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Browsing publications by Dr Rebeca Gonzalez-Cabaleiro.

Newcastle AuthorsTitleYearFull text
Dr Ben Allen
Dr Rebeca Gonzalez-Cabaleiro
Dr Dana Ofiteru
Professor William Sloan
Donna Swan
et al.		Diversity and metabolic energy in bacteria2023
Dr Rebeca Gonzalez-Cabaleiro
Professor Thomas Curtis
Dr Dana Ofiteru
Bioenergetics analysis of ammonia-oxidizing bacteria and the estimation of their maximum growth yield2019
Dr Valentina Gogulancea
Dr Rebeca Gonzalez-Cabaleiro
Dr Bowen Li
Dr Denis Taniguchi
Dr Jinju Chen
et al.		Individual based model links thermodynamics, chemical speciation and environmental conditions to microbial growth2019
Dr Bowen Li
Dr Denis Taniguchi
Dr Jayathilake Pahala Gedara
Dr Valentina Gogulancea
Dr Rebeca Gonzalez-Cabaleiro
et al.		NUFEB: A Massively Parallel Simulator for Individual-based Modelling of Microbial Communities2019
Dr Rebeca Gonzalez-Cabaleiro
Dr Dana Ofiteru
Electron bifurcation mechanism and homoacetogenesis explain products yields in mixed culture anaerobic fermentations2018
Dr Jayathilake Pahala Gedara
Dr Prashant Gupta
Dr Bowen Li
Dr Curtis Madsen
Dr Oluwole Oyebamiji
et al.		A mechanistic individual-based model of microbial communities2017
Dr Rebeca Gonzalez-Cabaleiro
Anca Mitchell
Dr Wendy Smith
Professor Anil Wipat
Dr Dana Ofiteru
et al.		Heterogeneity in pure microbial systems: Experimental measurements and modeling2017
Dr Rebeca Gonzalez-Cabaleiro
Professor Thomas Curtis
Dr Dana Ofiteru
New individual-based model links microbial growth to the energy available in the environment2017
Dr Rebeca Gonzalez-Cabaleiro
Metabolic Energy-Based Modelling Explains Product Yielding in Anaerobic Mixed Culture Fermentations2015
Dr Rebeca Gonzalez-Cabaleiro
Dr Dana Ofiteru
Microbial catabolic activities are naturally selected by metabolic energy harvest rate2015
Dr Rebeca Gonzalez-Cabaleiro
Linking thermodynamics and kinetics to assess pathway reversibility in anaerobic bioprocesses2013