The molecular mechanisms underlying hidden phenotypic variation among metallo-ß-lactamases

Abstract: Genetic variation among orthologous genes has been largely formed through neutral genetic drift to maintain the same functional role. In some circumstances, however, this genetic variation can create critical phenotypic variation, particularly when genes are transferred to a new host by horizontal gene transfer (HGT). Unveiling "hidden phenotypic variation" through HGT is especially important for genes that confer resistance to antibiotics, which continue to disseminate to new organisms through HGT.Despite thi… Show more

“…Since antibiotic resistance genes tend to be over-represented on MGEs, and were transmitted from soil bacteria to human pathogens (Forsberg, et al, 2012), there must be forces that restrict the horizontal transmission of resistance, yet we know little about those barriers. A recent study showed for metallo--lactamases that interactions between each acquired gene and multiple cellular processes of the bacterial host (transcription, translation, and translocation) could influence the genetic incompatibility and efficiency of HGT (Socha, et al, 2019). Fortunately, the scientific infrastructure and technology required to address these knowledge gaps already exists.…”

Antibiotic resistance: turning evolutionary principles into clinical reality

“…Since antibiotic resistance genes tend to be over-represented on MGEs, and were transmitted from soil bacteria to human pathogens (Forsberg, et al, 2012), there must be forces that restrict the horizontal transmission of resistance, yet we know little about those barriers. A recent study showed for metallo--lactamases that interactions between each acquired gene and multiple cellular processes of the bacterial host (transcription, translation, and translocation) could influence the genetic incompatibility and efficiency of HGT (Socha, et al, 2019). Fortunately, the scientific infrastructure and technology required to address these knowledge gaps already exists.…”

Antibiotic resistance: turning evolutionary principles into clinical reality

“…Another study expressing mutant dihydrofolate reductases (folAs) via chromosomal incorporation in Escherichia coli found that the cumulative parameter called catalytic capacity (abundance  catalytic activity) to strongly determine growth rate (2,10). Studies on other proteins besides folA implicated catalytic capacity as a growth rate constraint as well (3,(5)(6)(7)11). The corresponding fitness function pertains to the flux dynamics hypothesis (FDH) (2,5,12).…”

Avoidance of protein unfolding constrains protein stability in long-term evolution