General Information

  • ID:  hor003620
  • Uniprot ID:  P84380
  • Protein name:  Periviscerokinin-22
  • Gene name:  NA
  • Organism:  Deropeltis erythrocephala (Black velvet roach)
  • Family:  Periviscerokinin family
  • Source:  animal
  • Expression:  Abdominal perisympathetic organs.
  • Disease:  NA
  • Comments:  NA
  • Taxonomy:  Deropeltis (genus), Blattinae (subfamily), Blattidae (family), Blattoidea (superfamily), Blattodea (order), Dictyoptera (superorder), Polyneoptera (cohort), Neoptera (infraclass), Pterygota (subclass), Dicondylia, Insecta (class), Hexapoda (subphylum), Pancrustacea, Mandibulata, Arthropoda (phylum), Panarthropoda, Ecdysozoa, Protostomia, Bilateria, Eumetazoa, Metazoa (kingdom), Opisthokonta, Eukaryota (superkingdom), cellular organisms
  • GO MF:  NA
  • GO BP:  GO:0007218 neuropeptide signaling pathway
  • GO CC:  GO:0005576 extracellular region

Sequence Information

  • Sequence:  GSSGLISMPRV
  • Length:  11
  • Propeptide:  GGSSGLISMPRV
  • Signal peptide:  NA
  • Modification:  T11 Valine amide
  • Glycosylation:  NA
  • Mutagenesis:  NA

Activity

  • Function:  Myotropic activity
  • Mechanism:  NA
  • Cross BBB:  NA
  • Target:  NA
  • Target Unid:  NA
  • IC50: NA
  • EC50: NA
  • ED50: NA
  • kd: NA
  • Half life: NA

Structure

  • Disulfide bond:  NA
  • Structure ID:  NA
  • Structure: (PDB_ID-from https://www.rcsb.org/; AlphaFold_DB_ID-from https://alphafold.ebi.ac.uk/; hordbxxxxxx_AF2.pdb was predicted structure by AlphaFold2; hordbxxxxxx_ESM.pdb was predicted structure by ESMFold)
  •    hor003620_AF2.pdbhor003620_ESM.pdb

Physical Information

Mass: 128184 Formula: C46H82N14O15S
Absent amino acids: ACDEFHKNQTWY Common amino acids: S
pI: 10.55 Basic residues: 1
Polar residues: 5 Hydrophobic residues: 3
Hydrophobicity: 46.36 Boman Index: -701
Half-Life: 30 hour Half-Life Yeast: >20 hour
Half-Life E.Coli: >10 hour Aliphatic Index 97.27
Instability Index: 5969.09 Extinction Coefficient cystines: 0
Absorbance 280nm: 0

Literature

  • PubMed ID:  15626499
  • Title:  A proteomic approach for studying insect phylogeny: CAPA peptides of ancient insect taxa (Dictyoptera, Blattoptera) as a test case.