Saw, Jimmy H.


Publications
6

Phylogenomics and ancestral reconstruction of Korarchaeota reveals genomic adaptation to habitat switching

Citation
Tahon et al. (2023).
Names
“Korarchaeum calidifontum” “Caldabyssikora” “Korarchaeum” “Caldabyssikoraceae” “Caldabyssikora taketomiensis” “Caldabyssikora guaymasensis” “Thermotainarokoraceae” “Thermotainarokora guaymasensis” “Thermotainarokora taketomiensis” “Hydrocaminikoraceae”
Abstract
AbstractOur knowledge of archaeal diversity and evolution has expanded rapidly in the past decade. However, hardly any genomes of the phylum Korarchaeota have been obtained due to the difficulty in accessing their natural habitats and – possibly – their limited abundance. As a result, many aspects of Korarchaeota biology, physiology and evolution remain enigmatic. Here, we expand this phylum with five high-quality metagenome-assembled genomes. This improved taxon sampling combined with sophistic

Metabolic versatility of Caldarchaeales from geothermal features of Hawai’i and Chile as revealed by five metagenome-assembled genomes

Citation
Balbay et al. (2023). Frontiers in Microbiology 14
Names
Calditenuis Pelearchaeum Pelearchaeum maunauluense Ts Calditenuis fumarioli Ts Calditenuaceae “Geothermarchaeota”
Abstract
Members of the archaeal order Caldarchaeales (previously the phylum Aigarchaeota) are poorly sampled and are represented in public databases by relatively few genomes. Additional representative genomes will help resolve their placement among all known members of Archaea and provide insights into their roles in the environment. In this study, we analyzed 16S rRNA gene amplicons belonging to the Caldarchaeales that are available in public databases, which demonstrated that archaea of the order Cal

Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes

Citation
Eme et al. (2023). Nature 618 (7967)
Names
Asgardarchaeota
Abstract
AbstractIn the ongoing debates about eukaryogenesis—the series of evolutionary events leading to the emergence of the eukaryotic cell from prokaryotic ancestors—members of the Asgard archaea play a key part as the closest archaeal relatives of eukaryotes1. However, the nature and phylogenetic identity of the last common ancestor of Asgard archaea and eukaryotes remain unresolved2–4. Here we analyse distinct phylogenetic marker datasets of an expanded genomic sampling of Asgard archaea and evalua

Asgard archaea illuminate the origin of eukaryotic cellular complexity

Citation
Zaremba-Niedzwiedzka et al. (2017). Nature 541 (7637)
Names
Asgardarchaeota “Odinarchaeota”
Abstract

Genomic inference of the metabolism of cosmopolitan subsurface Archaea, Hadesarchaea

Citation
Baker et al. (2016). Nature Microbiology 1 (3)
Names
Hadarchaeum yellowstonense Ts
Abstract
AbstractThe subsurface biosphere is largely unexplored and contains a broad diversity of uncultured microbes1. Despite being one of the few prokaryotic lineages that is cosmopolitan in both the terrestrial and marine subsurface2–4, the physiological and ecological roles of SAGMEG (South-African Gold Mine Miscellaneous Euryarchaeal Group) Archaea are unknown. Here, we report the metabolic capabilities of this enigmatic group as inferred from genomic reconstructions. Four high-quality (63–90% comp