Affiliation:
1. Humboldt‐Universität zu Berlin Institute of Biology/Plant Physiology Philippstraße 13, Building 12, D‐10115 Berlin Germany
2. College of Forestry Central South University of Forestry and Technology Changsha Hunan 410004 China
Abstract
Summary
During photoperiodic growth, the light‐dependent nature of chlorophyll synthesis in angiosperms necessitates robust control of the production of 5‐aminolevulinic acid (ALA), the rate‐limiting step in the initial stage of tetrapyrrole biosynthesis (TBS). We are interested in dissecting the post‐translational control of this process, which suppresses ALA synthesis for chlorophyll synthesis in dark‐grown plants.
Using biochemical approaches for analysis of Arabidopsis wild‐type (WT) and mutant lines as well as complementation lines, we show that the heme‐synthesizing ferrochelatase 2 (FC2) interacts with protochlorophyllide oxidoreductase and the regulator FLU which both promote the feedback‐controlled suppression of ALA synthesis by inactivation of glutamyl‐tRNA reductase, thus preventing excessive accumulation of potentially deleterious tetrapyrrole intermediates.
Thereby, FC2 stabilizes POR by physical interaction. When the interaction between FC2 and POR is perturbed, suppression of ALA synthesis is attenuated and photoreactive protochlorophyllide accumulates. FC2 is anchored in the thylakoid membrane via its membrane‐spanning CAB (chlorophyll‐a‐binding) domain.
FC2 is one of the two isoforms of ferrochelatase catalyzing the last step of heme synthesis. Although FC2 belongs to the heme‐synthesizing branch of TBS, its interaction with POR potentiates the effects of the GluTR‐inactivation complex on the chlorophyll‐synthesizing branch and ensures reciprocal control of chlorophyll and heme synthesis.
Funder
Deutsche Forschungsgemeinschaft
Cited by
3 articles.
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