Eumenine mastoparan-OD
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Eumenine mastoparan-OD

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Eumenine mastoparan-OD has potent hemolytic activity against ovine erythrocytes at micromolar concentrations. It also exhibits strong antimicrobial activity against the fungi C.albicans and B.cinerea, and weaker activity against the Gram-negative bacterium E.coli and Gram-positive bacterium S.aureus.

Category
Functional Peptides
Catalog number
BAT-012268
Synonyms
EMP-OD
Sequence
GRILSFIKGLAEHL
1. Mass spectrometric characterization of two novel inflammatory peptides from the venom of the social wasp Polybia paulista
Bibiana Monson de Souza, Mauricio Ribeiro Marques, Daniela Maria Tomazela, Marcos Nogueira Eberlin, Maria Anita Mendes, Mario Sergio Palma Rapid Commun Mass Spectrom. 2004;18(10):1095-102. doi: 10.1002/rcm.1452.
The social wasp P. paulista is relatively common in southeast Brazil causing many medically important stinging incidents. The seriousness of these incidents is dependent on the amount of venom inoculated by the wasps into the victims, and the characteristic envenomation symptoms are strongly dependent on the types of peptides present in the venom. In order to identify some of these naturally occurring peptides available in very low amounts, an analytical protocol was developed that uses a combination of reversed-phase and normal-phase high-performance liquid chromatography (HPLC) of wasp venom for peptide purification, with matrix-assisted laser desorption/ionization time-of-flight post-source decay mass spectrometry (MALDI-Tof-PSD-MS) and low-energy collision-induced dissociation (CID) in a quadrupole time-of-flight tandem mass spectrometry (QTof-MS/MS) instrument for peptide sequencing at the sub-picomole level. The distinction between Leu and Ile was achieved both by observing d-type fragment ions obtained under CID conditions and by comparison of retention times of the natural peptides and their synthetic counterparts (with different combinations of I and/or L at N- and C-terminal positions). To distinguish the isobaric residues K and Q, acetylation of peptides was followed by Q-Tof-MS analysis. The primary sequences obtained were INWLKLGKMVIDAL-NH(2) (MW 1611.98 Da) and IDWLKLGKMVMDVL-NH(2) (MW 1658.98 Da). Micro-scale bioassay protocols characterized both peptides as presenting potent hemolytic action, mast cell degranulation, and chemotaxis of polymorphonucleated leukocyte (PMNL) cells. The primary sequences and the bioassay results suggest that these toxins constitute members of a new sub-class of mastoparan toxins, directly involved in the occurrence of inflammatory processes after wasp stinging.
2. Novel biologically active peptides from the venom of Polistes rothneyi iwatai
Kazuya Murata, Tetsuro Shinada, Yasufumi Ohfune, Miki Hisada, Akikazu Yasuda, Hideo Naoki, Terumi Nakajima Biol Pharm Bull. 2006 Dec;29(12):2493-7. doi: 10.1248/bpb.29.2493.
Four novel peptides, polistes-mastoparan-R1, 2, 3, and polistes-protonectin, were isolated from the venom of a paper wasp, Polistes rothneyi iwatai. MALDI-TOF MS analysis of a small amount of the crude venom gave six molecular-related ion peaks. Among them, m/z 1565 was expected to be a novel peptide. Purification of the crude venom by HPLC gave two known kinins, Thr6-bradykinin and Ala-Arg-Thr6-bradykinin, and four novel peptides named polistes-mastoparan-R1, 2, and 3, and polistes-protonectin. Polistes-mastoparan-R1, 2, and 3 (Pm-R) were tetradecapeptides that possess high sequence homology with that of mastoparan. The sequence of polistes-protonectin was similar to that of protonectin isolated from a Brazilian paper wasp. Histamine-releasing activities of Pm-R1, 2, and 3 were more potent than that of mastoparan. Polistes-protonectin exhibited the most potent hemolytic activity in comparison with the four novel peptides and mastoparan.
3. Identification and characterization of venom proteins of two solitary wasps, Eumenes pomiformis and Orancistrocerus drewseni
Ji Hyeong Baek, Si Hyeock Lee Toxicon. 2010 Sep 15;56(4):554-62. doi: 10.1016/j.toxicon.2010.05.014. Epub 2010 Jun 1.
Secretory proteins were identified in the venoms of two solitary hunting wasps, Eumenes pomiformis and Orancistrocerus drewseni, by SDS-PAGE in conjunction with mass analysis. More than 30 protein bands (2-300 kDa) were detected from the crude venom of each wasp. With the aid of the previously constructed venom gland/sac-specific EST libraries, a total of 31 and 20 proteins were identified from 18 to 20 distinctive protein bands of E. pomiformis and O. drewseni venoms, respectively. Arginine kinase was the most predominant protein in both wasp venoms. Along with the full-length arginine kinase, a truncated form, which was known to have paralytic activity on a spider, was a common predominant protein in the two wasp venoms. Insulin/insulin-like peptide-binding protein was abundantly found only in E. pomiformis venom, which might be due to its unique behaviors of oviposition and provision. The presence of various immune response-related proteins and antioxidants suggested that wasps might use their venom to maintain prey fresh while feeding wasp larvae by protecting the prey from microbial invasion and physiological stresses. It seemed that some venom proteins are secreted into venom fluid from venom gland cells via exosomes, not by signal sequence-mediated transport processes.
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