Michael R. Clear scite author profile

Michael R. Clear

2Publications

14Citation Statements Received

136Citation Statements Given

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Brookhaven National Laboratory, University of Mississippi

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The Evolution of Symbiotic Plant–Microbe Signalling

Clear

Hom

2019

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Plants form beneficial symbioses with a variety of different microbes. Among these, the root associated arbuscular mycorrhizal fungi, ectomycorrhizal fungi, rhizobial, and actinobacterial symbioses are some of the best understood. The successful establishment of these symbioses relies on a complex, coordinated signal exchange that arose from hundreds of millions of years of coevolution between plants and their associated microbes. Despite the diversity of these microbial symbionts, common signalling mechanisms were evolved that include the manipulation of host immunity and the use of similar plant‐ and microbe‐derived signals and receptors. Owing to the plethora of information on these diverse symbioses, their signalling mechanisms are rarely reviewed together and even less so within an evolutionary context. We provide an overview of what is known regarding the evolution of these signals in an effort to highlight knowledge gaps in our understanding of plant–microbe symbiosis.

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Genome-Wide Association Study Reveals Complex Genetic Architecture of Cadmium and Mercury Accumulation and Tolerance Traits in Medicago truncatula

et al. 2022

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Heavy metals are an increasing problem due to contamination from human sources that and can enter the food chain by being taken up by plants. Understanding the genetic basis of accumulation and tolerance in plants is important for reducing the uptake of toxic metals in crops and crop relatives, as well as for removing heavy metals from soils by means of phytoremediation. Following exposure of Medicago truncatula seedlings to cadmium (Cd) and mercury (Hg), we conducted a genome-wide association study using relative root growth (RRG) and leaf accumulation measurements. Cd and Hg accumulation and RRG had heritability ranging 0.44 – 0.72 indicating high genetic diversity for these traits. The Cd and Hg trait associations were broadly distributed throughout the genome, indicated the traits are polygenic and involve several quantitative loci. For all traits, candidate genes included several membrane associated ATP-binding cassette transporters, P-type ATPase transporters, oxidative stress response genes, and stress related UDP-glycosyltransferases. The P-type ATPase transporters and ATP-binding cassette protein-families have roles in vacuole transport of heavy metals, and our findings support their wide use in physiological plant responses to heavy metals and abiotic stresses. We also found associations between Cd RRG with the genes CAX3 and PDR3, two linked adjacent genes, and leaf accumulation of Hg associated with the genes NRAMP6 and CAX9. When plant genotypes with the most extreme phenotypes were compared, we found significant divergence in genomic regions using population genomics methods that contained metal transport and stress response gene ontologies. Several of these genomic regions show high linkage disequilibrium (LD) among candidate genes suggesting they have evolved together. Minor allele frequency (MAF) and effect size of the most significant SNPs was negatively correlated with large effect alleles being most rare. This is consistent with purifying selection against alleles that increase toxicity and abiotic stress. Conversely, the alleles with large affect that had higher frequencies that were associated with the exclusion of Cd and Hg. Overall, macroevolutionary conservation of heavy metal and stress response genes is important for improvement of forage crops by harnessing wild genetic variants in gene banks such as the Medicago HapMap collection.

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Michael R. Clear

The Evolution of Symbiotic Plant–Microbe Signalling

Genome-Wide Association Study Reveals Complex Genetic Architecture of Cadmium and Mercury Accumulation and Tolerance Traits in Medicago truncatula

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