Rosana Canuto Gomes scite author profile

Aims:The chitinolytic activity of an actinomycete, isolated from a tropical acidic ferrasol (FAO) under cerrado (savanna) vegetation, is reported. Methods and Results: Selection of the strain was based on spot inoculation on solid colloidal chitin medium. The use of chemotaxonomic, morphological and physiological procedures placed it in the Streptomyces genus, but identi®cation to species level could not be achieved. A protein with endochitinase activity was isolated and puri®ed from the supernatant¯uid by concentration, precipitation, hydrophobic interaction, gel ®ltration and adsorption procedures. The molecular size of the puri®ed chitinase was estimated by gel ®ltration to be 70 kDa, and its pI was 6á1. The enzyme had temperature and pH optima of 40°C and 8á0, respectively, and showed thermal (30±70°C) and pH (4±9) stabilities. Antifungal activity of the selected strain was observed following in vitro experiments using growing cells, crude extract or the puri®ed endochitinase, and by detecting growth inhibition of the tested phytopathogenic fungi. Conclusions: Strain Streptomyces RC 1071 could not be placed into any known species, suggesting a new taxon. The puri®ed endochitinase presented similar molecular weight, optimum temperature and pH activity, and stability of other endochitinolytic enzymes reported in the literature. In all three in vitro experiments performed, inhibition of growth of the phytopathogenic fungi used as test organisms was observed. Signi®cance and Impact of the Study: Some of the endochitinase characteristics such as thermal stability, as well as pH tolerance, are very interesting for biotechnological purposes. In addition, due to its antifungal activity, Streptomyces RC 1071 seems promising for use in biological control.

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Acute Effects of Tetracycline Exposure in the Freshwater Fish Gambusia holbrooki: Antioxidant Effects, Neurotoxicity and Histological Alterations

Nunes

Antunes

Gomes

et al. 2014

Arch Environ Contam Toxicol

107

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A large body of evidence was compiled in the recent decades showing a noteworthy increase in the detection of pharmaceutical drugs in aquatic ecosystems. Due to its ubiquitous presence, chemical nature, and practical purpose, this type of contaminant can exert toxic effects in nontarget organisms. Exposure to pharmaceutical drugs can result in adaptive alterations, such as changes in tissues, or in key homeostatic mechanisms, such as antioxidant mechanisms, biochemical/physiological pathways, and cellular damage. These alterations can be monitored to determine the impact of these compounds on exposed aquatic organisms. Among pharmaceutical drugs in the environment, antibiotics are particularly important because they include a variety of substances widely used in medical and veterinary practice, livestock production, and aquaculture. This wide use constitutes a decisive factor contributing for their frequent detection in the aquatic environment. Tetracyclines are the individual antibiotic subclass with the second highest frequency of detection in environmental matrices. The characterization of the potential ecotoxicological effects of tetracycline is a much-required task; to attain this objective, the present study assessed the acute toxic effects of tetracycline in the freshwater fish species Gambusia holbrooki by the determination of histological changes in the gills and liver, changes in antioxidant defense [glutathione S-transferase (GST), catalase (CAT), and lipoperoxidative damage] as well as potential neurotoxicity (acetylcholinesterase activity). The obtained results suggest the existence of a cause-and-effect relationship between the exposure to tetracycline and histological alterations (more specifically in gills) and enzymatic activity (particularly the enzyme CAT in liver and GST in gills) indicating that this compound can exert a pro-oxidative activity.

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Chitinolytic activity of actinomycetes from a cerrado soil and their potential in biocontrol

Gomes

Semêdo

Soares

et al. 2000

Lett Appl Microbiol

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R.C. GOMES, L.T.A.S. SEME(r)DO, R.M.A. SOARES, C.S. ALVIANO, L.F. LINHARES and R.R.R. COELHO.2000.The crude enzyme extracts from five actinomycetes selected from a cerrado soil presented very good endochitinolytic activity when compared to a commercial chitinase. Exochitinase and chitobiase activities were also detected. They were identified as Streptomyces, but could not be characterized to species level, probably corresponding to new ones. The crude extracts, obtained from growth on fungal mycelium plus chitin of three of the strains, have shown a very pronounced activity against phytopathogenic fungi. In tests using growing cells, all five strains were active. These data suggest that these strains are potential biocontrol agents.

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A novel extracellular calcium-dependent cysteine proteinase from Crithidia deanei

d’Avila-Levy

Souza

Gomes

et al. 2003

Archives of Biochemistry and Biophysics

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Isolation and characterization of actinomycetes from Brazilian tropical soils

Semêdo

Linhares

Gomes

et al. 2001

Microbiological Research

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Actinomycetes have been isolated from three Brazilian tropical soils. The dispersion and differential centrifugation procedure revealed count values 1.5 to 5.0 times greater than those obtained by the conventional dilution plate technique for all soils and media tested. Eighteen strains, promising for biotechnological applications, were submitted to chemotaxonomic procedures and numerical taxonomy for identification. Two were identified as Amycolatopsis orientalis, one as Streptomyces misakiensis, and two tentatively included or associated to S. chromofuscus and S. griseoruber. The others, all belonging to the Streptomyces genus, could not be fitted into any known species, and were arranged by the UPGMA analysis for classification, as an isolated group. This suggests that the actinomycetes in tropical soils may represent a vast unexplored resource for biotechnology.

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