低温诱导蛋白及其与植物的耐寒性研究进展

低温诱导蛋白是植物在温度逆境条件下诱导产生的一系列蛋白,以抗冻蛋白、脱水蛋白、热激蛋白和热稳定蛋白较多,而且低温诱导蛋白质一旦在体内形成,植物体就会尽快地适应外界环境,表现出较强的抗逆性.本文对几种主要的低温诱导蛋白——抗冻蛋白、脱水蛋白、热激蛋白和热稳定蛋白的特性及其与植物耐寒性的关系研究进行综述,以期为进一步阐明植物耐寒的分子机制以及提高植物耐寒力研究提供新的思路.     

蛋白质的变化与植物抗寒性的关系研究进展

蛋白质的变化在植物抗寒生理研究中一直被广泛关注。低温胁迫期间在蛋白质含量变化的同时,还可能发生质的变化,合成新的蛋白质——低温诱导蛋白。综述了低温胁迫期间植物体内蛋白质的变化,重点阐述了抗冻蛋白、脱水蛋白和热激蛋白等3种低温诱导蛋白的特性及其与植物抗寒性的关系,并对该领域今后的研究做了展望,为进一步阐明植物抗寒的分子机制、提高植物的抗寒力提供了新的思路。     

Fourier transform infrared spectroscopy in high-pressure studies on proteins

Several aspects of the application of Fourier transform infrared spectroscopy (FTIR) in high-pressure studies on proteins are reviewed. Basic methodological considerations regarding spectral band assignments, quantitative analysis, and choice of pressure calibrants are also placed within the scope of this paper. This work attempts to evaluate recent developments in the field of high-pressure FTIR of proteins and its prospects for future. Particular attention is paid to the phenomenon of protein aggregation.     

Revealing the nature of the native state ensemble through cold denaturation

Recent advances in NMR methodology have enabled the structural analysis of proteins at temperatures far below the freezing point of water, thus opening a window to the cold denaturation process. Although the phenomenon of cold denaturation has been known since the mid-1970s, the freezing point of water has prevented detailed and structurally resolved studies without application of additional significant perturbations of the protein ensemble. As a result, the cold-denatured state and the process of cold denaturation have gone largely unstudied. Here, the structural and thermodynamic basis of cold denaturation is explored with emphasis placed on the insights that are uniquely ascertained from low-temperature studies. It is shown that the noncooperative cold-induced unfolding of protein results in the population of partially folded states that cannot be accessed by other techniques. The structurally resolved view of the cold denaturation process therefore can provide direct access to the cooperative substructures within the protein molecule and provide an unprecedented structurally resolved picture of the states that comprise the native state ensemble.     

Recent advances in the study of prenylated proteins

Post-translational modification of proteins with isoprenoids was first recognized as a general phenomenon in 1984. In recent years, our understanding, including mechanistic studies, of the enzymatic reactions associated with these modifications and their physiological functions has increased dramatically. Of particular functional interest is the role of prenylation in facilitating protein-protein interactions and membrane-associated protein trafficking. The loss of proper localization of Ras proteins when their farnesylation is inhibited has also permitted a new target for anti-malignancy pharmaceuticals. Recent advances in the enzymology and function of protein prenylation are reviewed in this article.     

苦寒类中药抗白念珠菌的研究进展

深部真菌(主要为白念珠菌)感染现象在临床中越来越常见,真菌耐药已经成为目前治疗的主要难题.传统中医理论认为“苦寒燥湿”类中药能有效治疗各种感染,对寻找抗耐药白念珠菌新药及协同药物具有一定的指导意义.该文主要总结阐述苦寒类中药抗真菌研究进展.     

Responses to cold shock in cyanobacteria

Acclimation of cyanobacteria to low temperatures involves induction of the expression of several families of genes. Fatty acid desaturases are responsible for maintaining the appropriate fluidity of membranes under stress conditions. RNA-binding proteins, which presumably act analogously to members of the bacterial Csp family of RNA chaperones, are involved in the maintenance of the translation under cold stress. The RNA helicase, whose expression is induced specifically by cold, might be responsible for modifying inappropriate secondary structures of RNAs induced by cold. The cold-inducible family of CIp proteins appears to be involved in the proper folding and processing of proteins. Although genes for cold-inducible proteins in cyanobacteria are heterogeneous, some common features of their untranslated regulatory regions suggest the existence of a common factor(s) that might participate in regulation of the expression of these genes under cold-stress conditions. Studies of the patterns of expression of cold-inducible genes in cyanobacteria have revealed the presence of a cold-sensing mechanism that is associated with their membrane lipids. Available information about cold-shock responses in cyanobacteria and molecular mechanisms of cold acclimation are reviewed in this article.     

The cold shock response inLactococcus lactis subsp.lactis

The lactic acid bacterium,Lactococcus lactis subsp.lactis IL1403 was subjected to defferent cold temperatures for various times. Physiological experiments showed that this strain had an improved survival capacity in stationary phase as the temperature decreased. Two-dimensional electrophoresis of proteins extracted from cold-temperature exposed cultures showed that a dozen proteins are overexpressed up to threefold compared with exposure at 30°C. Most of these proteins are overexpressed first, temporarily and second, in the first 10 h after the transfer to 8°C. These observations indicate that response to cold stress inL. lactis subsp.lactis is an active phenomenon.     

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…     

Epigenetics: the flowers that come in from the cold

Plants can remember periods of cold several weeks later and respond by switching from vegetative to reproductive development. Recent findings shed light on this phenomenon by showing that a gene responsible for keeping this memory encodes a member of the Polycomb group of proteins.     

Group 3 late embryogenesis abundant protein in <Emphasis Type="Italic">Arabidopsis</Emphasis>: structure,regulation, and function

Group 3 late embryogenesis abundant proteins accumulate in maturing seeds, in which their expression correlates with desiccation tolerance. Group 3 proteins are also strongly associated with tolerance for abiotic stresses, such as high salinity, drought, cold, and osmotic stress in vegetative tissues. However, the precise function of these proteins remained obscure for more than 20 years. In this study, the structure of and available regulation information on Group 3 genes/proteins in Arabidopsis are reviewed. The function of Group 3 proteins in response to desiccation and the relationship between protein structure and function are also discussed.     

The systematic status of the Mediterranean centracanthid fishes of the genus Spicara,and in particular S. chryselis (Valenciennes), as indicated by electrophoretic studies of their eye-lens proteinst†

The systematic history of the Mediterranean centracanthid fishes is reviewed and the past and present nomenclatural confusion in this group, most of which appears to have been due to the occurrence of colour polymorphism coupled with sex inversion, is discussed. The question of the probable systematic status of Spicara chryselis is raised, and in particular whether it should be regarded as a separate species or merely a colour form of one of the other two Mediterranean species (S. smaris and S. maena) belonging to this genus. The results of both electrophoretic studies of their eye-lens proteins and morphological studies of these three forms are discussed, and the conclusion is drawn that S. chryselis is but a chromatic ecophenotype of the polymorphic species S. maena. The occurrence of such habitat-associated colour polymorphism coupled with sex inversion is compared with a similar phenomenon previously observed in the labrid Corisjulis. The potential value of electrophoretic studies of eye lens proteins in the solution of such complicated intra- and inter-specific systematic problems is emphasised.     

Disulfide bond formation and its impact on the biological activity and stability of recombinant therapeutic proteins produced by Escherichia coli expression system

Therapeutic proteins require correct disulfide bond formation for biological activity and stability. This makes their manufacturing and storage inherently challenging since disulfide bonds can be aberrantly formed and/or undergo significant structural changes. In this paper the mechanisms of disulfide bond formation and scrambling are reviewed, with a focus on their impact on the biological activity and storage stability of recombinant proteins. After assessing the research progress in detecting disulfide bond scrambling, strategies for preventing this phenomenon are proposed.     

线虫耐寒性研究进展

对于分布在温带和寒带的线虫,它们只有战胜冬季寒冷的挑战,才能有利于种群的存在与发展。因此,耐寒性是线虫生物学研究中不可忽视的内容。综述了关于线虫在低温胁迫下的耐寒性测定方法、耐寒对策及耐寒机制等方面的研究进展。线虫的耐寒性和昆虫一样,可通过过冷却点和低温存活率两种指标进行评价,但在具体的实验方法上,线虫耐寒性研究有其不同之处。线虫的耐寒对策和耐寒机制具有多样化。耐寒对策主要有耐冻和避冻,二者能共同渗透于线虫的耐寒过程中。耐寒机制包括特殊发育阶段的形成、低温驯化作用、低分子量抗冻物质的聚集、以及高分子量抗冻蛋白和热休克蛋白的产生,等等。此外,还强调应从多个角度研究线虫的耐寒性,如寒冷敏感型线虫的研究、寄生线虫的耐寒对策研究以及交叉胁迫的研究。     

Cold hardening processes in the Antarctic springtail, Cryptopygus antarcticus: clues from a microarray

The physiology of the Antarctic microarthropod, Cryptopygus antarcticus, has been well studied, particularly with regard to its ability to withstand low winter temperatures. However, the molecular mechanisms underlying this phenomenon are still poorly understood. 1180 sequences (Expressed Sequence Tags or ESTs) were generated and analysed, from populations of C. antarcticus. This represents the first publicly available sequence data for this species. A sub-set (672 clones) were used to generate a small microarray to examine the differences in gene expression between summer acclimated cold tolerant and non-cold tolerant springtails. Although 60% of the clones showed no sequence similarity to annotated genes in the datasets, of those where putative function could be inferred via database homology, there was a clear pattern of up-regulation of structural proteins being associated with the cold tolerant group. These structural proteins mainly comprised cuticle proteins and provide support for the recent theory that summer SCP variation within Collembola species could be a consequence of moulting, with moulting population having lowered SCPs.     

Proteome analysis of cold acclimation in sunflower

Cold acclimation is the phenomenon in which plants are exposed to low, but nonfreezing, temperatures before exposure to drastic temperatures. To investigate how sunflower plants adjust their metabolism during cold treatment, a comparative proteomic approach, based on spectral counting data, was adopted to identify differentially expressed proteins in leaves of freezing susceptible (Hopi) and tolerant (PI 543006 and BSD-2-691) lines after cold acclimation. In total 718, 675, and 769 proteins were confidently identified by tandem mass spectrometry in Hopi, PI 543006, and BSD-2-691 sunflower lines. Tolerant lines PI 543006 and BSD-2-691 showed the highest number of differentially expressed proteins, as 43, 72, and 168 proteins changed their expression in Hopi, PI 543006, and BSD-2-691 sunflower lines, respectively, at 95% confidence. Cold-responsive proteins were mostly involved in metabolism, protein synthesis, energy, and defense processes in all sunflower lines studied. Hierarchical clustering of all differentially expressed proteins resulted in the characterization of 14 different patterns of expression across Hopi, PI 543006, and BSD-2-691 and indicated that tolerant lines showed different proteome responses to cold acclimation.     

CBF/DREB转录因子与植物矮化的相关性研究进展

CBF/DREB转录因子即干旱应答元件结合蛋白,是一类可以调控多个与干旱、高盐及低温耐性有关的功能基因表达的转录因子家族。很多报道称CBF/DREB转录因子的过量表达使转基因植株产生矮化、晚花现象。着重探讨CBF/DREB转录因子与植物矮化现象相关性与其矮化机理,并对草坪草育种新方向进行展望。     

Monitoring expression profiles of Arabidopsis genes during cold acclimation and deacclimation using DNA microarrays

A comparative analysis of gene expression profiles during cold acclimation and deacclimation is necessary to elucidate the molecular mechanisms of cold stress responses in higher plants. We analyzed gene expression profiles in the process of cold acclimation and deacclimation (recovery from cold stress) using two microarray systems, the 7K RAFL cDNA microarray and the Agilent 22K oligonucleotide array. By both microarray analyses, we identified 292 genes up-regulated and 320 genes down-regulated during deacclimation, and 445 cold up-regulated genes and 341 cold down-regulated genes during cold acclimation. Many genes up-regulated during deacclimation were found to be down-regulated during cold acclimation, and vice versa. The genes up-regulated during deacclimation were classified into (1) regulatory proteins involved in further regulation of signal transduction and gene expression and (2) functional proteins involved in the recovery process from cold-stress-induced damages and plant growth. We also applied expression profiling studies to identify the key genes involved in the biosynthesis of carbohydrates and amino acids that are known to play important roles in cold acclimation. We compared genes that are regulated during deacclimation with those regulated during rehydration after dehydration to discuss the similarity and difference of each recovery process.Electronic Supplementary Material Supplementary materials are available for this article at