[HTML][HTML] Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic.
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - search.ebscohost.com
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - Nature communications, 2023 - pubmed.ncbi.nlm.nih.gov
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - ideas.repec.org
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - econpapers.repec.org
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
[HTML][HTML] Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - ncbi.nlm.nih.gov
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - bioRxiv, 2022 - biorxiv.org
The rise of antimicrobial resistance has motivated the development of antibiotics that have
multiple cellular targets, to theoretically reduce the frequency of resistance evolution, but …
multiple cellular targets, to theoretically reduce the frequency of resistance evolution, but …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic.
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - europepmc.org
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - Nature Communications, 2023 - ui.adsabs.harvard.edu
Antibiotics that have multiple cellular targets theoretically reduce the frequency of resistance
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
evolution, but adaptive trajectories and resistance mechanisms against such antibiotics are …
Efflux pump gene amplifications bypass necessity of multiple target mutations for resistance against dual-targeting antibiotic
KPT Silva, G Sundar, A Khare - 2022 - europepmc.org
The rise of antimicrobial resistance has motivated the development of antibiotics that have
multiple cellular targets, to theoretically reduce the frequency of resistance evolution, but …
multiple cellular targets, to theoretically reduce the frequency of resistance evolution, but …