巨型蛇舌草磷脂酶A2的初步鉴定

Joanna K MacKichan, Amy R Tuininga, James L Kerwin
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引用次数: 7

摘要

麦坎,J. K.,图宁加,A. R.和克尔温,J. L. 1994。巨型蛇舌草磷脂酶A2的初步鉴定。实验真菌学18,180-192。磷脂酶A2 (PLA2)水解甘油磷脂中sn-2位置的脂肪酸酯键。为了更好地了解PLA2的调控作用,研究了影响PLA2活性的因素:二价离子;螯合剂:抑制剂;pH值;底物浓度。以1-硬脂酰-2-[1-14C]花生四烯酰基磷脂酰胆碱为底物,测定了L. giganteum全细胞匀浆PLA2的活性。二价阳离子Ca2+、Mg2+和Mn2+均能增强PLA2活性,而Co2+、Fe2+和Zn2+对PLA2活性略有抑制或无作用。高浓度的EGTA对活性有增强作用,低浓度的螯合剂有轻微抑制作用,高浓度的EDTA作用不大。EGTA比Mg2+对Ca2+和Mn2+具有更高的亲和力,其水解率低于同等浓度的EDTA。在酸性(约5.5)和碱性(约11.5)水平下发现了两个最佳pH值。四种经典抑制剂,去二氢愈创木酸、鞣花酸、棉酚和4-溴苯酰溴,在5 mM浓度下降低PLA2活性约80%,在1 mM浓度下降低50%,在100 μM浓度下无影响。抑制PLA2水解所需的这些化合物的相对高水平可能是由于酶的混合物的存在,其中一些酶不容易受到抑制。在活细胞培养中,浓度为1mm的所有抑制剂都能有效地关闭卵孢子的发生,对菌丝没有不良影响。PLA2活性在生命周期的卵孢子后期最高,尽管这些酶在这些固定培养物中可能没有代谢活性。在添加胆固醇的培养基上培养的PLA2活性水平明显高于在无固醇培养基上培养的PLA2活性。该酶主要与微粒体膜有关,但在细胞质部分有显著的活性。用柱层析法分离细胞匀浆,发现至少有9种酶能够在磷脂的sn -2位置切割脂肪酸。
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Preliminary Characterization of Phospholipase A2 in Lagenidium giganteum

MacKichan, J. K., Tuininga, A. R., and Kerwin, J. L. 1994. Preliminary characterization of phospholipase A2 in Lagenidium giganteum. Experimental Mycology 18, 180-192. Phospholipase A2 (PLA2) hydrolyses the fatty acyl ester bond at the sn-2 position in glycerophospholipids. To better understand its regulatory roles, factors affecting PLA2 activity in Lagenidium giganteum were investigated: divalent ions; chelators: inhibitors; pH; and substrate concentration. PLA2 activity of L. giganteum whole cell homogenates was determined using 1-stearoyl-2-[1-14C]arachidonoyl phosphatidylcholine as substrate. The divalent cations Ca2+, Mg2+, and Mn2+ all enhanced PLA2 activity, while Co2+, Fe2+, and Zn2+ were either slightly inhibitory or without effect. High concentrations of EGTA enhanced activity, low concentrations of the chelators were slightly inhibitory, while high concentrations of EDTA had little effect. EGTA, which has a higher affinity for Ca2+ and Mn2+ than Mg2+, reduced hydrolysis less than a comparable concentration of EDTA. Two pH optima were found, at both acid (ca. 5.5) and alkaline (ca. 11.5) levels. Four classical inhibitors, nordihydroguaiaretic acid, ellagic acid, gossypol, and 4-bromophenacylbromide, reduced PLA2 activity by about 80% at 5 mM concentration, 50% with 1 mM inhibitor, and had no effect at 100 μM. The relatively high levels of these compounds needed to inhibit PLA2 hydrolysis may have been due to the presence of a cocktail of enzymes, some of which were not susceptible to inhibition. All inhibitors at 1 mM concentration in live cell cultures effectively shut down oosporogenesis, without adverse effects to the mycelia. PLA2 activity was highest in the late oospore stage of the life cycle, although the enzymes were probably not metabolically active in these stationary cultures. Cultures grown on cholesterol-supplemented defined media had significantly higher levels of PLA2 activity relative to cultures grown on sterol-free media. The enzyme was found to be associated primarily with microsomal membranes, but there was significant activity in cytosolic fractions. Separation of cell homogenates by column chromatography revealed that there were at least nine enzymes capable of cleaving fatty acids in the sn -2 position of phospholipids.

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