Virus-induced gene silencing of pea CHLI and CHLD affects tetrapyrrole biosynthesis, chloroplast development and the primary metabolic network

The first committed and highly regulated step of chlorophyll biosynthesis is the insertion of Mg2+ into protoporphyrin IX, which is catalyzed by Mg chelatase that consists of CHLH, CHLD and CHLI subunits. In this study, CHLI and CHLD genes were suppressed by virus-induced gene silencing (VIGS-CHLI a...

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Veröffentlicht in:Plant physiology and biochemistry 2013-04, Vol.65, p.17-26
Hauptverfasser: Luo, Tao, Luo, Sha, Araújo, Wagner L., Schlicke, Hagen, Rothbart, Maxi, Yu, Jing, Fan, Tingting, Fernie, Alisdair R., Grimm, Bernhard, Luo, Meizhong
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Sprache:eng
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Zusammenfassung:The first committed and highly regulated step of chlorophyll biosynthesis is the insertion of Mg2+ into protoporphyrin IX, which is catalyzed by Mg chelatase that consists of CHLH, CHLD and CHLI subunits. In this study, CHLI and CHLD genes were suppressed by virus-induced gene silencing (VIGS-CHLI and VIGS-CHLD) in pea (Pisum sativum), respectively. VIGS-CHLI and VIGS-CHLD plants both showed yellow leaf phenotypes with the reduced Mg chelatase activity and the inactivated synthesis of 5-aminolevulinic acid. The lower chlorophyll accumulation correlated with undeveloped thylakoid membranes, altered chloroplast nucleoid structure, malformed antenna complexes and compromised photosynthesis capacity in the yellow leaf tissues of the VIGS-CHLI and VIGS-CHLD plants. Non-enzymatic antioxidant contents and the activities of antioxidant enzymes were altered in response to enhanced accumulation of reactive oxygen species (ROS) in the chlorophyll deficient leaves of VIGS-CHLI and VIGS-CHLD plants. Furthermore, the results of metabolite profiling indicate a tight correlation between primary metabolic pathways and Mg chelatase activity. We also found that CHLD induces a feedback-regulated change of the transcription of photosynthesis-associated nuclear genes. CHLD and CHLI silencing resulted in a rapid reduction of photosynthetic proteins. Taken together, Mg chelatase is not only a key regulator of tetrapyrrole biosynthesis but its activity also correlates with ROS homeostasis, primary interorganellar metabolism and retrograde signaling in plant cells. ► CHLI- and CHLD-silenced plants showed yellow phenotype and reduced Mg chelatase activity. ► Mg chelatase is a key regulator of tetrapyrrole biosynthesis and chloroplast development. ► Mg chelatase activity correlates with ROS homeostasis in plant cells. ► Mg chelatase activity affects primary interorganellar metabolism in plant cells.
ISSN:0981-9428
1873-2690
DOI:10.1016/j.plaphy.2013.01.006