Nicola Di Maiuta scite author profile

Significance and Impact of the Study: Although catfishes are not classified as true xylivores, inhabiting their faeces are bacteria that may provide a novel source of cellulolytic enzyme. Based on this first microbiology study, the faeces and thus the gastrointestinal microbiome of Panaque catfishes are an unexplored reservoir of microbial extracts with enhanced polysaccharide transforming enzyme activity. The biomimetical exploitation of this cellulolytic activity in the form of novel enzymes or by applying a mixture of cellulolytic micro-organisms could accomplish a pretreatment to the mechanical production process of nanocellulose fibres, thus could reduce the energy consumption costs significantly. AbstractCatfishes of the genus Panaque are known for their ability to feed on wood and hence to process cellulose fibres in their digestive systems. The paper industry uses cellulose fibres and thus has an interest in exploiting this property biomimetically: it could be employed as a pretreatment to lessen the energy required by the mechanical production stage of manufacturing nanocellulose fibres. Here, we characterize the diet-associated in situ microbial diversity and population dynamic in the faeces of catfish (Panaque sp.) exposed to consecutive diets of pellet food and then wood. Fish faeces samples were collected and investigated by parallel DNA deep amplicon sequencing of the bacterial 16S rRNA SSU for both diet conditions. The most frequently occurring bacterium in the faeces was Cetobacterium sp. The dominant cellulolytic bacterial genera found in ascending relative abundance were as follows: Aeromonas sp., Flavobacterium sp., Bacteroides sp., Pseudomonas sp. and Cellvibrio sp. Diet-associated changes in the faeces microbiome were noted for Flavobacterium sp. Extensive microbial diversity was found in catfish faeces, evidenced using culture-independent molecular techniques. No significant dietassociated effects on the microbiome in terms of biodiversity were observed in the catfish faeces, but diet-associated changes in the microbial population structure were observed.

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Functionalized Calcium Carbonate as a Novel Pharmaceutical Excipient for the Preparation of Orally Dispersible Tablets

Stirnimann¹,

Maiuta

Gerard

et al. 2013

Pharm Res

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Assessment of bacteria and archaea in metalworking fluids using massive parallel 16S rRNA gene tag sequencing

Maiuta¹,

Rüfenacht²,

Küenzi³

2017

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Significance and Impact of the Study: Water-miscible metalworking fluids provide a suitable base of life for micro-organisms, mainly bacteria and fungi. Earlier publications suggested that the diversity is rather low, but these studies were largely based on heterotrophic plate counts. This might have resulted in underestimation of population density and microbial diversity as some organisms might just refuse to grow. This study used high-throughput sequencing in the absence and presence of propidium monoazide to explore bacterial and archaeal presence in metalworking fluids. We established that diversity is low and bacterial populations are dominated by the genus Pseudomonas spp. AbstractDetermination of the bacterial diversity in industry-based liquid in-use watermiscible metalworking fluid (MWF) samples was targeted by massive parallel multiplex DNA sequencing, either directly or upon pretreatment with propidium monoazide (PMA) that allows differentiation between intact and physically damaged cells. As MWFs provide a suitable basis of life for microorganisms, the majority is preserved by biocides. 'Bio-concept' fluids on the other hand are bactericide free, which intentionally leads to substantial bacterial populations. Samples from both fluid types were chosen: A median of 51 operational taxonomic units at genera level (OTUs) were detected per sample, but only 13 were present at or above 1Á0% of the total population in any PMA-treated sample analysed. As both fluid types were mainly dominated by Pseudomonas spp., we resolved this genus on the species level and found the Pseudomonas oleovorans/pseudoalcaligenes group to predominate. We also looked for archaea and detected Methanobrevibacter spp., albeit in <3% of all samples analysed.

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Molecular detection of bacteria in calcium carbonate powder used in cosmetic formulations

Maiuta

Schwarzentruber

2011

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Given that a variety of bacterial species may occur in the calcium carbonate powder used for cosmetic formulations, an understanding of their diversity and abundance is necessary to accurately assess the contamination of the finished product. 16S rRNA was PCR-amplified from genomic DNA extracted from three different calcium carbonate powder grades, and these amplicon libraries were sequenced using deep amplicon sequencing technology. The resulting libraries contained 4149-6688 16S rRNA reads per sample with a length of 327-342 bp. Classification into genus of pyrosequencing reads of the dominant bacterial species found in calcium carbonate powders was used to confirm the absence of Staphylococcus aureus, Pseudomonas aeruginosa, Salmonella spp. and Escherichia coli. The analysis described here can be used to determine the microbial diversity of calcium carbonate powder or the presence of any 'indicator microorganisms' in raw materials as well as in cosmetic products. This work provides guidance for prioritizing subsequent culturable and quantitative analysis, ensuring that potentially significant microorganisms are not left out of risk estimations.

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Microbial degradation of formaldehyde in white mineral dispersions preserved with formaldehyde-releasing biocides

Maiuta

Hubschmid

Giuliani

et al. 2009

International Biodeterioration & Biodegradation

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Nicola Di Maiuta

Microbial population dynamics in the faeces of wood-eating loricariid catfishes

Functionalized Calcium Carbonate as a Novel Pharmaceutical Excipient for the Preparation of Orally Dispersible Tablets

Assessment of bacteria and archaea in metalworking fluids using massive parallel 16S rRNA gene tag sequencing

Molecular detection of bacteria in calcium carbonate powder used in cosmetic formulations

Microbial degradation of formaldehyde in white mineral dispersions preserved with formaldehyde-releasing biocides

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