Transcriptional Regulation of Tetrapyrrole Biosynthesis in Arabidopsis thaliana

Kobayashi, Koichi; Masuda, Tatsuru

doi:10.3389/fpls.2016.01811

Cited by 93 publications

(92 citation statements)

References 165 publications

(262 reference statements)

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“…The function of GRMZM5G888696 was further supported by a pleiotropic QTL that was detected in two independent RIL populations (ZHENG58/SK and DAN340/K22) (Tables S2 and S7). GRMZM2G024739 was significant for GT and TT, and its orthologue, CRY1, has been reported to regulate chlorophyll biosynthesis (Kobayashi and Masuda, 2016;McCormac and Terry, 2002;Stephenson and Terry, 2008). Furthermore, we found that natural variations in fatty acid pathway genes affect phenotypic variation in tocopherol content, which is supported by at least four points of evidence.…”

Section: Identification Of Nontocopherol Pathway Genes In Controllingsupporting

confidence: 74%

Section: Resultsmentioning

confidence: 99%

“…All lines were self-pollinated, and kernels from the middle of at least three ears were employed to extract and measure tocopherols. The extraction procedures were adapted from previous studies (Chander et al, 2008;Kurilich and Juvik, 1999). Tocopherol quantification was performed via high-performance liquid chromatography (HPLC) .…”

Section: Field Trials and Tocopherol Content Measurementmentioning

confidence: 99%

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Beyond pathways: genetic dissection of tocopherol content in maize kernels by combining linkage and association analyses

Wang

Fan

et al. 2018

Plant Biotechnology Journal

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SummaryAlthough tocopherols play an important role in plants and animals, the genetic architecture of tocopherol content in maize kernels has remained largely unknown. In this study, linkage and association analyses were conducted to examine the genetic architecture of tocopherol content in maize kernels. Forty‐one unique quantitative trait loci (QTLs) were identified by linkage mapping in six populations of recombinant inbred lines (RILs). In addition, 32 significant loci were detected via genome‐wide association study (GWAS), 18 of which colocalized with the QTLs identified by linkage mapping. Fine mapping of a major QTL validated the accuracy of GWAS and QTL mapping results and suggested a role for nontocopherol pathway genes in the modulation of natural tocopherol variation. We provided genome‐wide evidence that genes involved in fatty acid metabolism, chlorophyll metabolism and chloroplast function may affect natural variation in tocopherols. These findings were confirmed through mutant analysis of a particular gene from the fatty acid pathway. In addition, the favourable alleles for many of the significant SNPs/QTLs represented rare alleles in natural populations. Together, our results revealed many novel genes that are potentially involved in the variation of tocopherol content in maize kernels. Pyramiding of the favourable alleles of the newly elucidated genes and the well‐known tocopherol pathway genes would greatly improve tocopherol content in maize.

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Section: Identification Of Nontocopherol Pathway Genes In Controllingsupporting

confidence: 74%

Section: Resultsmentioning

confidence: 99%

Section: Field Trials and Tocopherol Content Measurementmentioning

confidence: 99%

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Beyond pathways: genetic dissection of tocopherol content in maize kernels by combining linkage and association analyses

Wang

Fan

et al. 2018

Plant Biotechnology Journal

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“…Faulty regulation is potentially lethal due to release of photosensitizing intermediates such as protoporphyrin IX (PPIX) or Mg-protoporphyrin IX (Mg-PPIX) in the presence of oxygen and light (Rebeiz et al, 1990;Mochizuki et al, 2010;Busch and Montgomery, 2015). Heme and chlorophyll biosynthesis in plants and algae share a trunk pathway in which PPIX is derived from the amino acid glutamate (reviewed in Grossman et al, 2004;Tanaka and Tanaka, 2007;Kobayashi and Masuda, 2016). PPIX is the penultimate intermediate in both pathways, which diverge upon addition of either Fe 2+ for heme or Mg 2+ for chlorophyll ( Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Bilin-Dependent Photoacclimation in Chlamydomonas reinhardtii

et al. 2017

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In land plants, linear tetrapyrrole (bilin)-based phytochrome photosensors optimize photosynthetic light capture by mediating massive reprogramming of gene expression. But, surprisingly, many green algal genomes lack phytochrome genes. Studies of the heme oxygenase mutant (hmox1) of the green alga Chlamydomonas reinhardtii suggest that bilin biosynthesis in plastids is essential for proper regulation of a nuclear gene network implicated in oxygen detoxification during dark-to-light transitions. hmox1 cannot grow photoautotrophically and photoacclimates poorly to increased illumination. We show that these phenotypes are due to reduced accumulation of photosystem I (PSI) reaction centers, the PSI electron acceptors 59-monohydroxyphylloquinone and phylloquinone, and the loss of PSI and photosystem II antennae complexes during photoacclimation. The hmox1 mutant resembles chlorophyll biosynthesis mutants phenotypically, but can be rescued by exogenous biliverdin IXa, the bilin produced by HMOX1. This rescue is independent of photosynthesis and is strongly dependent on blue light. RNA-seq comparisons of hmox1, genetically complemented hmox1, and chemically rescued hmox1 reveal that tetrapyrrole biosynthesis and known photoreceptor and photosynthesis-related genes are not impacted in the hmox1 mutant at the transcript level. We propose that a bilin-based, bluelight-sensing system within plastids evolved together with a bilin-based retrograde signaling pathway to ensure that a robust photosynthetic apparatus is sustained in light-grown Chlamydomonas.

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“…Likewise, during development under either short day conditions or in continuous light, ASC and sGluTR correlated and peaked after two weeks. GluTR levels and activity are known to be low in darkgrown plants but to massively increase upon illumination and, inversely, to diminish when lightgrown plants are transferred to extended darkness (Kobayashi and Masuda 2016). The authors analyzed the distribution of GluTR between stroma and membrane fraction under such conditions.…”

mentioning

confidence: 99%

OUP accepted manuscript

Hörtensteiner

2018

Plant and Cell Physiology

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Transcriptional Regulation of Tetrapyrrole Biosynthesis in Arabidopsis thaliana

Cited by 93 publications

References 165 publications

Beyond pathways: genetic dissection of tocopherol content in maize kernels by combining linkage and association analyses

Beyond pathways: genetic dissection of tocopherol content in maize kernels by combining linkage and association analyses

Bilin-Dependent Photoacclimation in Chlamydomonas reinhardtii

OUP accepted manuscript

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