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1.
在水稻温敏失绿突变性状表达过程中,对其Rutbsico含量、Rubsico活化酶活性,全叶蛋白及游离氨基酸组分变化进行测定。结果表明:突变体的Rubisco结构和含量与野生型一样,保持相对稳定;而其Rubisco活化酶活性则随一个分子量为56.2kD(PI=4.5)的特异蛋白质的存在与消失发生明显改变。当突变性状表达时,分子量为56.2kD(PI=4.5)的特异蛋白消失,其Rubisco活化酶活性下降;当叶片失绿区域复绿时,56.2kD(PI=4.5)特异蛋白出现,则Rubisco活化酶活性上升。这一密切地相关关系表明,突变体的Rubisco活化酶活性变化在光合作用过程中,除与自身结构和含量有关外,还与叶片中这一特异蛋白的存在密切相关,它可能是Rubisco活化酶活性的调节蛋白。这种调节具体表现在氨基酸代谢上,是对上游氨基酸的阻遏调控,从而使叶绿体的结构物质合成受阻,最终导致类囊体膜的退化。  相似文献   

2.
水稻 (OryzasativaL .)转绿型白化突变系W2 5在转绿过程中叶绿素、可溶性蛋白质和Rubisco含量的动态变化过程表明 ,白化突变体内叶绿素、可溶性蛋白质和Rubisco含量极低 ,随着转绿过程各组分含量迅速提高 ,转绿至第 30天时超过野生种 2 177s;Rubisco初始活力与Rubisco活化酶含量呈极显著正相关。Rubisco活化酶基因表达的研究结果表明 ,突变体的Rubisco活化酶表达高于野生种 2 177s。在转绿过程中 ,Rubisco活化酶含量的提高要先于Rubisco和光合速率  相似文献   

3.
为了探讨UV-B辐射引起的Rubisco含量降低的可能机制,研究了两个绿豆品种(秦豆-20和中绿-1)幼苗在UV-B辐射下叶片Rubisco含量、蛋白水解酶活性和H2O2含量的变化.结果表明:UV-B辐射显著加速了两个绿豆品种幼苗叶片H2O2含量和蛋白水解酶活性上升,使Rubiscco含量下降.秦豆-20品种在UV-B辐射下H2O2含量和蛋白水解酶活性的上升程度明显大于中绿-1,相应其Rubisco含量的下降程度也大于中绿-1.抗坏血酸处理能明显降低UV-B辐射下两品种幼苗叶片H2O2含量,同时明显抑制蛋白水解酶活性的上升及Rubisco含量的下降.结果说明UV-B辐射诱导Rubisco含量的降低可能通过提高H2O2水平从而加强蛋白水解酶系统的活化而加速了Rubisco的降解.  相似文献   

4.
温敏失绿突变体水稻1103s在失绿过程中全叶蛋白的变化   总被引:4,自引:0,他引:4  
从全叶蛋白比较入手,研究了温敏失绿突变体水稻(OryzasativaL.)1103s失绿前、后的变化,并结合该突变体在不同温度处理和遗传背景下叶片全蛋白的变化特征分析了变温诱导与失绿的关系。结果表明,诱导后1103s的叶片上,失绿部分的组织中没有出现冷胁迫的迹象,其Rubisco的大、小亚基表现正常。一个51kD(PI=4.5)的特异蛋白P1在失绿部分的组织中消失,而在叶片绿色部分的组织中检测到了P1蛋白,不过量有所减少,说明在失绿叶片上突变基因的表达存在组织差异性。P1蛋白在常温下生长的1103s叶片中为一大量蛋白,此蛋白在“8902s”、“窄叶青8号”等品种中均可检测到;并且持续低温处理的1103s植株和1103s×8902s杂交一代的叶片中P1蛋白的表达未受影响。由此推测,P1蛋白是水稻叶片中的一个与叶绿素的代谢过程密切相关的重要功能蛋白。在1103s中,P1蛋白的变化不是温度诱导的直接后果,而是受突变所导致的温敏过程调控的下游变化。  相似文献   

5.
水稻温敏型突变体叶片间断失绿的超微结构   总被引:10,自引:0,他引:10  
在短时降温诱导下,水稻温敏型突变体1103s(Oryza sativa ssp.indica)植株间断失绿性状表达(临界温度23.1℃)过程中,叶绿体含量的增减与叶色变化相符。电镜观察发现,性状表达时叶片间断失绿区叶绿体内部结构发生退化,呈现基粒垛叠片层数的异常减少,或基粒消失仅剩基粒残迹,有的甚至整个叶绿体为高电子密度的囊泡状结构。但在同一叶片的绿区,叶绿体仅表现基粒片层数减少、排列不规则,嗜锇小球聚集。在叶片失绿区的复绿过程中,叶绿体的这些变化又可逆转,内部结构重建,最后整个叶绿体结构基本恢复正常。水稻温敏突变体1103s叶片间断失绿性状表达过程,实质上是一个由温度调控的叶绿体结构退化与修复的可逆过程。  相似文献   

6.
小麦Rubisco活化酶基因的克隆和表达特性   总被引:3,自引:0,他引:3  
张国  李滨  邹琦 《植物学通报》2005,22(3):313-319
Rubisco活化酶是广泛存在于光合生物中调节Rubisco活性的酶,我们利用PCR技术,从小麦(Triticum aestivum)叶片cDNA文库中克隆得到Rubisco活化酶基因cDNA片段,该片段长度为850 bp,编码201个氨基酸.Northern blot表明,小麦叶片在暗诱导衰老的条件下,叶片中活化酶基因表达水平逐渐下降;同时,小麦叶片的光合特性、叶绿素含量和Rubisco活性呈现下降趋势.这些结果表明,衰老时小麦叶片Rubisco活化酶基因表达水平下降与光合速率下降密切相关.  相似文献   

7.
张国  李滨  邹琦 《植物学报》2005,22(3):313-319
Rubisco活化酶是广泛存在于光合生物中调节Rubisco活性的酶, 我们利用PCR技术, 从小麦(Triticum aestivum)叶片cDNA文库中克隆得到Rubisco活化酶基因cDNA片段, 该片段长度为850 bp, 编码201个氨基酸。Northern blot表明, 小麦叶片在暗诱导衰老的条件下, 叶片中活化酶基因表达水平逐渐下降; 同时, 小麦叶片的光合特性、叶绿素含量和Rubisco活性呈现下降趋势。这些结果表明, 衰老时小麦叶片Rubisco活化酶基因表达水平下降与光合速率下降密切相关。  相似文献   

8.
通过γ射线诱变,在水稻粳稻栽培品种9522中得到一个斑马叶突变体zebra leaf 1.为了研究zl1的功能,我们对突变体进行了形态学和细胞学的分析,同时也对此基因突变以后对叶绿体发育和光合作用的影响作了评价.突变体叶片上绿色和枯白色条纹相同,叶绿素含量显著的下降.电镜显示叶绿体类囊体的排列被打乱,变得杂乱无章.这表明zl1突变体在叶绿体发育过程中出现障碍.zl1基因的突变使得净光合速率显著的下降.参与光合作用的一些关键蛋白,比如核酮糖1,5-二磷酸羧化酶/加氧酶(Rubisco)、Rubisco活化酶、Dl蛋白、CF1β亚基的表达量也显著的下调.但是,zl1突变体对外界环境非常敏感,有时会没有表型.  相似文献   

9.
分别对家蚕(Bombyx mori. L)正常及Ng突变体雌蛾性附腺分泌部组织的蛋白质进行提取,并采用双向凝胶电泳和计算机辅助分析方法,对提取的蛋白质混合物进行分离和比较分析。用银染的方法,平均每张电泳图谱可以分离约700个蛋白质点,其中大部分的蛋白质点分布在pH 4~8范围内,在分子量上主要集中在30~70 kD区域。比较分析发现,有4种蛋白只在正常性附腺组织中特异表达,而有2种蛋白只在Ng突变体的组织中特异表达。另外约有29种蛋白在正常性附腺分泌部组织中的表达水平明显高于Ng突变,而约有15种蛋白在Ng突变体的分泌部组织中表达水平较高。这些差异蛋白质可能与Ng突变的形成和导致这种突变体的性附腺不能正常分泌粘性蛋白的性状有关。  相似文献   

10.
通过γ射线诱变.在水稻粳稻栽培品种9522中得到一个斑马叶突变体zebraleaf1。为了研究zl1的功能.我们对突变体进行了形态学和细胞学的分析.同时也对此基因突变以后对叶绿体发育和光合作用的影响作了评价。突变体叶片上绿色和枯白色条纹相间.叶绿素含量显著的下降。电镜显示叶绿体类囊体的排列被打乱.变得杂乱无章。这表明。Zl1突变体在叶绿体发育过程中出现障碍。zl1基因的突变使得净光合速率显著的下降。参与光合作用的一些关键蛋白.比如核酮糖1,5-二磷酸羧化酶/加氧酶(Rubisco)、Rubisco活化酶、D1蛋白、CF1β亚基的表达量也显著的下调。但是.zl1突变体对外界环境非常敏感.有时会没有表型。  相似文献   

11.
12.
Recovery of photosynthesis in rehydrating desiccated leaves of the poikilochlorophyllous desiccation-tolerant plant Xerophyta scabrida was investigated. Detached leaves were remoistened under 12 h light/dark cycles for 96 h. Water, chlorophyll (Chl), and protein contents, Chl fluorescence, photosynthesis-CO(2) concentration response, and the amount and activity of Rubisco were measured at intervals during the rehydration period. Leaf relative water contents reached 87% in 12 h and full turgor in 96 h. Chl synthesis was slower before than after 24 h, and Chla:Chlb ratios changed from 0.13 to 2.6 in 48 h. The maximum quantum efficiency recovered faster during rehydration than the photosystem II operating efficiency and the efficiency factor, which is known to depend mainly on the use of the electron transport chain products. From 24 h to 96 h of rehydration, net carbon fixation was Rubisco limited, rather than electron transport limited. Total Rubisco activity increased during rehydration more than the Rubisco protein content. Desiccated leaves contained, in a close to functional state, more than half the amount of the Rubisco protein present in rehydrated leaves. The results suggest that in X. scabrida leaves Rubisco adopts a special, protective conformation and recovers its activity during rehydration through modifications in redox status.  相似文献   

13.
During leaf senescence, Rubisco is gradually degraded and its components are recycled within the plant. Although Rubisco can be mobilized to the vacuole by autophagy via specific autophagic bodies, the importance of this process in Rubisco degradation has not been shown directly. Here, we monitored Rubisco autophagy during leaf senescence by fusing synthetic green fluorescent protein (sGFP) or monomeric red fluorescent protein (mRFP) with Rubisco in Arabidopsis (Arabidopsis thaliana). When attached leaves were individually exposed to darkness to promote their senescence, the fluorescence of Rubisco‐sGFP was observed in the vacuolar lumen as well as chloroplasts. In addition, release of free‐sGFP due to the processing of Rubisco‐sGFP was observed in the vacuole of individually darkened leaves. This vacuolar transfer and processing of Rubisco‐sGFP was not observed in autophagy‐deficient atg5 mutants. Unlike sGFP, mRFP was resistant to proteolysis in the leaf vacuole of light‐grown plants. The vacuolar transfer and processing of Rubisco‐mRFP was observed at an early stage of natural leaf senescence and was also obvious in leaves naturally covered by other leaves. These results indicate that autophagy contributes substantially to Rubisco degradation during natural leaf senescence as well as dark‐promoted senescence.  相似文献   

14.
In soybean ( Glycine max [L.] Merr.) the homozygous combination of the recessive alleles dI and d2 (i.e., dldld2d2 ) at two different nuclear loci or the cytoplasmic gene cytG inhibit chlorophyll degradation during senescence; i.e. their leaves are green when they are shed. The main objectives of the present work were: (J) to determine whether these "stay-green" genes also interfere with the loss of the bulk of leaf soluble proteins and ribulose bisphospnate carboxylase/oxygensase (Rubisco; EC 4.1.1.39) during senescence and (2) to relate this to alterations in leaf proteolytic activity. Leaves of the normal. Yellowing cvs Clark and Harosoy lost about 90% of their soluble proteins before abscission. The abscising leaves of these cultivars contained no detectable Rubisco. By contrast, protein degradation was significantly less in leaves of near-isogenic lines of Clark and Harosoy carrying dIdId2d2 , with or without G (a dominant nuclear gene in a third locus causing green seed coats). These leaves still retained 50% of the soluble protein and large amounts of both subunits of Rubisco at the time of abscission. Alone, neither dl nor d2 had any effect. The cytoplasmic gene cytG slowed the loss of Rubisco. although eventually when leaves were shed they contained as little Rubisco as Clark. Despite inhibition (i.e. dIdId2d2 and GGdIdId2d2 ) or retardation (i.e. cytG ) of protein loss, these mutant genotypes did not differ from Clark in the breakdown of endogenous Rubisco by leaf extracts ("autodigestion"). The wild-type alleles in the dI and d2 loci may control a central regulatory process of the senescence syndrome.  相似文献   

15.
Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) is the predominant protein in photosynthesizing plant parts and the most abundant protein on earth. Amino acids deriving from its net degradation during senescence are transported to sinks (e.g. developing leaves, fruits). Rubisco catabolism is not controlled only by the overall sink demand. An accumulation of carbohydrates may also accelerate senescence and Rubisco degradation under certain conditions. Amino acids produced by proteolysis are rapidly redistributed in plants with proper source-sink relationships. In leaves of wheat plants with reduced sink capacity (e.g. sink removal, phloem interruption by steam girdling at the leaf base), Rubisco is degraded and free amino acids accumulate. They may be washed out in the rain during late senescence. In leaves of depodded soybeans, Rubisco is degraded and amino acids can be reutilized in these leaves for the synthesis of special vacuolar proteins in the paraveinal mesophyll (vegetative storage proteins). Nitrogen deriving from Rubisco degradation in older (senescing) leaves of annual crops is integrated to some extent again in newly synthesized Rubisco in younger leaves or photosynthesizing tissues of fruits. Finally, a high percentage of this nitrogen is accumulated in protein bodies (storage proteins). At the subcellular level, Rubisco can be degraded in intact chloroplasts. Reactive oxygen species may directly cleave the large subunit or modify it to become more susceptible to proteolysis. A metalloendopeptidase may play an important role in Rubisco degradation within intact chloroplasts. Additionally, the involvement of vacuolar endopeptidase(s) in Rubisco catabolism (at least under certain conditions) was postulated by various laboratories.  相似文献   

16.
小麦返白系返白期间Rubisco变化研究   总被引:1,自引:0,他引:1  
以小麦返白系和对照矮变1号为材料,选用返白系三个特殊的时期,返白初期、全白期、复绿初期,对其叶片可溶性蛋白进行了Native-PAGE和SDS-PAGE的研究。结果表明:随着叶片白化,核酮糖1.5-二磷酸羧化酶/加氧酶(Rubisco)全酶谱带逐渐变小,全白叶全酶谱带消失,随着复绿全酶谱带又出现,并逐渐恢复。而且Rubisco大、小亚基(LS、SS)谱带减少幅度差异很大,大亚基减少远远大于小亚基。  相似文献   

17.
Early iron deficiency stress response in leaves of sugar beet.   总被引:6,自引:0,他引:6       下载免费PDF全文
T L Winder  J N Nishio 《Plant physiology》1995,108(4):1487-1494
Iron nutrient deficiency was investigated in leaves of hydroponically grown sugar beets (Beta vulgaris) to determine how ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) gene expression is affected when thylakoid components of photosynthesis are diminished. Rubisco polypeptide content was reduced by 60% in severely iron-stressed leaves, and the reduction was directly correlated to chlorophyll content. The concentration of Rubisco protein in iron-stressed leaves was found to be regulated by availability of mRNAs, and CO2 fixation by Rubisco was reduced from 45 mumol CO2 m-2 s-1 in extracts from iron-sufficient leaves to 20 mumol CO2 m-2 s-1 in extracts from severely stressed leaves. The rate of CO2 fixation was directly correlated to leaf chlorophyll content. Rubisco in iron-sufficient control leaves was 59% activated, whereas in severely stressed leaves grown under the same light, Rubisco was 43% activated. RNA synthesis was reduced by about 50% in iron-deficient leaves, but 16S and 25S rRNA and ctDNA were essentially unaffected by iron stress.  相似文献   

18.
The original maize (Zea mays L.) var. Zacatecas 58 (Z0) and five composites of cycles 5, 10, 15, 20, and 23 of stratified mass selection (Z5, Z10, Z15, Z20, and Z23) for improved productivity applied to the original variety were used as the model system. Ribulose-1,5-bisphosphate carboxylase/oxygenase (EC 4.1.1.39) (Rubisco) activity and the rates of net photosynthesis in the leaves above the ear were compared in all the composites during the grain filling period. Leaves were sampled weekly from anthesis to physiological maturity. Results showed a significant and gradual increase in Rubisco activity for the improved populations. In vivo photosynthesis measured by IRGA during the same period also showed increased levels associated with increases of grain yield. The highest Rubisco activity, photosynthetic rate and grain yield were found in the Z23 population. Western blot analysis for Rubisco protein did not show significant differences either during the filling period or between populations. The same analysis, however, for Rubisco activase protein showed increasing contents in the improved populations. These data confirm and complement previous findings, indicating that the stratified visual mass selection procedure applied to maize plants is associated with leaf content of Rubisco activase protein. The possible regulatory role of Rubisco activase during grain filling is discussed.  相似文献   

19.
Leaf and tumor extracts of the genetically tumor-conditioned amphiploid Nicotiana glauca X N. langsdorffii, as well as leaf extracts from the parent species and a nontumorous mutant of the amphiploid, were separated on acrylamide gel columns by the method of disc electrophoresis. Gels were stained for general proteins with amido black and specifically for esterases, peroxidases and leucine amino peptidase. The results show characteristic protein and enzyme patterns for leaves of each of the parental species and the amphiploid hybrids. The amphiploids show some bands which are comparable to bands of either one or both of the parental species, while other bands do not have their equivalents in the parental species. Leaf tissue of the tumorous and nontumorous amphiploids were found to differ by a few protein bands, at least two for esterases and at least one for peroxidases. Extracts from tumor tissue show very different patterns from those of the leaves of the same genotype.  相似文献   

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