Your search keyword '"González-Plaza, Juan José"' showing total 3 results

1. Molecular Phylogeny Reveals the Past Transoceanic Voyages of Drywood Termites (Isoptera, Kalotermitidae)

Author

Buček, Aleš, Wang, Menglin, Šobotník, Jan, Hellemans, Simon, Sillam-Dussès, David, Mizumoto, Nobuaki, Stiblík, Petr, Clitheroe, Crystal, Lu, Tomer, González Plaza, Juan José, Mohagan, Alma, Rafanomezantsoa, Jean-Jacques, Fisher, Brian, Engel, Michael S., Roisin, Yves, Evans, Theodore A., Scheffrahn, Rudolf, Bourguignon, Thomas, Buček, Aleš, Wang, Menglin, Šobotník, Jan, Hellemans, Simon, Sillam-Dussès, David, Mizumoto, Nobuaki, Stiblík, Petr, Clitheroe, Crystal, Lu, Tomer, González Plaza, Juan José, Mohagan, Alma, Rafanomezantsoa, Jean-Jacques, Fisher, Brian, Engel, Michael S., Roisin, Yves, Evans, Theodore A., Scheffrahn, Rudolf, and Bourguignon, Thomas

Abstract

Termites are major decomposers in terrestrial ecosystems and the second most diverse lineage of social insects. The Kalotermitidae form the second-largest termite family and are distributed across tropical and subtropical ecosystems, where they typically live in small colonies confined to single wood items inhabited by individuals with no foraging abilities. How the Kalotermitidae have acquired their global distribution patterns remains unresolved. Similarly, it is unclear whether foraging is ancestral to Kalotermitidae or was secondarily acquired in a few species. These questions can be addressed in a phylogenetic framework. We inferred time-calibrated phylogenetic trees of Kalotermitidae using mitochondrial genomes of ∼120 species, about 27% of kalotermitid diversity, including representatives of 21 of the 23 kalotermitid genera. Our mitochondrial genome phylogenetic trees were corroborated by phylogenies inferred from nuclear ultraconserved elements derived from a subset of 28 species. We found that extant kalotermitids shared a common ancestor 84 Ma (75–93 Ma 95% highest posterior density), indicating that a few disjunctions among early-diverging kalotermitid lineages may predate Gondwana breakup. However, most of the ∼40 disjunctions among biogeographic realms were dated at <50 Ma, indicating that transoceanic dispersals, and more recently human-mediated dispersals, have been the major drivers of the global distribution of Kalotermitidae. Our phylogeny also revealed that the capacity to forage is often found in early-diverging kalotermitid lineages, implying the ancestors of Kalotermitidae were able to forage among multiple wood pieces. Our phylogenetic estimates provide a platform for critical taxonomic revision and future comparative analyses of Kalotermitidae., We thank the DNA Sequencing Section and the Scientific Computation and Data Analysis Section of the Okinawa Institute of Science and Technology Graduate University, Okinawa, Japan, for assistance with sequencing and for providing access to the OIST computing cluster, respectively. We also acknowledge support from the Internal Grant Agency of the Faculty of Tropical AgriSciences (CULS No. 20223112).

Published

2022

2. Molecular Phylogeny Reveals the Past Transoceanic Voyages of Drywood Termites (Isoptera, Kalotermitidae)

Author

Buček, Aleš, Wang, Menglin, Šobotník, Jan, Hellemans, Simon, Sillam-Dussès, David, Mizumoto, Nobuaki, Stiblik, Petr, Clitheroe, Crystal-Leigh, Lu, Tomer, González Plaza, Juan José, Mohagan, Alma, Rafanomezantsoa, Jean Jacques, Fisher, Brian B.L., Engel, Michael M.S., Roisin, Yves, Evans, Theodore Alfred, Scheffrahn, Rudolf H., Bourguignon, Thomas, Buček, Aleš, Wang, Menglin, Šobotník, Jan, Hellemans, Simon, Sillam-Dussès, David, Mizumoto, Nobuaki, Stiblik, Petr, Clitheroe, Crystal-Leigh, Lu, Tomer, González Plaza, Juan José, Mohagan, Alma, Rafanomezantsoa, Jean Jacques, Fisher, Brian B.L., Engel, Michael M.S., Roisin, Yves, Evans, Theodore Alfred, Scheffrahn, Rudolf H., and Bourguignon, Thomas

Abstract

Termites are major decomposers in terrestrial ecosystems and the second most diverse lineage of social insects. The Kalotermitidae form the second-largest termite family and are distributed across tropical and subtropical ecosystems, where they typically live in small colonies confined to single wood items inhabited by individuals with no foraging abilities. How the Kalotermitidae have acquired their global distribution patterns remains unresolved. Similarly, it is unclear whether foraging is ancestral to Kalotermitidae or was secondarily acquired in a few species. These questions can be addressed in a phylogenetic framework. We inferred time-calibrated phylogenetic trees of Kalotermitidae using mitochondrial genomes of ∼120 species, about 27% of kalotermitid diversity, including representatives of 21 of the 23 kalotermitid genera. Our mitochondrial genome phylogenetic trees were corroborated by phylogenies inferred from nuclear ultraconserved elements derived from a subset of 28 species. We found that extant kalotermitids shared a common ancestor 84 Ma (75-93 Ma 95% highest posterior density), indicating that a few disjunctions among early-diverging kalotermitid lineages may predate Gondwana breakup. However, most of the ∼40 disjunctions among biogeographic realms were dated at <50 Ma, indicating that transoceanic dispersals, and more recently human-mediated dispersals, have been the major drivers of the global distribution of Kalotermitidae. Our phylogeny also revealed that the capacity to forage is often found in early-diverging kalotermitid lineages, implying the ancestors of Kalotermitidae were able to forage among multiple wood pieces. Our phylogenetic estimates provide a platform for critical taxonomic revision and future comparative analyses of Kalotermitidae., SCOPUS: ar.j, info:eu-repo/semantics/published

Published

2022

3. Advances in experimental and computational methodologies for the study of microbial-surface interactions at different omics levels

Author

González-Plaza, Juan José, Furlan, Cristina, Rijavec, Tomaž, Lapanje, Aleš, Barros, Rocío, Tamayo-Ramos, Juan Antonio, Suarez-Diez, Maria, González-Plaza, Juan José, Furlan, Cristina, Rijavec, Tomaž, Lapanje, Aleš, Barros, Rocío, Tamayo-Ramos, Juan Antonio, and Suarez-Diez, Maria

Abstract

The study of the biological response of microbial cells interacting with natural and synthetic interfaces has acquired a new dimension with the development and constant progress of advanced omics technologies. New methods allow the isolation and analysis of nucleic acids, proteins and metabolites from complex samples, of interest in diverse research areas, such as materials sciences, biomedical sciences, forensic sciences, biotechnology and archeology, among others. The study of the bacterial recognition and response to surface contact or the diagnosis and evolution of ancient pathogens contained in archeological tissues require, in many cases, the availability of specialized methods and tools. The current review describes advances in in vitro and in silico approaches to tackle existing challenges (e.g., low-quality sample, low amount, presence of inhibitors, chelators, etc.) in the isolation of high-quality samples and in the analysis of microbial cells at genomic, transcriptomic, proteomic and metabolomic levels, when present in complex interfaces. From the experimental point of view, tailored manual and automatized methodologies, commercial and in-house developed protocols, are described. The computational level focuses on the discussion of novel tools and approaches designed to solve associated issues, such as sample contamination, low quality reads, low coverage, etc. Finally, approaches to obtain a systems level understanding of these complex interactions by integrating multi omics datasets are presented.

Published

2022