Miguel F. Romero
National Autonomous University of Mexico
8 Papers
38 Citations
Miguel F. Romero is an academic researcher from National Autonomous University of Mexico. The author has contributed to research in topics: Rhizosphere & Metagenomics. The author has an hindex of 4, co-authored 8 publications.
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Papers
Testing the Two-Step Model of Plant Root Microbiome Acquisition Under Multiple Plant Species and Soil Sources.
Hugo R. Barajas,Shamayim Martínez-Sánchez,Miguel F. Romero,Cristóbal Hernández Álvarez,Luis Servín-González,Mariana Peimbert,Rocío Cruz-Ortega,Felipe García-Oliva,Luis David Alcaraz +8 more
TL;DR: In this article, the authors used 16S rRNA and shotgun metagenomes of the soils, in situ plants, and tomato roots to test the soil influence in the structuring of rhizosphere microbiomes, minimizing environmental variability.
Analysis of the Bacterial Diversity in Liver Abscess: Differences Between Pyogenic and Amebic Abscesses
Miriam E. Reyna-Fabián,Valeria Zermeño,Cecilia Ximénez,Janin Flores,Miguel F. Romero,Daniel Diaz,Jesús Argueta,Patricia Morán,Alicia Valadez,René Cerritos +9 more
TL;DR: A nonspecific mechanism of virulence modulation by bacteria in Entamoeba is suggested, which suggests that the virulence of these parasites increased in the presence of bacteria.
Global genomic similarity and core genome sequence diversity of the Streptococcus genus as a toolkit to identify closely related bacterial species in complex environments.
TL;DR: The core genome, in this work, consists of 404 proteins that are shared by all 108 Streptococcus, and the GSS resulted in the most useful metric for genus and species comparisons, where ANI metrics failed due to false positives when comparing different species.
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Horizontal Gene Transfers from Bacteria to Entamoeba Complex: A Strategy for Dating Events along Species Divergence
TL;DR: The acquisition of genes through lateral transfer may have triggered a period of adaptive radiation, thus playing a major role in the evolution of the Entamoeba genus.
Rhizosphere metagenomics of mine tailings colonizing plants: assembling and selecting synthetic bacterial communities to enhance in situ bioremediation
Miguel F. Romero,Diana Gallego,Jazmín Blaz,Arely Lechuga,José F. Martínez,Hugo R. Barajas,Corina Hayano-Kanashiro,Mariana Peimbert,Rocío Cruz-Ortega,Francisco Molina-Freaner,Luis David Alcaraz +10 more
TL;DR: The metabolic potential of the FSC presents promising features that might make it useful for plant-growth promotion in tailored phytostabilization strategies for the abandoned mine-tailings of Nacozari.