Cronan J E, Roughan P G
Division of Horticulture and Processing, Department of Scientific and Industrial Research, Mt. Albert Research Centre, Private Bag, Auckland, New Zealand.
Plant Physiol. 1987 Mar;83(3):676-80. doi: 10.1104/pp.83.3.676.
Chilling sensitivity of plants is strongly correlated with the presence of high levels of a species of chloroplast phosphatidylglycerol that contains two saturated fatty acids. The most straightforward synthetic pathway for this lipid would require the primary acylation of sn-glycerol 3-phosphate (G3P) with a saturated fatty acid (palmitic acid) rather than with oleic acid, an unsaturated acid. This selective incorporation would differ markedly from the reported properties of the chloroplast G3P acyltransferases of pea and spinach, two chilling resistant plants and thus we have studied the chloroplast G3P acyltransferase of Amaranthus lividus, a chilling sensitive plant. In contrast to our results and those of others (M. Frentzen et al. 1983 Eur J Biochem 129: 629-636 and previous work) with the pea and spinach enzymes, the amaranthus chloroplast G3P acyltranferase did not select oleic acid donors from a mixture of oleic and palmitic acid donors (either coenzyme A or acyl carrier protein thioesters). Instead the fatty acid composition of the synthesized 1-acyl G3P faithfully reflected the composition of the acyl donor mixture. However, the amaranthus enzyme did strongly select against incorporation of stearic acid. The properties of the amaranthus G3P acyltransferase are consistent with this enzyme having the major role in synthesis of the disaturated phosphatidylglycerol species.
植物的冷敏感性与一种含有两个饱和脂肪酸的叶绿体磷脂酰甘油的高水平存在密切相关。这种脂质最直接的合成途径需要用饱和脂肪酸(棕榈酸)而非不饱和酸油酸对sn-甘油-3-磷酸(G3P)进行初次酰化。这种选择性掺入将与豌豆和菠菜(两种抗寒植物)叶绿体G3P酰基转移酶的报道特性明显不同,因此我们研究了苋菜(一种冷敏感植物)的叶绿体G3P酰基转移酶。与我们和其他人(M. 弗伦岑等人,1983年,《欧洲生物化学杂志》129卷:629 - 636页及先前工作)对豌豆和菠菜酶的研究结果相反,苋菜叶绿体G3P酰基转移酶不会从油酸和棕榈酸供体(辅酶A或酰基载体蛋白硫酯)的混合物中选择油酸供体。相反,合成的1-酰基G3P的脂肪酸组成忠实地反映了酰基供体混合物的组成。然而,苋菜酶确实强烈地阻止硬脂酸的掺入。苋菜G3P酰基转移酶的特性与该酶在二饱和磷脂酰甘油物种合成中起主要作用一致。