Canada Department of Agriculture, Research Station, Ste-Foy, Quebec, G1V 2J3, Canada.
Plant Physiol. 1975 May;55(5):906-12. doi: 10.1104/pp.55.5.906.
When the temperature of incorporation of sodium acetate-1, 2-(14)C into lipids of alfalfa (Medicago media Pers. var. Rambler and Medicago sativa L. var. Caliverde) roots was lowered from 22 C to 1 C, elongation and desaturation of fatty acids and the labeling of phosphatidylcholine were strongly stimulated.Controlled hardening of alfalfa stimulated strongly the incorporation of sodium acetate-1, 2-(14)C into root lipids of the hardy variety Rambler, but only slightly in the case of the frost-sensitive variety Caliverde. When incorporation was done at 1 C at various times of hardening, labeling decreased significantly in linoleic acid with a corresponding increase in oleic acid. Hardening, therefore, repressed specifically the initial low temperature stimulation of oleic acid desaturation, without affecting the stimulation of elongation of palmitic acid and the desaturation of stearic acid at low temperature. The radioactivity in linoleic acid was slightly greater in hardy Rambler than in Caliverde throughout hardening.When feedings were done at 1 C at various times of hardening, labeling of phosphatidylcholine increased in Rambler while it decreased in Caliverde. Throughout the hardening period, when incorporation was done at 1 C, linoleic acid represented a higher percentage of the label in phosphatidylcholine than in phosphatidylethanolamine or triglycerides and its specific radioactivity was much greater in phosphatidylcholine than in phosphatidylethanolamine and triglycerides and in Rambler than in Caliverde. Phosphatidylcholine seems, therefore, to play a special part in linoleic acid synthesis and in its control during the acquisition of frost hardiness.
当苜蓿(Medicago media Pers. var. Rambler 和 Medicago sativa L. var. Caliverde)根中乙酸钠-1,2-(14)C 掺入脂质的温度从 22°C 降低到 1°C 时,脂肪酸的延伸和去饱和以及磷脂酰胆碱的标记强烈地受到刺激。对苜蓿的受控硬化强烈刺激了耐寒品种 Rambler 的根脂质中乙酸钠-1,2-(14)C 的掺入,但对敏感品种 Caliverde 的影响则较小。当在 1°C 下在硬化的不同时间进行掺入时,亚油酸的标记显著减少,而油酸的标记相应增加。因此,硬化特异性地抑制了低温刺激油酸去饱和的初始阶段,而不影响低温下棕榈酸的延伸和硬脂酸的去饱和的刺激。在整个硬化过程中,耐寒的 Rambler 中亚油酸的放射性比 Caliverde 略高。当在硬化的不同时间在 1°C 下进行喂养时,Rambler 中的磷脂酰胆碱标记增加,而在 Caliverde 中则减少。在整个硬化期间,当在 1°C 下进行掺入时,亚油酸在磷脂酰胆碱中的标记百分比高于磷脂酰乙醇胺或三酰基甘油,并且其比放射性在磷脂酰胆碱中比在磷脂酰乙醇胺和三酰基甘油中以及在 Rambler 中比在 Caliverde 中高得多。因此,磷脂酰胆碱似乎在亚油酸合成及其在获得抗冻性过程中的控制中发挥特殊作用。