2017

Articles

• Biofilm formation and signaling of c-di-GMP in Shewanella oneidensis
  17 September 2018
• GEORGESCU Elena-Bianca
  21 March 2017

  From 15/03/2017 to 15/07/2017 Research Topics
  Molecularly Imprinted Polymers for Biomimetic Sensors

• Polyaniline thermoset blends and composites
  24 September 2018, by Hugues BRISSET
• Molecularly Imprinted Polymers for Biomimetic Sensors
  21 March 2017

  Defence: 07 Octobre 2021

• Etude des Interactions Amibes-Bactéries Marines et détection de molécules signal
  20 October 2020

  Acronym :
  ABAMAR Funding:
  EMBRC-France Short Overview:
  This project allowed the acces to the services and platform bellonging to the Oceanological observatory of Banyuls-sur-mer, en partenariat avec R. Lami, LBBM-USR Involved MAPIEM permanent members: MOLMERET MaëllePartners:LBBM-USR 3579
  LAMI Raphaël

• Discrimination of four marine biofilm-forming bacteria by LC-MS metabolomics and influence of culture parameters
  31 March 2017

  Most marine bacteria can form biofilms, and they are the main components of biofilms observed on marine surfaces. Biofilms constitute a widespread life strategy, as growing in such structures offers many important biological benefits. The molecular compounds expressed in biofilms and, more generally, the metabolomes of marine bacteria remain poorly studied. In this context, a nontargeted LC–MS metabolomics approach of marine biofilm-forming bacterial strains was developed. Four marine bacteria, Persicivirga (Nonlabens) mediterranea TC4 and TC7, Pseudoalteromonas lipolytica TC8, and Shewanella sp. TC11, were used as model organisms. The main objective was to search for some strain-specific bacterial metabolites and to determine how culture parameters (culture medium, growth phase, and mode of culture) may affect the cellular metabolism of each strain and thus the global interstrain metabolic discrimination. LC–MS profiling and statistical partial least-squares discriminant analyses showed that the four strains could be differentiated at the species level whatever the medium, the growth phase, or the mode of culture (planktonic vs biofilm). A MS/MS molecular network was subsequently built and allowed the identification of putative bacterial biomarkers. TC8 was discriminated by a series of ornithine lipids, while the P. mediterranea strains produced hydroxylated ornithine and glycine lipids. Among the P. mediterranea strains, TC7 extracts were distinguished by the occurrence of diamine derivatives, such as putrescine amides.

• Spatio-temporal variations of marine biofilm communities colonizing artificial substrata including antifouling coatings in contrasted coastal environments
  1 December 2017
• Accounting for BIOfouling through established Protocols of quantification
  19 January 2017, by Hugues BRISSET

  Elaborer des méthodes de caractérisation et de quantification du biofouling pour fiabiliser les données d’entrée nécessaires au dimensionnement et à la maintenance des systèmes Energies Marines Renouvelables (EMR).

• Acrylic-kaolinite composite hydrogels for controlled-release nitrogen fertilizers application
  12 September 2018

  Defence: 10 December 2021

• Validation d’un Volume Elémentaire Représentatif pour composites UD renforcés par des fibres : influence des interphases
  17 July 2018, by YJ