In photosynthetic eukaryotes,there are two well-characterized fructose-1,6-bisphosphatases(FBPases):the redox-insensitive cytosolic FBPase(cyFBPase),which participates in gluconeogenesis,and the redoxsensitive chlorop...In photosynthetic eukaryotes,there are two well-characterized fructose-1,6-bisphosphatases(FBPases):the redox-insensitive cytosolic FBPase(cyFBPase),which participates in gluconeogenesis,and the redoxsensitive chloroplastic FBPase(cpFBPasel),which is a critical enzyme in the Calvin cycle.Recent studies have identified a new chloroplastic FBPase,cpFBPase2;however,its phylogenetic distribution,evolutionary origin,and physiological function remain unclear.In this study,we identified and characterized these three FBPase isoforms in diverse,representative photosynthetic lineages and analyzed their phylogeny.In contrast to previous hypotheses,we found that cpFBPase2 is ubiquitous in photo synthetic eukaryotes.Additionally,all cpFBPase2 s from diverse lineages form a monophyly,suggesting cpFBPase2 is not a recently evolved enzyme restricted to land plants but rather evolved early in the evolution of photo synthetic organisms,and most likely,in the common ancestor of photosynthetic eukaryotes.cyFBPase was probably first duplicated to produce cpFBPase2,and then the latter duplicated to produce cpFBPase1.The ubiquitous coexistence of these two cpFBPases in chloroplasts is most likely the consequence of adaptation to different redox conditions of photosynthesis,especially those caused by recurrent changes in light conditions.展开更多
基金the National Natural Science Foundation of China(31572256 and 31801967)State Key Laboratory of Genetic Resources and Evolution(GREKF17-03).
文摘In photosynthetic eukaryotes,there are two well-characterized fructose-1,6-bisphosphatases(FBPases):the redox-insensitive cytosolic FBPase(cyFBPase),which participates in gluconeogenesis,and the redoxsensitive chloroplastic FBPase(cpFBPasel),which is a critical enzyme in the Calvin cycle.Recent studies have identified a new chloroplastic FBPase,cpFBPase2;however,its phylogenetic distribution,evolutionary origin,and physiological function remain unclear.In this study,we identified and characterized these three FBPase isoforms in diverse,representative photosynthetic lineages and analyzed their phylogeny.In contrast to previous hypotheses,we found that cpFBPase2 is ubiquitous in photo synthetic eukaryotes.Additionally,all cpFBPase2 s from diverse lineages form a monophyly,suggesting cpFBPase2 is not a recently evolved enzyme restricted to land plants but rather evolved early in the evolution of photo synthetic organisms,and most likely,in the common ancestor of photosynthetic eukaryotes.cyFBPase was probably first duplicated to produce cpFBPase2,and then the latter duplicated to produce cpFBPase1.The ubiquitous coexistence of these two cpFBPases in chloroplasts is most likely the consequence of adaptation to different redox conditions of photosynthesis,especially those caused by recurrent changes in light conditions.
