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A global assessment of the structure and function of the crop microbiome is urgently needed for the development of effective and rationally designed microbiome technologies for sustainable agriculture. Such an effort will provide new knowledge on the key ecological and evolutionary interactions between plant species and their microbiomes that can be harnessed for increasing agriculture productivity.
Coronavirus disease 2019 may have a complex long-term impact on antimicrobial resistance (AMR). Coordinated strategies at the individual, health-care and policy levels are urgently required to inform necessary actions to reduce the potential longer-term impact on AMR and on access to effective antimicrobials.
To harness the potential of microbiome science across the broad range of relevant disciplines, new approaches to data infrastructure and transdisciplinary collaboration are necessary. The National Microbiome Data Collaborative is a new initiative to support microbiome data exploration and discovery through a collaborative, integrative data science ecosystem.
To control antimicrobial resistance (AMR) will require approaches to develop, share and preserve antibiotics that are scaled to the scientific, economic and ethical dimensions of the crisis. The three cooperative, interdisciplinary, international councils proposed in this Comment by Carl Nathan exemplify what this will require.
Resistance to the current first-line antimalarials threatens the control of malaria caused by Plasmodium falciparum and underscores the urgent need for new drugs with novel modes of action. Small-Saunders, Hagenah and Fidock present the argument that the parasite’s chloroquine resistance transporter (PfCRT) constitutes a promising target to combat multidrug-resistant malaria.