Silkworm Genome Informatics Database

Gene

KWMTBOMO00189

Pre Gene Modal

BGIBMGA000591

Annotation

PREDICTED:_projectin-like_protein_isoform_X1_[Bombyx_mori]

Location

Bomo_Chr1(-):5992376-5998702 View in EpiBrowser

Location in the cell

Nuclear Reliability : 2.885

CDS

ATGAATCAAGATCGCATCTGTGCGGGCGGACGACGCAGCCAGACACAGGCCCCGAAGTTATTCCCAGGGTGGGAGCAGGTGCGGGGTCGGGGAGGGAGGAGCGCGGGCGTCGCGCTCAGTGTGTCGGCGCGCGTCGCCGCCGCGATGGGCAACCACTATTCCGCCTCACACAATGCATTCAAGCCCAGGAAGAACGTTCATTGGAAATCTGCAGGAAGACCCGCACCACCAGGTAAACCACAGATAATACCAATACTATCCGACGATGAGCCGAATGCAATTACATTAAAATGGGCGCCAGCGACGCACGACGGAGGAGCGCCTTTACGAGGATATCAGGTCGAATGTAACAGGTTAGGATCAACAGAATGGATACGCACTGCACCACCAATCGTATTGCGGCCCGAACTGGTACTAACAGGCCTCGAACCACCACATAAATATCAATTTAGAGTTGCAGCTCTGAACGACGTCGGTCACTCTAACTACAGTGAGCTTTCAGACGTACTCACAGTTAGTTCCGATCGAGCGTCGCAGGAACCTCCGGTTTTTATTAAACGTTTGGAGGATGTCACTGCTTTAGAAAACGATAAAGTAGAATTCCATGTCACTTTTAGTGGTATACCGTCTCCTACGATTGCGTGGTTCAAAGACGACTACGAGATATTTAGTAGTAGGAGAACCGCTATAACAACAGATGAGTCGACAAGCGTACTTTTATTTCATCAAATATTACCCAGCGACGAAGGTGAAATTAAATGCACAGCAACTAACCGTGGCGGACATGCTGTTACCAAAGCACGTCTTTGTTTAGAAGCTGCACCGAAATTACGTTACCCCCGCCAATATGAAGACGGGCTGCTTTACGAAATAAACGAAACAATATTTTTAAAGACAACGATAGTTGGAAAACCGACCCCTACCATAGAATGGCGCCACGATGGCCACCCCATTATAACGGACGATCGAATCGAAATTTCAATCACTCCTAAATTCTCCGTACTGAAAATACATTCAGCAAAAAGAAGTGATCGTGGCGAATATCAAATACAAGCGAAAAATATTATTGGAGAAGATACAGCCGCTTTTCTCGTAACGGTCACCGCACCACCAGATCCTCCACGAAATGTTTCGGTCACGAGACAAGTTGATAAGTCTGTCACATTAGATTGGGAGCCACCTGCAGATGATGGGGGATGCAAAGTTGGTAATTACATAGTCGAATACTACCGAACGGGGTGGAATGTCTGGTTAAAAGCTATAACTAGTCGCAAAACCAACGTCACATTATTTGATCTTATTGAAGGAAGTGAATATAAATTTCGAATTAAAGCAGAAAGTCCTTATGGCATGAGCGCACCAAGTTCTGAATCATCACCAGTTCGCATACCAGGGAGAGCCATAGATATGGACTTCCTGGCAGTGGAAGCCAGAATTATCAATGAGGCGTTGACGCGCGAAGATGGCGAGGAACCACGTATTTCACCGGCGCCAAGACGAAAACGAACTCGACTTCCACCACCATCGCCTTCACAAGAATTAAGTTCGAATTCTGTACCAGATACATCAAGACACGATCTACGACCTTCCCAAGCTCCAGAACAAAACGGTAGCAATGAGTTTATGCTCTTGCTTTACCCAGAAGTGCAGAAGCTGGCGGAAAAGACCGATGCGCGGTCTAAACGGGAGTCTTTCCAACTGGACTTGGATTCTTTATCACCGCCTCCACTGTCACTTTCGGCACCTGATTTGAGCTCTAGATGTATTGTACCATTTAAGACTCTTCGTAATGCCGTAAGTACTACACAACTACTTCACGAACGTGCAATGGCTCGATTTTATAAAGCCATTGAAATGAAAGAGAAACAGACTAAAGACAAACAAAGTAAAACAAGTACAACTGTAAATAACATTCCGCTTAATGAACAAACTAAAAACAGCTGTAGTCGAGAAACAACAGCAAAAACTGTTGAGAAAATTAAAGGGCCAGAGATATTGATTGAAAGCGAGTTTGTAGACAATAATGTCTATAGTAATGACACGCGGCAGTTATCTCGTGAGTCGATGGCTTCAGATGGAAAATGGCAACAAATTTCATTTGATGAAGATTATACTGCTAGTACTGTTTCAACTGATGGCGAATATTCGGACGAAGGTAGCTTTAACGGAGATATTGACAGGACTCAGTACTTAAATGAAGAAGAAACATACAATCCCCGAGGAAAAGTAGCTCACCCGGTTTCTACAAAAGACACTATCGTAGAAAAAGACGAATTTTCGGAAAGCCAAACACTTAAACCACTTCCTGACCCAAATTTTGTACCAAAGCCTATTCTGAAAAGGAGAGAAATTCCTGAACAATCACCGGCTCAGAATTTGATGCCTCCTAAATCTTTTGTATCAGCACCAAAAACAGAAGCTAAAAGACAAGAAAAGCTAACATTATTCAAAAAAATTACTAAAATGCCCGTACAAAAACCTTTCAATTTCCCCAAGATTTTGAGTAAAAATTCAATGAACAAAAAACAAAACACTTCTGAACCCGAAATCGAAAAAATAATTAGTACAAATGAAAAGAATCTTGACAAAATAAATGACGAAGGTCGCACGGTCATTGACTATTACGGTAACATTGTTAAGGAATACGGAACCCATAAAAAATCAACACCAATTTACCTTAACACTGAAGATTTGAAGGAAGTAGCCGAAAAACAAAATATTGAAAGGACGAAGACGCAAAATGATGGAATTACTGAAACAAATACAAGCAGCCAAAGCAATATGCCAAAAACAATAATTCAAAATAAACCACAAAATCGTGTGGATAAAAACATCAAACAAAGAAAGCAAAGTTCTAATAACATCACAGTGGATCGAAATAAAAGCAAACTAGAGGCGCCGCCATTTTCAGACAAACACAACCAAACACAGAAAAAGAGCATACCGCAAATTCAAACTGTTCTTAAGAAAACTGAACGGGCCACTATCGTTATTCCAATCAACTATCAAGAATTAGAAACTAAGGCTAAAAAGAAAGATCCGAAACTTTGTGGTCATAAAGACAAAGGTCTTGTCTTGGGAGTTTATTATAATGAAAACGCCAAAGGTGAACCTGCCATTCTTACTGCAAGTGCACAAAAGTATGATAGAGAATCCGGTGGTAAACTTTGGAAAATGTTAAAATTATCACCCATCCCGAAATTGGGAGAATCAAGAATATTTTTCGACTTAGATCCAACATTTGCATTCGTAGCTGTATCTGGTCTTGGGTCAGAATGTTTAACTTACAATGTTAGTGAACAATTGGACGAAAACAAAGAAGCTATCCGAATCGCTGCTGGTGTGGGTGCAATATCTCTTCAACCACTGAATCCTAAAGCTATACATTTAGAATCCTTTGGAAATGCAGAAGCCGCAGCGGAAGGTGCATATTTAGCAAATTGGCAATTTGAAGAATATAAAAGTACGTTGGGAAAGAAAATTCTCCCTAAATCCCAAATTTATCTTCACGACGATTGTGATATAGATGGTTGGCATATAGGTCAAATGAAGGCTGAAGCTCAAAATTTAGCAAGGTATCTTCAAGAAATGCCCGCAAATATGCTGAACCCTACATCCTTTGCAAAAATTGCCGTTGAACTCCTATGTGAATTAGATATAAATGTAGAAGTTAAGACACAAGGATGGGCGGCCAGTCATGAGATGGGAGGATTTGTAGCTATAGGTAAATCATCGATTCAACCACCGCTCTACGTTGAGATCAGTTATTACGGAGCAGGTGAGAAAACTCGACCAATTGTGCTAATTGGTAAAGGCGTAACTTTTGATAGTGGCAGTTTAGATCTCAAATCTCCAAAAGACCTTCGTTATATGAAAGGAGACATGGCGGGTGCTGGATGCATATTAGCCATAACCAGAACTGCGGCTAGACTTAAACTACCGATCAATATTCGAGGCATTCTTCCATTATGCGAATTAATGCCAAATGGAAACAGTCCCAAATTTGGTGACGTGGCATATAGCGCTAATGGAAAATCTTTACACATAAGGTTACCGTCTCGTGAGGGTCGACTTCTCATAGCAGACAGTTTGGTATATGCACGCAACTACTGGCCAAAACTTATTATAGATATAGGTACGATGTCAAAAGAACTAATTTATACTCTAGACGGAAGTGCTTGCGGTTGTTACACCAATAGCGATGAATTGTTTTGCTACCTTCAATCAGCGAGTAGTCAGACCGGTGATAGGATTTGGCGAATGCCATTATGGAAATTTTACGAAGATCGAGTAAGAGACTGCCATACGGCCGATGTTGCGAATACGGGCAGGGATGAGTTCGGCGATTCACCAAATTGTGCAGCTTTTTTAAAACAGTTCATTTGCGATACTAAATGGGTGCATTTGGATACTTACAATATCGCCTACTCCAAAGGACGCGATTTCCCATATCTTCGCCGCGGCATGACCGGTCGTCCAACAAGAACCATTCTCGAATTCATATTTCAGTTATTGGCTGACGCAAAACTGTAA

Protein

MNQDRICAGGRRSQTQAPKLFPGWEQVRGRGGRSAGVALSVSARVAAAMGNHYSASHNAFKPRKNVHWKSAGRPAPPGKPQIIPILSDDEPNAITLKWAPATHDGGAPLRGYQVECNRLGSTEWIRTAPPIVLRPELVLTGLEPPHKYQFRVAALNDVGHSNYSELSDVLTVSSDRASQEPPVFIKRLEDVTALENDKVEFHVTFSGIPSPTIAWFKDDYEIFSSRRTAITTDESTSVLLFHQILPSDEGEIKCTATNRGGHAVTKARLCLEAAPKLRYPRQYEDGLLYEINETIFLKTTIVGKPTPTIEWRHDGHPIITDDRIEISITPKFSVLKIHSAKRSDRGEYQIQAKNIIGEDTAAFLVTVTAPPDPPRNVSVTRQVDKSVTLDWEPPADDGGCKVGNYIVEYYRTGWNVWLKAITSRKTNVTLFDLIEGSEYKFRIKAESPYGMSAPSSESSPVRIPGRAIDMDFLAVEARIINEALTREDGEEPRISPAPRRKRTRLPPPSPSQELSSNSVPDTSRHDLRPSQAPEQNGSNEFMLLLYPEVQKLAEKTDARSKRESFQLDLDSLSPPPLSLSAPDLSSRCIVPFKTLRNAVSTTQLLHERAMARFYKAIEMKEKQTKDKQSKTSTTVNNIPLNEQTKNSCSRETTAKTVEKIKGPEILIESEFVDNNVYSNDTRQLSRESMASDGKWQQISFDEDYTASTVSTDGEYSDEGSFNGDIDRTQYLNEEETYNPRGKVAHPVSTKDTIVEKDEFSESQTLKPLPDPNFVPKPILKRREIPEQSPAQNLMPPKSFVSAPKTEAKRQEKLTLFKKITKMPVQKPFNFPKILSKNSMNKKQNTSEPEIEKIISTNEKNLDKINDEGRTVIDYYGNIVKEYGTHKKSTPIYLNTEDLKEVAEKQNIERTKTQNDGITETNTSSQSNMPKTIIQNKPQNRVDKNIKQRKQSSNNITVDRNKSKLEAPPFSDKHNQTQKKSIPQIQTVLKKTERATIVIPINYQELETKAKKKDPKLCGHKDKGLVLGVYYNENAKGEPAILTASAQKYDRESGGKLWKMLKLSPIPKLGESRIFFDLDPTFAFVAVSGLGSECLTYNVSEQLDENKEAIRIAAGVGAISLQPLNPKAIHLESFGNAEAAAEGAYLANWQFEEYKSTLGKKILPKSQIYLHDDCDIDGWHIGQMKAEAQNLARYLQEMPANMLNPTSFAKIAVELLCELDINVEVKTQGWAASHEMGGFVAIGKSSIQPPLYVEISYYGAGEKTRPIVLIGKGVTFDSGSLDLKSPKDLRYMKGDMAGAGCILAITRTAARLKLPINIRGILPLCELMPNGNSPKFGDVAYSANGKSLHIRLPSREGRLLIADSLVYARNYWPKLIIDIGTMSKELIYTLDGSACGCYTNSDELFCYLQSASSQTGDRIWRMPLWKFYEDRVRDCHTADVANTGRDEFGDSPNCAAFLKQFICDTKWVHLDTYNIAYSKGRDFPYLRRGMTGRPTRTILEFIFQLLADAKL

Uniprot

A0A194PSA9

Pubmed

26354079

EMBL

KQ459594 KPI96197.1

Proteomes

UP000053268

Pfam

PF07679   I-set        + More
PF00041   fn3
PF02789   Peptidase_M17_N

Interpro

IPR036179   Ig-like_dom_sf        + More
IPR003598   Ig_sub2
IPR008283   Peptidase_M17_N
IPR013783   Ig-like_fold
IPR007110   Ig-like_dom
IPR003599   Ig_sub
IPR003961   FN3_dom
IPR013098   Ig_I-set
IPR036116   FN3_sf

SUPFAM

SSF49265 SSF49265 + More
SSF48726 SSF48726

Gene 3D

2.60.40.10

CDD

cd00063 FN3

ProteinModelPortal

A0A194PSA9

PDB

2EWB E-value=9.36107e-94, Score=882

KEGG

100141459 K11142 cytosol aminopeptidase [EC:3.4.11.1 3.4.11.5] | (RefSeq) Lap, Bmlap; leucyl aminopeptidase-li

PATHWAY

00330    Arginine and proline metabolism - Bombyx mori (domestic silkworm)
00480    Glutathione metabolism - Bombyx mori (domestic silkworm)
01100    Metabolic pathways - Bombyx mori (domestic silkworm)

GO

GO:0004177 GO:0005515 GO:0005737 GO:0008235 GO:0019538 GO:0030145 GO:0005622 GO:0006508 GO:0007169 GO:0016021

Length:

1510

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.04486

Exp number, first 60 AAs:

0.04279

Total prob of N-in:

0.00211

outside

1 - 1510

Pi

3.714018

Theta

5.257008

Tajima's D

-1.035056

CLR

0.056595

CSRT

0.129043547822609

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics