Phytochrome A, phytochrome B and other phytochrome(s) regulate ATHB-2 gene expression in etiolated and green Arabidopsis plants

The expression of the Arabidopsis ATHB-2 gene is light-regulated both in seedlings and in adult plants. The gene is expressed at high levels in rapidly elongating etiolated seedlings and is down-regulated by a pulse of red light (R) through the action of a phytochrome other than phytochrome A or B, or by a pulse of far-red light (FR) through the action of phytochrome A. In green plants, the expression of the ATHB-2 gene is rapidly and strongly enhanced by lowering the R:FR ratio perceived by a phytochrome other than A or B. Returning the plant to a high R:FR ratio results in an equally rapid decrease of the ATHB-2 mRNA. Consistently, plants overproducing ATHB-2 show developmental phenotypes characteristic of plants grown in low R:FR: elongated petioles, reduced leaf area, early flowering, and reduced number of rosette leaves. Taken together, the data strongly suggest a direct involvement of ATHB-2 in light-regulated growth phenomena throughout Arabidopsis development.     

拟南芥叶片数目变化突变体对营养生长时相转变的影响

拟南芥(Arabidopsis thaliana)的营养生长可以分为2个阶段: 幼龄期与成熟期。由幼龄期向成熟期的转变(VPC)与叶片的形态学特征、茎顶端分生组织(SAM)形状、远轴面表皮毛的出现以及SPL家族转录因子表达水平的变化相关。研究表明, 造成这种转变的信号来源于叶原基。该研究利用2种莲座叶数目改变了的突变体和对野生型切除叶片的方法, 分析了叶片数目对VPC的影响。结果表明, 莲座叶数目的减少推迟了VPC的发生; 而莲座叶数目增多突变体amp1-1并未使VPC的发生提前, 推测叶源信号的产生受到了光合作用的影响。     

拟南芥表皮模式因子EPFs的表达纯化与功能鉴定

气孔密度是影响农作物产量的重要形态学指标。文中以拟南芥气孔发育相关的表皮模式因子(EPFs)为研究对象,构建原核表达载体并进行蛋白表达和纯化,并与新型气体信号分子硫化氢(H2S)建立联系。首先克隆基因AtEPF1、AtEPF2和AtEPFL9,构建pET28a表达载体;然后对重组质粒pET28a-AtEPF1、pET28a-AtEPF2和pET28a-AtEPFL9进行酶切检测和测序,结果显示重组载体构建成功;分别转入大肠杆菌BL21(DE3)进行异丙基β-D-硫代半乳糖苷(IPTG)诱导表达。优化后的表达条件:IPTG诱导浓度分别为0.5、0.3、0.05mmol/L;最适诱导温度分别为28℃、28℃和16℃;最适诱导时间分别为16 h、16 h和20 h;经Ni琼脂糖凝胶柱纯化获得融合蛋白,大小分别为18 kDa、19 kDa和14.5 kDa左右。将纯化到的AtEPF2和AtEPFL9蛋白分别处理拟南芥幼苗,与对照相比,其H2S产率均有不同程度的变化,且差异显著。即表皮模式因子AtEPFs影响植物内源H2S信号的产生。为后续深入研究H2S和EPFs对植物气孔发育影响的作用机制奠定基础,对增加作物产量、增强植物抗逆性有重要意义。     

hca: an Arabidopsis mutant exhibiting unusual cambial activity and altered vascular patterning

By screening a T-DNA population of Arabidopsis mutants for alterations in inflorescence stem vasculature, we have isolated a mutant with a dramatic increase in vascular tissue development, characterized by a continuous ring of xylem/phloem. This phenotype is the consequence of premature and numerous cambial cell divisions in both the fascicular and interfascicular regions that result in the loss of the alternate vascular bundle/fiber organization typically observed in Arabidopsis stems. The mutant was therefore designated high cambial activity (hca). The hca mutation also resulted in pleiotropic effects including stunting and a delay in developmental events such as flowering and senescence. The physiological characterization of hca seedlings in vitro revealed an altered auxin and cytokinin response and, most strikingly, an enhanced sensitivity to cytokinin. These results were substantiated by comparative microarray analysis between hca and wild-type plants. The genetic analysis of hca indicated that the mutant phenotype was not tagged by the T-DNA and that the hca mutation segregated as a single recessive locus, mapping to the long arm of chromosome 4. We propose that hca is involved in mechanisms controlling the arrangement of vascular bundles throughout the plant by regulating the auxin-cytokinin sensitivity of vascular cambial cells. Thus, the hca mutant is a useful model for examining the genetic and hormonal control of cambial growth and differentiation.     

Effects of gene expression on molecular evolution in Arabidopsis thaliana and Arabidopsis lyrata

We analyzed the complete genome sequence of Arabidopsis thaliana and sequence data from 83 genes in the outcrossing A. lyrata, to better understand the role of gene expression on the strength of natural selection on synonymous and replacement sites in Arabidopsis. From data on tRNA gene abundance, we find a good concordance between codon preferences and the relative abundance of isoaccepting tRNAs in the complete A. thaliana genome, consistent with models of translational selection. Both EST-based and new quantitative measures of gene expression (MPSS) suggest that codon preferences derived from information on tRNA abundance are more strongly associated with gene expression than those obtained from multivariate analysis, which provides further support for the hypothesis that codon bias in Arabidopsis is under selection mediated by tRNA abundance. Consistent with previous results, analysis of protein evolution reveals a significant correlation between gene expression level and amino acid substitution rate. Analysis by MPSS estimates of gene expression suggests that this effect is primarily the result of a correlation between the number of tissues in which a gene is expressed and the rate of amino acid substitution, which indicates that the degree of tissue specialization may be an important determinant of the rate of protein evolution in Arabidopsis.     

新疆北部拟南芥自然居群表型变异与协变

拟南芥(Arabidopsis thaliana)自然居群的表型特征代表其在自然环境下的适应状况, 不同居群间特征的对比可以为了解拟南芥表型变化规律, 进而分析其形成过程和机制提供重要线索。本研究以分布于新疆北部天山、塔尔巴哈台山和阿尔泰山的10个种群的9个表型性状为基础, 对比分析了小尺度、局域尺度和区域尺度环境下原生境拟南芥种群表型性状的变化。结果发现, 不同性状对环境变化的反应不同, 其中株高、株重、根重、根长、单个果实重、果实开裂力度在3种环境尺度下种群间的差异均达到极显著水平, 而分枝数、果实长度的种群间变化不显著, 种群间的表型分化系数较低。不同环境尺度下株重、根重、单株果数均表现出一致的协变格局, 反映了生理功能性状之间整合对拟南芥适应环境的重要性。同时, 各种群间整体的性状协变差异性明显, 根长、单个果实重、分枝数、果实长度、果实开裂力度等特征与其他特征协变具有明显的局部性, 局域尺度和区域尺度环境之间的变化较大。聚类分析发现区域尺度上的不同种群聚合在一起的现象非常突出, 进一步表明拟南芥的表型特征受微环境的强烈影响。Mantel检验表明, 小尺度上10个种群株高、株重、根重、单个果实重、果实长度、果实开裂力度6个性状变化存在显著的空间相关性, 而分枝数、根长的相关性却不显著。因此, 我们认为拟南芥表型变化受小尺度环境的影响强烈, 但在表型层面并非所有性状都与原生境气候存在遗传关联。     

拟南芥Atkin8a和Atkin8b基因表达特性

以拟南芥动蛋白(kinesin)kin-8家族的AtKin8a和AtKin8b这两个动蛋白基因作为研究对象,以组成型表达的肌动蛋白基因(Actin2)作为对照,利用半定量RT-PCR的方法,分析其在拟南芥各器官中的表达状况。结果表明:AtKin8a和AtKin8b基因主要在花器官中特异表达;随后克隆AtKin8a和AtKin8b基因启动子区域并与GUS基因融合,转基因植株花器官GUS染色表明:AtKin8a和AtKin8b基因的表达主要分别在胚珠、花药部位。由此推测它们可能分别在胚珠、花药发育过程中发挥作用。     

拟南芥过氧化物酶序列与功能的生物信息学分析

植物过氧化物酶(POD)属于多基因家族,不仅是植物体内清除活性氧自由基的重要酶类之一,而且参与多种生理生化过程,在维系植物生长发育过程中发挥重要的作用。采用生物信息学方法对拟南芥过氧化物酶家族的73个基因编码的蛋白质序列的结构和功能进行了分析,其中包含氨基酸的数量、等电点、跨膜结构域、信号肽、二级结构组成及磷酸化位点等,并用Mega4.0软件构建了去除信号肽前后的系统进化树,旨在了解其结构特征。对已经进行功能研究的成员进行结构分析,以此来揭示结构与功能之间的联系,为植物抵御氧化胁迫方面研究提供理论基础。     

Analysis of the spatial expression pattern of seven Kip related proteins (KRPs) in the shoot apex of Arabidopsis thaliana

BACKGROUND AND AIMS: Kip-related-proteins (KRPs), negative regulators of cell division, have recently been discovered in plants but their in planta function is as yet unclear. In this study the spatial expression of all seven KRP genes in shoot apices of Arabidopsis thaliana were compared. METHODS: In situ hybridization analyses were performed on longitudinal sections of shoot apices from 2-month-old Arabidopsis plants. KEY RESULTS: The study provides evidence for different expression pattern groups. KRP1 and KRP2 expression is restricted to the endoreduplicating tissues. In contrast, KRP4 and KRP5 expression is mainly restricted to mitotically dividing cells. KRP3, KRP6 and KRP7 can be found in both mitotically dividing and endoreduplicating cells. CONCLUSION: The results suggest differential roles for the distinct KRPs. KRP1 and KRP2 might specifically be involved in the establishment of polyploidy. In contrast, KRP4 and KRP5 might be involved in regulating the progression through the mitotic cell cycle. KRP3, KRP6 and KRP7 might have a function in both types of cell cycle.     

赤霉素对拟南芥主根分生区和伸长区的调控

赤霉素是一类重要的植物激素,在植物整个生长发育的调控过程中起重要作用。近年来,人们发现赤霉素对拟南芥主根生长存在促进作用。本文从根系的解剖结构、赤霉素的源靶部位、促进作用的机理、赤霉素信号转导途径以及与其他激素的关系等方面,综述了赤霉素对拟南芥主根分生区和伸长区的影响。     

Water-extractable humic substances alter root development and epidermal cell pattern in Arabidopsis

The effect of a low-molecular weight, water-extractable fraction of humic substances (WEHS) derived from sphagnum peat on post-embryonic plant development has been studied using Arabidopsis roots. Application of humic substances caused an array of changes in root morphology, such as an increase in root hair length and density, formation of ectopic root hairs, and an increase in cell proliferation in the root ground tissue. Application of WEHS affected genes involved in epidermal cell fate specification, suggesting that humic substances can alter developmental programs at an early stage of root cell differentiation. The WEREWOLF and GLABRA2 genes, encoding negative regulators of the root hair cell fate, were significantly down-regulated in the presence of WEHS. Thus, the presence of humic substances caused an ordered remodeling of the root morphology, leading to an increased absorptive surface of the root. Growth in the presence of WEHS did not rescue the phenotype of the root hair defective rhd6 mutant. Analyzing BA3:uidA and DR5:uidA transgenic plants, carrying auxin response elements, and monitoring the expression of the auxin-responsive GH3 gene by real-time RT-PCR did not provide evidence for a WEHS-induced expression of auxin-related genes. It is concluded that WEHS do not exert their effects in an auxin-like manner.