一个水稻黄叶突变体的叶绿素合成关键基因的表达分析

doi:10.11924/j.issn.1000-6850.casb17040104

中国农学通报 ›› 2017, Vol. 33 ›› Issue (22): 30-35.doi: 10.11924/j.issn.1000-6850.casb17040104

所属专题：生物技术；水稻

一个水稻黄叶突变体的叶绿素合成关键基因的表达分析

滕炎桐,叶莲,何福收,褚巍,王春台,谭艳平

中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室,中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室,中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室,中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室,中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室,中南民族大学武陵山区特色资源植物种质保护与利用湖北省重点实验室

收稿日期:2017-04-17 修回日期:2017-04-29 接受日期:2017-05-04 出版日期:2017-08-21 发布日期:2017-08-21
通讯作者: 谭艳平
基金资助:
中央高校基本科研业务费专项资金自科重点项目“水稻黄叶突变体基因的克隆及其作用机理研究”(CZZ15004)。

Expression Analysis of Key Genes of Chlorophyll Synthesis in A Yellow Leaves Mutant of Oryza sativa

Received:2017-04-17 Revised:2017-04-29 Accepted:2017-05-04 Online:2017-08-21 Published:2017-08-21

摘要/Abstract

摘要： 为了研究一个水稻黄叶突变基因与叶绿素合成途径的关系及突变基因的作用机理，本研究以野生型作对照，结合半定量与实时定量PCR技术，对突变体茎和叶组织中叶绿素合成关键基因的RNA表达水平进行了分析。结果显示，在茎组织中，研究选取的8个基因在突变体和野生型中的表达均没有明显差别。而在叶组织中，突变体的YGL1和CHLI两个基因的表达量约为野生型的1.8倍，表达明显上调；CHLD基因的表达量约为野生型的0.6倍，表达明显下调；其余5个基因的表达没有明显差别。研究表明，突变基因能够调控叶绿素合成关键基因YGL1、CHLD和CHLI的表达，从而影响叶组织中叶绿素的合成，这为进一步研究突变基因对叶绿素合成的调控模式及其作用机理奠定了基础。

关键词: 高温区划, 高温区划, 高温强度等级, 持续时间

Abstract: The aims are to study the relationship between rice yellow leaf mutant gene and chlorophyll synthesis, and the mechanism of mutant genes. In this study, the wild type was taken as the control, the RNA expression of key genes of chlorophyll biosynthesis in stems and leaves of mutants were analyzed by semiquantitative and real-time quantitative PCR. The results showed that there was no significant difference in the expression of 8 genes of stems in the wild type and the mutants. In the leaves, the expression of YGL1 and CHLI in the mutant was significantly up-regulated, about 1.8 times as that in wild type. The expression of CHLD gene in the mutant was about 0.6 times as that in wild type, was significantly down-regulated. The expression of the other 5 genes was not significantly different between the mutants and the wild type. The results indicated that the mutant gene could regulate the expression of YGL1, CHLD and CHLI genes and further affect the synthesis of chlorophyll in leaves. The study laid a foundation for understanding the role of mutant gene in the regulation of chlorophyll synthesis and its functional mechanism.

中图分类号:

Q756

滕炎桐,叶莲,何福收,褚巍,王春台,谭艳平. 一个水稻黄叶突变体的叶绿素合成关键基因的表达分析[J]. 中国农学通报, 2017, 33(22): 30-35.

参考文献

[1] 张天泉.水稻新黄绿叶基因YGL9的鉴定和图位克隆:[D].西南大学,2016
[2] 王亚琴.水稻黄绿叶突变体ygl13的鉴定和候选基因分析:[D].西南大学,2016
[3] Beale, S. I.Green genes gleaned[J].Trends in plant science,2005,10(7):309-312
[4] Bollivar, D. W.Recent advances in chlorophyll biosynthesis[J].Photosynthesis research,2006,90(2):173-194
[5] 刘进.三个水稻叶绿素代谢相关基因的鉴定与功能分析:[D].沈阳农业大学,2016
[6] 王丹霞.水稻yl1黄叶突变体的基因克隆与功能分析:[D].中国农业科学院,2015
[7] Apitz, J. et al.GluTR2 complements a hema1 mutant lacking glutamyl-tRNA reductase 1,but is differently regulated at the post-translational level[J].Plant cell physiology,2014,55(3):645-657
[8] Kumar, A. M. Soll, D.Antisense HEMA1 RNA expression inhibits heme and chlorophyll biosynthesis in arabidopsis[J].Plant physiology,2000,122(1):49-56
[9] Liu, W. et al.Identification and fine mapping of a thermo-sensitive chlorophyll deficient mutant in rice (Oryza sativa L.)[J].Planta,2007,226(3):785-795
[10] Adams, N. B. et al.Characterization of the magnesium chelatase from Thermosynechococcus elongatus[J].The Biochemical journal,2014,457(1):163-170
[11] Adams, N. B. Reid, J. D.Nonequilibrium isotope exchange reveals a catalytically significant enzyme-phosphate complexin the ATP hydrolysis pathway of the AAA(+) ATPase magnesium chelatase[J].Biochemistry,2012,51(10):2029-2031
[12] Adams, N. B. Reid, J. D.The allosteric role of the AAA+ domain of ChlD protein from the magnesium chelatase ofsynechocystis species PCC 6803[J].The Journal of biological chemistry,2013,288(40):28727-28732
[13] Adams, N. B. et al.Nanomechanical and Thermophoretic Analyses of the Nucleotide-Dependent Interactions betweenthe AAA(+) Subunits of Magnesium Chelatase[J].Journal of the American Chemical Society,2016,138(20):6591-6597
[14] Biswal, A. K. et al.Light intensity-dependent modulation of chlorophyll b biosynthesis and photosynthesis byoverexpression of chlorophyllide a oxygenase in tobacco[J].Plant physiology,2012,159(1):433-449
[15] Harper, A. L. et al.Chlorophyllide a Oxygenase mRNA and Protein Levels Correlate with the Chlorophyll a/b Ratioin Arabidopsis thaliana[J].Photosynthesis research,2004,79(2):149-159
[16] Reinbothe, C. et al.A role for chlorophyllide a oxygenase in the regulated import and stabilization of light-harvestingchlorophyll a/b proteins[J].Proceedings of the National Academy of Sciences of the United States of America,2006,103(12):4777-4782
[17] Yang, Y. et al.PGL, encoding chlorophyllide a oxygenase 1, impacts leaf senescence and indirectly affects grain yield and qualityin rice[J].Journal of experimental botany,2016,67(5):1297-1310
[18] 吴自明.水稻黄绿叶基因ygl1的图位克隆及功能分析:[D].南京农业大学,2007
[19] 邢才 et al.植物叶绿素突变体及其分子机理的研究进展[J].生物技术通报,2008,05):10-12+27
[20] Ankele, E. et al.In vivo visualization of Mg-protoporphyrin IX, a coordinator of photosynthetic gene expression in the nucleusand the chloroplast[J].The Plant cell,2007,19(6):1964-1979
[21] Kanesaki, Y. et al.Mg-protoporphyrin IX signaling in Cyanidioschyzon merolae: multiple pathways may involvethe retrograde signaling in plant cells[J].Plant signaling behavior,2009,4(12):1190-1192
[22] Zhang, Z. W. et al.Transient accumulation of Mg-protoporphyrin IX regulates expression of PhANGs - New evidence forthe signaling role of tetrapyrroles in mature Arabidopsis plants[J].Journal of plant physiology,2011,168(7):714-721

一个水稻黄叶突变体的叶绿素合成关键基因的表达分析

Expression Analysis of Key Genes of Chlorophyll Synthesis in A Yellow Leaves Mutant of Oryza sativa

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