Observations of cells of axenic peach palm (Bactris gasipaes) microplants by light microscopy revealed movements of small particles within the cells. The phenomenon was characterized initially as Brownian movement, but electron microscopy revealed the presence of an intracellular bacterial community in these plants. Microscopy observations revealed the particular shapes of bacterial cells colonizing inner tissues of analyzed plants. Applying a molecular characterization by polymerase chain reaction and denaturing gradient gel electrophoresis, it was revealed the existence of bacterial rRNA within the plants. Sequencing of the rRNA identified three different phylogenetic groups; two bands had a high degree of similarity to sequences from Moraxella sp. and Brevibacillus sp., and a third sequence was similar to a non-cultivated cyanobacterium. The presence of those endosymbionts, called bacteriosomes, in axenic peach palm microplants raises the question of whether these stable endosymbionts were acquired in the process of evolution and how could they benefit the process of plants micropropagation.
Resumo -A perda de plantas micropropagadas ocorre, principalmente, pela presença de microrganismos, responsáveis pela morte das plantas no início da cultura ou em seu estabelecimento no campo. O trabalho teve como objetivo a identificação, por taxonomia clássica, e por meio de técnicas moleculares, de fungos presentes nos ápices caulinares de pupunheiras sadias, cultivadas no campo, e a comparação com os fungos isolados, em plantas micropropagadas há dois anos. Os isolados da microbiota fúngica endofítica, das plantas cultivadas in vitro, foram: Fusarium oxysporum, Neotyphodium sp. e Epicoccum nigrum; e das plantas in vivo, foram: Fusarium sp., F. proliferatum, F. oxysporum, Colletotrichum sp., Alternaria gaisen, Neotyphodium sp. e Epicoccum nigrum. As sete espécies de fungos foram reintroduzidas in vitro na planta hospedeira, demonstrando diferentes comportamentos. Neotyphodium sp. e E. nigrum estabeleceram uma interação endofítica com a planta, e as demais comportaram-se como patógenos, diminuindo o desenvolvimento das plântulas em relação às plantas sem inoculação. As espécies endofíticas apresentam potencial para o uso no controle biológico de patógenos de pupunha.Termos para indexação: Bactris gasipaes, patógenos latentes, fungos, controle biológico. Endophytic fungi in shoot tip of the pejibaye cultivated in vivo and in vitroAbstract -Losses of micropropagated plants occur in its majority due to presence of microorganisms responsible for plant death both in culture beginning and plant establishment in field. Two years in vitro cultivated pejibaye shoot tips, showed the presence of fungi colonies after transference for new culture medium. This paper aimed at identifying fungi, by classical taxonomy and by molecular methods, present in shoot tip of healthy pejibaye plants, cultivated in the field, and to compare them with isolated ones of in vitro plants. The isolates of endophytic fungi community of the in vitro plants were Fusarium oxysporum, Neotyphodium sp. and Epicoccum nigrum; from the in vivo plants were Fusarium sp., F. proliferatum, F. oxysporum, Colletotrichum sp., Alternaria gaisen, Neotyphodium sp. and E. nigrum. The seven species of fungi were reinoculated in host plant, revealing different behaviour. Neotyphodium sp. and E. nigrum established an endophytic interaction with the host; the other fungi acted as pathogens causing decrease in seedlings development when compared to the non-inoculated plants. Species acting as endophytes present a potential use in biocontrol of pejibaye pathogens.
AELCe showed a moderate bacteriostatic activity and promoted an immunomodulatory status through higher production of Th1 cytokines, nitric oxide release and T CD8 lymphocytes stimulation.
Spondias tuberosa Arruda, popularly named as umbu, is native from savanna-like vegetation and widely used for medicinal purposes, however, the toxicological profile is not available yet. This study evaluated the phytochemical profile and acute toxicity and citoxicity of Ethanolic Extract of Spondias tuberosa Arruda Bark (EEStb) in hematological, biochemical and histopathological parameters. Female Wistar rats were divided into: control (C) and animal treated single doses of 300mg/Kg (EEStb 300 ) or 2.000mg/kg body weight (ESStb 2.000 ) of the EEStb. After 24 hours and 14 days from gavage, the behavior, hematological, biochemical and histopathological parameters were assayed. Cytotoxicity effect was evaluated on HEp-2 cell lines. Neither EEStb 300 nor EEStb 2.000 produced mortality nor changes in body weight during the 14-days of observation, but EEStb 2.000 reduced quietly the food and water intake as well as locomotor activity at first day. There were no changes in macroscopic, histopathological, biochemical and hematological parameters. EEStb in concentrations of 6.25-50μg ml −1 on HEp-2 cell did not produce cytotoxic effect. These results suggest that EEStb did not cause acute toxicity and cytotoxic, suggesting a good safety rate for Spondias tuberosa Arruda.
Rhizophora mangle is an abundant plant in mangroves and tannic acid is a polyphenol produced by the secondary metabolism of plants. The aim of the study was to evaluate the embryotoxic and embriostatic effects of the aqueous extract of R. mangle and synthetic tannic acid on eggs and larvae of Aedes aegypti. A. aegypti eggs were exposed in duplicate at concentrations of 250, 500, 750 and 1000 µg/mL of extract and tannic acid for a period of 14 days. Mineral water was used as a negative control. The eggs were observed and counted in a stereomicroscope (1.2x). In all extract concentrations there was stimulation in hatching in relation to the control, but only in concentration of 750 mg/mL it was statistically significant. In tannic acid (250µg/ml) there was significant stimulus in hatching, but in 500, 750 and 1000 µg/mL there was significant inhibition. All concentrations of aqueous extract and tannic acid on larvae showed embryotoxic and embryostatic effects when compared to the control. The aqueous extract of R. mangle showed effect on hatching of A. aegypti eggs and synthetic tannic acid showed embryotoxic and embryostatic effects. On larvae, both the aqueous extract as tannic acid showed embryotoxic and embryostatic effects.
ABSTRACT. Zymomonas mobilis is a Gram-negative bacterium that has drawn attention in the bioethanol industry. Besides bioethanol, this bacterium also produces other biotechnological products such as levans, which show antitumor activity. Molecular studies involving Z. mobilis have advanced to the point that allows us to characterize interspecies genetic diversity and understand their metabolism, and these data are essential for better utilization of this species. In this study, the genetic diversity of 24 strains from the Microorganisms Collection of Departamento de Antibióticos (UFPEDA) from Universidade Federal de Pernambuco were characterized. The methods used were amplified ribosomal DNA restriction analysis and diversity analysis of the internally transcribed 16S-23S rDNA spacer region (ISR). These analyses revealed low genetic variability of the 16S rDNA gene. These data confirm that these isolates are, or are closely related to, Z. mobilis. Moreover, the analysis of the ISR confirmed the genetic variability of strains deposited in the UFPEDA collection of microorganisms and grouped these strains into ten ribotypes, which can be used in the future for breeding programs and for the preservation of biodiversity. Furthermore, this study characterized the genetic variability between the UFPEDA 205/ ZAP, UFPEDA 98/AG11, and ZAG strains, which were obtained by spheroplast fusion among them. The data also indicate that there is genetic variability among the UFPEDA 202/CP4 and UFPEDA 633/ ZM4 strains, demonstrating that these important Z. mobilis strains are distinct, as suggested in previous studies.
New nanoparticles containing biomaterials are emerging as versatile active platforms in a great number of applications, for example, as skin substitutes and therapeutic media. The present study describes the preparation of silver nanoparticles (AgNPs) embedded in agarose films and the impact of calcium ascorbate in the formation of ANPs as well as in the final properties of the films. Colloidal AgNPs were synthetized by two chemical reduction routes: (i) applying calcium ascorbate and NaBH and (ii) applying only NaBH. AgNPs synthetized using NaBH showed sizes ranging from 5 to 18 nm while AgNPs were calcium ascorbate was used showed micrometer from 164 to 955 nm size. Films were prepared in three formulations: agarose control film (A1); agarose + AgNPs without calcium ascorbate (A2) and agarose + AgNPs with calcium ascorbate (A3). The characterization of films by SEM and EDS showed agarose agglomerates in A2 and unreacted calcium ascorbate crystals on surface of A3. Thus, the presence of calcium ascorbate influenced the properties of A3 film. In addition, the antimicrobial analysis showed a silver particles release dependence on the film composition and only the A3 presented activity against Staphylococcus aureus. The results found in this study open an important way for development of new biomaterials, economically competitive, and with medical application.
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