C<sub>4</sub> photosynthesis provided an immediate demographic advantage to populations of the grass <i>Alloteropsis semialata</i>

C4photosynthesis is a complex trait requiring multiple developmental and metabolic alterations. Despite this complexity, it has independently evolved over 60 times. However, our understanding of the transition to C4is complicated by the fact that variation in photosynthetic type is usually segregated between species. Here, we perform a genome wide association study (GWAS) using the grassAlloteropsis semialata, the only known species to have C3, intermediate, and C4accessions. We aimed to identify genomic regions associated with the strength of the C4cycle (measured using δ13C), and the development of C4leaf anatomy. Genomic regions correlated with δ13C include regulators of C4decarboxylation enzymes (RIPK), non-photochemical quenching (SOQ1), and the development of Kranz anatomy (SCARECROW-LIKE). Regions associated with the development of C4leaf anatomy in the intermediate accessions contain additional leaf anatomy regulators, including those responsible for vein patterning (GSL8) and meristem determinacy (GRF1). The detection of highly correlated genomic regions with a modest sample size indicates that the emergence of C4photosynthesis inA. semialatarequired a few loci of large effect. The candidate genes could prove to be relevant for engineering C4leaf anatomy in C3species.

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Identifying genomic regions associated with C₄ photosynthetic activity and leaf anatomy in Alloteropsis semialata

Alenazi,

Pereira,

Christin

et al. 2024

New Phytologist

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Summary C4 photosynthesis is a complex trait requiring multiple developmental and metabolic alterations. Despite this complexity, it has independently evolved over 60 times. However, our understanding of the transition to C4 is complicated by the fact that variation in photosynthetic type is usually segregated between species that diverged a long time ago. Here, we perform a genome‐wide association study (GWAS) using the grass Alloteropsis semialata, the only known species to have C3, intermediate, and C4 accessions that recently diverged. We aimed to identify genomic regions associated with the strength of the C4 cycle (measured using δ13C), and the development of C4 leaf anatomy. Genomic regions correlated with δ13C include regulators of C4 decarboxylation enzymes (RIPK), nonphotochemical quenching (SOQ1), and the development of Kranz anatomy (SCARECROW‐LIKE). Regions associated with the development of C4 leaf anatomy in the intermediate individuals contain additional leaf anatomy regulators, including those responsible for vein patterning (GSL8) and meristem determinacy (GIF1). The parallel recruitment of paralogous leaf anatomy regulators between A. semialata and other C4 lineages implies the co‐option of these genes is context‐dependent, which likely has implications for the engineering of the C4 trait into C3 species.

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C₄ photosynthesis provided an immediate demographic advantage to populations of the grass Alloteropsis semialata

Cited by 3 publications

References 70 publications

C4 cereal and biofuel crop microbiomes

C4 cereal and biofuel crop microbiomes

Identifying leaf anatomy and metabolic regulators that underpin C₄photosynthesis inAlloteropsis semialata

Identifying genomic regions associated with C₄ photosynthetic activity and leaf anatomy in Alloteropsis semialata

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C4 photosynthesis provided an immediate demographic advantage to populations of the grass Alloteropsis semialata

Cited by 3 publications

References 70 publications

C4 cereal and biofuel crop microbiomes

C4 cereal and biofuel crop microbiomes

Identifying leaf anatomy and metabolic regulators that underpin C4photosynthesis inAlloteropsis semialata

Identifying genomic regions associated with C4 photosynthetic activity and leaf anatomy in Alloteropsis semialata

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Product

Resources

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C₄ photosynthesis provided an immediate demographic advantage to populations of the grass Alloteropsis semialata

Identifying leaf anatomy and metabolic regulators that underpin C₄photosynthesis inAlloteropsis semialata

Identifying genomic regions associated with C₄ photosynthetic activity and leaf anatomy in Alloteropsis semialata