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1.
冷激蛋白是存在于细菌、植物与动物中的一类高度保守的核酸结合蛋白,其通过RNA分子伴侣活性参与转录、翻译及生长发育和逆境胁迫应答等细胞生理活动。本文主要从植物冷激蛋白的结构、表达模式、生物学功能以及应用前景等几个方面介绍了植物冷激蛋白的研究进展。  相似文献   

2.
植物中的冷激蛋白   总被引:2,自引:0,他引:2  
史海水  廖祥儒  尚丹 《生命科学》2003,15(5):307-311
植物冷激蛋白结构保守,具有RNA结合位点(S1结构域)或类似的β折叠构成的桶状结构,它与原核生物冷激蛋白同源性高,通过转录、翻译等的调节完成其生理功能。  相似文献   

3.
高温逆境是影响夏秋季蔬菜设施集约化育苗质量的主要因素之一,利用温度逆境诱导植物产生交叉适应是植物获得抗逆性的一种有效手段.为探索冷激强度对番茄幼苗高温胁迫的缓解效应,试验采用人工气候箱模拟夏季设施中的高温胁迫,研究了不同冷激温度(5、10、15 ℃)和冷激持续时间(10、20、30 min)对番茄幼苗生长、生物膜保护系统的影响,并研究了单次适宜冷激处理对番茄小分子热激蛋白LeHSP23.8和CaHSP18基因表达的影响.结果表明: 在高温胁迫前对番茄幼苗进行冷激处理可以抑制其下胚轴的伸长和株高的生长.冷激缓解番茄幼苗高温胁迫的效应在不同冷激温度下表现出不同的变化趋势;5 ℃冷激处理抑制了番茄幼苗抗氧化酶活性的升高,使细胞膜透性增大,对幼苗产生伤害;10 ℃冷激处理对番茄幼苗高温胁迫的缓解效应随冷激时间的延长呈降低趋势;而15 ℃冷激处理缓解番茄幼苗高温胁迫的效应随冷激时间的延长呈增加趋势.适宜冷激温度和冷激持续时间能够诱导番茄幼苗对高温逆境的交叉适应性,在高温胁迫前将番茄幼苗进行温度为10 ℃、持续10 min的冷激处理效果最佳,与对照相比,显著提高了高温胁迫下番茄幼苗植株单株干质量和壮苗指数,降低了番茄幼苗叶片相对电导率和丙二醛含量,促进了脯氨酸和可溶性蛋白的积累,提高了番茄幼苗叶片超氧化物歧化酶(SOD)、过氧化物酶(POD)、过氧化氢酶(CAT) 3种抗氧化酶活性,并诱导了小分子热激蛋白基因LeHSP23.8和CaHSP18在常温条件下的上调表达.
  相似文献   

4.
冷激蛋白(cold shock protein,CSPs)是微生物受到冷刺激所诱导合成的分子量为7 k Da左右的蛋白质,它们与细胞在低温环境下的应激反应密切相关。冷激蛋白的功能是作为RNA的分子伴侣与mRNA结合,阻止mRNA二级结构的形成,从而使翻译顺利进行。主要介绍了细菌冷激蛋白的功能、应用以及调控机制的研究进展,以期为更深入的生产应用和功能等的科学研究提供参考。  相似文献   

5.
冷激蛋白对极地微生物的低温生境适应性起着重要作用。该介绍了冷激蛋白的广泛性、冷激特性与功能,以及冷诱导调控研究的最新进展。  相似文献   

6.
为了探明冷激诱导高温胁迫下番茄幼苗矮化的机理,育苗期间,每天8:00对幼苗分别进行5、10、15 ℃持续时间依次为10、20、30 min的冷激处理,测试了不同冷激强度下番茄幼苗乙烯释放速率,研究了冷激处理T10 ℃ D10 min(10 ℃持续10 min)结合不同生长调节物质对番茄幼苗乙烯释放速率、赤霉素(GA3)含量和幼苗生长特性的影响.结果表明: 冷激处理刺激了番茄幼苗乙烯的产生,随着冷激温度的降低和冷激时间的延长,冷激诱导乙烯释放的效应显著增强.5 ℃持续30 min的冷激处理番茄幼苗乙烯产生速率最大,达到60.3 nL·h-1·g-1,为对照的6.5倍;乙烯利(ETH)、硫代硫酸银(STS)、GA3和多效唑(PP333)均不能完全阻止冷激处理T10 ℃D10 min诱发的高乙烯产生率.冷激处理T10 ℃D10 min番茄幼苗茎叶GA3含量为80.8 μg·g-1,与对照(130.6 μg·g-1)相比降低了38.1%.喷施ETH、STS对冷激诱发的幼苗矮化效应无显著影响,而GA3显著减弱了冷激的矮化效应,PP333显著增强了冷激的矮化效应.以株高作为衡量指标,浓度为4.0 mg·L-1的PP333处理,相当于10 ℃冷激处理.冷激诱导的番茄幼苗矮化效应主要原因在于冷激降低了番茄幼苗茎叶GA3的含量.T10 ℃ D10 min可以在降低幼苗株高的同时不降低幼苗干物质的积累.  相似文献   

7.
冷激对高温胁迫下番茄幼苗生长及花芽分化的影响   总被引:1,自引:1,他引:0  
为了解苗期冷激锻炼对番茄幼苗生长和花芽分化的影响,试验采用人工气候箱模拟夏季设施高温环境,每天对番茄幼苗进行10 ℃、10 min的冷激锻炼,研究冷激处理对高温胁迫下番茄幼苗生长、叶片超微结构和花芽分化进程的影响,并观察定植后开花和坐果情况.结果表明:在4叶期经过冷激锻炼的番茄幼苗茎粗、壮苗指数分别比对照提高了7.2%和55.5%;经过冷激锻炼处理的番茄幼苗叶片中叶绿体和线粒体等细胞器形状及结构正常完整,一定程度上缓解了高温对番茄幼苗叶肉细胞超微结构的破坏;冷激锻炼显著提高了番茄幼苗早期花芽分化的分化进程,但随着苗龄的延长这种差异变得不显著.定植后经冷激处理的番茄幼苗第1、2穗果的坐果数和坐果率显著高于未经冷激处理.表明冷激锻炼不仅能够缓解高温对番茄幼苗细胞超微结构的伤害和生长的胁迫,还有利于早期花芽分化进程的提前,提高番茄坐果数和坐果率.  相似文献   

8.
冷激蛋白CspA家族   总被引:8,自引:0,他引:8  
冷激蛋白CspA家族在细菌适应低温环境方面起到重要作用。介绍了冷激反应的生理特征以及CspA家族的广泛性,CspA家族结构、功能和诱导调控研究的最新进展。  相似文献   

9.
低温细菌与古菌的生物多样性及其冷适应机制   总被引:1,自引:0,他引:1  
低温细菌与古菌广泛分布于地球的低温环境,包括南极、北极及高山地带的冻土、低温土壤和荒漠、冰川、湖泊、海冰,以及深海、冰洞和大气平流层等.栖息在这些低温环境中的细菌与古菌具有丰富的多样性,主要为α,p和γ-Proteobacteria分支、CFB类群分支和革兰氏阳性细菌分支等.由于低温环境中的微生物流动性低,因而是研究微生物地理学理想的生态系统,有助于理解地球微生物的多样性、分布规律乃至形成机制.由于长期生活在冰冻环境中,低温细菌与古菌形成了多种适应低温环境的生理机制,如它们通过细胞膜脂类的组成来调节膜的流动性以维持正常的细胞生理功能;利用相容性溶质、抗冻蛋白、冰核蛋白及抗冰核形成蛋白等实现低温保护作用;产生冷激蛋白、冷适应蛋白和DEAD-box RNA解旋酶保持低温下RNA的正确折叠、蛋白质翻译等重要的生命活动;另外还产生低温酶,提高能量产生和储存效率等以适应低温环境.随着DNA序列分析技术的飞速发展,各类组学方法也用于揭示微生物全局性的冷适应机制.  相似文献   

10.
驱动蛋白是一类典型的分子马达蛋白,它在胞内运输、有丝分裂、细胞形成、细胞功能等方面起着至关重要的作用.驱动蛋白不仅负责运输各种膜细胞器、蛋白复合体、mRNA等以保证细胞的基本活性,还在大脑的发育、记忆功能以及神经元的活性等方面扮演着极其重要的角色,可以说驱动蛋白是生命体系赖以生存的基础之一.  相似文献   

11.
Sensing a sudden change of the growth temperature, all living organisms produce heat shock proteins or cold shock proteins to adapt to a given temperature. In a heat shock response, the heat shock sigma factor plays a major role in the induction of heat shock proteins including molecular chaperones and proteases, which are well-conserved from bacteria to human. In contrast, no such a sigma factor has been identified for the cold shock response. Instead, RNAs and RNA-binding proteins play a major role in cold shock response. This review describes what happens in the cell upon cold shock, how E. coli responds to cold shock, how the expression of cold shock proteins is regulated, and what their functions are.  相似文献   

12.
The cold shock response in both Escherichia coli and Bacillus subtilis is induced by an abrupt downshift in growth temperature and leads to a dramatic increase in the production of a homologous class of small, often highly acidic cold shock proteins. This protein family is the prototype of the cold shock domain (CSD) that is conserved from bacteria to humans. For B. subtilis it has been shown that at least one of the three resident cold shock proteins (CspB to D) is essential under optimal growth conditions as well as during cold shock. Analysis of the B. subtilis cspB cspC double deletion mutant revealed that removal of these csp genes results in pleiotropic alteration of protein synthesis, cell lysis during the entry of stationary growth phase, and the inability to differentiate into endospores. We show here that heterologous expression of the translation initiation factor IF1 from E. coli in a B. subtilis cspB cspC double deletion strain is able to cure both the growth and the sporulation defects observed for this mutant, suggesting that IF1 and cold shock proteins have at least in part overlapping cellular function(s). Two of the possible explanation models are discussed.  相似文献   

13.
On the basis of acquired thermotolerance and cryotolerance, the optimal heat shock and cold shock temperatures have been determined for Deinococcus radiodurans. A heat shock at 42°C maximized survival at the lethal temperature of 52°C and a cold shock at 20°C maximized survival after repeated freeze-thawing. Enhanced survival from heat shock was found to be strongly dependent on growth stage, with its greatest effect shortly after phase. Increased synthesis of a total of 67 proteins during heat shock and 42 proteins during cold shock were observed by two-dimensional polyacrylamide gel electrophoresis (2D PAGE) and autoradiography. Eight of the most highly induced heat shock proteins shown by 2D PAGE were identified by MALDI-MS as Hsp20, GroEL, DnaK, SodA, Csp, Protease I and two proteins of unknown function.  相似文献   

14.
15.
The thermophilic bacterium Bacillus stearothermophilus P1 is unique in its ability to thrive in extreme environments such as high temperatures or high pH conditions. The study of cold shock response is very interesting and interpreted as a shock response to express the genes involved in synthesis of specific proteins. This study investigated the study of cold shock protein of B. stearothermophilus P1 when the cell culture temperature shifted from 65 degrees C to 37 degrees C and 25 degrees C. Cell growth at 37 degrees C weakly increased in the previous 3 h and then slowly decreased. In contrast, cell growth at 25 degrees C was slowly decreased. The protein contents after temperature downshifts were analyzed by proteomic techniques using protein chip and two-dimensional (2-D) electrophoresis that are highly effective and useful for protein separation and identification. The different proteins after a temperature decrease from 65 degrees C to 37 degrees C and 25 degrees C were expressed on 2-D gel patterns and the cold shock protein was detected in the acidic area with the isoelectric point and molecular mass approximately 4.5 and 7.3 kDa, respectively. The NH(2)-terminal sequence of a major cold shock protein from B. stearothermophilus P1 was MQRGKVKWFNNEKGFGFIEVEGGSD, similar to other cold shock proteins from Bacillus sp. up to 96% identity, but different from the other bacteria with homology less than 80% identity.  相似文献   

16.
17.
The synthesis of cold shock proteins (csps) in response to cold shock, and of cold acclimation proteins (caps) in response to continuous growth at low temperature, in the psychrophileAquaspirillum arcticum was investigated. With two-dimensional gel electrophoresis and computing scanning laser densitometry, cold shock treatments (10° to 0°C, 5° to 0°C, and 10° to 5°C) induced a total of 14 csps, 6 of which were induced by all three cold shocks. The production of caps in response to continuous growth at 0°C was also found. Five of the 8 caps produced were also csps which suggests that these proteins may share a common involvement in cold adaptation.  相似文献   

18.
The response of Mycobacterium smegmatis to a cold shock was investigated by monitoring changes in both growth and cellular protein composition of the organism. The nature of the cellular response was influenced by the magnitude of the temperature reduction, with the shock from 37 degrees C to 10 degrees C having the most widespread effect on growth, metabolism and protein composition. This 27 degrees C temperature reduction was associated with a lag period of 21-24 h before increases were seen in all the measured cellular activities. The response to cold shock was adaptive, with growth resuming after this period, albeit at a 50-fold slower rate. The synthesis of at least 15 proteins was induced during the lag period. Two distinct patterns of cold-induced synthesis were apparent, namely transient and continuous, indicating the production of both cold-induced and cold-acclimation proteins. One of these cold-shock proteins, CipMa, was identified as the histone-like protein, Hlp, of M. smegmatis, which is also induced during anaerobic-induced dormancy. The corresponding gene demonstrated transient, cold-inducible expression with a five- to sevenfold increase in mRNA occurring 9-12 h after temperature shift. Although bacterial survival was unaffected, CipMa/Hlp knock-out mutants were unable to adapt metabolically to the cold shock and resume growth, thus indicating a key role for CipMa in the cold-shock response.  相似文献   

19.
F Berger  P Normand    P Potier 《Journal of bacteriology》1997,179(18):5670-5676
By use of Arthrobacter globiformis SI55, a psychrotrophic bacterium capable of growth between -5 and +32 degrees C, we cloned and sequenced capA, a gene homologous to cspA encoding the major cold shock protein in Escherichia coli. The deduced protein sequence has a high level of identity with the sequences of other CspA-related proteins from various sources, and no particular residue or domain that could be specific to cold-adapted microorganisms emerged. We show that CapA was produced very rapidly following cold shock, but unlike its mesophilic counterparts, it was still expressed during prolonged growth at low temperature. Its synthesis is regulated at the translational level, and we showed that growth resumption following a temperature downshift correlated with CapA expression. Transient inhibitions in protein synthesis during the first stages of the cold shock response severely impaired the subsequent acclimation of A. globiformis SI55 to low temperature and delayed CapA expression. The cold shock response in A. globiformis SI55 is an adaptative process in which CapA may play a crucial role. We suggest that low-temperature acclimation is conditioned mainly by the ability of cells to restore an active translational machinery after cold shock in a process that may be different from that present in mesophiles.  相似文献   

20.
Streptococcus thermophilus is widely used in food fermentations; it commonly suffers diverse stress challenges during manufacturing. This study investigated the cold shock response of S. thermophilus when the cell culture temperature shifted from 42°C to 15°C or 20°C. The growth of cells was affected more drastically after cold shock at 15°C than at 20°C. The generation time was increased by a factor of 19 when the temperature was lowered from 42° to 20°C, and by a factor of 72 after a cold shock at 15°C. The two-dimensional electrophoretic protein patterns of S. thermophilus under cold shock conditions were compared with the reference protein pattern when cells were grown at optimal temperature. Two proteins of 21.5 and 7.5 kDa synthesized in response to cold shock were characterized. N-terminal sequencing and sequence homology searches have shown that the 7.5-kDa protein belonged to the family of the major cold shock proteins, while no homology was found for the new cold shock protein of 21.5 kDa. Received: 4 June 1999 / Accepted: 6 July 1999  相似文献   

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