Upregulation of C4 characteristics does not consistently improve photosynthetic performance in intraspecific hybrids of a grass

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Abstract

C4 photosynthesis is thought to have evolved via intermediate stages, with changes towards the C4 phenotype gradually enhancing photosynthetic performance. This hypothesis is widely supported by modelling studies, but experimental tests are missing. Mixing of C4 components to generate artificial intermediates can be achieved via crossing, and the grass Alloteropsis semialata represents an outstanding study system since it includes C4 and non-C4 populations. Here, we analyse F1 hybrids between C3 and C4, and C3+C4 and C4 genotypes to determine whether the acquisition of C4 characteristics increases photosynthetic performance. The hybrids have leaf anatomical characters and C4 gene expression profiles that are largely intermediate between those of their parents. Carbon isotope ratios are similarly intermediate, which suggests that a partial C4 cycle coexists with C3 carbon fixation in the hybrids. This partial C4 phenotype is associated with C4-like photosynthetic efficiency in C3+C4 × C4, but not in C3 × C4 hybrids, which are overall less efficient than both parents. Our results support the hypothesis that the photosynthetic gains from the upregulation of C4 characteristics depend on coordinated changes in anatomy and biochemistry. The order of acquisition of C4 components is thus constrained, with C3+C4 species providing an essential step for C4 evolution.

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Bianconi, M. E., Sotelo, G., Curran, E. V., Milenkovic, V., Samaritani, E., Dunning, L. T., … Christin, P. A. (2022). Upregulation of C4 characteristics does not consistently improve photosynthetic performance in intraspecific hybrids of a grass. Plant Cell and Environment, 45(5), 1398–1411. https://doi.org/10.1111/pce.14301

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