Rafael Munoz-Tamayo
Overview
Explore the profile of Rafael Munoz-Tamayo including associated specialties, affiliations and a list of published articles.
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16
Citations
691
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Recent Articles
1.
Davoudkhani M, Rubino F, Creevey C, Ahvenjarvi S, Bayat A, Tapio I, et al.
PLoS One
. 2024 Mar;
19(3):e0298930.
PMID: 38507436
The rumen represents a dynamic microbial ecosystem where fermentation metabolites and microbial concentrations change over time in response to dietary changes. The integration of microbial genomic knowledge and dynamic modelling...
2.
Munoz-Tamayo R, Tedeschi L
J Anim Sci
. 2023 Nov;
101.
PMID: 37997927
Constructing dynamic mathematical models of biological systems requires estimating unknown parameters from available experimental data, usually using a statistical fitting procedure. This procedure is usually called parameter identification, parameter estimation,...
3.
Lenoir G, Flatres-Grall L, Munoz-Tamayo R, David I, Friggens N
Genet Sel Evol
. 2023 Nov;
55(1):77.
PMID: 37936078
Background: There is a growing need to improve robustness of fattening pigs, but this trait is difficult to phenotype. Our first objective was to develop a proxy for robustness of...
4.
Fakih I, Got J, Robles-Rodriguez C, Siegel A, Forano E, Munoz-Tamayo R
mSystems
. 2023 Jun;
8(3):e0102722.
PMID: 37289026
is a cellulolytic bacterium that plays an essential role in the degradation of plant fibers in the rumen ecosystem. It converts cellulose polymers into intracellular glycogen and the fermentation metabolites...
5.
Munoz-Tamayo R, Nielsen B, Gagaoua M, Gondret F, Krause E, Morgavi D, et al.
PNAS Nexus
. 2023 Feb;
1(3):pgac106.
PMID: 36741429
The Open Science movement aims at ensuring accessibility, reproducibility, and transparency of research. The adoption of Open Science practices in animal science, however, is still at an early stage. To...
6.
Munoz-Tamayo R, Popova M, Tillier M, Morgavi D, Morel J, Fonty G, et al.
PLoS One
. 2019 Dec;
14(12):e0226243.
PMID: 31826000
Methanogenic archaea occupy a functionally important niche in the gut microbial ecosystem of mammals. Our purpose was to quantitatively characterize the dynamics of methanogenesis by integrating microbiology, thermodynamics and mathematical...
7.
Huws S, Creevey C, Oyama L, Mizrahi I, Denman S, Popova M, et al.
Front Microbiol
. 2018 Oct;
9:2161.
PMID: 30319557
The rumen is a complex ecosystem composed of anaerobic bacteria, protozoa, fungi, methanogenic archaea and phages. These microbes interact closely to breakdown plant material that cannot be digested by humans,...
8.
Robles-Rodriguez C, Munoz-Tamayo R, Bideaux C, Gorret N, Guillouet S, Molina-Jouve C, et al.
Biotechnol Bioeng
. 2017 Dec;
115(5):1137-1151.
PMID: 29288574
Oleaginous yeasts have been seen as a feasible alternative to produce the precursors of biodiesel due to their capacity to accumulate lipids as triacylglycerol having profiles with high content of...
9.
Baroukh C, Munoz-Tamayo R, Bernard O, Steyer J
Curr Opin Biotechnol
. 2016 Mar;
38:200-2.
PMID: 27012852
No abstract available.
10.
Baroukh C, Munoz-Tamayo R, Steyer J, Bernard O
Metab Eng
. 2015 Apr;
30:49-60.
PMID: 25916794
The most promising and yet challenging application of microalgae and cyanobacteria is the production of renewable energy: biodiesel from microalgae triacylglycerols and bioethanol from cyanobacteria carbohydrates. A thorough understanding of...