Compartmentation of photosynthesis gene expression in C4 maize depends on time of day

Borba, Ana Rita; Reyna-Llorens, Ivan; Dickinson, Patrick; Steed, Gareth; Gouveia, Paulo; Górska, Alicja; Gomes, C. B.; Kromdijk, Johannes; Webb, Alex A. R.; Saibo, Nelson J. M.; Hibberd, Julian M.

doi:10.1093/plphys/kiad447

Cited by 8 publications

(5 citation statements)

References 79 publications

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“…We investigated the variable enzymes that give each C 4 subtype its unique properties by focusing on two species (S. bicolor and Z. mays) from the NADP-ME subtype (Figure 3A). As expected, chromatin accessibility bias was observed for enzymes previously reported as having cell-type-specific expression patterns, similarly to the core C 4 enzyme set (23,29). Reassuringly, one of the most biased enzymes identified was NADP-ME, the key enzyme of the redox step in NADP-ME subtypes.…”

Section: Key C 4 Subtype Enzymes Show Potential Convergent Evolution ...supporting

confidence: 74%

Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Mendieta,

Tu,

Jiang

et al. 2024

Preprint

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While considerable knowledge exists about the enzymes pivotal for C4 photosynthesis, much less is known aboutcis-regulation important for specifying their expression in distinct cell types. Here, we use single-cell-indexed ATAC-seq to identify cell-type-specific accessible chromatin regions (ACRs) associated with C4 enzymes for five different grass species. This study spans four C4 species, covering three distinct photosynthetic subtypes:Zea maysandSorghum bicolor(NADP-ME),Panicum miliaceum(NAD-ME),Urochloa fusca(PEPCK), along with the C3 outgroupOryza sativa. We studied thecis-regulatory landscape of enzymes essential across all C4 species and those unique to C4 subtypes, measuring cell-type-specific biases for C4 enzymes using chromatin accessibility data. Integrating these data with phylogenetic trees revealed diverse co-option of gene family members between species, showcasing the various paths of C4 evolution. We mapped cell-type-specific ACRs surrounding each C4 gene, discovering that, on average, these genes have two to three cell-type-specific ACRs located beyond the core promoter. These results provide a detailed genomic map of potential regulatory sequences operating on key C4 genes. Examining the evolutionary history of these cell-type-specific ACRs revealed a spectrum of conserved and novel ACRs, even among closely related species, indicating ongoing evolution ofcis-regulation at these C4 loci. This work illuminates the dynamic and complex nature of CRE evolution in C4 photosynthesis, particularly highlighting the intricatecis-regulatory evolution of key loci. Our findings offer a valuable resource for future investigations, potentially aiding in the optimization of C3 crop performance under changing climatic conditions.

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Section: Key C 4 Subtype Enzymes Show Potential Convergent Evolution ...supporting

confidence: 74%

Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Mendieta,

Tu,

Jiang

et al. 2024

Preprint

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“…Previous studies have identified a small number of cis - and trans -regulatory mechanisms that control the specific expression of C 4 genes in mesophyll and bundle sheath cells (Marshall et al, 1997; Gowik et al, 2004; Akyildiz et l., 2007; Brown et al, 2011; Williams et al, 2016; Reyna-Llorens et al, 2018; Borba et al, 2023). The expression patterns driven by these cis -regulatory sequences in C 3 and C 4 species suggest that rewiring of ancestral gene regulatory mechanisms underlies the evolution of cell type specific gene expression required for C 4 photosynthesis.…”

Section: Discussionmentioning

confidence: 99%

“…For example, DOF transcription factor binding sites were enriched in chromatin regions that were specifically accessible in bundle sheath cells of both rice and sorghum. Supporting this, transient expression assays in C4 maize have shown that DOF transcription factors are able to activate the expression of NADP-ME and PEPCK, two genes that are specifically expressed in the bundle sheath (Borba et al, 2023). Thus, in contrast to the low level of conservation of transcriptional identities detected for the bundle sheath between C3 rice and C4 sorghum, it appears that the cisregulatory landscape regulating cell-type specific expression is conserved between the two species.…”

Section: C4 Gene Expression Exapts Gene Regulatory Network Associated...mentioning

confidence: 96%

“…In eukaryotes, the regulation of gene expression in distinct cell types and in response to endogenous and environmental signals is encoded by cis -regulatory elements, the binding sites of transcription factors (Marand et al, 2017). In C 4 leaves mechanical and cell digestion approaches have provided insight into the patterning of gene expression in mesophyll and bundle sheath strands (Markelz et al, 2003; Covshoff et al, 2013; John et al, 2014; Burgess et al, 2019; Borba et al, 2023) and a small number of cis -regulatory mechanisms controlling cell specific expression of C 4 genes have been identified (Gowik et al, 2004; Brown et al, 2011; Williams et al, 2016; Reyna-Llorens et al, 2018; Burgess et al, 2019). However, in almost all studies of C 4 leaves, only bundle sheath strands have been examined, which contain phloem and xylem cells as well as the bundle sheath (Burgess et al, 2019, Borba et al, 2023).…”

Section: Introductionmentioning

confidence: 99%

“…In C 4 leaves mechanical and cell digestion approaches have provided insight into the patterning of gene expression in mesophyll and bundle sheath strands (Markelz et al, 2003; Covshoff et al, 2013; John et al, 2014; Burgess et al, 2019; Borba et al, 2023) and a small number of cis -regulatory mechanisms controlling cell specific expression of C 4 genes have been identified (Gowik et al, 2004; Brown et al, 2011; Williams et al, 2016; Reyna-Llorens et al, 2018; Burgess et al, 2019). However, in almost all studies of C 4 leaves, only bundle sheath strands have been examined, which contain phloem and xylem cells as well as the bundle sheath (Burgess et al, 2019, Borba et al, 2023). Separation of bundle sheath cells from C 3 leaves has been even more challenging (Aubry et al, 2014) and so molecular mechanisms allowing the rewiring of gene expression during the evolution from C 3 to C 4 photosynthesis are poorly understood.…”

Section: Introductionmentioning

confidence: 99%

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Single nuclei sequencing reveals C₄photosynthesis is based on rewiring of ancestral cell identity networks

Swift,

Luginbuehl,

Schreier

et al. 2023

Preprint

Self Cite

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In multicellular systems changes to the patterning of gene expression drive modifications in cell function and trait evolution. One striking example is found in more than sixty plant lineages where compartmentation of photosynthesis between cell types allowed evolution of the efficient C4 pathway from the ancestral C3 state. The molecular events enabling this transition are unclear. We used single nuclei sequencing to generate a cell level expression atlas for C3 rice and C4 sorghum during photomorphogenesis. In both species a conserved cistrome was identified for each cell type and initiation of photosynthesis gene expression was conditioned by cell identity. Photosynthesis genes switching expression from mesophyll in rice to bundle sheath in sorghum acquire hallmarks of bundle sheath identity. The sorghum bundle sheath has also acquired gene networks associated with C3 guard cells. We conclude C4 photosynthesis is based on rewiring in cis that exapts cell identity networks of C3 plants.

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Time-to-growth: photoperiod and photosynthesis make the call

de Cássia Monteiro Batista,

Araújo,

Nunes-Nesi

et al. 2024

Trends in Plant Science

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Compartmentation of photosynthesis gene expression in C4 maize depends on time of day

Cited by 8 publications

References 79 publications

Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Single nuclei sequencing reveals C₄photosynthesis is based on rewiring of ancestral cell identity networks

Time-to-growth: photoperiod and photosynthesis make the call

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Compartmentation of photosynthesis gene expression in C4 maize depends on time of day

Cited by 8 publications

References 79 publications

Investigating thecis-Regulatory Basis of C3and C4Photosynthesis in Grasses at Single-Cell Resolution

Investigating thecis-Regulatory Basis of C3and C4Photosynthesis in Grasses at Single-Cell Resolution

Single nuclei sequencing reveals C4photosynthesis is based on rewiring of ancestral cell identity networks

Time-to-growth: photoperiod and photosynthesis make the call

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Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Investigating thecis-Regulatory Basis of C₃and C₄Photosynthesis in Grasses at Single-Cell Resolution

Single nuclei sequencing reveals C₄photosynthesis is based on rewiring of ancestral cell identity networks