Leaf Epicuticular Waxes of the Eceriferum Mutants in Arabidopsis

Wild-type Arabidopsis leaf epicuticular wax (EW) occurs as a smooth layer over the epidermal surface, whereas stem EW has a crystalline microstructure. Wild-type EW load was more than 10-fold lower on leaves than on stems. Compared with the EW on wild-type stems, EW on wild-type leaves had a much higher proportion of their total EW load in the form of alkanes and 1-alcohols; a large reduction in secondary alcohols, ketones, and esters; and a chain-length distribution for major EW classes that was skewed toward longer lengths. The eceriferum (cer) mutations often differentially affected leaf and stem EW chemical compositions. For example, the cer2 mutant EW phenotype was expressed on the stem but not on the leaf. Compared to wild type, the amount of primary alcohols on cer9 mutants was reduced on leaves but elevated on stems, whereas an opposite differential effect for primary alcohols was observed on cer16 leaves and stems. Putative functions for CER gene products are discussed. The CER4 and CER6 gene products may be involved in fatty aldehyde reduction and C26 fatty acylcoenzyme A elongation, respectively. CER1, CER8, CER9, and CER16 gene products may be involved in EW substrate transfer. The CER3 gene product may be involved in release of fatty acids from elongase complexes. CER2 gene product may have regulatory functions.     

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。     

Cadmium-Sensitive Mutants of Arabidopsis thaliana

A screening procedure for identifying Cd-sensitive mutants of Arabidopsis thaliana is described. With this procedure, two Cd-sensitive mutants were isolated. These represent independent mutations in the same locus, referred to as CAD1. Genetic analysis has shown that the sensitive phenotype is recessive to the wild type and segregates as a single Mendelian locus. Crosses of the mutant to marker strains showed that the mutation is closely linked to the tt3 locus on chromosome 5. In addition to Cd, the mutants are also significantly more sensitive to mercuric ions and only slightly more sensitive to Cu and Zn, while being no more sensitive than the wild type to Mn, thus indicating a degree of specificity in the mechanism affected by the mutation. Undifferentiated callus tissue is also Cd sensitive, suggesting that the mutant phenotype is expressed at the cellular level. Both wild-type and mutant plants showed increased sensitivity to Cd in the presence of buthionine sulfoximine, an inhibitor of the biosynthesis of the cadmium-binding (γ-glutamylcysteine)_n-glycine peptides, suggesting that the mutant is still able to synthesize these peptides. However, the effects of a cad1 mutation and buthionine sulfoximine together on cadmium sensitivity are essentially nonadditive, indicating that they may affect different aspects of the same detoxification mechanism. Assays of Cd uptake by intact plants indicate that the mutant is deficient in its ability to sequester Cd.     

Mutants of Arabidopsis thaliana with altered phototropism

Thirty five strains of Arabidopsis thaliana (L.) Heynh. have been identified with altered phototropic responses to 450-nm light. Four of these mutants have been more thoroughly characterized. Strain JK224 shows normal gravitropism and second positive phototropism. However, while the amplitude for first positive phototropism is the same as that in the wild-type, the threshold and fluence for the maximum response in first positive phototropism are shifted to higher fluence by a factor of 20–30. This mutant may represent an alteration in the photoreceptor pigment for phototropism. Strain JK218 exhibits no curvature to light at any fluence from 1 mol·m^-2 to 2700 mol·m^-2, but shows normal gravitropism. Strain JK345 shows no first positive phototropism, and reduced gravitropism and second positive phototropism. Strain JK229 shows no measurable first positive phototropism, but normal gravitropism and second positive phototropism. Based on these data, it is suggested that: 1. gravitropism and phototropism contain at least one common element; 2. first positive and second positive phototropism contain at least one common element; and 3. first positive phototropism can be substantially altered without any apparent alteration of second positive phototropism.Abbreviation WT wild-type     

Epicuticular Wax and Cuticular Resistance in Rice

High leaf cuticular resistance has been reported as a component adaptation of plants to drought prone regions, Experiments were conducted to evaluate and characterize the role of epicuticular wax as a component of cuticular resistance to water vapor loss from rice (Oryza sativa L.) leaves. This information is necessary to determine the applicability of including higher cuticular resistance in an upland rice breeding program and to evaluate potential selection methods. Diffusion porometry, electron microscopy, and gas liquid chromatography were employed. Measurement of cuticular resistance by leaf diffusive resistance porometry after stomatal closure by exposure of rice leaves to pure CO₂ for 15 min was found sufficient to induce complete stomatal closure regardless of light level, and was superior to dark acclimation for this purpose. Removal of epicuticular wax from rice leaves by chloroform dip significantly reduced the cuticular resistance. Stressed plants were observed to increase cuticular resistance, illustrating the responsive nature of this characteristic. Gas liquid chromatography (GLC) of the chloroform leaf dip proved to be an expedient method of characterizing both quantitative and qualitative differences in the epicuticular wax of rice cullivars. The porometry and GLC techniques may be useful in selecting parents, spot checking in a pedigree program, or checking lines reaching the yield testing stage, but ate not well suited lor mass screening early generation progeny. Significant differences were found in the two rice cultivurs, ‘63–83′, an upland adapted rice from West Africa, and “IR20′, bred and selected in submerged paddy culture in ihc Philippines, by tlie above methods of characterizing cuticular resistance and epicuticular wax. These results are of ecological significance to plant breeders.     

Saving Insertional Recessive Lethal Mutants of Arabidopsis thaliana

A group of 13 recessive lethal mutants was selected on the basis of the collection of Arabidopsis thaliana transgenic plants with insertions of T-DNA vector plasmid pLD3 or pPCVRN4, which was produced by agrobacterial transformation of germinating seeds. The use of media containing exogenous hormones made it possible to compensate the lethal effect, identify phenotypes, and characterize six lines of recessive lethal germlings using genetic and molecular-genetic methods.     

Ammonia Production and Assimilation in Glutamate Synthase Mutants of Arabidopsis thaliana

Ammonia production and assimilation¹ were examined in photorespiratory mutants of Arabidopsis thaliana L. lacking ferredoxin-dependent glutamate synthase (Fd-GluS) activity. Although photosynthesis was rapidly inhibited in these mutants in normal air, NH₄⁺ continued to accumulate. The accumulation of NH₄⁺ was also seen after an initial lag of 30 minutes in 2% O₂, 350 microliters per liter of CO₂ and after 90 minutes in 2% O₂, 900 microliters per liter of CO₂. The accumulation of NH₄⁺ in normal air and low O₂ was also associated with an increase in the total pool of amino acid-N and glutamine, and a decrease in the pools of glutamate, aspartate, alanine, and serine. Upon return to dark conditions, or to 21% O₂, 1% CO₂ in the light, the NH₄⁺ which had accumulated in the leaves was reassimilated into amino acids. The addition of methionine sulfoximine (MSO) resulted in higher accumulations of NH₄⁺ in glutamate synthase mutants and prevented the reassimilation of NH₄⁺ upon return to the dark. The addition of MSO also resulted in the accumulation of NH₄⁺ in glutamate synthase mutants in the light and in 21% O₂, 1% CO₂. These results indicate that glutamine synthetase is essential for the reassimilation of photorespiratory NH₄⁺ and for primary N assimilation in the leaves and strongly suggest that glutamate dehydrogenase plays only a minimal role in the assimilation of ammonia. Levels of NADH-dependent glutamate synthase (NADH-GluS) appear to be sufficient to account for the assimilation of NH₄⁺ by a GS/NADH-GluS cycle.     

6种拟南芥突变体热敏感性差异的比较分析

为了解拟南芥（Arabidopsis thaliana）热敏感突变体的热敏感性,对6个常用的拟南芥热敏感突变体hot1、apx2、fes1a、hsfa7a、hop1-2-3和hsp70-15进行了比较分析。结果表明,6个突变体的热敏感性均高于野生型,但他们之间的热敏感性有显著差异,45℃极度高温下90 min,hot1的白化死亡率最高,处理105 min后,fes1a也出现高比率的白化死亡,处理135 min后,apx2、hsfa7a和hop1-2-3表现出几乎相同的损伤现象,热损伤均比hsp70-15严重。因此,6种突变体的热敏感性依次为hot1 > fes1a > apx2、hsfa7a、hop1-2-3 > hsp70-15。     

拟南芥6个突变体热敏感性差异的比较分析

为了解拟南芥(Arabidopsis thaliana)热敏感突变体的热敏感性,对6个常用的拟南芥热敏感突变体hot1、apx2、fes1a、hsfa7a、hop1-2-3和hsp70-15进行了比较分析。结果表明,6个突变体的热敏感性均高于野生型,但他们之间的热敏感性有显著差异,45℃极度高温下90 min,hot1的白化死亡率最高,处理105 min后,fes1a也出现高比率的白化死亡,处理135 min后,apx2、hsfa7a和hop1-2-3表现出几乎相同的损伤现象,热损伤均比hsp70-15严重。因此,6种突变体的热敏感性依次为hot1>fes1a>apx2、hsfa7a、hop1-2-3>hsp70-15。     

Ontogenic Changes in Epicuticular Wax and Chloroplast Integrity of a Cotton (Gossypium hirsutum L.) Leaf

The progressive decline in cotton leaf photosynthesis with season could be accounted for by gaining an insight into ontogenic changes in chloroplast integrity and epicuticular wax ultrastructure. Therefore, the sequence of ultrastructural changes in chloroplast and epicuticular wax morphology were probed in 10-, 20-, 40-, and 60-d-old cotton (Gossypium hirsutum L.) leaves using electron microscopy. Scanning electron microscopy illustrated that the epicuticular wax on the periclinal walls of the convex epidermal cells occurred as striations and persisted as such during the course of leaf aging. The degree of wax spread, however, increased as the leaf progressed towards senescence. Transmission electron microscopy revealed that a 20-d-old photosynthetically active leaf possessed healthy chloroplasts (6.8 m long and an area of 9.7 m²) with absolute membrane integrity depicted by large appressed grana stacks of thylakoids interconnected by non-appressed stroma lamellae. The thylakoid membrane network was oriented parallel to the long axis of the chloroplast and a few small plastoglobuli (1.85 m²) scattered in the stroma. Conversely, membrane integrity was lost with leaf age after 20 d as evidenced by disruption of the grana and stroma lamellae. Concurrent with the membrane damage, extensive occlusion of chloroplast by several large spherical plastoglobuli (5.68 m²) occurred, the rate of occlusion increased with leafage distending the chloroplast as evidenced by proliferation of its cross-sectional area (12.8 m²). Of particular interest was the finding that the plastoglobuli ensued through the chloroplast envelope into the cytoplasm. The progressive loss of chloroplast membrane integrity coupled with increased leaf waxiness may have limited photosynthetic activities of cotton leaves during senescence.     

拟南芥H_2O_2突变体的筛选及特性分析

通过化学诱变剂甲基磺酸乙酯(EMS)诱变模式植物拟南芥(Arabidopsis thaliana)获得突变体筛选群体.在5 mmol/L H2O2胁迫下,以叶片温度差异为筛选指标,利用远红外成像技术进行突变体的筛选,获得了对H2O2不敏感突变体hpi1(hydrogen peroxide-insensitive1)和敏感突变体hps1(hydrogen peroxide-sensitive1).进一步研究发现,两种突变均为单基因隐性突变,气孔密度同野生型一样,而叶片温度、气孔开度和叶片失水率则有明显的差异.种子萌发实验表明,hpi1对甘露醇(Man)和NaCl不敏感而对ABA敏感,hps1则对3种胁迫都表现出敏感特性.     

拟南芥种皮色素形成突变体的筛选与表型鉴定

类黄酮在植物应答各种环境胁迫和种皮发育调控中起着重要作用。通过甲基磺酸乙酯（EMS）诱变筛选获得1个透明种皮突变体,与野生型拟南芥（Arabidopsis thaliana）(Col-0)相比,突变体成熟的种子颜色为黄色,其表型性状由隐性单基因控制。利用图位克隆和精细定位技术将突变基因定位于5号染色体MAH20的BAC上,是TT4(At5G13930)基因的第1 299位碱基C突变为T,使得第324位氨基酸甘氨酸突变为谷氨酸。TT4(transparent testa 4)编码1个类黄酮合成的结构基因查尔酮合酶（CHS）,突变后种皮透明,种子颜色为黄色,突变体命名为tt4-1。利用功能回补突变体恢复褐色种皮表型,进一步证明了TT4在调节种皮颜色发育过程的重要作用。启动子偶联GUS基因组织表达分析显示TT4基因在植株幼苗的根、茎、叶和花中均有表达,生理表型分析结果显示与野生型相比,突变体tt4-1种子萌发早,幼苗主根短、侧根和根毛较多,成苗叶片气孔开度大和失水率高等特性。该研究将为进一步阐述TT4基因功能奠定理论依据。     

Occurrence of Temperature-Sensitive Phenotypic Plasticity in Chlorophyll-Deficient Mutants of Arabidopsis thaliana

A collection of 75 putative mutants with alterations in leaf pigmentation was visually selected from Arabidopsis thaliana plants (M₂ generation) grown at 26°C from seeds treated with the mutagen ethylmethanesulfonate. Fifty-eight of the plants were found to have chlorophyll contents decreased by at least 10% from the parental Columbia ecotype. These plants were screened for chlorophyll content and the ratio of chlorophyll b/a after growth at 20 or 26°C. Relative to the parental type, a significant number of individuals in which the chlorophyll-deficient phenotype was exacerbated at one of the growth temperatures were identified. We conclude that temperature-sensitive phenotypic plasticity for chlorophyll content is relatively common in mutant populations of higher plants.     

Mutants of Arabidopsis thaliana with altered responses to auxins and gravity

Auxin-resistant mutants of Arabidopsis have been induced and isolated by screening for survivors on a medium containing the herbicide 2,4-D. Thirty independently arisen mutants have been isolated in this way and one of them, P 83, has been investigated in detail. When wild type and P 83 are compared in concentration/response curves, where the response is the inhibition of root growth, the ED₅₀ values of the auxins, 2,4-D and IAA, are 14-fold higher for the mutant. The mutant also responds differently to gravity: its roots do not show positive geotropism, but tend to grow with a clockwise curvature on agar surfaces. The seedling roots of the mutant also grow more rapidly than those of the wild type in the absence of 2,4-D, following faster germination. The F₁ between P 83 and wild type is similar to the latter, but has a slightly increased resistance to 2,4-D. Results obtained from the F₂, F₃ and backcross generations suggest monofactorial inheritance. Most of the other 29 mutants have the P 83 phenotype, but at least five are different. Four have lower levels of resistance to 2,4-D and P 83, and their roots appear to respond normally to gravity. One mutant has an abnormal georesponse and a much higher level of resistance to 2,4-D than P 83.     

Mutants of Arabidopsis thaliana with Decreased Amplitude in Their Phototropic Response

Two mutants of Arabidopsis thaliana have been identified with decreased phototropism to 450-nanometer light. Fluence-response relationships for these strains (ZR8 and ZR19) to single and multiple flashes of light show thresholds, curve shapes, and fluence for maximum curvature in `first positive' phototropism which are the same as those of the wild type. Similarly, there is no alteration from the wild type in the kinetics of curvature or in the optimum dark period separating sequential flashes in a multiple flash regimen. In addition, in both strains, gravitropism is decreased compared to the wild type by an amount which is comparable to the decrease in phototropism. Based on reciprocal backcrosses, it appears that the alteration is due to a recessive nuclear mutation. It is suggested that ZR8 and ZR19 represent alterations in some step analogous to an amplifier, downstream of the photoreceptor pigment, and common to both phototropism and gravitropism.     

Photorespiration-deficient Mutants of Arabidopsis thaliana Lacking Mitochondrial Serine Transhydroxymethylase Activity

Three allelic mutants of Arabidopsis thaliana which lack mitochondrial serine transhydroxymethylase activity due to a recessive nuclear mutation have been characterized. The mutants were shown to be deficient both in glycine decarboxylation and in the conversion of glycine to serine. Glycine accumulated as an end product of photosynthesis in the mutants, largely at the expense of serine, starch, and sucrose formation. The mutants photorespired CO₂ at low rates in the light, but this evolution of photorespiratory CO₂ was abolished by provision of exogenous NH₃. Exogenous NH₃ was required by the mutants for continued synthesis of glycine under photorespiratory conditions. These and related results with wild-type Arabidopsis suggested that glycine decarboxylation is the sole site of photorespiratory CO₂ release in wild-type plants but that depletion of the amino donors required for glyoxylate amination may lead to CO₂ release from direct decarboxylation of glyoxylate. Photosynthetic CO₂ fixation was inhibited in the mutants under atmospheric conditions which promote photorespiration but could be partially restored by exogenous NH₃. The magnitude of the NH₃ stimulation of photosynthesis indicated that the increase was due to the suppression of glyoxylate decarboxylation. The normal growth of the mutants under nonphotorespiratory atmospheric conditions indicates that mitochondrial serine transhydroxymethylase is not required in C₃ plants for any function unrelated to photorespiration.     

Mutants of Arabidopsis thaliana with altered cell wall polysaccharide composition

To analyze the synthesis, structure and function of the plant cell wall by a genetic approach, 5200 chemically mutagenized Arabidopsis plants were screened for changes in the monosaccharide composition of hydrolyzed cell wall material by gas chromatography of alditol acetates. This screening procedure identified 23 mutant lines representing 11 different loci designated mur1 to mur11 . The mur lines fall into essentially three groups: (1) complete absence of a monosaccharide, (2) significant reduction in the amount of a single monosaccharide, and (3) complex alterations in the relative amounts of several monosaccharides. All mutants in the first category represent alleles of the mur1 locus, and are deficient in the de novo synthesis of fucose. Mutants with reductions in a single monosaccharide have been identified for fucose ( mur2, mur3 ), arabinose ( mur4, mur5, mur6, mur7 ), and rhamnose ( mur8 ). Mutants with complex changes in monosaccharide composition are represented by the mur9 , mur10 and mur11 loci. Most of the mutant lines did not show obvious morphological or physiological alterations; however, lines mur1, mur9 and mur10 co-segregated with reduced vigor or dwarfism of the plants. These results demonstrate the feasibility of identifying plants with altered cell wall compositions via a biochemical screening procedure. The availability of these mutants provides novel opportunities to study the functions of cell wall polysaccharides, gain insight into the biosynthesis of cell wall material, and clone cell wall-related genes.     

Mutants of Arabidopsis thaliana Capable of Germination under Saline Conditions

Three mutant strains of Arabidopsis thaliana var Columbia were selected for their ability to germinate in elevated concentrations of NaCl. They were not more tolerant than wild type at subsequent development stages. Wild-type strains could not germinate at concentrations > 125 mM NaCl. Two of mutant strains, RS17 and RS20, could withstand up to 225 mM, whereas RS19 was resistant to 175 mM. The RS mutants could also germinate under even lower osmotic potentials imposed by high concentrations of exogenous mannitol (550 mM), whereas the effects of elevated levels of KCl, K2SO4, and LiCl were similar among the mutants and wild type. Therefore, the mutants are primarily osmotolerant, but they also possess a degree of ionic tolerance for sodium. Sodium and potassium contents of seeds exposed to high salinities indicated that the NaCl-tolerant mutants absorbed more of these respective cations during imbibition. These higher internal concentrations of potassium and sodium could contribute to the osmotic adjustment of the germinating seeds to the low osmotic potential of the external medium. Genetic analysis of F1 and F2 progeny of outcrosses suggest that the salt-tolerant mutations are recessive and that they define three complementation groups.     

Rind Structure, Epicuticular Wax Morphology and Water Permeability of 'Fortune' Mandarin Fruits affected by Peel Pitting

Rind structure and surface wax morphology of 'Fortune' mandarinsaffected by pre-harvest peel pitting were examined as relatedto the severity of this disorder. In fruits with slight symptomsof pitting (< 10% surface area pitted) a discrete numberof epidermal cells were injured with signs of cellular breakdown.In fruits with moderate symptoms of pitting (10-50% surfacearea pitted) the injured zones also involved hypodermal cells.The surface of rind had an undulating appearance in fruits withsevere symptoms of pitting (> 50% surface area pitted). Thedepressed areas in these fruits were devoid of crystalline waxstructures and had a rough morphology. Broad regions of rindhad crushed epidermal and hypodermal cells with infolded walls.These cells were either empty or filled with reduced cytoplasmamounts located in central positions of the cell. No signs ofdisruption in the cuticle were observed. Under field conditions,pitting occurrence coincided with higher permeability valuesof isolated cuticles. Furthermore, length of cold treatmentsrequired to show post-harvest pitting symptoms was shorter infruits sampled at this stage than in those collected earlieror later. Our results indicate that the low temperatures inducethe breakdown of the more external cellular strata of the rind.Thus, the physiological function of cuticle is highly impairedwhich, in turn, increases water permeability considerably.Copyright1994, 1999 Academic Press Chilling injury, Citrus, cold storage, pre-harvest pitting