Expression of a single gene encoding microbody NAD-malate dehydrogenase during glyoxysome and peroxisome development in cucumber

Kim, Dae-Jae; Smith, Steven M.

doi:10.1007/bf00019496

Cited by 48 publications

(20 citation statements)

References 28 publications

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“…One of the key features of leaf senescence is remobilization of nutrients. Cucumber cotyledons have previously been used as a model system for studying senescence processes (Becker et al 1978;Delorme et al 2000;Graham et al 1992;Kim and Smith 1994;McLaughlin and Smith 1995;Prakash et al 2001;Yamauchi et al 2002). Major nutrients such as lipids and total protein were shown to decrease over the first week of germination (Becker et al 1978).…”

Section: Discussionmentioning

confidence: 99%

Natural variation in iron use efficiency and mineral remobilization in cucumber (Cucumis sativus)

Waters

Troupe

2011

Plant Soil

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Section: Discussionmentioning

confidence: 99%

Natural variation in iron use efficiency and mineral remobilization in cucumber (Cucumis sativus)

Waters

Troupe

2011

Plant Soil

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“…Several MDH cDNA clones have been isolated and sequences compared from both plant (Cretin et al, 1988;Gietl, 1992;Guex et al, 1995;Kim and Smith, 1994;Metzler et al, 1989) and animal sources (Birktoft et al, 1982;Grant et al, 1986;Joh et al, 1987a;Joh et al, 1987b). The sequences of both the mouse and yeast c-and mMDH genes have been reported (Minard and McAlister-Henn, 1991;Setoyama et al, 1988;Takeshima et al, 1988;Thompson et al, 1988).…”

Section: Introductionmentioning

confidence: 99%

Alfalfa malate dehydrogenase (MDH): molecular cloning and characterization of five different forms reveals a unique nodule‐enhanced MDH

Miller¹,

Driscoll²,

Gregerson³

et al. 1998

The Plant Journal

153

100

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SummaryMalate dehydrogenase (MDH) catalyzes the readily reversible reaction of oxaloacetate ≤ malate using either NADH or NADPH as a reductant. In plants, the enzyme is important in providing malate for C 4 metabolism, pH balance, stomatal and pulvinal movement, respiration, β-oxidation of fatty acids, and legume root nodule functioning. Due to its diverse roles the enzyme occurs as numerous isozymes in various organelles. While antibodies have been produced and cDNAs characterized for plant mitochondrial, glyoxysomal, and chloroplast forms of MDH, little is known of other forms. Here we report the cloning and characterization of cDNAs encoding five different forms of alfalfa MDH, including a plant cytosolic MDH (cMDH) and a unique novel nodule-enhanced MDH (neMDH). Phylogenetic analyses show that neMDH is related to mitochondrial and glyoxysomal MDHs, but diverge from these forms early in land plant evolution. Four of the five forms could effectively complement an E. coli Mdh -mutant. RNA and protein blots show that neMDH is most highly expressed in effective root nodules. Immunoprecipitation experiments show that antibodies produced to cMDH and neMDH are immunologically distinct and that the neMDH form comprises the major form of total MDH activity and protein in root nodules. Kinetic analysis showed that neMDH has a turnover rate and specificity constant that can account for the extraordinarily high synthesis of malate in nodules.

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“…2I). To determine the identity of these structures, the peroxisomal marker glyoxysomal malate dehydrogenase (gMDH)-cyano fluorescent protein (CFP; Kim and Smith, 1994) was coexpressed with B9u::VYCE and A2::VYNE. The YFP fluorescence from BiFC interaction coincided with CFP fluorescence in the same structures (Fig.…”

Section: B9u Interacts With A2 C2 and C5 Subunits In Peroxisomesmentioning

confidence: 99%

“…The bombarded onion cells were incubated for 1 to 2 d in the dark at room temperature and then observed under the microscope. Peroxisomal markers used were gMDH-CFP that contains the PTS2 sequence of gMDH from cucumber (Cucumis sativus; Kim and Smith, 1994) and Red fluorescent protein-SKL (Matre et al, 2009). Microscopy was carried out on a Nikon TE-2000U inverted fluorescence microscope equipped with an Exfo X-Cite 120 fluorescence illumination system and filters for CFP (exciter, S436/10; and emitter, S470/30), YFP (exciter, HQ500/20; and emitter, S535/30), and a special red chlorophyll autofluorescence filter set (exciter, HQ630/39; and emitter, HQ680/40; Chroma Technology).…”

Section: Transformation and Microscopymentioning

confidence: 99%

Protein Phosphatase 2A Holoenzyme Is Targeted to Peroxisomes by Piggybacking and Positively Affects Peroxisomal β-Oxidation

Kataya¹,

Heidari²,

Hagen

et al. 2014

Plant Physiology

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The eukaryotic, highly conserved serine (Ser)/threonine-specific protein phosphatase 2A (PP2A) functions as a heterotrimeric complex composed of a catalytic (C), scaffolding (A), and regulatory (B) subunit. In Arabidopsis (Arabidopsis thaliana), five, three, and 17 genes encode different C, A, and B subunits, respectively. We previously found that a B subunit, B9u, localized to peroxisomes due to its C-terminal targeting signal Ser-Ser-leucine. This work shows that PP2A C2, C5, andA2 subunits interact and colocalize with B9u in peroxisomes. C and A subunits lack peroxisomal targeting signals, and their peroxisomal import depends on B9u and appears to occur by piggybacking transport. B9u knockout mutants were impaired in peroxisomal b-oxidation as shown by developmental arrest of seedlings germinated without sucrose, accumulation of eicosenoic acid, and resistance to protoauxins indole-butyric acid and 2,4-dichlorophenoxybutyric acid. All of these observations strongly substantiate that a full PP2A complex is present in peroxisomes and positively affects b-oxidation of fatty acids and protoauxins.

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Expression of a single gene encoding microbody NAD-malate dehydrogenase during glyoxysome and peroxisome development in cucumber

Cited by 48 publications

References 28 publications

Natural variation in iron use efficiency and mineral remobilization in cucumber (Cucumis sativus)

Natural variation in iron use efficiency and mineral remobilization in cucumber (Cucumis sativus)

Alfalfa malate dehydrogenase (MDH): molecular cloning and characterization of five different forms reveals a unique nodule‐enhanced MDH

Protein Phosphatase 2A Holoenzyme Is Targeted to Peroxisomes by Piggybacking and Positively Affects Peroxisomal β-Oxidation

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