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Methodologies to generate, extract, purify and fractionate yeast ECM for analytical use in proteomics and glycomics.

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Faria Oliveira, Fábio and Carvalho, Joana and Belmiro, Celso LR and Martinez Gomariz, Montserrat and Hernaez, Maria Luisa and Pavão, Mauro and Gil, Concha and Lucas, Cândida and Ferreira, Célia (2014) Methodologies to generate, extract, purify and fractionate yeast ECM for analytical use in proteomics and glycomics. BMC microbiology, 14 . p. 244. ISSN 1471-2180

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Official URL: http://dx.doi.org/10.1186/s12866-014-0244-0




Abstract

BACKGROUND

In a multicellular organism, the extracellular matrix (ECM) provides a cell-supporting scaffold and helps maintaining the biophysical integrity of tissues and organs. At the same time it plays crucial roles in cellular communication and signalling, with implications in spatial organisation, motility and differentiation. Similarly, the presence of an ECM-like extracellular polymeric substance is known to support and protect bacterial and fungal multicellular aggregates, such as biofilms or colonies. However, the roles and composition of this microbial ECM are still poorly understood.

RESULTS

This work presents a protocol to produce S. cerevisiae and C. albicans ECM in an equally highly reproducible manner. Additionally, methodologies for the extraction and fractionation into protein and glycosidic analytical pure fractions were improved. These were subjected to analytical procedures, respectively SDS-PAGE, 2-DE, MALDI-TOF-MS and LC-MS/MS, and DAE and FPLC. Additional chemical methods were also used to test for uronic acids and sulphation.

CONCLUSIONS

The methodologies hereby presented were equally efficiently applied to extract high amounts of ECM material from S. cerevisiae and C. albicans mats, therefore showing their robustness and reproducibility for yECM molecular and structural characterization. yECM from S. cerevisiae and C. albicans displayed a different proteome and glycoside fractions. S. cerevisiae yECM presented two well-defined polysaccharides with different mass/charge, and C. albicans ECM presented a single different one. The chemical methods further suggested the presence of uronic acids, and chemical modification, possibly through sulphate substitution. All taken, the procedures herein described present the first sensible and concise approach to the molecular and chemical characterisation of the yeast ECM, opening the way to the in-depth study of the microbe multicellular aggregates structure and life-style.


Item Type:Article
Subjects:Medical sciences > Pharmacy > Microbiology
ID Code:33605
Deposited On:18 Nov 2015 10:15
Last Modified:18 Nov 2015 10:15

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