植物耐热性及热激信号转导机制研究进展

随着温室效应的加剧,全球气候变暖已经成为现代农业生产体系所面临的严峻挑战．高温灾害性气候是影响作物产量的一种主要的非生物胁迫．因此,对于农作物生产而言,研究植物耐热信号转导机制不仅有重要的科学意义,而且有现实的紧迫性．最近几年,在阐明植物耐热信号转导机制的研究方面取得了很多重要的进展,这些进展涵盖植物高温胁迫的感受机制、热激转录因子和热激蛋白的表达调控、热激转录因子结合蛋白参与耐热性调控的分子机制等几个主要的方面．热胁迫影响细胞膜系统、RNA、蛋白质的稳定性,同时改变酶的活性和细胞骨架系统．当热胁迫来临时,植物的转录组会发生显著变化,所涉及的基因大约占基因组的2％．这些高温胁迫响应基因构成了热激响应网络,是植物抵御热胁迫的第一道防线．植物的耐热性分为基础耐热性和获得性耐热性．基础耐热性是植物固有的耐热性．获得性耐热性是温和的热驯化诱导的耐热性．获得性耐热性状的形成反映了植物在自然生长环境下适应高温胁迫的生理机制．     

柠条锦鸡儿CkLEA1基因克隆及表达分析

植物受到逆境胁迫后,大量逆境响应基因会被诱导表达,LEA蛋白编码基因就是与植物抗旱、抗冷等非生物胁迫密切相关的一类基因.从已构建的柠条锦鸡儿干旱胁迫抑制性削减杂交文库中筛选到了一条LEA蛋白编码基因并进行了克隆.序列比对与系统进化分析显示该基因属于LEA3基因家族成员,命名为CkLEA1(GenBank登录号是KC309408).克隆得到该基因gDNA长469bp,包含两个外显子和一个内含子;cDNA长357bp,包含300bp的开放阅读框,推导编码99个氨基酸的蛋白质.利用荧光定量PCR技术对CkLEA1基因在各种逆境胁迫条件的表达情况进行初步研究表明,CkLEA1受干旱、ABA、冷、热、盐和碱等处理不同程度地诱导,推测其与柠条锦鸡儿响应逆境胁迫的机制有关.     

植物逆境miRNA研究进展

包括生物和非生物在内的多种逆境胁迫是植物正常生长和作物产量提高的重要限制性因素。植物在长期的进化过程中, 通过诱导表达某些抵御或防卫途径的关键基因来实现对胁迫的响应。研究表明, 逆境胁迫不仅会诱导植物蛋白质编码基因的表达, 也会诱导一些非蛋白质编码基因的表达, 这类非蛋白质编码基因的表达产物在植物的生长、发育和应对逆境胁迫等过程中起到重要的调控作用。miRNA(小分子RNA)就是这类非蛋白质编码基因产物中的重要类群, 研究发现, 多种逆境均会诱导miRNA的产生, 其作用是通过引导目的基因mRNA的降解和阻止翻译过程来调控靶基因, 最终通过形态或生理上的变化达到对逆境的适应。文章主要对植物逆境胁迫下miRNA的研究, 特别是逆境胁迫诱导miRNA的产生、靶基因调控以及miRNA在植物适应逆境胁迫过程中的作用进行了综述, 同时, 文章还对在逆境胁迫下植物miRNA的研究方法进行了初步的探讨。     

小黑杨转录因子PsnbZIP1应答盐胁迫功能分析

为揭示小黑杨(Populus simonii×P. nigra)在面对非生物胁迫时,转录因子PsnbZIP1在植物体内发挥的功能,以小黑杨为试验材料,克隆得到PsnbZIP1的ORF区序列长为432 bp,并初步分析PsnbZIP1盐胁迫下的分子机制。采用q-PCR分析PsnbZIP1在150 mmol·L^-1 NaCl处理小黑杨组培苗时的表达模式,发现该基因的表达量快速上升;通过生物信息学分析预测PsnbZIP1转录因子为无跨膜结构且具有信号肽的亲水性不稳定蛋白;用农杆菌(Agrobacterium)介导的烟草(Nicotiana)瞬时表达观察该基因的亚细胞定位情况,结果表明该基因为核定位蛋白;用酵母单杂交实验证明该基因编码的蛋白在酵母体内不具有转录激活功能。对PsnbZIP1基因的启动子序列进行分析,结果表明该启动子包含了生长素应答、脱落酸应答元件、光应答元件以及种子特异性调控的顺式作用调控元件,该基因可能在植物的生长发育与响应胁迫过程中发挥了重要作用;启动子还包括参与干旱诱导的MYB结合位点和MYBHv1结合位点,表明该基因有可能与一些干旱诱导相关MYB基因...     

陆地棉GhCDPK1基因响应干旱胁迫的功能初探

钙依赖性蛋白激酶(CDPKs)是一类重要的钙信号感受蛋白和响应蛋白,在植物干旱、低温、盐碱等非生物胁迫应答中起着重要的调控作用。为探讨陆地棉GhCDPK1基因在干旱胁迫下所起的作用,该研究利用实时荧光定量PCR技术分析了PEG模拟干旱胁迫下该基因的表达量,发现GhCDPK1基因受干旱胁迫诱导。通过构建植物表达载体pCAMBIA2300-GhCDPK1,采用农杆菌介导的叶盘法转化模式植物烟草,发现干旱胁迫下转基因植株保水能力明显高于野生型植株,叶绿素、脯氨酸、可溶性蛋白含量及POD、SOD活性也高于野生型植株,而丙二醛含量低于野生型植株。研究结果表明,GhCDPK1基因作为正向调控因子响应干旱胁迫诱导,过表达GhCDPK1基因可以使植株积累更多的渗透调节物质、增强抗氧化系统酶的活性和维持细胞膜的稳定性来提高植物抵御外界干旱胁迫的能力。     

拟南芥ANAC055基因突变体对高盐和渗透胁迫的响应

高盐和渗透等非生物胁迫是影响农作物产量和品质的重要因素,非生物胁迫发生时,植物通过体内各类转录因子启动胁迫应答反应,进而降低非生物胁迫对植物的损伤。本研究筛选出植物特异性转录因子ANAC055编码基因的纯合T-DNA插入突变体SALK_152738,测序分析发现T-DNA插在ANAC055基因的3'UTR区域。实时荧光定量PCR结果表明叶中ANAC055基因表达量最高;与野生型相比,突变体叶、茎和花中ANAC055基因表达量分别下降了40%、50%和70%。高盐胁迫后,野生型和突变体叶中ANAC055基因表达量分别比对照上升了320%和55.4%;而渗透胁迫时,该基因叶中的表达量分别比对照下降了47.7%和56.3%;电子表达谱分析发现该基因根中的表达可受高盐和渗透等多种非生物胁迫的诱导表达。高盐和渗透胁迫时野生型和突变体幼根的生长均受到明显抑制,但高盐胁迫对突变体根生长的抑制作用比对野生型根生长的抑制作用更大。上述分析表明拟南芥ANAC055基因可受高盐和渗透等非生物胁迫的诱导表达,并且其在拟南芥幼根的生长发育过程中具有一定的作用,本研究有助于进一步明确其在非生物胁迫过程中的作用。     

菜豆病程相关蛋白基因在重金属胁迫下的表达分析

为探讨植物抗重金属的分子机理 ,差别筛选了 Hg Cl2 胁迫的菜豆 ( Phaseolus vulgaris L.)叶片 c DNA库 ,分离出一个重金属胁迫响应基因 Pv SR4克隆 .c DNA和氨基酸序列分析表明 Pv SR4编码一种细胞内病程相关蛋白 ,该蛋白具有 RNase活性 .Northern blot分析表明 Pv SR4基因在正常生长条件下的叶片中不表达 ,重金属 ( Hg、Cd、As、Zn和 Cu等 )和水杨酸能强烈地诱导其基因的表达 ,受伤也能促进该基因的转录 ,而热胁迫几乎没有调节作用 .推测 Pv SR4蛋白在诱导植物的抗逆性和抵抗重金属胁迫方面有重要作用     

木薯及其他植物P5CS基因进化及表达分析

该研究采用生物信息学的方法,从木薯等31个已完成基因组测序的植物中,共鉴定出84个吡咯啉-5-羧酸合成酶(P5CS)基因,并对其进行系统发育分析。结果表明:(1)P5CS在内含子长度上差别较大,而在氨基酸长度、外显子数目、等电点和分子量上差别不大。(2)由于发生基因重复,在大多数单子叶和双子叶植物中都有2个P5CS,而且在单子叶和双子叶植物中均发现P5CS1基因聚类在一组,而P5CS2基因聚类在另一组,支持P5CS1和P5CS2基因是独立起源,且该重复事件发生在单子叶和双子叶植物分化之前。(3)在某些植物(如蒺藜苜蓿、大豆等)中存在3~7个P5CS基因,表明在单子叶和双子叶植物分化之后P5CS基因又发生了多次重复事件,并将它们归纳为4种进化模式。(4)木薯中有2个P5CS基因,表达分析显示,MeP5CS1和MeP5CS2在叶片、叶柄、茎、须根和储藏根中均可检测到,其中MeP5CS1在叶片中表达较高,而MeP5CS2在茎和储藏根中表达较高。(5)干旱胁迫下,MeP5CS1仅在第一片完全展开叶中被显著诱导,而MeP5CS2在第一片完全展开叶和老叶中均能被显著诱导;低温胁迫下,MeP5CS1和MeP5CS2在不同组织中均能被显著诱导,但具有不同的表达模式。研究表明,木薯的MeP5CS1和MeP5CS2基因在转录水平受到干旱、低温等非生物胁迫的调控。     

Application of local gene induction by infrared laser‐mediated microscope and temperature stimulator to amphibian regeneration study

Urodele amphibians (newts and salamanders) and anuran amphibians (frogs) are excellent research models to reveal mechanisms of three‐dimensional organ regeneration since they have exceptionally high regenerative capacity among tetrapods. However, the difficulty in manipulating gene expression in cells in a spatially restricted manner has so far hindered elucidation of the molecular mechanisms of organ regeneration in amphibians. Recently, local heat shock by laser irradiation has enabled local gene induction even at the single‐cell level in teleost fishes, nematodes, fruit flies and plants. In this study, local heat shock was made with infrared laser irradiation (IR‐LEGO) by using a gene expression inducible system in transgenic animals containing a heat shock promoter, and gene expression was successfully induced only in the target region of two amphibian species, Xenopus laevis and Pleurodeles waltl (a newt), at postembryonic stages. Furthermore, we induced spatially restricted but wider gene expression in Xenopus laevis tadpoles and froglets by applying local heat shock by a temperature‐controlled metal probe (temperature stimulator). The local gene manipulation systems, the IR‐LEGO and the temperature stimulator, enable us to do a rigorous cell lineage trace with the combination of the Cre‐LoxP system as well as to analyze gene function in a target region or cells with less off‐target effects in the study of amphibian regeneration.     

Separate cis-acting DNA elements control cell type- and tissue-specific expression of collagen binding molecular chaperone HSP47

HSP47 is a collagen-binding heat shock protein and is assumed to act as a molecular chaperone in the biosynthesis and secretion of procollagen. As the synthesis of HSP47 is closely correlated with that of collagen in various cell lines and tissues, we performed a promoter/reporter assay using HSP47-producing and nonproducing cells. 280 base pairs (bp(s)) of upstream promoter were shown to be necessary for the basal expression but not to be enough for the cell type-specific expression. When the first and the second introns were introduced downstream of this 280-bp region, marked up-regulation of the reporter activity was observed in HSP47-producing cells but not in nonproducing cells. This was confirmed in transgenic mice by staining the lacZ gene product under the control of the 280-bp upstream promoter and the introns. Staining was observed in skin, chondrocytes, precursor of bone, and other HSP47/collagen-producing tissues. A putative Sp1-binding site at -210 bp in the promoter, to which Sp3 and an unidentified protein bind, was shown to be responsible for this up-regulation when combined with the introns. However no difference in the binding to this probe was observed between HSP47-producing and nonproducing cells. The responsible region for cell type-specific up-regulation was found to be located in a 500-bp segment in the first intron. On electrophoresis mobility shift assay using this 500-bp probe, specific DNA-protein complexes were only observed in HSP47-producing cell extracts. These results suggest that two separate elements are necessary for the cell type-specific expression of the hsp47 gene; one is a putative Sp1-binding site at -210 bp necessary for basal expression, and the other is a 500-bp region within the first intron, required for cell type-specific expression.     

Gene networks involved in apoptosis induced by hyperthermia in human lymphoma U937 cells

To define the molecular mechanisms that mediate hyperthermia-induced apoptosis, we performed microarray and computational gene expression analyses. U937 cells, a human myelomonocytic lymphoma cell line, were treated with hyperthermia at 42 °C for 90 min and cultured at 37 °C. Apoptotic cells (∼15%) were seen 6 h after hyperthermic treatment, and elevated expression of heat shock proteins (HSPs) including Hsp27, Hsp40, and Hsp70 was detected, following the activation of heat shock factor-1. Of the 54,675 probe sets analyzed, 1334 were upregulated and 4214 were downregulated by >2.0-fold in the cells treated with hyperthermia. A non-hierarchical gene clustering algorithm, K-means clustering, demonstrated 10 gene clusters. The gene network U1 or U2 that was obtained from up-regulated genes in cluster I or IX contained HSPA1B, DNAJB1, HSPH1, and TXN or PML, LYN, and DUSP1, and were mainly associated with cellular compromise, and cellular function and maintenance or death, and cancer, respectively. In the decreased gene cluster II, the gene network D1 including CCNE1 and CEBPE was associated with the cell cycle and cellular growth and proliferation. These findings will provide a basis for understanding the detailed molecular mechanisms of apoptosis induced by hyperthermia at 42 °C in cells.     

热休克后表达受抑基因的分子克隆及其表达特性

以人成骨肉瘤细胞株ＨＯＳ－８６０３为热休克模型,在利用ＤＤｍＲＮＡ方法筛选和克隆了一个热休克后表达受抑基因的ｃＤＮＡ片段的基础上,以该片段为探针,筛选ＨＯＳ－８６０３细胞的ｃＤＮＡ文库,获得该基因的全长ｃＤＮＡ克隆（ＨＳＳＧ－１）;ＤＮＡ序列测定表明该ｃＤＮＡ全长１４５６ｂｐ,编码２７６个氨基酸,经计算机辅助分析,该ｃＤＮＡ序列尚未被报道。经ＲＮＡ斑点杂交证实,该基因的表达于多种组织细胞之中,并且     

人hsp90β基因近端上游CpG位点甲基化状态的研究

真核细胞基因组ＤＮＡ的甲基化主要发生在ＣｐＧ二核苷酸对的胞嘧啶环上（ｍ５Ｃ）［１,２］．在真核细胞基因组ＤＮＡ内,约７０％的ＣｐＧ位点发生了甲基化．ＣｐＧ位点在基因组ＤＮＡ内并不是均匀分布的,多数聚集在一些基因的５’端．大量的实验证据表明,真核基因５...     

Heat shock induces changes in the expression and binding of ubiquitin in senescent Drosophila melanogaster

We examined the effect of aging on the expression of ubiquitin RNA and the binding of the ubiquitin polypeptide to proteins following heat shock in Drosophila melanogaster. Heat-shocked adult flies transcribe two major RNA species-one of 4.4 kb and one of about 6 kb that hybridize to the polyubiquitin-encoding probe. Several less abundant RNAs were also observed but the 4.4-kb band was present as the major RNA species in both stressed and nonstressed flies of both ages. The 6-kb fragment was more abundant in heat shocked aged flies than in younger flies. The quantitative expression of the polyubiquitin gene increased in proportion to the duration of the heat stress. Moreover, the induction of the polyubiquitin RNA was markedly elevated during aging following heat shock. Hybridization of Northern blots with the monoubiquitin gene probe revealed a band of 0.9 kb that was not significantly affected by heat stress. We also investigated the relationship between the changes in polyubiquitin gene expression and the formation of ubiquitin-protein complexes in aging heat-shocked flies. Heat shock to old flies results in a significant increase in the level of proteins immunoprecipitated by anti-ubiquitin antibodies. In the case of proteins synthesized 2 h before heat shock, most of the ubiquitinated proteins were of high molecular weight. For those proteins synthesized during a 30-min heat shock and the 2 h following heat shock, two major immunoprecipitated bands were observed: an 80-kD and a 70-kD polypeptide. The ubiquitination of a 60 kD protein was also observed in nonstressed flies, but its for mation was drastically reduced following heat shock. For proteins synthesized during and after heat shock from both age groups, the major ubiquitinated polypeptide is 70 kD. In all age groups, more ubiquitin complexes were formed with proteins synthesized before heat shock, than with proteins synthesized either during or after heat shock. This suggests that cellular proteins synthesized at physiological temperatures are more sensitive to heat induced damage than those synthesized during stress. These data support the hypothesis that in aging flies, heat shock induces an unusually high concentration of abnormal proteins which are targeted for degradation by the ubiquitin-dependent proteolytic system. © 1993Wiley-Liss, Inc.