, 2024 — Most genetic roots of fungal and animal aging are hundreds of millions of years old according to phylostratigraphy analyses of aging networks.. GeroScience , ,
, 2024 — Most genetic roots of fungal and animal aging are hundreds of millions of years old according to phylostratigraphy analyses of aging networks.. GEROSCIENCE , ,
ISSN
2509-2715
, 2023 — Interactomics: dozens of viruses, co-evolving with humans, including the influenza A virus, may actively distort human ageing. Abstract Some viruses (e.g. HIV-1, SARS-CoV-2) have been experimentally proposed to accelerate features of human ageing and of… MOLECULAR BIOLOGY AND EVOLUTION vol. 40, n° 2, msad012
ISSN
0737-4038
, 2022 — Network analyses unveil ageing-associated pathways evolutionarily conserved from fungi to animals. GeroScience , ,
ISSN
2509-2715, 2509-2723
, 2022 — Aging at Evolutionary Crossroads: Longitudinal Gene Co-expression Network Analyses of Proximal and Ultimate Causes of Aging in Bats. Molecular Biology and Evolution vol. 39, n° 1, msab302
ISSN
0737-4038
, September 2021 — Interspecific interactions that affect ageing: Age-distorters manipulate host ageing to their own evolutionary benefits. Ageing Research Reviews vol. 70, , p. 101375
ISSN
15681637
, 2020 — The Distribution of Genes Associated With Regulated Cell Death Is Decoupled From the Mitochondrial Phenotypes Within Unicellular Eukaryotic Hosts. Frontiers in Cell and Developmental Biology vol. 8, , p. 536389 tex.article-number: 536389
tex.unique-id: ISI:000575619800001
ISSN
2296-634X
, 2020 — Ancestral germen/soma distinction in microbes: Expanding the disposable soma theory of aging to all unicellular lineages. Ageing Research Reviews vol. 60, , p. 101064
ISSN
1568-1637