2017
DOI: 10.3389/fpls.2017.02071
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Silencing of D-Lactate Dehydrogenase Impedes Glyoxalase System and Leads to Methylglyoxal Accumulation and Growth Inhibition in Rice

Abstract: D-Lactate is oxidized by two classes of D-lactate dehydrogenase (D-LDH), namely, NAD-dependent and NAD-independent D-LDHs. Little is known about the characteristics and biological functions of D-LDHs in rice. In this study, a functional NAD-independent D-LDH (LOC_Os07g06890) was identified in rice, as a result of alternative splicing events. Characterization of the expression profile, subcellular localization, and enzymatic properties of the functional OsD-LDH revealed that it is a mitochondrial cytochrome-c-d… Show more

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Cited by 19 publications
(24 citation statements)
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“…Mitochondria is one of the potential sites for MG production and detoxification, possibly favouring the cell in protection against oxidative damage. The predicted presence of SbDLDH proteins in the mitochondria is in fact, in agreement with the known mitochondrial localization of D-LDH proteins from rice and Arabidopsis [12][13][14]. Further, it is possible that these mitochondrial D-LDH enzymes might acquire their substrate from within the organelle as few functionally active GLYI (SbGLYI-7 and SbGLYI-14) and GLYII (SbGLYII-4) proteins were also predicted to be present within the mitochondria (Fig.…”
Section: Discussionsupporting
confidence: 82%
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“…Mitochondria is one of the potential sites for MG production and detoxification, possibly favouring the cell in protection against oxidative damage. The predicted presence of SbDLDH proteins in the mitochondria is in fact, in agreement with the known mitochondrial localization of D-LDH proteins from rice and Arabidopsis [12][13][14]. Further, it is possible that these mitochondrial D-LDH enzymes might acquire their substrate from within the organelle as few functionally active GLYI (SbGLYI-7 and SbGLYI-14) and GLYII (SbGLYII-4) proteins were also predicted to be present within the mitochondria (Fig.…”
Section: Discussionsupporting
confidence: 82%
“…However, no previous studies, ever reported the status of D-LDH proteins in plants. Experimental evidence suggests a crucial role of NADH-independent D-LDH proteins in the MG detoxification pathway which constitutes the last step of this process [12][13][14].…”
Section: Discussionmentioning
confidence: 99%
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“…The first is the GSH-dependent glyoxalase pathway; the second pathway involves glyoxalase enzyme Gly III (DJ-1), which converts MG to D-lactate in a single step without the intermediate processes 18 . In the GSH-dependent glyoxalase pathway, Gly I is the first enzyme which catalyzes the isomerization of MG into S-2-hydroxyacylglutathione and then Gly II hydrolyzes these thiolesters to produce D-lactate, which will eventually be converted into pyruvate to feed into tricarboxylic acid (TCA) cycle [19][20][21] . Since its initial characterization of the glyoxalase pathway back in 1913 22,23 , the importance of the glyoxalase system in plant defense against various types of biotic and abiotic stresses has been more and more firmly recognized 24,25 .…”
Section: Introductionmentioning
confidence: 99%
“…In plants, the role of mitochondrial LDH on plant defence and ROS production is largely unexplored. Diverse plant species such as Arabidopsis, rice, and Jerusalem artichoke possess not only L‐LDH, but also D‐LDH, which oxidizes d ‐lactate (Atlante et al , ; Welchen et al , ; An et al , ). Based on previous reports on ROS production by l ‐lactic acid in animal cells, we hypothesized that exogenous d ‐lactic acid induces ROS production in Arabidopsis via the oxidation of d ‐lactate by d ‐LDH.…”
Section: Discussionmentioning
confidence: 99%