Silkworm Genome Informatics Database

Gene

KWMTBOMO03998 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA010258

Annotation

putative_soluble_adenylyl_cyclase_[Operophtera_brumata]

Location

Bomo_Chr7(+):8023581-8028299 View in EpiBrowser

Location in the cell

Nuclear Reliability : 2.03 PlasmaMembrane Reliability : 2.087

CDS

ATGGCTGACGTATCAGGGTATACCGCCCTTTCGGAACGCTACAACAATACTGGTAAAGGAGGAACATACAGACTCACAGTCACCTTGAATACGTACTTGGGCTCGCTCATAGAATTAATATACGCCTATGGAGGAGACGTTTTAAAATTCTCCGGCGATGCATTCTTAGCTCTCTGGAAGACCGACAAACGAACGTTTCTTTGTCATACAATTCATAACGTTATCGCCTGCGCATTAGTTATACAACATTCGTACTCTTCCTACGAAACAGATGTCAAAGTCAATCTAAAAGTTAAATTAGCAATCGCGGCTGGAAACCTCTTATTTGCCACAATAGGCACTGGAATTGACATGAACTATGTGCTATTTGGTTTACCCGTAGAAGAAGCCAAAGCAGCCGAAAGTTGTTGTGCATCAGGAGAAGTGACATTGACACCCACAGCATGGGGGCATTGCTATTCAAGAAATTATGACTATACCATTCAACAAAATGGATACGTTACTATTAAGGCCATATTATACGACCCTCGCGAGAACGATGTTATGAAACCGTTCATAGGCTTCGGTGGTATGATCAGACAAATTAGGAAGACATGTGCGGCAGTTGAGAATCTTCCCGATCATTCTTGGGAAACTTCTGATGGTCTGAGCCATGTAGATTTGTCGAAAAAGATCGAGATGCTTAATTTGCGTAAAGCAATTTTATTAGCTGAAGGGAAAAACATTGGCTCTGAACTAAGAAAGTTTATGATTAGACCGATACTAACTCAAATCGATGCACATCAGCCTCTCGAATATCTTACAGAAATGAGACAAGTTTCCATTTTATTCATTACTTTAAAACCCACAGAATGTCCGTTTCCACAACTGATTACAATTGTTAATAACTCATATCAGATAACATGTGAAATTGTTTACAAGTCAATGGGATGTGTCAATAAAATTATTCTCTTCGATAAAGATGTTATGATGTTGATAATCTTTGGTTTAAGAGGATACAAACACGAGTCCGAAGCGCAAGCTGCTCTTAAGTGCGCATTTAGTATAAAAAAATCAGTTTCAGCTTTAGGTGGGGTTCGAGAAGTCTCGGTAGGGGTAACTACAGGCCAAGTATATTGCGGGGTGGTGGGTCATCCTTTAAGGCAAGAATTTACCGTCATTGGAGCTACTGTAAACAAAGCTGCTAGGCTCATGTGCAAATTTAGAAATAAAATCACTTGCGATGAAACTACTTTTATTCAAAGCAAAATGTCCACAAATGCATTTACTCAACAACCAAAAACCGAATTGAAAGGTATAATTCACCCTGGAAAGATTTTTGAATACACAGAAGATATTCGGGCAAAAGAAATATATGAAATACCAATAATTCCACCACTGCTAAATCGTAAAGAGGAAATAGAGTGTTACCAAAGTTGGTTAGATCAAAATAATACGTCATTCCGACAGTTCGACGCTCTGTTATTGATAGGGGAATCACGAATAGGAAAATCAAGAACCTTAGAGTGGATGGCGCGCTATGCCAGAAACTACAGTTATCATGTAACGTACATCAATTTAACTTCCATCCACTCTGCTAATGCATATTTAGCATTAAGTGAAATTGTCAATCAAATGTTAGATCTTAAAGAGCCAATACATGGTTTTGTCAAAGAAGAAAAGATCGTACAGCTTCTTAAAGTTTATAATGAAGACTTATGCTATTTAAATAAGATAATCCGCGTTCGTTTCGCTTATCAAGACAAGATCCAGTCTTTAAACGAACAACAGCGTAAAGAAAAAACCAAACAAGTTTTTATGAAGCTCTTGAAAGCAATTGCAAATACTCATGTCGTGTTTTTAGATGACTTACAAAACCTTGATTCTTTCTCGTGGGAGTTTGTAAAGTTAATGTTCACTACAATGAAGATTTTTACGGTTTTTTCTGTGACACGCGGGAAATTTAGTGCCATTCAAAATTGGCTCTACGACGTCTTTACTCACAACAGCATTAGAAAAATTGTTTTAGGGCCATTATCTTCAAACTGGATAGCTCCCTTAGCTTGTCAAATATTAGATATCGATGCTGTACCTAACGATTTGTGTAATGCATTGAGAATCAAATGTCAAGGAATGCCAGGATTCGTTGAAAGTTTTATTATTCATTTATTTTCAATAGGAGCTTTGGAAGTCAAGAAAATAAAAGACGATGAAATTGAACAATTTAAATCCGAAGACTTACAGTTTCCTGAAACGAGTCTGTTACAACCACAAGCTGTGCGTATGTCGGACCAATCGACGCTTGATGAATTACTAAAAAACGACAGCAAAGAATTTGTCGAAATTTGCATCGTTACAAAAAAATCTGAATTAAATTTAAATATAAATTGTCAAAATTTAGACGCGTTAATTATGATCCAAATAGACTCCCTCACTCCGTACCAACAACTGCTACTTAAAATAGCTTCGATTGTCGGCACTACCGTATCGAGAATTCTATTGGAAAGTATAATGTACAATAACGATTGGTTAACTACCGCAAAAGCCATCAAGAGACTGTTTGCTATGCGCATACTATCATGCGCAAATGTAAATAGGAAATGGTATCGTAATAATACGTCAACTTCCACGACATCCTCTGATGCAATGCCACAAGTTAACCTGGCTTGTGATTGTTCATTTGATCATGATCCTGATGCGTGGGAGAATCTTCCTAAGTATGCTTTTTGTAAAGTTATGAAATTCAAAAACAAAAACGCGAGAAAAACTTGCTACGAGCTCTTGCCAGTGAATCAGAAGAAGGAATTCCACGCTCGCATTATTAACTATTTGGAGACTAACAGACAAAAATGTCAAAGTTGCGGCGGTACTATTATGATAGTACAATCAAAAAATTACATGCTGTCACTTGAAACCGACCATGAAGGTAATTTACAGGACAAGGTAAGTGATACGGGCAGTAATAGTGACTGGAATGAAACTGATACAAATTTAGAAATGAAAAGTACCGATCGACTCAAATCGAATTTTAATAGCGTTCTAGACAGCGGTACGACTGTAAGACCAAGTGATAACATAGTATTTCATGATGAAGCTTCAAATAACAATTTCACGCCAATTTTAAAAAGAAAGAGTACCGATGATGTTTCTAGTATAAAGTTAAAAAAATCAATAAAAAGAGTTACAATGACCAGTTTAAATTTTAGAAAAGCCAGTTTAACTAATTTCGAGTCATACAAGATTTTCGATATGCTTCGCGCAGTCTCTGAAGCAAAAACAGTAAGTGATTGGAATGCGCTTGGCGCTATTGATAGCCAAGATCATATTTTAACTGATAATCATAATAAATCTTTCAATGTTAGAATCGAAAAAGGAGTTTCTCATATAAACTTCAATAAATGTACTTGTGCAGAATTGAAAATTGTTATATACGAGCAACTCATGTATCATGCGCAAAAAGCGGAACAGAAAATAAAATTGATTGATTTTACGATAAAATACTGCTACTTAAATTTGCTTGCCAATAATACTGAAAAAGTATTCCCCAAACTTGAAGAAGCGGAGAGAATGTGTTTGGAAAAAAATGAAATCTTAAGCGTACTTGACCAAAAACGGTTTTTGGGAAAAATATTATCAATAAAAGCAGCAGCATGCTTAATTTGCGGAAAGCTCACTGCAGCAAAGCGTGATTTAATTCGAGCATCGCGAATTTACAACTTCAACTTCCTGAAAGTATCGGGTTTCATATCGTTAAATAAATTATTTAATTTCATGAAAATTGAAAAACGAAAAAACCGATTAAGCCAGAAACTCATGAAATCTGATGCGGTATTTTTTCTCAATGTCACTACATTATTGTACTCGACGCTAGGTGACGATAGTCTTTCTAGAAACGCTGCGCTGACGGCTCTAGATTATGTACAGAGAGTAGAGTGTAACTTGATAGATTTATGTGAAACATACAGTAATGCTATTCAAGTGGAAATAGACCGCGGCACTTCAGAGAATACTGAAAAAATTGAAAAATTAGCATGCCAGTCACTCAGACAGTTACAAAAAGAAATTAAAGCTGAAGAACTGTATGCTATTGGTAAACTTTTCAGTGCAACTTTCAAGGCAAGAGTCTGCAGAGGAAAGCTCGCTGAAAGTGCTCGATCAGGATTTAGAGCACTTACTATTAGTCGCTTTCTCCAAGCCTACACGGTTTCTTTAGATATTATTCCCGATTTATTTTACGTCCTGTTAGCCCGACGCCGTATTGAGGAAGCAATTGATGTTGTCCGACTAACATTGCGTTTGGGTCACAATCAGATTTCGCTTGTTTGTGAAACTTGGTACTACGCTTTGTGCATAGATTTAATTTTGGATGCGGGTTTCCAATTAGAAACTCCTCAAGAAATCAGCCGTTTTGCTGAATATGCTTTGGAATCGGGAAAATCCGGTGGACAAAGTCGCCGTCGTTTAGTAGTTGGATTATGGACTTATTGGCTTAGAGTCGATATTGAACGAAAAGCAAAGAGATTCGAAAATGAAGCATTGAGCTGGATGTCATGCGAAACTGACAACGGGTCGCTGACAACGCTGATTAGTGCAATGAGACTAGCCGAAGGAATGCTCGAAAGTTTGGCGAGAAAAGTAGACGATTTAAGAAAGGTAGTATTTTTATTATATCTGAAATAG

Protein

MADVSGYTALSERYNNTGKGGTYRLTVTLNTYLGSLIELIYAYGGDVLKFSGDAFLALWKTDKRTFLCHTIHNVIACALVIQHSYSSYETDVKVNLKVKLAIAAGNLLFATIGTGIDMNYVLFGLPVEEAKAAESCCASGEVTLTPTAWGHCYSRNYDYTIQQNGYVTIKAILYDPRENDVMKPFIGFGGMIRQIRKTCAAVENLPDHSWETSDGLSHVDLSKKIEMLNLRKAILLAEGKNIGSELRKFMIRPILTQIDAHQPLEYLTEMRQVSILFITLKPTECPFPQLITIVNNSYQITCEIVYKSMGCVNKIILFDKDVMMLIIFGLRGYKHESEAQAALKCAFSIKKSVSALGGVREVSVGVTTGQVYCGVVGHPLRQEFTVIGATVNKAARLMCKFRNKITCDETTFIQSKMSTNAFTQQPKTELKGIIHPGKIFEYTEDIRAKEIYEIPIIPPLLNRKEEIECYQSWLDQNNTSFRQFDALLLIGESRIGKSRTLEWMARYARNYSYHVTYINLTSIHSANAYLALSEIVNQMLDLKEPIHGFVKEEKIVQLLKVYNEDLCYLNKIIRVRFAYQDKIQSLNEQQRKEKTKQVFMKLLKAIANTHVVFLDDLQNLDSFSWEFVKLMFTTMKIFTVFSVTRGKFSAIQNWLYDVFTHNSIRKIVLGPLSSNWIAPLACQILDIDAVPNDLCNALRIKCQGMPGFVESFIIHLFSIGALEVKKIKDDEIEQFKSEDLQFPETSLLQPQAVRMSDQSTLDELLKNDSKEFVEICIVTKKSELNLNINCQNLDALIMIQIDSLTPYQQLLLKIASIVGTTVSRILLESIMYNNDWLTTAKAIKRLFAMRILSCANVNRKWYRNNTSTSTTSSDAMPQVNLACDCSFDHDPDAWENLPKYAFCKVMKFKNKNARKTCYELLPVNQKKEFHARIINYLETNRQKCQSCGGTIMIVQSKNYMLSLETDHEGNLQDKVSDTGSNSDWNETDTNLEMKSTDRLKSNFNSVLDSGTTVRPSDNIVFHDEASNNNFTPILKRKSTDDVSSIKLKKSIKRVTMTSLNFRKASLTNFESYKIFDMLRAVSEAKTVSDWNALGAIDSQDHILTDNHNKSFNVRIEKGVSHINFNKCTCAELKIVIYEQLMYHAQKAEQKIKLIDFTIKYCYLNLLANNTEKVFPKLEEAERMCLEKNEILSVLDQKRFLGKILSIKAAACLICGKLTAAKRDLIRASRIYNFNFLKVSGFISLNKLFNFMKIEKRKNRLSQKLMKSDAVFFLNVTTLLYSTLGDDSLSRNAALTALDYVQRVECNLIDLCETYSNAIQVEIDRGTSENTEKIEKLACQSLRQLQKEIKAEELYAIGKLFSATFKARVCRGKLAESARSGFRALTISRFLQAYTVSLDIIPDLFYVLLARRRIEEAIDVVRLTLRLGHNQISLVCETWYYALCIDLILDAGFQLETPQEISRFAEYALESGKSGGQSRRRLVVGLWTYWLRVDIERKAKRFENEALSWMSCETDNGSLTTLISAMRLAEGMLESLARKVDDLRKVVFLLYLK

Uniprot

H9JL57 A0A2A4IZ27 A0A0L7LP99 A0A2W1BUR0 A0A2H1WSR3 A0A194RKT8 + More
A0A194PZI2 N6U950 A0A139WH49 U4URG7 Q4VGX1 F6RDK2 C3Y081 A0A158NGC2 A0A195B2G5

Pubmed

19121390 26227816 28756777 26354079 23537049 18362917 + More
19820115 15978750 12481130 15114417 18563158 21347285

EMBL

BABH01011629 BABH01011630 BABH01011631 BABH01011632 NWSH01005147 PCG64402.1 + More
JTDY01000435 KOB77184.1 KZ149940 PZC76927.1 ODYU01010790 SOQ56110.1 KQ460075 KPJ17945.1 KQ459582 KPI98731.1 APGK01035252 APGK01035253 KB740923 ENN78225.1 KQ971343 KYB27283.1 KB632333 ERL92660.1 AAGJ04094071 AAGJ04094072 AY926532 AAY16446.1 EAAA01000516 GG666478 EEN66154.1 ADTU01014734 KQ976662 KYM78482.1

Proteomes

UP000005204 UP000218220 UP000037510 UP000053240 UP000053268 UP000019118 + More
UP000007266 UP000030742 UP000007110 UP000008144 UP000001554 UP000005205 UP000078540

PRIDE

H9JL57

Pfam

PF13191   AAA_16        + More
PF00211   Guanylate_cyc
PF01979   Amidohydro_1

Interpro

IPR027417   P-loop_NTPase        + More
IPR041664   AAA_16
IPR006680   Amidohydro-rel
IPR029787   Nucleotide_cyclase
IPR032466   Metal_Hydrolase
IPR001054   A/G_cyclase
IPR011059   Metal-dep_hydrolase_composite
IPR019734   TPR_repeat
IPR011990   TPR-like_helical_dom_sf
IPR020901   Prtase_inh_Kunz-CS
IPR013087   Znf_C2H2_type
IPR036236   Znf_C2H2_sf

SUPFAM

SSF51556   SSF51556        + More
SSF52540   SSF52540
SSF55073   SSF55073
SSF51338   SSF51338
SSF48452   SSF48452
SSF57667   SSF57667

Gene 3D

3.30.70.1230 2.30.40.10 1.25.40.10

ProteinModelPortal

H9JL57 A0A2A4IZ27 A0A0L7LP99 A0A2W1BUR0 A0A2H1WSR3 A0A194RKT8 + More
A0A194PZI2 N6U950 A0A139WH49 U4URG7 Q4VGX1 F6RDK2 C3Y081 A0A158NGC2 A0A195B2G5

PDB

4CM2 E-value=5.67728e-51, Score=513

KEGG

101744382 K11265 adenylate cyclase 10 [EC:4.6.1.1] | (RefSeq) uncharacterized LOC101744382

PATHWAY

00230 Purine metabolism - Bombyx mori (domestic silkworm)
01100 Metabolic pathways - Bombyx mori (domestic silkworm)

GO

GO:0016787 GO:0035556 GO:0009190 GO:0016849 GO:0016021 GO:0016810 GO:0005737 GO:0004016 GO:0003676 GO:0030170 GO:0003824 GO:0005216 GO:0006811 GO:0006032 GO:0004672 GO:0048384

Length:

1552

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

43.6746500000003

Exp number, first 60 AAs:

17.28435

Total prob of N-in:

0.72503

POSSIBLE N-term signal

sequence

outside

1 - 1552

Pi

121.32534

Theta

135.672091

Tajima's D

0.008279

CLR

560.736496

CSRT

0.375831208439578

Interpretation

Uncertain

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics