Salcher, Michaela M


Publications
5

Flexible genomic island conservation across freshwater and marine Methylophilaceae

Citation
Layoun et al. (2024). The ISME Journal 18 (1)
Names
“Novamethylotenera aquatica” “Methylopumilus” “Methylopumilus planktonicus”
Abstract
Abstract The evolutionary trajectory of Methylophilaceae includes habitat transitions from freshwater sediments to freshwater and marine pelagial that resulted in genome reduction (genome-streamlining) of the pelagic taxa. However, the extent of genetic similarities in the genomic structure and microdiversity of the two genome-streamlined pelagic lineages (freshwater “Ca. Methylopumilus” and the marine OM43 lineage) has so far never been compared. Here, we analyzed complete genome

Evolution in action: habitat transition from sediment to the pelagial leads to genome streamlining in Methylophilaceae

Citation
Salcher et al. (2019). The ISME Journal 13 (11)
Names
“Methylopumilus hivernalis” “Methylopumilus profundus” “Methylopumilus” “Methylopumilus planktonicus”
Abstract
Abstract The most abundant aquatic microbes are small in cell and genome size. Genome-streamlining theory predicts gene loss caused by evolutionary selection driven by environmental factors, favouring superior competitors for limiting resources. However, evolutionary histories of such abundant, genome-streamlined microbes remain largely unknown. Here we reconstruct the series of steps in the evolution of some of the most abundant genome-streamlined microbes in freshwaters (“Ca. Me

The ecology of pelagic freshwater methylotrophs assessed by a high-resolution monitoring and isolation campaign

Citation
Salcher et al. (2015). The ISME Journal 9 (11)
Names
“Methylopumilus profundus” Ca. Methylopumilus turicensis “Methylopumilus planktonicus”
Abstract
Abstract Methylotrophic planktonic bacteria fulfill a particular role in the carbon cycle of lakes via the turnover of single-carbon compounds. We studied two planktonic freshwater lineages (LD28 and PRD01a001B) affiliated with Methylophilaceae (Betaproteobacteria) in Lake Zurich, Switzerland, by a combination of molecular and cultivation-based approaches. Their spatio-temporal distribution was monitored at high resolution (n=992 samples) for 4 consecutive years. LD28 methylotroph