植物冷驯化的分子生物学机理

概述了植物冷激蛋白的生理作用及其基因表达的调控。阐释了植物冷驯化和抗寒性的分子机理。     

植物耐冷性分子机理的研究进展

近年来对植物耐冷性分子机理的研究不断深入。主要体现在以下4个方面：植物的冷敏感性可以通过调节膜脂的不饱和脂肪酸水平得到调控,调节的途径是通过酰脂去饱和酶和甘油-3-磷酸酰基转移酶的作用;利用转基因技术在植物中超表达抗氧化酶基因,如编码SOD、APX、CAT和GR等的基因,可望提高耐冷性;植物低温逆境信号转导的研究表明,ABA不仅是重要的低温逆境信号,而且可调节冷害下基因的表达,Ca^2 是一个主要的第二信使,蛋白激酶途径也参与了植物冷害的信号转导;低温诱导的蛋白或酶类主要有脱水蛋白和热稳定蛋白。     

植物冷驯化相关基因研究进展

摘要 冷驯化是与提高植物抗冷性有关的生物化学及生理学过程, 主要包括寒驯化(cool acclimation)和冻驯化(freezing acdimation)。在冷驯化过程中, 植物体内许多基因在转录水平上的表达受到影响, 已经克隆了大量的相关基因,它们组成复杂的分子调控网络。目前研究表明不依赖ABA的低温信号转导途径是植物冷驯化机制的重要组成部分, 其中CBF/DREB1是该调控过程的关键转录因子, 与植物通过冷驯化而提高冰冻耐受能力密切相关。进一步利用转基因技术, 可有效地改善作物的耐冷性状。     

植物冷害机理及冷驯化的生理与分子学基础

介绍了近几年来植物冷害机理、冷驯化提高植物抗冷性的生理与分子生物学基础及冷信号转导的最新研究进展.     

植物冷驯化相关信号机制

植物经过非致死温度的处理可以获得更强的抗冷能力叫做冷驯化,主要包括寒驯化和冻驯化 .在冷驯化过程中,质膜首先感受冷信号,调节胞质中IP3的含量,诱导胞质Ca2+浓度的升高,从而激活CBF基因的表达.至今已经克隆了大量的冷调控基因,组成了复杂的信号传导网络,其中ICE1-CBF-COR通路在植物的冷驯化过程中起到重要的作用.ICE1基因编码一个MYB类型的碱性螺旋 环-螺旋（bHLH）转录因子,在上游调节CBF和 其它转录因子的表达,提高抗冷性. HOS1蛋白通过泛素化介导的蛋白降解负调控ICE1,另外,CBF还通过转录的自我调控保持恰当的表达水平.基因的分析研究证明,RNA修饰和核质转运在植物的抗冷过程中也具有重要作用.在不依赖于CBF的途径中,转录因子HOS9和HOS10在调节抗冷有关基因的表达和提高抗冷能力方面具有至关重要的作用.     

昆虫冷驯化机制研究进展

昆虫耐寒性强弱决定其种群的发生、扩散和分布,因此低温胁迫下昆虫的抗寒对策成为近期研究的热点领域。冷驯化作为一种非常有效的耐寒策略,可显著增强昆虫的耐寒性。本文论述了冷驯化的2种基本形式:快速冷驯化和长时冷驯化,明确了二者在提升昆虫耐寒性中的作用;并从宏观到微观的角度概述了冷驯化的作用机制,如组织和细胞水平的特异性,低分子量抗冻保护剂的产生,热休克蛋白的表达及功能,以及阻止细胞程序性死亡的潜在机理等;讨论了不同研究方法所引起的结果差异性,并强调了冷驯化作用机制的整体效益和综合效益。最后通过分析2种冷驯化形式的联系与区别,以期较为全面地阐明昆虫冷驯化的潜在机制。     

植物耐冷性分子机理的研究进展

近年来对植物耐冷性分子机理的研究不断深入。主要体现在以下4个方面：植物的冷敏感性可以通过调节膜脂的不饱和脂肪酸水平得到调控,调节的途径是通过酰脂去饱和酶和甘油-3-磷酸酰基转移酶的作用;利用转基因技术在植物中超表达抗氧化酶基因,如编码SOD、 APX、CAT和GR等的基因,可望提高耐冷性;植物低温逆境信号转导的研究表明,ABA不仅是重要的低温逆境信号,而且可调节冷害下基因的表达,Ca2+是一个主要的第二信使,蛋白激酶途径也参与了植物冷害的信号转导;低温诱导的蛋白或酶类主要有脱水蛋白和热稳定蛋白。     

植物抗冷分子生物学研究进展（综述）

温度是植物生长的必要条件,然而低温却是限制作物生产的重要因素,为此,各国政府及研究部门一直都把植物低温适应性问题作为一个重要的研究课题．按照低温的不同程度,植物的低温伤害可分为冷害（ｃｈｉｌｌｉｎｇ ｉｎｊｕｒｙ;零上低温对植物的伤害）和冻害（ｆｒｅｅｚｉｎｇ ｉｎｊｕｒｙ;零下低温对植物的伤害）两大类。早期关于植物冷害机理和抗冷机理的研究,是从比较冷敏感（ｃｈｉｌｌｉｎｇ－ｓｅｎｓｉｔｉｖｅ）植物和抗冷（ｃｈｉｌｌｉｎｇ－ｉｎｓｅｎｓｉｔｉｖｅ）植物或比较未经冷驯化的植物（ｎｏｎ－ｃｏｌｄ－ａｃ…     

植物抗寒及其基因表达研究进展

植物经过逐渐降低的温度从而提高抗寒能力 ,这个过程被人们称为低温驯化。植物低温驯化过程是一个复杂的生理、生化和能量代谢变化过程 ,这些变化主要包括膜系统的稳定性、可溶性蛋白的积累和小分子渗透物质 ,比如脯氨酸、糖等 ,这些变化中的一些是植物抗寒必需的 ,而另外一些变化不是必需的。主要对冷害和低温生理生化变化、低温诱导表达基因的功能和作用、低温驯化的调节机制及其信号转导方面进行了综述。通过差别筛选 c DNA文库的方法已经鉴定了许多低温诱导表达、进而提高植物抗寒能力的基因 ,其中有脱水素、COR基因和 CBF1转录因子等。低温信号的感受、转导和调节表达是低温驯化的关键环节 ,低温信号的转导过程与干旱胁迫之间具有一定的交叉 ,这为利用 ABA等来提高植物抗寒能力成为可能 ,相信不久的将来人们可以通过提高植物抗寒能力从而增加经济产量成为现实。     

植物冷驯化相关基因研究进展

冷驯化是与提高植物抗冷性有关的生物化学及生理学过程,主要包括寒驯化（cool acclimation）和冻驯化（freezing acdimation）。在冷驯化过程中,植物体内许多基因在转录水平上的表达受到影响,已经克隆了大量的相关基因,它们组成复杂的分子调控网络。目前研究表明不依赖ABA的低温信号转导途径是植物冷驯化机制的重要组成部分,其中CBF/DREB1是该调控过程的关键转录因子,与植物通过冷驯化而提高冰冻耐受能力密切相关。进一步利用转基因技术,可以有效地改善作物的耐冷性状。     

Antisense inhibition of protein phosphatase 2C accelerates cold acclimation in Arabidopsis thaliana

Two related protein phosphatases 2C, ABI1 and AtPP2CA have been implicated as negative regulators of ABA signalling. In this study we characterized the role of AtPP2CA in cold acclimation. The pattern of expression of AtPP2CA and ABI1 was studied in different tissues and in response to abiotic stresses. The expression of both AtPP2CA and ABI1 was induced by low temperature, drought, high salt and ABA. The cold and drought-induced expression of these genes was ABA-dependent, but divergent in various ABA signalling mutants. In addition, the two PP2C genes exhibited differences in their tissue-specific expression as well as in temporal induction in response to low temperature. To elucidate the function of AtPP2CA in cold acclimation further, the corresponding gene was silenced by antisense inhibition. Transgenic antisense plants exhibited clearly accelerated development of freezing tolerance. Both exposure to low temperature and application of ABA resulted in enhanced freezing tolerance in antisense plants. These plants displayed increased sensitivity to ABA both during development of frost tolerance and during seed germination, but not in their drought responses. Furthermore, the expression of cold-and ABA-induced genes was enhanced in transgenic antisense plants. Our results suggest that AtPP2CA is a negative regulator of ABA responses during cold acclimation.     

Protoplast rotation in a rotating electric field: The influence of cold acclimation

Summary An experimental and theoretical investigation has been made of the rotation of protoplasts ofSecale cereale L. (cv Puma) in a rotating electric field for the purpose of determining the electrical properties of the protoplast plasma membrane. The dependence of the protoplast rotation rate on: (1) the rotation rate of the applied electric field; (2) the electrical conductivity of the external medium; and (3) cold acclimation or lack thereof were determined. A theoretical analysis of the rotation rate of polarizable spherical cells in a rotating electric field leads to a qualitatively similar formula to that of Arnold and Zimmermann (Z. Naturforsch. 37:908–915, 1982), but it differs from this earlier work by a large numerical factor (180). Detailed comparisons of the observed protoplast rotation rates with the new theory show generally good agreement. The protoplast rotation measurements allow a noninvasive determination of the specific plasma membrane capacitance,c _m. The average value found in the present experiments isc _m=(0.56±0.08)×10^–2 F/m². Within the experimental errors, thec _m values are the same for cold-acclimated and noncold-acclimated protoplasts. Determination of plasma membrane resistance from protoplast rotation measurements does not appear feasible because of the high values of the specific resistance.     

Mass spectrometric approach for identifying putative plasma membrane proteins of Arabidopsis leaves associated with cold acclimation

Although enhancement of freezing tolerance in plants during cold acclimation is closely associated with an increase in the cryostability of plasma membrane, the molecular mechanism for the increased cryostability of plasma membrane is still to be elucidated. In Arabidopsis, enhanced freezing tolerance was detectable after cold acclimation at 2 degrees C for as short as 1 day, and maximum freezing tolerance was attained after 1 week. To identify the plasma membrane proteins that change in quantity in response to cold acclimation, a highly purified plasma membrane fraction was isolated from leaves before and during cold acclimation, and the proteins in the fraction were separated with gel electrophoresis. We found that there were substantial changes in the protein profiles after as short as 1 day of cold acclimation. Subsequently, using matrix-assisted laser desorption-ionization time-of-flight mass spectrometry (MALDI-TOF MS), we identified 38 proteins that changed in quantity during cold acclimation. The proteins that changed in quantity during the first day of cold acclimation include those that are associated with membrane repair by membrane fusion, protection of the membrane against osmotic stress, enhancement of CO2 fixation, and proteolysis.     

黄粉虫不同抗冻蛋白基因家族成员的低温应激表达

黄粉虫Tenebrio molitor L.抗冻蛋白基因家族有多个成员,其氨基酸数量和蛋白结构存在差异。尽管有报道发现冷驯化后这些抗冻蛋白的表达量会升高,但不同家族成员是否存在功能分化尚不清楚。本研究中,检测了冷驯化对低温死亡率的效应和对不同类型的抗冻蛋白家族成员基因表达量的影响。结果表明,冷驯化可以显著降低黄粉虫幼虫的低温死亡率和提高不同类型抗冻蛋白基因的表达量。其中,长的抗冻蛋白和低温死亡率的相关关系最为明显。说明不同的抗冻蛋白家族成员的功能有明显的分化,为进一步理解抗冻蛋白的活性和利用抗冻蛋白提供了新的认识。     

The effects of population and thermal acclimation on the growth,condition and cold responsive mRNA expression of age-0 lake sturgeon (Acipenser fulvescens)

In Manitoba, Canada, wild lake sturgeon (Acipenser fulvescens) populations exist along a latitudinal gradient and are reared in hatcheries to bolster threatened populations. We reared two populations of lake sturgeon, one from each of the northern and southern ends of Manitoba and examined the effects of typical hatchery temperatures (16°C) as well as 60-day acclimation to elevated rearing temperatures (20°C) on mortality, growth and condition throughout early development. Additionally, we examined the cold shock response, which may be induced during stocking, through the hepatic mRNA expression of genes involved in the response to cold stress and homeoviscous adaptation (HSP70, HSP90a, HSP90b, CIRP and SCD). Sturgeon were sampled after 1 day and 1 week following stocking into temperatures of 8, 6 and 4°C in a controlled laboratory environment. The southern population showed lower condition and higher mortality during early life than the northern population while increased rearing temperature impacted the growth and condition of developing northern sturgeon. During the cold shock, HSP70 and HSP90a mRNA expression increased in all sturgeon treatments as stocking temperature decreased, with higher expression observed in the southern population. Expression of HSP90b, CIRP and SCD increased as stocking temperature decreased in northern sturgeon with early acclimation to 20°C. Correlation analyses indicated the strongest molecular relationships were in the expression of HSP90b, CIRP and SCD, across all treatments, with a correlation between HSP90b and body condition in northern sturgeon with early acclimation to 20°C. Together, these observations highlight the importance of population and rearing environment throughout early development and on later cellular responses induced by cold stocking temperatures.     

植物体内干旱信号的传递与基因表达

干旱是严重影响植物生长发育的重要环境胁迫因子之一。干旱能影响植物的水分状态,使植物缺水遭受伤害。近年来,相继从拟南芥等植物中克隆出了一些受干旱诱导的基因,如蛋白激酶基因、光合基因、渗透调节基因、功能蛋白基因（如LEA基因）等。干旱等胁迫信号经历一系列的传递过程,最后诱导这些特定基因的表达。在植物体中,可能存在依赖ABA型和不依赖ABA型两条干旱信号的传递途径。近年来从高等植物中分离出一系列调控干旱相关基因表达的转录因子,通过转录因子之间以及与其它相关蛋白之间的相互作用,激活或抑制干旱等胁迫因子诱导的基因表达。     

植物体内磷脂代谢和信号转导

磷脂不但作为细胞结构的重要组成部分，其代谢产物主料可作为人信号分子，这一推断日益受到人们重视，并为越来越多的实验所证实。本文综述磷脂酶类、磷酸肌醇激酶及其代谢产物参与的植物细胞内的信号转导，阐述它们与植物激素和钙信使系统的关系。