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Poster presentation 194 OPTIMISATION OF ISOLATION OF PEPTIDES FROM Latrodectus mactans VENOM Z.Zh. Mirakhmetova, N.R. Mukhamedov, M.B. Kayumov, Sh.Ya. Mirzaakhmedov Institute of Bioorganic Chemistry, 100125, Tashkent, Mirzo Ulugbek str. 83. e mail: mirzaakhmedov@mail.ru Latrodectus mactans , known as a black widow is a venomous species of spider in the genus Latrodectus . Its venom contains small molecular mass compounds, peptides, and proteins. The venom arsenal can be used as a source of potential biologically active compounds which promise therapeutic application. Proteins of black widow venom are studied well. However, peptides of the venom are less studied so far. Therefore, it is the subject of interest in our studies related to isolation, identification, and biological activity study of the peptides from venoms of spiders, scorpions, snakes, and reptiles. The aim of the research is the optimization of separation and isolation conditions of low molecular weight peptides from black widow venom. The following tasks were conducted: 1) studying of solubility of the venom; 2) depositing of proteins and peptides mixture; 3) ultrafiltration and/or gel-filtration of the venom in parallel manner and its precipitate; 4) comparative analysis of the fractions by HPLC. The venom was dissolved in water, acidic (0.1 and 0.2 M ammonium acetate pH 4), and basic (0.1 and 0.2 M ammonium bicarbonate pH 8) buffers to check its solubility. The solubility was almost the same in the case of all three types of solvents. We selected acetate buffer as a solvent for further steps. Because low pH prevents hydrolysis of the components of venom by proteolytic enzymes. The deposition of proteins and peptides was conducted by adding ethanol to the solution of the venom. 60% of ethanol against water (v:v) was enough to precipitate. Ultrafiltration was carried out using ultrafiltration membranes 10 kDa and 3 kDa sizes. >10 kDa, <10->3 kDa, and <3 kDa fractions of the venom and its ethanol precipitate were obtained. The fractions were lyophilized and stored at -20 o C. Sephadex G-25 was used for gel filtration and five fractions were obtained in the result. The first fraction was of very high intensity which corresponds to proteins with large molecular masses, and the rest fractions of low intensity are considered to be peptides and low molecular weight compounds. HPLC analysis of the venom, its ethanol precipitate and ethanol part and the fractions obtained by parallel ultra- and gel-filtrations was carried out using the C-18 column in the gradient mode of MeCN against 0.1 % TFA. HPLC profiles of all samples were analyzed using Origin software. The results indicated that peaks of high intensity with retention times 2.3, 13.7, 14.4, and 16.2 minutes belong to the low molecular weight compounds in the ethanol part. Therefore, it was found that working with ethanol precipitate which is free of low molecular weight compounds is preferred. HPLC profile of the ultra-filtration fractions of the precipitate did not demonstrate a significant difference from the precipitate itself or each other. In the case of gel- filtration fractions of 2, 3 and 4 had an increase of some peaks on their HPLC profile. It can be concluded that working with peptides of black widow venom precipitated by ethanol lets us get rid of low molecular weight organic compounds and the separation of peptides by gel-filtration is more efficient compared to using ultra- filtration membranes. |