Litcius/Paper detail

Characterization of planktonic and biofilm cells from two filamentous cyanobacteria using a shotgun proteomic approach

Maria J. Romeu, Dany Domínguez‐Pérez, Daniela Almeida, João Morais, Alexandre Campos, Vı́tor Vasconcelos, Filipe J. Mergulhão

2020Biofouling18 citationsDOIOpen Access PDF

Abstract

Cyanobacteria promote marine biofouling with significant impacts. A qualitative proteomic analysis, by LC-MS/MS, of planktonic and biofilm cells from two cyanobacteria was performed. Biofilms were formed on glass and perspex at two relevant hydrodynamic conditions for marine environments (average shear rates of 4 s−1 and 40 s−1). For both strains and surfaces, biofilm development was higher at 4 s−1. Biofilm development of Nodosilinea sp. LEGE 06145 was substantially higher than Nodosilinea sp. LEGE 06119, but no significant differences were found between surfaces. Overall, 377 and 301 different proteins were identified for Nodosilinea sp. LEGE 06145 and Nodosilinea sp. LEGE 06119. Differences in protein composition were more noticeable in biofilms formed under different hydrodynamic conditions than in those formed on different surfaces. Ribosomal and photosynthetic proteins were identified in most conditions. The characterization performed gives new insights into how shear rate and surface affect the planktonic to biofilm transition, from a structural and proteomics perspective.

Topics & Concepts

BiofilmCyanobacteriaShotgun proteomicsBiofoulingBiologyShotgunProteomicsMicrobiologyBacteriaChemistryBotanyBiochemistryGeneGeneticsMembraneMarine Biology and Environmental ChemistryMarine Biology and Ecology ResearchMicrobial Community Ecology and Physiology