TY - JOUR AB - Photorespiratory genes are expressed tissue-specific in the leaves of the C-4 grass Sorghum bicolor. Most but not all of them are confined to the bundle sheath cells.One of the hallmarks of C-4 plants is the division of labor between two different photosynthetic cell types, the mesophyll and the bundle sheath cells. C-4 plants are of polyphyletic origin and, during the evolution of C-4 photosynthesis, the expression of thousands of genes was altered and many genes acquired a cell type-specific or preferential expression pattern. Several lines of evidence, including computational modeling and physiological and phylogenetic analyses, indicate that alterations in the expression of a key photorespiration-related gene, encoding the glycine decarboxylase P subunit, was an early and important step during C-4 evolution. Restricting the expression of this gene to the bundle sheath led to the establishment of a photorespiratory CO2 pump. We were interested in whether the expression of genes related to photorespiration remains bundle sheath specific in a fully optimized C-4 species. Therefore we analyzed the expression of photorespiratory and C-4 cycle genes using RNA in situ hybridization and transcriptome analysis of isolated mesophyll and bundle sheath cells in the C-4 grass Sorghum bicolor. It turns out that the C-4 metabolism of Sorghum is based solely on the NADP-dependent malic enzyme pathway. The majority of photorespiratory gene expression, with some important exceptions, is restricted to the bundle sheath. DA - 2016 DO - 10.1093/jxb/erw041 KW - C-4 photosynthesis KW - CO2 fixation KW - differential gene expression KW - evolution KW - photorespiration KW - Sorghum bicolor LA - eng IS - 10 M2 - 3053 PY - 2016 SN - 0022-0957 SP - 3053-3064 T2 - Journal of Experimental Botany TI - Most photorespiratory genes are preferentially expressed in the bundle sheath cells of the C-4 grass Sorghum bicolor UR - https://nbn-resolving.org/urn:nbn:de:0070-pub-29151298 Y2 - 2024-11-22T03:37:09 ER -