The polyacetylenic lipids falcarinol, falcarindiol, and associated derivatives, termed falcarins, have a widespread taxonomical distribution in the plant kingdom and have received increasing interest for their demonstrated health-promoting properties as anti-cancer and anti-inflammatory agents. These fatty acid-derived compounds are also linked to plant pathogen resistance through their potent antimicrobial properties. Falcarin-type polyacetylenes, which contain two conjugated triple bonds, are derived from structural modifications of the common fatty acid oleic acid. In the past half century, much progress has been made on understanding the structural diversity of falcarins in the plant kingdom, while limited progress has been made on elucidating falcarin function in plant-pathogen interactions. More recently, an understanding of the biosynthetic machinery underlying falcarin biosynthesis has emerged. This review provides a concise summary of the current state of knowledge on falcarin structural diversity, biosynthesis, and plant defense properties. We also present major unanswered questions about falcarin biosynthesis and function.
Introdução: Avaliou-se a toxicidade aguda de 1,3-diestearil-2-oleil-glicerol (TG1), composto obtido de Platonia insignis Mart. (bacurizeiro), após administração oral em ratos Wistar. Métodos: A toxicidade aguda foi analisada através dos parâmetros hematológicos e bioquímicos. A análise de citotoxicidade in vitro foi feita pelo método do sal 3-(4,5-dimetil-2-tiazol)-2,5-difenil-2-H-brometo de tetrazolium (MTT). Os tecidos cerebrais e hepáticos foram avaliados histopatologicamente. Resultados: O tratamento agudo com TG1(dose de 30 mg kg-1) não produziu alterações hematológicas e histopatológicas nas áreas cerebrais e hepáticas. A redução dos níveis das enzimas transaminase (AST) e fosfatase alcalina (ALKP) pode sugerir proteção hepática. As análises bioquímicas da aspartato aminotransferase, ALKP e do ácido úrico apresentaram seus níveis reduzidos, conferindo preservação dos rins e fígado dos animais (p
Biotinylation is proposed for the identification of surface proteins in Schistosoma mansoni using the streptavidin-HRP conjugate for the detection of labeled polypeptides. However, control samples also showed several endogenous biotinylated polypeptides. In an attempt to determine the possibility of nonspecific binding between the streptavidin-HRP conjugate and polypeptides from S. mansoni, the conjugate was blocked with biotinamidecaproate-N-hydroxysuccinimide ester (BcapNHS) before biotin-streptavidin blotting. No bands were detected on the nitrocellulose sheet, demonstrating the specific recognition of biotin by the streptavidin present in the conjugate. Whole cercariae and cercarial bodies and tails showed several endogenous biotinylated polypeptides. The biotin concentration was 13 µg/ 190,000 cercariae. Adult worms presented less endogenous biotinylated polypeptides than cercariae. These results may be due to changes in the environment from aerobic to anaerobic conditions when cercarial bodies (schistosomula) are transformed into adult worms and a decrease in CO 2 production may occur. Cercariae, cercarial bodies and adult male worms were examined by transmission electron microscopy employing an avidin-colloidal gold conjugate for the detection of endogenous biotin. Gold particles were distributed mainly on the muscle fibers, but dispersed granules were observed in the tegument, mitochondria and cytosol. The discovery of endogenous biotin in S. mansoni should be investigated in order to clarify the function of this vitamin in the parasite.
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