Severity of Mutant Phenotype in a Series of Chlorophyll-Deficient Wheat Mutants Depends on Light Intensity and the Severity of the Block in Chlorophyll Synthesis

Falbel, Tanya G.; Meehl, Janet B.; Staehelin, L. Andrew

doi:10.1104/pp.112.2.821

Cited by 98 publications

(70 citation statements)

References 44 publications

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“…Mutants that are impaired in their ability to synthesize chlorophyll were previously reported to exhibit more severe chlorophyll deficiencies after fluence rates were increased (Falbel et al, 1996). To test whether these F191A-and R211A-expressing lines exhibit light-sensitive phenotypes similar to other chlorophylldeficient mutants, we transferred them to a higher fluence rate.…”

Section: Chlorophyll Deficiency In Gun4 Mutants Is Enhanced By Intensmentioning

confidence: 99%

“…In bright light, deficiencies in chlorophyll, chlorophyll binding proteins, and grana thylakoids are enhanced relative to the wild type (Allen et al, 1988;Falbel et al, 1996). Mutant alleles that attenuate Mgchelatase activity were proposed to enhance sensitivity to highintensity light at least in part by causing PPIX to overaccumulate.…”

Section: Porphyrin Binding Increases the Affinity Of Gun4 For Chloropmentioning

confidence: 99%

“…oxygen ( 1 O 2 ) in illuminated chloroplast membranes (Falbel and Staehelin, 1994;Falbel et al, 1996). Differential production of ROS from the light reactions of photosynthesis (Niyogi, 1999;Li et al, 2009) in these mutants might also contribute to their light sensitivities.…”

Section: Porphyrin Binding Increases the Affinity Of Gun4 For Chloropmentioning

confidence: 99%

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GUN4-Porphyrin Complexes Bind the ChlH/GUN5 Subunit of Mg-Chelatase and Promote Chlorophyll Biosynthesis inArabidopsis

et al. 2011

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The GENOMES UNCOUPLED4 (GUN4) protein stimulates chlorophyll biosynthesis by activating Mg-chelatase, the enzyme that commits protoporphyrin IX to chlorophyll biosynthesis. This stimulation depends on GUN4 binding the ChlH subunit of Mg-chelatase and the porphyrin substrate and product of Mg-chelatase. After binding porphyrins, GUN4 associates more stably with chloroplast membranes and was proposed to promote interactions between ChlH and chloroplast membranesthe site of Mg-chelatase activity. GUN4 was also proposed to attenuate the production of reactive oxygen species (ROS) by binding and shielding light-exposed porphyrins from collisions with O 2 . To test these proposals, we first engineered Arabidopsis thaliana plants that express only porphyrin binding-deficient forms of GUN4. Using these transgenic plants and particular mutants, we found that the porphyrin binding activity of GUN4 and Mg-chelatase contribute to the accumulation of chlorophyll, GUN4, and Mg-chelatase subunits. Also, we found that the porphyrin binding activity of GUN4 and Mgchelatase affect the associations of GUN4 and ChlH with chloroplast membranes and have various effects on the expression of ROS-inducible genes. Based on our findings, we conclude that ChlH and GUN4 use distinct mechanisms to associate with chloroplast membranes and that mutant alleles of GUN4 and Mg-chelatase genes cause sensitivity to intense light by a mechanism that is potentially complex.

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Section: Chlorophyll Deficiency In Gun4 Mutants Is Enhanced By Intensmentioning

confidence: 99%

Section: Porphyrin Binding Increases the Affinity Of Gun4 For Chloropmentioning

confidence: 99%

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GUN4-Porphyrin Complexes Bind the ChlH/GUN5 Subunit of Mg-Chelatase and Promote Chlorophyll Biosynthesis inArabidopsis

et al. 2011

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“…Besides defects in the cpSRP system, modest reductions of chlorophyll synthesis also specifically impair LHC protein accumulation (Falbel and Staehelin, 1994;Falbel et al, 1996;Tottey et al, 2003;. Plants ensure the assembly of sufficient amounts of core complexes of PSII and PSI by preferentially incorporating chlorophyll a into their reaction centers.…”

mentioning

confidence: 99%

“…WT, Wild type. (Falbel and Staehelin, 1994;Falbel et al, 1996;Tottey et al, 2003): chlorophyllide a oxygenase, which catalyzes the highly regulated step of chlorophyll(ide) a-to-chlorophyll (ide) b conversion, has a relatively low affinity for chlorophyll(ide) a. In consequence, chlorophyll b synthesis becomes more active when chlorophyll a-binding sites of the reaction center proteins are saturated.…”

mentioning

confidence: 99%

LCAA, a Novel Factor Required for Magnesium Protoporphyrin Monomethylester Cyclase Accumulation and Feedback Control of Aminolevulinic Acid Biosynthesis in Tobacco

et al. 2012

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Low Chlorophyll Accumulation A (LCAA) antisense plants were obtained from a screen for genes whose partial down-regulation results in a strong chlorophyll deficiency in tobacco (Nicotiana tabacum). The LCAA mutants are affected in a plastid-localized protein of unknown function, which is conserved in cyanobacteria and all photosynthetic eukaryotes. They suffer from drastically reduced lightharvesting complex (LHC) contents, while the accumulation of all other photosynthetic complexes per leaf area is less affected. As the disturbed accumulation of LHC proteins could be either attributable to a defect in LHC biogenesis itself or to a bottleneck in chlorophyll biosynthesis, chlorophyll synthesis rates and chlorophyll synthesis intermediates were measured. LCAA antisense plants accumulate magnesium (Mg) protoporphyrin monomethylester and contain reduced protochlorophyllide levels and a reduced content of CHL27, a subunit of the Mg protoporphyrin monomethylester cyclase. Bimolecular fluorescence complementation assays confirm a direct interaction between LCAA and CHL27. 5-Aminolevulinic acid synthesis rates are increased and correlate with an increased content of glutamyl-transfer RNA reductase. We suggest that LCAA encodes an additional subunit of the Mg protoporphyrin monomethylester cyclase, is required for the stability of CHL27, and contributes to feedback-control of 5-aminolevulinic acid biosynthesis, the rate-limiting step of chlorophyll biosynthesis.Photosynthetic electron transport, CO 2 fixation by the Calvin cycle, and sulfur and nitrogen assimilation all occur within the chloroplasts of photosynthetic eukaryotes, which also harbor several anabolic pathways utilizing the primary photoassimilates, such as amino acid, nucleotide, isoprenoid, and lipid synthesis. Also, the biosynthesis of several important cellular key metabolites, such as chromophores and cofactors required for photosynthesis and respiration, is localized in

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Chloroplast structure: from chlorophyll granules to supra-molecular architecture of thylakoid membranes

Staehelin¹

Discoveries in Photosynthesis

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Severity of Mutant Phenotype in a Series of Chlorophyll-Deficient Wheat Mutants Depends on Light Intensity and the Severity of the Block in Chlorophyll Synthesis

Cited by 98 publications

References 44 publications

GUN4-Porphyrin Complexes Bind the ChlH/GUN5 Subunit of Mg-Chelatase and Promote Chlorophyll Biosynthesis inArabidopsis

GUN4-Porphyrin Complexes Bind the ChlH/GUN5 Subunit of Mg-Chelatase and Promote Chlorophyll Biosynthesis inArabidopsis

LCAA, a Novel Factor Required for Magnesium Protoporphyrin Monomethylester Cyclase Accumulation and Feedback Control of Aminolevulinic Acid Biosynthesis in Tobacco

Chloroplast structure: from chlorophyll granules to supra-molecular architecture of thylakoid membranes

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