暗呼吸二氧化碳固定及其在植物组织生长中的作用。
Dark CO(2) Fixation and its Role in the Growth of Plant Tissue.
作者信息
Splittstoesser W E
机构信息
Department of Horticulture, University of Illinois, Urbana, Illinois.
出版信息
Plant Physiol. 1966 May;41(5):755-9. doi: 10.1104/pp.41.5.755.
Experiments were designed to determine the significance of dark CO(2) fixation in excised maize roots, carrot slices and excised tomato roots grown in tissue culture. Bicarbonate-(14)C was used to determine the pathway and amounts of CO(2) fixation, while leucine-(14)C was used to estimate protein synthesis in tissues aerated with various levels of CO(2).Organic acids were labeled from bicarbonate-(14)C, with malate being the major labeled acid. Only glutamate and aspartate were labeled in the amino acid fraction and these 2 amino acids comprised over 90% of the (14)C label in the ethanol-water insoluble residue.Studies with leucine-(14)C as an indicator of protein synthesis in carrot slices and tomato roots showed that those tissues aerated with air incorporated 33% more leucine-(14)C into protein than those aerated with CO(2)-free air. Growth of excised tomato roots aerated with air was 50% more than growth of tissue aerated with CO(2)-free air. These studies are consistent with the suggestion that dark fixation of CO(2) is involved in the growth of plant tissues.
实验旨在确定在组织培养中生长的玉米离体根、胡萝卜切片和番茄离体根中暗固定二氧化碳的重要性。用碳酸氢盐 -¹⁴C来确定二氧化碳固定的途径和量,而用亮氨酸 -¹⁴C来估计在不同二氧化碳水平通气的组织中的蛋白质合成。有机酸由碳酸氢盐 -¹⁴C标记,其中苹果酸是主要的标记酸。在氨基酸部分中只有谷氨酸和天冬氨酸被标记,并且这两种氨基酸占乙醇 - 水不溶性残渣中¹⁴C标记的90%以上。用亮氨酸 -¹⁴C作为胡萝卜切片和番茄根中蛋白质合成指标的研究表明,与用无二氧化碳空气通气的组织相比,用空气通气的那些组织将亮氨酸 -¹⁴C掺入蛋白质中的量多33%。用空气通气的番茄离体根的生长比用无二氧化碳空气通气的组织的生长多50%。这些研究与二氧化碳暗固定参与植物组织生长的观点一致。
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