCGCACCACAACGACGGAGACGGCGGGCTTGCGGCAGGAAGTGGCCCTGCAGCACGCCCGCCTCGAGCAACTCTCGAACGAGAATGGCAAACTTCGGGCGGAGAATGGGCAGCTGCGAGTGGACATGGCCGAGTTGAGGACCATGGTTGCCGACCTCATCGAGCGGCAACGCAGCTCGGCCCCTGCCCCTCCTCCGCCCGAAGCGGAAGGCCTCAGTGAGGTGGACGAGTTGAGGCGGCAGCTCCTCATACAGGAGGCGCGCAGCTCCAAAGTGGAGCGCGCGAGACCGCCCCTCGCTCACGAGGCTAACGGAAGTACGCCTGTGCCGGCACCCCGCAGGAGTGTGCAGCCCGCTGTAAAAGCATACAGCGGGAAGAAGAAGGCTACACCCGCGCGAGCTCCCGCTGCGGCTGCACCTAAACCCGCGGCTGTAGGGGCGCCGGCACCCACGGCCCCTGCATCAAAACCGGTGTCCGCTCCTGCCCCGTCCAAGCCTGCGAAGGCGGGGCCTGGCAGGAGCCGAAACAAAAAGAAGGGGCGGACCAACGCCGCCAAACCGGCACCGACCCCCCAGCCCCGCCCACTGCCCCCAGCCCCGGCCAACATGGACGAGGCCTGGACGACGGTGGTGCGGCGCGGGCCCAAAAAGGTTGCGGCGCCTGTCGTGCCACGCCCCAAGCCCGCCCCTACGGCCGCCGCTCCCCGTCAAGAGGGTCGAGCGGAGCCTAGGGGCCGAACTGGACGAAGGAGGCCGCGCGCCCCGCGGTCGGCTGCAGAAGTCGTGGAGCTGCTGCCGGCCGCCAAAGAACGGGGCATCACGTACCACGACGTGATGACTCAGGCGCGCGGCGGCGTAAATGTGGACGCCCTCGGCGTGGAGGGTGGCCTTAAGGTTCGGCAGACGGCCAACGGGGCCCGCCTGGTAGAATGCCCCGGCGCAAATTCCAGCGCCGCGGCAGAAAAACTGGCGGTCCGTCTGCGGAAAATCTTGCCGGACCCCGAGGTGGTGCGCATCGCGCGGCCCGTAAAGATGGCGGAGGTGAAGATTACGGGCCTCGACGAGTGCGCCACGAAAGAGGAGGTCGCCGCGGCCATCGCGTCGCAGGGCAACTGCGCCCTCGCCGACGTCAAAGTCGGGGAGCTCCGGGCGACGTACTCCGGAACCCGGACGACGTGGGCGCGTTGCCCGGTAGCAACGGCGAACCTCCTGGCCACCCCTCCACAGGGTCGGCCTTCGGACAGCCCAGGATGGCTGCGCGTGGGCTGGGTAGTGGCCCACGTGCAACTGCAGGAGAGCAGGCCGTGGCGTTGTCTTCGGTGCTTCGGCACCGGCCACGGCCTCGCCAAGTGCCCCTCGACAGTGGACCGCAGCGACCTGTGCTTCCGCTGCGGCCAACCGGGGCACAAGGCAGCCTCCTGCACCGCAGCCGCGCCGCACTGTGTCTTGTGCGACGCGGCTAAAAGGAAGGCCGACCACCGGGCCGGGGGCCCGGCGTGCAAGTCCGCCCCCTCCTCTACAAAAACGAGGAGGGGCGGAAAGAAAAAGAAGCCGGCTGCAAAAAGGGCAGCCGGTGAGTCAGTTCCCGCCGCGGCACCAGAAGAGCCGCAGGGCGGGACAGACGAGGGAGCGATGGACGATCTCCTCGTCCACACCATGGCGGAGTGGTCAATCGATGTTGCTGTCGCCGCGGAGCCGTATTTCGTCCCCACTGACCAGGACTGCTGGATCGGGGACGTCGACGGCTCCGTGGCCATTATATTACGACAGTCCGCGGCGTTACCCCCCTTGGATGTGGTGGCCAGGGGACCCGGGTACGTTGCGGCTAGGATCGACGGGACCGTCGTGATCGGGGCGTACTTTTCTCCGAACAGGAGCCTCGCCGAATTCGAACGGTTTCTGGGCGGGCTCGAGGCGCTTTTACACCGCCTCGGGTCCCGCCCTGTCATCGTCGCGGGGGACTTCAATGCCAAGTGCACGGCTTGGGGTTCCCCCCGCATGGATGCGCGAGGCGAGGCCCTTTCGGAGTGGGCGATCGCGACCAGCCTCTTTCTCATAAACAGAGGTTCGGTCGCGACTTGCGTGCGGTGGAACGGGCAGTCTCATGTGGACGTGACGTTCGCGTCCCCGTCCGTCGCATGCCGAACCCGCGGCTGGCGCGTACTCGAGGGGGCGGAGACGCTCTCGGACCACAGATACGTCCGATTCGAGCTCTCCGCCTCCTCCTTGTCGTCGTCGTCAGCCGCGGGCGCCCGCGGCGAGGAGGAGCTCCCGCAAGGTGCGCCCCGTTCGTTCCCCAGGTGGGCCTTGAAACGGATGAACAAGGAGTTGCTGATGGAGGCGGCCGCTGTTGCTGCGTGGGCGCCAAAACCCGCGCGGCTCGCGGACGTGGATGCGGAGGTCGACTGGTTCCGGGGCACCATGGCAAACATTTGTGATGCCGCCATGCCCCGGGTCGGCCCCCGAGCACCACGTGGGGGTGCCTTCTGGTGGTCGCCCGAGATCGCGAGACTCCGTGAGGAGTGCGTGAGGGCGCGCCGCCGGAGCGCACGCCACCGTCGCCGCCGTCGTCACGACGCTGCGTTCGCGGAGACGGCGGCCCAGCTGCACGCTGACTGTCGTCAAAAGCAGACGGCGCTGCAGCTGGCCATCGGCGAGGCCAAGAAGCAGAGCATGAAGACTCTCCTGGAGTCGCTCGACGAAGATCCCTGGGGGCGCCCATACAAGATGGTTCGCAGGAAACTGCAGCCGTGGGCGCTCCCGGTGACCGAGCGGCTCCAGCCTCGGCAGCTGCGGGAGATAGTTTCCGCGCTTTTCCCGCCGGCAGCGGGGGGGGACTTTGAGCCCCCCCAGATGGACGCCACGACACGGCACGAGAGGATCGTCGCGGCCCGCATCGTCCGGCACCTGACCGAGACGGGTCCCGATCTTTCGGCGGAGCAATACGGCTTCAGAGAGGGCCGCTCGACTATCGACGCAATTCTGCGCGTGCGGGCCCTCTCCGACGAAGCCGTATCCCGGGGCGGGGTGGCGATGGCGCTATCCTTAGATGTAAGGAACGCCTTCAACACCCTGCCCTGGTCGGTGATTGCGGGGGCGCTGGAGTATCACGGCGTCCCCGCATACCTCCGCCGACTGATCGGCTCCTACCTCGAGGGCAGGTCGATCCAGTGCATCGGACACGGTGGGACGATGTACCGCTTCCCCGTCGAGCGCGGTGTTCCGCAGGGGTCTGTCCTGGGCCCCCTGCTGTGGAACATCGGCTACGACTGGGTCCTGCGGGGCGTCATTCGGGGTCCCCTCCCCGGGCTGAGCGTAATATGTTACGCCGACGACACGTTGGTCGTGGCTCCGGGGAGGGACTACCGGGAGTCTGCCCGTCTGGCGTGCGCAGGCGTGGCACACGTCGTCACTAGGATCCGACGGTTGGGGCTCGAGGTGGCGCTCGATAAAACCCAGGCCCTGCTTTTTCACGGGCCGGGACGAGCGCCGCCTGTGGGTGCCCACCTCGTGATCGGAGGCGTCCGCGTCGGGGTTGGGGTGGCGCGCCGCCTCTACATGGGGGTGGTGCGGTCGATGGCACTATACGGGGCTCCCGTATGGTGCCGCGCCCTGACCCGCAAGAACGTCGCGGCTCTGCGACGTCCGCAGCGTGCGATCGCGGTCAGGGCGATCCGAGGATACCGCACCGTCTCCTTCGAGGCGGCGTGCTTGCTCGCCGGGGCGCCACCCTGGGACCTGGAGGCGGAGGCGCTCGCTGCCGATTACAGGTGGCGTAGCGACCTCCGCTCTAGGGGGGAAGGGCGCCCCGGCGAAGGTGTAGTTCGAGCGCGGAGGCTCCACTCTCGGCGGTCCGTGCTGGAGGCGTGGTCTCGCCGCTTGGCGGACCCGTCGGCCGGCCTCCGAACCGTCGAGGCGGTCCGCCCGGTTCTCGCGGACTGGGTGGGCCGCGACCGCGGATGCCTCACCTTCCGGCTAACGCAGATGCTTACCGGCCATGGTTGTTTCGGCCGGTACTTGCACAAGATAGCCGGAAGGGAACCGACGGCGCAGTGCCACCACTGCGCGGACCGCGACGAGGAAGACACAGCGGAACACACGCTGGCGCGTTGCTCTGGATTCGACGAGCAACGCGCCGCCCTCGTCGCGGTCATAGGAGAGGACCTCTCGCTGCCGCGCGTCGTGGCTACGATGCTCGGCAGCGACGCGTCCTGGAAGGCGATGCTCGACTTCTGCGAGTCCACCATCTCGCAGAAGGAGGCGGCGGAGCGAGAGAGGGAGAGCTCTTCCCTTTCCGCACCGATCCGTCGCCGTCGAGCCGGGGGCCGGAGGCGGGAATACGCCCGTACGTCCCGGCCCCTGTAG

Protein

MVDQSTIPLADQGYHTPAPIDLLLGSDILGQVLDGTKVSLGPGRPIAFGTIFDFALLGPIHDLYTAPVSKTESTHIVSAQPELEVSTHDIRKSLEKFWESEEPQLHVETTPLQDQCEEIFRTTTTRKPSGQYTVTLPFLHNMPELGSTHAIALRRFLNLEKKLKADPYLRVKYIDFMADYQKLGHMSPCHPSTFAHKPHFYIPHHGIFKSGSDKLRTVFDGSCKSSNGVSLNDCLHTGPALQQDIVDIILSFRTHPVVFSTDICMMFRNILIHPDQRRYQLILWRSSPDQPLLTYALNTVTYGLRSSPYHAIRTLIQLADDEGHRYPAAAQVLRKSIFVDDILTGHDSVVKAQALQNDLINLLALGGFQLSKWTSNCPQFLERFPDDQCDMPKDFDISPDSNSIKVLGIQWIPQSDELTYRISLPSIEQITKRSILSTVASLYDPNGWVTPVIFRAKLLLQKLWLLKLEWDEQTPVEVQTEWNRISQDLPQLSTLRLPRLICTNKLKSTYSLHGFADASEAGFAAVIYLHELDEHRCVNVYLVIAKSRVAPVKNRLTIPKMELSAASLLTQLMIRVSTQLLSHITIKQHICWSDSTIVLAWLNTPPHRLQVFEANRVAKITSNPITSTWKHVPTNLNPADCASRGMSAQSLSAHDLWWSPSWLKEPPDTWPKMPPALGHHALPGLKPKKVPAHIAVPDLDLDLLTRFSSLDKLVGVTACIKRFIFNCRHNSTDRRSGPLTVGERRDALLLWVRSVQHNEFAEDIYRLQAGKICTVRLQRLSPLMKDDLLRVGGRLTHAPIRYDAQHPLVLPSSSPLVDLIVDHYHRINCHPGADTLHAILRQQFWILSARRVIRHRVYKCIRCFRYRAQARAPLMADLPADRVTPQPVFSQVSTDFAGPFLIKSSTLRNAKLMKAYFCVFVCLSTKAVHLELVSSLSTEAFLAAMQRFVSRRGTPTLVRSDCGTNCVGAKNHLIEYVDRMISAFGDEAPSKTTIYRWFAEFQRGRVKLSDDPRQGRPKTAVTQENVDAVRKLIEEDRHMTYREIQATLDIGMSQIQIILHEQLGVKNGCFPDGYRIRSVKSKKRLALLGASELSKDSTQDPQMLYKICSNAVSGDESWIYAYEPETKNQSRVWVFENELKPTKIVRSRSDAKKMVAMFVSKTGHVTTIPLEGQRTVNAEWRVPPAPRGRIPPCGRAIGRTLPHRFWGGTHCHAEGGDSTGRVRDRVPTVRLERCESLISLYSARSSARGDASSGRETPALFTDTRQRTRRKRKSARQPASSAPSDSSEGEPASAKYMALAEGPATAAASPATGFEKSSSCGLDAASSAQSREKIEIGVVQRLERSLTEVGPSDPLRAFEVVGKLVSAVVATSGGGLKGDCVRALKSGAATLEERLREVVDRTTTTETAGLRQEVALQHARLEQLSNENGKLRAENGQLRVDMAELRTMVADLIERQRSSAPAPPPPEAEGLSEVDELRRQLLIQEARSSKVERARPPLAHEANGSTPVPAPRRSVQPAVKAYSGKKKATPARAPAAAAPKPAAVGAPAPTAPASKPVSAPAPSKPAKAGPGRSRNKKKGRTNAAKPAPTPQPRPLPPAPANMDEAWTTVVRRGPKKVAAPVVPRPKPAPTAAAPRQEGRAEPRGRTGRRRPRAPRSAAEVVELLPAAKERGITYHDVMTQARGGVNVDALGVEGGLKVRQTANGARLVECPGANSSAAAEKLAVRLRKILPDPEVVRIARPVKMAEVKITGLDECATKEEVAAAIASQGNCALADVKVGELRATYSGTRTTWARCPVATANLLATPPQGRPSDSPGWLRVGWVVAHVQLQESRPWRCLRCFGTGHGLAKCPSTVDRSDLCFRCGQPGHKAASCTAAAPHCVLCDAAKRKADHRAGGPACKSAPSSTKTRRGGKKKKPAAKRAAGESVPAAAPEEPQGGTDEGAMDDLLVHTMAEWSIDVAVAAEPYFVPTDQDCWIGDVDGSVAIILRQSAALPPLDVVARGPGYVAARIDGTVVIGAYFSPNRSLAEFERFLGGLEALLHRLGSRPVIVAGDFNAKCTAWGSPRMDARGEALSEWAIATSLFLINRGSVATCVRWNGQSHVDVTFASPSVACRTRGWRVLEGAETLSDHRYVRFELSASSLSSSSAAGARGEEELPQGAPRSFPRWALKRMNKELLMEAAAVAAWAPKPARLADVDAEVDWFRGTMANICDAAMPRVGPRAPRGGAFWWSPEIARLREECVRARRRSARHRRRRRHDAAFAETAAQLHADCRQKQTALQLAIGEAKKQSMKTLLESLDEDPWGRPYKMVRRKLQPWALPVTERLQPRQLREIVSALFPPAAGGDFEPPQMDATTRHERIVAARIVRHLTETGPDLSAEQYGFREGRSTIDAILRVRALSDEAVSRGGVAMALSLDVRNAFNTLPWSVIAGALEYHGVPAYLRRLIGSYLEGRSIQCIGHGGTMYRFPVERGVPQGSVLGPLLWNIGYDWVLRGVIRGPLPGLSVICYADDTLVVAPGRDYRESARLACAGVAHVVTRIRRLGLEVALDKTQALLFHGPGRAPPVGAHLVIGGVRVGVGVARRLYMGVVRSMALYGAPVWCRALTRKNVAALRRPQRAIAVRAIRGYRTVSFEAACLLAGAPPWDLEAEALAADYRWRSDLRSRGEGRPGEGVVRARRLHSRRSVLEAWSRRLADPSAGLRTVEAVRPVLADWVGRDRGCLTFRLTQMLTGHGCFGRYLHKIAGREPTAQCHHCADRDEEDTAEHTLARCSGFDEQRAALVAVIGEDLSLPRVVATMLGSDASWKAMLDFCESTISQKEAAERERESSSLSAPIRRRRAGGRRREYARTSRPL

Uniprot

NA

ProteinModelPortal

NA

PDB

1WDU E-value=8.61986e-09, Score=152

KEGG

101739497 no KO assigned | (RefSeq) uncharacterized LOC101739497

GO

GO:0003676 GO:0008270 GO:0030976 GO:0008152 GO:0016624 GO:0005737 GO:0048869 GO:0016491 GO:0015930

Length:

2853

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.10876

Exp number, first 60 AAs:

0.01328

Total prob of N-in:

0.00088

outside

1 - 2853

Pi

1.798554

Theta

10.075711

Tajima's D

-1.379197

CLR

0.857664

CSRT

0.0740462976851157

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics

Multiple alignment of Orthologues

Gene Tree