Qiang‐Sheng Wu scite author profile

The PDC (pyruvate dehydrogenase complex) is strongly inhibited by phosphorylation during starvation to conserve substrates for gluconeogenesis. The role of PDHK4 (pyruvate dehydrogenase kinase isoenzyme 4) in regulation of PDC by this mechanism was investigated with PDHK4-/- mice (homozygous PDHK4 knockout mice). Starvation lowers blood glucose more in mice lacking PDHK4 than in wild-type mice. The activity state of PDC (percentage dephosphorylated and active) is greater in kidney, gastrocnemius muscle, diaphragm and heart but not in the liver of starved PDHK4-/- mice. Intermediates of the gluconeogenic pathway are lower in concentration in the liver of starved PDHK4-/- mice, consistent with a lower rate of gluconeogenesis due to a substrate supply limitation. The concentration of gluconeogenic substrates is lower in the blood of starved PDHK4-/- mice, consistent with reduced formation in peripheral tissues. Isolated diaphragms from starved PDHK4-/- mice accumulate less lactate and pyruvate because of a faster rate of pyruvate oxidation and a reduced rate of glycolysis. BCAAs (branched chain amino acids) are higher in the blood in starved PDHK4-/- mice, consistent with lower blood alanine levels and the importance of BCAAs as a source of amino groups for alanine formation. Non-esterified fatty acids are also elevated more in the blood of starved PDHK4-/- mice, consistent with lower rates of fatty acid oxidation due to increased rates of glucose and pyruvate oxidation due to greater PDC activity. Up-regulation of PDHK4 in tissues other than the liver is clearly important during starvation for regulation of PDC activity and glucose homoeostasis.

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Contributions of arbuscular mycorrhizal fungi to growth, photosynthesis, root morphology and ionic balance of citrus seedlings under salt stress

Zou

2009

Acta Physiol Plant

216

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A pot study was conducted to determine the effects of arbuscular mycorrhizal (AM) fungi (Glomus mosseae and Paraglomus occultum) and salt (NaCl) stress on growth, photosynthesis, root morphology and ionic balance of citrus (Citrus tangerine Hort. ex Tanaka) seedlings. Eighty-five-day-old seedlings were exposed to 100 mM NaCl for 60 days to induce salt stress. Mycorrhizal colonization of citrus seedlings was not affected by salinity when associated with P. occultum, but significantly decreased when with G. mosseae. Compared with the nonmycorrhizal controls, mycorrhizal seedlings generally had greater plant height, stem diameter, shoot, root and total plant biomass, photosynthetic rate, transpiration rate and stomatal conductance under the 0 and 100 mM NaCl stresses. Root length, root projected area and root surface area were also higher in the mycorrhizal than in the nonmycorrhizal seedlings, but higher root volume in seedlings with G. mosseae. Leaf Na ? concentrations were significantly decreased, but leaf K ? and Mg 2? concentrations and the K ? /Na ? ratio were increased when seedlings with both G. mosseae and P. occultum. Under the salt stress, Na ? concentrations were increased but K ? concentrations decreased in the mycorrhizal seedlings. Under the salt stress, Ca 2? concentrations were increased in the seedlings with P. occultum or without AM fungi (AMF), but decreased with G. mosseae. Ratios of both Ca 2? /Na ? and Mg 2? /Na ? were also increased in seedlings with G. mosseae under the non-salinity stress, while only the Mg 2? / Na ? ratio was increased in seedlings with P. occultum under the salt stress. Our results suggested that salt tolerance of citrus seedlings could be enhanced by associated AMF with better plant growth, root morphology, photosynthesis and ionic balance.

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Improved soil structure and citrus growth after inoculation with three arbuscular mycorrhizal fungi under drought stress

Xia

Zou

2008

European Journal of Soil Biology

243

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Qiang‐Sheng Wu

AMF-induced tolerance to drought stress in citrus: A review

Role of pyruvate dehydrogenase kinase isoenzyme 4 (PDHK4) in glucose homoeostasis during starvation

Contributions of arbuscular mycorrhizal fungi to growth, photosynthesis, root morphology and ionic balance of citrus seedlings under salt stress

Improved soil structure and citrus growth after inoculation with three arbuscular mycorrhizal fungi under drought stress

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