Ecology and biotechnological potential of bacterial community from three marine sponges of the coast of Rio de Janeiro, Brazil

Araújo, Fábio Vieira de; Netto, Marcelle C.M; Azevedo, Gustavo P; Jayme, Marcelly Miranda Aybal; Nunes-Carvalho, Monica Conceição; Silva, Mariana M; Carmo, Flávia Lima do

doi:10.1590/0001-3765201720170462

An. Acad. Bras. Ciênc.

2017

DOI: 10.1590/0001-3765201720170462

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Ecology and biotechnological potential of bacterial community from three marine sponges of the coast of Rio de Janeiro, Brazil

Fábio Vieira de Araújo

Marcelle C.M Netto

Gustavo P Azevedo

et al.

Abstract: Marine sponges has been a large reservoir of microbial diversity, with the presence of many species specific populations as well as producing biologically active compounds, which has attracted great biotechnological interest. In order to verify the influence of the environment in the composition of the bacterial community present in marine sponges and biotechnological potential of bacteria isolated from these organisms, three species of sponges and the waters surrounding them were collected in different beache… Show more

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“…Considering the biological diversity of sponges existing in the Brazilian coast (Van Soest et al 2012), the potential for discovery of new molecules for health and industry is very large, and this aspect is explored in the manuscript of Araújo et al (2017) by studying the bacterial communities present in three marine sponges species collected in the coast of Rio de Janeiro, Brazil. Their data also fundament the opportunity for the study of a group of organisms that are essential for the conservation of marine ecosystems.…”

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Landslide hazard mapping, DNA damage induced by sucrose and the biotechnology potential of sponge-associated bacteria communities

Bonatto

2017

An. Acad. Bras. Ciênc.

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Since its foundation in 1929, the major concern of Annals of The Brazilian Academy of Sciences (AABC) has been to promote scientific investigations in different research fields that could improve the welfare of our populations. In fact, the current number of AABC clearly displays this long-standing editorial tradition.The growth of population in a worldwide scale and the social vulnerability of different human communities subjected to war, economy collapse, ethnical persecution and poverty impose a strong pressure to occupy multi-hazard environments, like flood plains and hill slopes subject to landslides (Sullivan-Wiley and Gianotti 2017). As human communities occupy unstable hill slope areas, activities like deforestation or irregular building sites increase the probability of landslide occurrence (Dai et al. 2002). Thus, it becomes imperative to assess the regional factors that could trigger a landslide event. The manuscript of Cerri et al.(2017) invokes a new geologic strategy to evaluate potential landslide regions in Serra do Mar based on soil fractures and foliation, and the slope geometry of the area. This method could improve the diagnostic of hazard in hill slope areas and directly impact the development of a framework for safe hill slope use for agricultural and urban purposes.Carbohydrate consumption is a major public health concern nowadays, since it represents a large percentage of total energy intake in adults and children worldwide (Azaïs-Braesco et al. 2017, Wittekind andWalton 2014). Despite the development of nutritional guidelines that promotes the reduction of sugars in industrial processed foods, there are evidences that high sucrose western diets are linked to metabolic syndrome (Zhou et al. 2014), nonalcoholic fatty liver disease (Ishimoto et al. 2013), and cardiometabolic disease (DiNicolantonio and Lucan 2014). Unfortunately, the molecular effects of a high sucrose diet are less understood. Early efforts to understand the effects of carbohydrate metabolism and DNA damage were made using Saccharomyces cerevisiae as a model and a systems biology approach (Barea and Bonatto 2008), showing that reactive carbonyl species (RCS) provided by sugar metabolism could be linked to DNA damage. The manuscript of Franke et al. (2017) also addresses this question, and shows that the consumption of a high sucrose diet in rat model promotes DNA damage in hippocampus hence it contributes to the development of diabetes-associated neuropathologies.

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Landslide hazard mapping, DNA damage induced by sucrose and the biotechnology potential of sponge-associated bacteria communities

Bonatto

2017

An. Acad. Bras. Ciênc.

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Evaluation of wood degradation rates by Teredinidae (Mollusca: Bivalvia) in two ecologically distinct areas, and temperature and salinity influences on the cellulolytic activity of associated bacteria

Maldonado

Moura

Skinner

et al. 2020

An. Acad. Bras. Ciênc.

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Teredinidae (shipworms) is a family of marine wood-boring bivalves that has an important role in the degradation of wood through its symbiotic relationship with cellulolytic bacteria. To evaluate the rate of degradation of wood by teredinids in two sites with different oceanographic conditions in Rio de Janeiro State, Brazil, artifi cial structures composed of pine wood sheets were immersed in the ocean for three months at Arraial do Cabo in an area under the infl uence of upwelling, and at Ilha Grande Bay under tropical and oligotrophic infl uences. After the immersion period, teredinids were removed from the collectors, identifi ed, and counted. Wood consumption by the teredinids was quantifi ed by comparing the dry weights of the collectors before and after immersion. Associated bacteria were isolated and their cellulolytic activities evaluated at different temperatures and salinities. Two Teredinidae species were recorded: Bankia gouldi and Lyrodus fl oridanus. The highest wood degradation rate and enzymatic activities of the isolated bacterial strains were recorded at Arraial do Cabo, suggesting that upwelling infl uenced the activities of those species.

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Ecology and biotechnological potential of bacterial community from three marine sponges of the coast of Rio de Janeiro, Brazil

Cited by 2 publications

References 23 publications

Landslide hazard mapping, DNA damage induced by sucrose and the biotechnology potential of sponge-associated bacteria communities

Landslide hazard mapping, DNA damage induced by sucrose and the biotechnology potential of sponge-associated bacteria communities

Evaluation of wood degradation rates by Teredinidae (Mollusca: Bivalvia) in two ecologically distinct areas, and temperature and salinity influences on the cellulolytic activity of associated bacteria

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