Brownleader M. D., Ahmed N., Trevan M., Chaplin M. F., Dey P. M.
School of Applied Science, South Bank University, 103 Borough Road, London, United Kingdom SE1 0AA (M.D.B., N.A., M.T., M.F.C.).
Plant Physiol. 1995 Nov;109(3):1115-1123. doi: 10.1104/pp.109.3.1115.
Early plant defense response is characterized by elevation of activity of peroxidases and enhanced insolubilization of hydroxyproline-rich glycoproteins, such as extensin, in the cell wall. The insolubilization process (cross-linking between soluble extensin precursor molecules) is catalyzed by extensin peroxidases. We have ionically eluted extensin peroxidases from intact water-washed suspension-cultured tomato (hybrid of Lycopersicon esculentum Mill. and Lycopersicon peruvianum L. [Mill.]) cells and purified them to homogeneity by molecular sieve and cation-exchange chromatography. Four ionic forms of peroxidase (PI,PII,EPIII, and EPIV) were resolved; only the latter two cross-linked tomato soluble extensin. The molecular weight (34,000-37,000), amino acid composition, and isoelectric point (9.0) of the extensin peroxidases were determined. Substrate specificities of the enzymes were investigated: soluble extensin and potato lectin (a hydroxyproline-rich glycoprotein with a domain that strongly resembles extensin) were cross-linked by only two forms of the enzyme, whereas bovine serum albumin, aldolase, insulin, a number of other marker proteins, and proteins eluted from tomato cells (except extensin) could not be cross-linked. We have also isolated a yeast elicitor that enhances total peroxidase activity and extensin insolubilization within 1 h of challenge in cultured cells of tomato. A highly sensitive enzyme-linked immunosorbent assay technique using polyclonal antiserum raised against soluble tomato extensin was used to demonstrate extensin insolubilization in vivo. A tomato cell-wall peroxidase that cross-links extensin has been purified and may have a role in plant defense.
早期植物防御反应的特征是过氧化物酶活性升高以及富含羟脯氨酸的糖蛋白(如伸展蛋白)在细胞壁中增强不溶性。不溶性过程(可溶性伸展蛋白前体分子之间的交联)由伸展蛋白过氧化物酶催化。我们已从完整水洗的悬浮培养番茄(番茄品种Lycopersicon esculentum Mill.和Lycopersicon peruvianum L. [Mill.]的杂交种)细胞中离子洗脱伸展蛋白过氧化物酶,并通过分子筛和阳离子交换色谱将其纯化至同质。分辨出了过氧化物酶的四种离子形式(PI、PII、EPIII和EPIV);只有后两种能交联番茄可溶性伸展蛋白。测定了伸展蛋白过氧化物酶的分子量(34,000 - 37,000)、氨基酸组成和等电点(9.0)。研究了这些酶的底物特异性:可溶性伸展蛋白和马铃薯凝集素(一种富含羟脯氨酸的糖蛋白,其一个结构域与伸展蛋白非常相似)仅被两种形式的酶交联,而牛血清白蛋白、醛缩酶、胰岛素、许多其他标记蛋白以及从番茄细胞洗脱的蛋白(除伸展蛋白外)都不能被交联。我们还分离出了一种酵母激发子,它能在挑战后1小时内增强培养的番茄细胞中的总过氧化物酶活性和伸展蛋白不溶性。使用针对可溶性番茄伸展蛋白产生的多克隆抗血清的高灵敏度酶联免疫吸附测定技术被用于证明体内伸展蛋白的不溶性。一种能交联伸展蛋白的番茄细胞壁过氧化物酶已被纯化,并且可能在植物防御中起作用。