Zobrazeno 1 - 10
of 22
pro vyhledávání: '"Fernando D. K. Tria"'
Autor:
Joana C. Xavier, Rebecca E. Gerhards, Jessica L. E. Wimmer, Julia Brueckner, Fernando D. K. Tria, William F. Martin
Publikováno v:
Communications Biology, Vol 4, Iss 1, Pp 1-10 (2021)
Joana C. Xavier, Rebecca E. Gerhards and colleagues reconstruct the habitat and lifestyle of the last bacterial common ancestor (LBCA) through the construction of the metabolic network and gene tree analysis of 146 LCBA protein families. Their analys
Externí odkaz:
https://doaj.org/article/3d58cf5521b04202b081990db4c831c4
Publikováno v:
Life, Vol 12, Iss 7, p 995 (2022)
The rooting of phylogenetic trees permits important inferences about ancestral states and the polarity of evolutionary events. Recently, methods that reconcile discordance between gene-trees and species-trees—tree reconciliation methods—are becom
Externí odkaz:
https://doaj.org/article/00ef678d758a495d8ef394143ba514e9
Autor:
Martina Preiner, Silke Asche, Sidney Becker, Holly C. Betts, Adrien Boniface, Eloi Camprubi, Kuhan Chandru, Valentina Erastova, Sriram G. Garg, Nozair Khawaja, Gladys Kostyrka, Rainer Machné, Giacomo Moggioli, Kamila B. Muchowska, Sinje Neukirchen, Benedikt Peter, Edith Pichlhöfer, Ádám Radványi, Daniele Rossetto, Annalena Salditt, Nicolas M. Schmelling, Filipa L. Sousa, Fernando D. K. Tria, Dániel Vörös, Joana C. Xavier
Publikováno v:
Life, Vol 10, Iss 3, p 20 (2020)
Research on the origin of life is highly heterogeneous. After a peculiar historical development, it still includes strongly opposed views which potentially hinder progress. In the 1st Interdisciplinary Origin of Life Meeting, early-career researchers
Externí odkaz:
https://doaj.org/article/d38a73c2e4b6419bb78b183c8632be20
Publikováno v:
PLoS Genetics, Vol 16, Iss 11, p e1009200 (2020)
Lateral gene transfer (LGT) has impacted prokaryotic genome evolution, yet the extent to which LGT compromises vertical evolution across individual genes and individual phyla is unknown, as are the factors that govern LGT frequency across genes. Esti
Externí odkaz:
https://doaj.org/article/e9190cfb35d949b5a548d894c3c91c70
All eukaryotes have linear chromosomes that are distributed to daughter nuclei during mitotic division, but the ancestral state of nuclear division in the last eukaryotic common ancestor (LECA) is so far unresolved. To address this issue, we have emp
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::6398d0b501d387348bd814d0cb0f7909
https://doi.org/10.1093/gbe/evad016
https://doi.org/10.1093/gbe/evad016
Publikováno v:
Genome Biology and Evolution. 14
Two main theories have been put forward to explain the origin of mitochondria in eukaryotes: phagotrophic engulfment (undigested food) and microbial symbiosis (physiological interactions). The two theories generate mutually exclusive predictions abou
Autor:
Damjan Franjević, Sriram G. Garg, Fernando D. K. Tria, William Martin, Sven B. Gould, Neil W. Blackstone, Michael Hendriksen, Josip Skejo, Nico Bremer
Publikováno v:
Genome Biology and Evolution
Modern accounts of eukaryogenesis entail an endosymbiotic encounter between an archaeal host and a proteobacterial endosymbiont, with subsequent evolution giving rise to a unicell possessing a single nucleus and mitochondria. The mononucleate state o
Autor:
Fernando D. K. Tria, Giddy Landan, Andreas Reinhardt, Christopher Davies, Ulrike Johnsen, Jonathan M. Turner, Peter Schönheit
Publikováno v:
The FEBS Journal. 286:2471-2489
Pyruvate kinases (PKs) synthesize ATP as the final step of glycolysis in the three domains of life. PKs from most bacteria and eukarya are allosteric enzymes that are activated by sugar phosphates; for example, the feed-forward regulator fructose-1,6
Autor:
Fernando D. K. Tria, Sven B. Gould, Nils Kapust, Josip Skejo, Michael Knopp, Verena Zimorski, Jessica L. E. Wimmer, Sriram G. Garg, Falk S. P. Nagies, Julia Brueckner, William Martin, Joana C. Xavier
Publikováno v:
Genome Biology and Evolution
The last eukaryote common ancestor (LECA) possessed mitochondria and all key traits that make eukaryotic cells more complex than their prokaryotic ancestors, yet the timing of mitochondrial acquisition and the role of mitochondria in the origin of eu
Publikováno v:
Genome Biology and Evolution
The transition from unicellular to multicellular organisms is one of the most significant events in the history of life. Key to this process is the emergence of Darwinian individuality at the higher level: Groups must become single entities capable o