Your search keyword '"Aigerim Soltabayeva"' showing total 2 results

1. Level of Sulfite Oxidase Activity Affects Sulfur and Carbon Metabolism in Arabidopsis

Author

Dinara Oshanova, Assylay Kurmanbayeva, Aizat Bekturova, Aigerim Soltabayeva, Zhadyrassyn Nurbekova, Dominic Standing, Arvind Kumar Dubey, and Moshe Sagi

Subjects

sulfite network, sulfite oxidase, sulfite reductase, carbon, sulfur metabolism, Plant culture, SB1-1110

Abstract

Molybdenum cofactor containing sulfite oxidase (SO) enzyme is an important player in protecting plants against exogenous toxic sulfite. It was also demonstrated that SO activity is essential to cope with rising dark-induced endogenous sulfite levels and maintain optimal carbon and sulfur metabolism in tomato plants exposed to extended dark stress. The response of SO and sulfite reductase to direct exposure of low and high levels of sulfate and carbon was rarely shown. By employing Arabidopsis wild-type, sulfite reductase, and SO-modulated plants supplied with excess or limited carbon or sulfur supply, the current study demonstrates the important role of SO in carbon and sulfur metabolism. Application of low and excess sucrose, or sulfate levels, led to lower biomass accumulation rates, followed by enhanced sulfite accumulation in SO impaired mutant compared with wild-type. SO-impairment resulted in the channeling of sulfite to the sulfate reduction pathway, resulting in an overflow of organic S accumulation. In addition, sulfite enhancement was followed by oxidative stress contributing as well to the lower biomass accumulation in SO-modulated plants. These results indicate that the role of SO is not limited to protection against elevated sulfite toxicity but to maintaining optimal carbon and sulfur metabolism in Arabidopsis plants.

Published

2021

2. Level of Sulfite Oxidase Activity Affects Sulfur and Carbon Metabolism in Arabidopsis

Author

Assylay Kurmanbayeva, Dinara Oshanova, Dominic Standing, Aizat Bekturova, Zhadyrassyn Nurbekova, Moshe Sagi, Arvind Kumar Dubey, and Aigerim Soltabayeva

Subjects

0106 biological sciences, 0301 basic medicine, Sucrose, Sulfur metabolism, chemistry.chemical_element, Plant Science, 01 natural sciences, Sulfite reductase, SB1-1110, 03 medical and health sciences, chemistry.chemical_compound, sulfite oxidase, Sulfite, Sulfite oxidase, Sulfate, sulfite reductase, carbon, Plant culture, sulfite network, Sulfur, 030104 developmental biology, chemistry, Biochemistry, sulfur metabolism, Molybdenum cofactor, 010606 plant biology & botany

Abstract

Molybdenum cofactor containing sulfite oxidase (SO) enzyme is an important player in protecting plants against exogenous toxic sulfite. It was also demonstrated that SO activity is essential to cope with rising dark-induced endogenous sulfite levels and maintain optimal carbon and sulfur metabolism in tomato plants exposed to extended dark stress. The response of SO and sulfite reductase to direct exposure of low and high levels of sulfate and carbon was rarely shown. By employing Arabidopsis wild-type, sulfite reductase, and SO-modulated plants supplied with excess or limited carbon or sulfur supply, the current study demonstrates the important role of SO in carbon and sulfur metabolism. Application of low and excess sucrose, or sulfate levels, led to lower biomass accumulation rates, followed by enhanced sulfite accumulation in SO impaired mutant compared with wild-type. SO-impairment resulted in the channeling of sulfite to the sulfate reduction pathway, resulting in an overflow of organic S accumulation. In addition, sulfite enhancement was followed by oxidative stress contributing as well to the lower biomass accumulation in SO-modulated plants. These results indicate that the role of SO is not limited to protection against elevated sulfite toxicity but to maintaining optimal carbon and sulfur metabolism in Arabidopsis plants.

Published

2021