Your search keyword '"Mordvintsev DY"' showing total 2 results

1. Naja melanoleuca cobra venom contains two forms of complement-depleting factor (CVF).

Author

Osipov AV, Mordvintsev DY, Starkov VG, Galebskaya LV, Ryumina EV, Bel'tyukov PP, Kozlov LV, Romanov SV, Doljansky Y, Tsetlin VI, and Utkin YN

Subjects

Animals, Complement Hemolytic Activity Assay, Electrophoresis, Polyacrylamide Gel, Immunoassay, Kinetics, Mass Spectrometry, Mice, Complement C3 metabolism, Elapid Venoms isolation & purification, Elapid Venoms metabolism, Elapidae

Abstract

Two forms of complement-depleting cobra venom factor (CVFm1 and CVFm2), possessing molecular masses of 142.6 kDa (CVFm1) and 143.1 kDa (CVFm2), according to MALDI mass-spectrometry, were isolated from the Naja melanoleuca cobra venom. As shown by polyacrylamide gel electrophoresis in the presence of SDS, both forms similarly to factor from the Naja kaouthia cobra venom (CVFk) consist of three polypeptide chains with molecular masses of about 70, 50, and 30 kDa, the two large subunits being glycosylated. As determined by MALDI mass-spectrometry, 30 kDa subunits of CVFm1 and CVFm2 have considerably different finger-prints of tryptic digests that suggests differences in their amino acid sequences. A study of activity in vivo has shown no significant differences in C3 consumption by CVFm1, CVFm2 and CVFk in mouse blood. However, as shown by an immunoassay method, they differ in their ability to activate the complement system via C3 conversion, the ratio of these activities for CVFm1:CVFm2:CVFk being 2.5:1.6:1. Kinetic studies using a hemolytic test showed that complement depletion by CVFm1 is faster than that by CVFm2. Thus, for the first time the presence in a single venom of two forms of CVF differing by both amino acid sequence and biological activity has been shown.

Published

2005

2. Polyclonal antibodies against native weak toxin Naja kaouthia discriminate native weak toxins and some other three-fingered toxins against their denaturated forms.

Author

Kryukova EV, Mordvintsev DY, Daya S, Utkin YN, and Tsetlin VI

Subjects

Amino Acid Sequence, Animals, Antibody Affinity, Elapid Venoms genetics, Elapid Venoms immunology, Epitopes, Molecular Sequence Data, Phylogeny, Protein Conformation, Protein Denaturation, Rabbits, Elapid Venoms chemistry, Elapidae physiology

Abstract

Polyclonal antibodies obtained by immunization of rabbits with native form of weak toxin (WTX) from cobra Naja kaouthia venom efficiently interacted with WTX and a weak toxin from Naja oxiana venom, but not so with their denaturated forms. These antibodies could also bind with lower affinity other groups of three-fingered toxins: long-chain alpha-neurotoxins, muscarinic toxins and cytotoxins, but practically did not bind short-chain alpha-neurotoxins. The efficiency of toxin-antibody interaction depends on the group (weak toxins, long or short alpha-neurotoxins, cytotoxins etc.) to which the toxin belongs, but not on species of snake from which the toxin originates. There is a correlation between the results obtained and phylogenetic analysis of the three-fingered toxins which revealed that WTX is very close to other weak toxins, relatively close to long alpha-neurotoxins, cytotoxins and muscarinic toxins, but is distant from the short alpha-neurotoxins.

Published

2005