Modalities of NADP-malic enzyme activities under light and darkness indicate its regulation with reference to C4 weed

NADP –ME is the key enzyme for decarboxylation reactions in C4 CO2 concentration pathways. So, Amaranthus viridis has been evaluated with regards to photosynthetic NADP-malic enzyme for its response under light and darkness. Illumination (1000–1200 µEm-2s-1) for 40 minutes under 2 mM bicarbonate (HCO3-) sensitivity increased activity by 1.97 & 3.77-fold over darkness under 4.0 mM and 0.01 mM malate respectively. Limiting (0.01 mM) and saturated (4.0 mM) malate concentration had significant changes in enzyme activities. The different kinetic parameters indicated had the feedback inhibition under illumination. The activity with the inducer (citrate and succinate) and inhibitor (pyruvate and oxalate) was significant with substrate concentrations. Dithiol had reduced the activity by inhibition of the diminishing effect of light activation treatment. Therefore, NADP-ME is stringently regulated by redox changes with illumination as a key factor. Moreover, the pattern of polymorphic gene expression may be supportive in molecular modulation under light/darkness. This study may support the role of NADP-ME as a biomarker for C4 weed species under oxidative stress through light/darkness

Differential Impact of Nitric Oxide and Abscisic Acid on the Cellular and Physiological Functioning of sub1A QTL Bearing Rice Genotype under Salt Stress

Hydroponic culture containing 200 mM NaCl was used to induce oxidative stress in seedlings of cultivars initially primed with 1 mM SNP and 10 µM ABA. Exogenous application of sodium nitroprusside (SNP – a nitric oxide donor) and abscisic acid (ABA) was well sensitized more in cv. Swarna Sub1 than cv. Swarna and also reflected in different cellular responses. The major effects of salinity, irrespective of the cultivar, were lowering the water relation, including relative water content and osmotic potential, and decreasing the compatible solutes like alanine, gamma-aminobutyric acid, and glycine betaine. The accumulated polyamines were reduced more in cv. Swarna with a concomitant decrease in photosynthetic reserves. NADP-malic enzyme activity, sucrose accumulation, ascorbate peroxidase, and glutathione S-transferase activities gradually declined under NaCl stress and the catabolizing enzymes like invertase (both wall and cytosolic forms) also declined. On the contrary, plants suffered from oxidative stress through superoxide, hydrogen peroxide, and their biosynthetic enzymes like NADP(H) oxidase. Moderation of Na+/K+ by both SNP and ABA were correlated with other salt sensitivities in the plants. The maximum effects of SNP and ABA were found in the recovery of antioxidation pathways, osmotic tolerance, and carbohydrate metabolism. Findings predict the efficacy of SNP and ABA either independently or cumulatively in overcoming NaCl toxicity in rice

Differential Impact of Nitric Oxide and Abscisic Acid on the Cellular and Physiological Functioning of <i>sub1A</i> QTL Bearing Rice Genotype under Salt Stress

Hydroponic culture containing 200 mM NaCl was used to induce oxidative stress in seedlings of cultivars initially primed with 1 mM SNP and 10 µM ABA. Exogenous application of sodium nitroprusside (SNP – a nitric oxide donor) and abscisic acid (ABA) was well sensitized more in cv. Swarna Sub1 than cv. Swarna and also reflected in different cellular responses. The major effects of salinity, irrespective of the cultivar, were lowering the water relation, including relative water content and osmotic potential, and decreasing the compatible solutes like alanine, gamma-aminobutyric acid, and glycine betaine. The accumulated polyamines were reduced more in cv. Swarna with a concomitant decrease in photosynthetic reserves. NADP-malic enzyme activity, sucrose accumulation, ascorbate peroxidase, and glutathione S-transferase activities gradually declined under NaCl stress and the catabolizing enzymes like invertase (both wall and cytosolic forms) also declined. On the contrary, plants suffered from oxidative stress through superoxide, hydrogen peroxide, and their biosynthetic enzymes like NADP(H) oxidase. Moderation of Na+/K+ by both SNP and ABA were correlated with other salt sensitivities in the plants. The maximum effects of SNP and ABA were found in the recovery of antioxidation pathways, osmotic tolerance, and carbohydrate metabolism. Findings predict the efficacy of SNP and ABA either independently or cumulatively in overcoming NaCl toxicity in rice

Promoting Highly Diastereoselective γ‑C–H Chalcogenation of α‑Amino Acids and Aliphatic Carboxylic Acids

A Pd­(II)-catalyzed highly regioselective γ-chalcogenation, thioarylation, and selenoarylation of aliphatic carboxylic acids has been demonstrated. The present protocol provides a direct access to make structural modifications of α-amino acids such as valine, isoleucine, and <i>tert</i>-leucine with high diastereoselectivity (up to 52:1). Sequential heterobifunctionalizations have been carried out at γ-sp³ C–Hs, resulting in desymmetrization of quaternary centers. The applicative potential of the chalcogenated products was exhibited by using them as precursors for the synthesis of the biologically relevant benzothiepinone moiety. Preliminary studies were carried out to gain insights into the mechanism

Promoting Highly Diastereoselective γ‑C–H Chalcogenation of α‑Amino Acids and Aliphatic Carboxylic Acids

A Pd­(II)-catalyzed highly regioselective γ-chalcogenation, thioarylation, and selenoarylation of aliphatic carboxylic acids has been demonstrated. The present protocol provides a direct access to make structural modifications of α-amino acids such as valine, isoleucine, and <i>tert</i>-leucine with high diastereoselectivity (up to 52:1). Sequential heterobifunctionalizations have been carried out at γ-sp³ C–Hs, resulting in desymmetrization of quaternary centers. The applicative potential of the chalcogenated products was exhibited by using them as precursors for the synthesis of the biologically relevant benzothiepinone moiety. Preliminary studies were carried out to gain insights into the mechanism