Glycolipid is the major component of the Acholeplasma laidlawii (A. laidlawii) membranes and amount to 50% of the total lipids. The physiological function of membrane glycolipids is little known. In the present work w...Glycolipid is the major component of the Acholeplasma laidlawii (A. laidlawii) membranes and amount to 50% of the total lipids. The physiological function of membrane glycolipids is little known. In the present work we have studied the glycolipid composition and physical properties of A. laidlawii AIH 089 (a new strain)展开更多
The study of the impact of high-temperature stress on the plant-phytopathogen system,including using nanoparticles,is relevant in connection with climate changes.Therefore,our work was aimed at studying the impact of ...The study of the impact of high-temperature stress on the plant-phytopathogen system,including using nanoparticles,is relevant in connection with climate changes.Therefore,our work was aimed at studying the impact of high-temperature stress on the physiological,biochemical,and growth processes of lentil plants under the conditions of pre-sowing treatment of seeds with Mo nanocitrates(Mo Ncit)and artificial infection with phytopathogenic microorganisms.Under high-temperature stress at 32-34°C(humidity 45 and 40%)in field conditions,a decrease in the photochemical activity of leaves of intact lentil plants was observed,due to the acclimatization of the photosynthetic apparatus.Infection with phytopathogenic phytoplasmas and bacteria disrupted the balance of free radicals in leaf tissues,because of which the activity of antioxidant enzymes SOD,POD,and phenolic compounds increased.This was likely the main reason for the disruption of the adaptation of the photosynthetic apparatus of plants to high-temperature stress under artificial infection with phytopathogenic phytoplasmas and bacteria,which destroyed pigment-protein complexes of PS II.As a result,the chlorophyll content in the leaves decreased.At the same time,physiological and biochemical changes in metabolism at presowing seed treatment with Mo Ncit compared to the control,caused an increase in the productivity of lentil plants in natural conditions under the combined action of various factors during the growing season:temperature fluctuations,air humidity,infection with phytopathogenic microorganisms.Therefore,infection with phytopathogenic microorganisms worsened the growth processes of plants,including due to a decrease in the adaptation of the photosynthetic apparatus to high-temperature stress.It is worth emphasizing that pre-treatment with molybdenum nanocitrates had a growth-stimulating and,to some extent,adaptive effect on plants and increased tolerance to phytopathogens.展开更多
基金Project supported by the National Natural Science Foundation of China.
文摘Glycolipid is the major component of the Acholeplasma laidlawii (A. laidlawii) membranes and amount to 50% of the total lipids. The physiological function of membrane glycolipids is little known. In the present work we have studied the glycolipid composition and physical properties of A. laidlawii AIH 089 (a new strain)
基金the governmental funding of the National Academy of Sciences of Ukraine,registration number 0120U000224.
文摘The study of the impact of high-temperature stress on the plant-phytopathogen system,including using nanoparticles,is relevant in connection with climate changes.Therefore,our work was aimed at studying the impact of high-temperature stress on the physiological,biochemical,and growth processes of lentil plants under the conditions of pre-sowing treatment of seeds with Mo nanocitrates(Mo Ncit)and artificial infection with phytopathogenic microorganisms.Under high-temperature stress at 32-34°C(humidity 45 and 40%)in field conditions,a decrease in the photochemical activity of leaves of intact lentil plants was observed,due to the acclimatization of the photosynthetic apparatus.Infection with phytopathogenic phytoplasmas and bacteria disrupted the balance of free radicals in leaf tissues,because of which the activity of antioxidant enzymes SOD,POD,and phenolic compounds increased.This was likely the main reason for the disruption of the adaptation of the photosynthetic apparatus of plants to high-temperature stress under artificial infection with phytopathogenic phytoplasmas and bacteria,which destroyed pigment-protein complexes of PS II.As a result,the chlorophyll content in the leaves decreased.At the same time,physiological and biochemical changes in metabolism at presowing seed treatment with Mo Ncit compared to the control,caused an increase in the productivity of lentil plants in natural conditions under the combined action of various factors during the growing season:temperature fluctuations,air humidity,infection with phytopathogenic microorganisms.Therefore,infection with phytopathogenic microorganisms worsened the growth processes of plants,including due to a decrease in the adaptation of the photosynthetic apparatus to high-temperature stress.It is worth emphasizing that pre-treatment with molybdenum nanocitrates had a growth-stimulating and,to some extent,adaptive effect on plants and increased tolerance to phytopathogens.
