The structural, biochemical, and genetic characterization of a new radiation-induced, variegated leaf mutant of soybean [Glycine max (L.) Merr].

T S Cheng, J M Chandlee
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Abstract

A variegated leaf mutant in soybean [Glycine max (L.) Merr.] has been identified and characterized. E25-10 was derived by exposure of seeds of the "Williams' 82" cultivar to gamma-radiation. In this mutant, yellow leaf sectors contain defective chloroplasts, in which the thylakoid membranes are presented as long, parallel structures with little or no overlap. No starch grains have been detected in the mutant chloroplasts. Small vesicles and plastoglobuli can be found within the defective chloroplasts. Genetic studies revealed that a single nuclear-encoded gene is responsible for the mutation in E25-10. The total chlorophyll content is reduced in yellow leaf tissue by 70-80%. However, the chlorophyll a/b ratio is not altered. The absorbance spectrum of pigments in the mutant leaf tissue differed from that of the green extracts in the range of 400-500 nm. This reduction in total chlorophyll and the change in the absorbance spectrum pattern in the yellow tissue is related to a loss of certain photosynthetic complexes. Green gel analysis revealed that four major pigment-protein complexes (CP1, LHCP1, LHCP2, and CPa) of the thylakoid membranes were absent in the E25-10 mutant. Lithium dodecyl sulphate polyacrylamide gel analysis showed that at least 5-6 polypeptides (51, 44, 25, 15, 13, and 12 kDa) were missing in the thylakoid membranes of chloroplasts from the yellow tissue. Changes in chloroplast- and nuclear-encoded gene message levels were detected. The psaA transcripts which code for the P700 apoprotein in PSI were reduced in chloroplasts from the E25-10 mutant yellow tissue. The levels of the large subunit of ribulose bisphosphate carboxylase (rbcL) and light harvest complex protein (LHCP) of PSII mRNA appeared to be reduced slightly in the mutant plants. However, a much more significant reduction in the 16S rRNA and the small subunit of ribulose bisphosphate carboxylase (rbcS) expression was detected in the yellow leaf sectors. Our results suggest that the possible lesion in E25-10 is located in the photosystem I even though fewer grana were observed in the defective chloroplasts.

大豆[Glycine max (L.) Merr]新的辐射诱导变异叶突变体的结构、生物化学和遗传特征。
大豆[Glycine max (L.) Merr.]中的一个变异叶突变体已被鉴定和表征。E25-10 是将 "Williams' 82 "栽培品种的种子暴露于伽马射线辐射下而产生的。在该突变体中,黄色叶片包含有缺陷的叶绿体,其中的类囊体膜呈长条形平行结构,几乎没有重叠。在突变体叶绿体中未检测到淀粉粒。在缺陷叶绿体中可以发现小囊泡和质球。遗传学研究表明,E25-10 的突变是由单个核编码基因引起的。黄叶组织中的总叶绿素含量降低了 70-80%。然而,叶绿素 a/b 比率并没有改变。突变体叶片组织中色素的吸收光谱在 400-500 纳米范围内与绿色提取物不同。叶绿素总量的减少和黄色组织吸光光谱模式的改变与某些光合复合物的损失有关。绿色凝胶分析表明,E25-10 突变体中缺少类囊体膜的四种主要色素-蛋白质复合物(CP1、LHCP1、LHCP2 和 CPa)。十二烷基硫酸锂聚丙烯酰胺凝胶分析表明,黄色组织叶绿体的类叶绿体膜中至少缺少 5-6 种多肽(51、44、25、15、13 和 12 kDa)。叶绿体和核编码基因信息水平发生了变化。在 E25-10 突变体黄色组织的叶绿体中,编码 PSI 中 P700 apoprotein 的 psaA 转录本减少了。在突变体植株中,核酮糖双磷酸羧化酶大亚基(rbcL)和 PSII 光收获复合蛋白(LHCP)的 mRNA 水平似乎略有降低。然而,在黄叶部分检测到的 16S rRNA 和核酮糖二磷酸羧化酶小亚基(rbcS)的表达量减少更为明显。我们的结果表明,尽管在缺陷叶绿体中观察到的颗粒较少,但 E25-10 中可能的病变位于光系统 I。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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