拟南芥AtLH基因过量表达引起叶向下性卷曲和晚开花

AtLH基因是BcpLH基因在拟南芥(Arapsis thaliana L.)中的同源基因,含有两个编码双链RNA结合蛋白的结构域.在大白菜叶球发育过程中,BcpLH基因与包叶的卷曲有关.为研究AtLH的基因对叶卷曲这一重要生物学现象的调控作用,构建了35S:AtLH基因的正义表达载体并转化拟南芥.与野生型比较页言,转基因植株的花和叶中AtLH的表达量有显著增加,成为AtLH基因过量的植株.这些植株的莲座叶向外或向下卷曲,呈现明显的偏上性生长;而且抽苔和开花时间延迟;在营养生长期其短缩茎的叶腑处着生数个侧茎,表现为顶端优势减弱;在生殖生长期二级花序减少使得主花序更加发达,表现为顶端优势增强,转基因植株对激素的敏感性改变,IAA剌激根生长的作用增强,ABA抑制根生长的作用减弱.由此可见,AtLH基因的过量表达可引起转基因植株的叶片向下卷曲.     

拟南芥AtLH基因过量表达引起叶向下性卷曲和晚开花(英文)

AtLH基因是BcpLH基因在拟南芥(Arabidopsis thealiana L.)中的同源基因,含有两个编码双链RNA结合蛋白的结构域。在大白菜叶球发育过程中,BcpLH基因与包叶的卷曲有关。为研究AtLH基因对叶卷曲这一重要生物学现象的调控作用,构建了35S:AtLH基因的正义表达载体并转化拟南芥。与野生型比较而言,转基因植株的花和叶中AtLH的表达量有显著增加,成为AtLH基因过量表达的植株。这些植株的莲座叶向外或向下卷曲,呈现明显的偏上性生长;而且抽苔和开花时间延迟;在营养生长期其短缩茎的叶腋处着生数个侧茎,表现为顶端优势减弱;在生殖生长期二级花序减少使得主花序更加发达,表现为顶端优势增强;转基因植株对激素的敏感性改变,IAA刺激根生长的作用增强,ABA抑制根生长的作用减弱。由此可见,AtLH基因的过量表达可引起转基因植株的叶片向下卷曲。     

Senescence-related gene expression profiles of rosette leaves of Arabidopsis thaliana: leaf age versus plant age

Abstract: Senescence is a form of programmed cell death (PCD) which leads to the death of whole organs, e.g., leaves or flowers, and eventually to the death of entire plants. Like all forms of PCD, senescence is a highly regulated and energy consuming process. Senescence parameters, like protein content, chlorophyll content, expression of photosynthesis-associated genes or senescence-associated genes (SAGs), reveal that senescence occurs in old leaves derived from young plants (6 week old) as well as in young leaves derived from older plants (8 week old), indicating that it is governed by the actual age of the leaves. In order to analyse the differential gene expression profiles during leaf senescence, hybridizations of high-density genome arrays were performed with: i) individual leaves within the rosette of a 6-week-old plant and ii) leaves of the same position within the rosette but harvested from plants of different ages, ranging from 5 to 8 weeks. Cluster and genetree analyses, according to the expression pattern revealed that genes which are up-regulated with respect to the age of the entire plant, showed completely different expression profiles with respect to the age of the individual leaves within one rosette. This was observed even though the actual difference in leaf age was approximately the same. This indicates that gene expression appears to be governed by different parameters: i) the age of the individual leaf and ii) the age and developmental stage of the entire plant.     

Root Formation in Ethylene-Insensitive Plants

Experiments with ethylene-insensitive tomato (Lycopersicon esculentum) and petunia (Petunia x hybrida) plants were conducted to determine if normal or adventitious root formation is affected by ethylene insensitivity. Ethylene-insensitive Never ripe (NR) tomato plants produced more below-ground root mass but fewer above-ground adventitious roots than wild-type Pearson plants. Applied auxin (indole-3-butyric acid) increased adventitious root formation on vegetative stem cuttings of wild-type plants but had little or no effect on rooting of NR plants. Reduced adventitious root formation was also observed in ethylene-insensitive transgenic petunia plants. Applied 1-aminocyclopropane-1-carboxylic acid increased adventitious root formation on vegetative stem cuttings from NR and wild-type plants, but NR cuttings produced fewer adventitious roots than wild-type cuttings. These data suggest that the promotive effect of auxin on adventitious rooting is influenced by ethylene responsiveness. Seedling root growth of tomato in response to mechanical impedance was also influenced by ethylene sensitivity. Ninety-six percent of wild-type seedlings germinated and grown on sand for 7 d grew normal roots into the medium, whereas 47% of NR seedlings displayed elongated tap-roots, shortened hypocotyls, and did not penetrate the medium. These data indicate that ethylene has a critical role in various responses of roots to environmental stimuli.     

Production of transgenic Aralia elata regenerated from Agrobacterium rhizogenes-mediated transformed roots

Transgenic hairy roots were induced from petiole and root segments of in vitro plant Aralia elata, a medicinal woody shrub, after co-cultivation with A. rhizogenes ATCC 15834. The percentage of putative hairy root induction from root segments was higher (26.7%) than petiole explants (10.0%). Hairy roots showed active production of lateral roots with vigorous elongation. Transgenic plants were regenerated from hairy roots via somatic embryogenesis. These plants had wrinkled leaves, short petioles and numerous lateral hairy roots. The RT-PCR analysis showed the expression of rol A, B, C, D, aux 1 and 2 genes differed between the transgenic lines. Endogenous IAA level was higher in transgenic than non-transgenic plants. Conclusively, transgenic hairy roots were developed for first time in A. elata and the transgenic hairy root lines showed distinct morphological growth pattern and gene expression.     

Molecular and chemical characterization of plants regenerated from Ri-mediated hairy root cultures of Rauwolfia serpentina

Hairy root lines were induced from leaf explants of Rauwolfia serpentina known to contain high levels of reserpine (0.0882 % DW) content. Out of five high yielding hairy root lines, three (R1, R14 and R15) exhibited spontaneous regeneration of shoots after 6–8 weeks in liquid B5 medium. Excised regenerated shoots underwent robust shoot proliferation when cultured on Murashige and Skoog (MS) medium supplemented with 0.1 mg/l naphthanleneacetic acid (NAA) and 1.0 mg/l 6-benzyladenine. When shoots were transferred to a root induction medium, consisting of MS basal medium and 1.0 mg/l NAA, all rooted within 2–3 weeks. Of a total of 45 plants developed from three different hairy root lines, 30 were successfully acclimatized and transferred to the green house. Almost 90 % of these plants grown in the green house showed no observed phenotypic differences, while 10 % were stunted and grew poorly, in comparison to non-transformed plants. Phenotypic assessment of regenerated plants for plant length, number of nodes and intermodal lengths, number of leaves per node, leaf color, leaf size, number of flowering shoots, flower size, fruit size, lateral root branching and root biomass was conducted. Polymerase chain reaction and Southern blot hybridization revealed that all plants derived from hairy roots carried the Ri T_L-DNA fragment. Moreover for plants derived from transgenic hairy root line R14, presence of more than a single transgene copy number was observed, and this might have contributed to observed abnormal phenotypes. Analysis of reserpine content revealed that roots of regenerated plants had similar levels (0.0889 % DW) to those of their corresponding hairy roots.     

Overexpression of OsRAA1 causes pleiotropic phenotypes in transgenic rice plants, including altered leaf, flower, and root development and root response to gravity

There are very few root genes that have been described in rice as a monocotyledonous model plant so far. Here, the OsRAA1 (Oryza sativa Root Architecture Associated 1) gene has been characterized molecularly. OsRAA1 encodes a 12.0-kD protein that has 58% homology to the AtFPF1 (Flowering Promoting Factor 1) in Arabidopsis, which has not been reported as modulating root development yet. Data of in situ hybridization and OsRAA1::GUS transgenic plant showed that OsRAA1 expressed specifically in the apical meristem, the elongation zone of root tip, steles of the branch zone, and the young lateral root. Constitutive expression of OsRAA1 under the control of maize (Zea mays) ubiquitin promoter resulted in phenotypes of reduced growth of primary root, increased number of adventitious roots and helix primary root, and delayed gravitropic response of roots in seedlings of rice (Oryza sativa), which are similar to the phenotypes of the wild-type plant treated with auxin. With overexpression of OsRAA1, initiation and growth of adventitious root were more sensitive to treatment of auxin than those of the control plants, while their responses to 9-hydroxyfluorene-9-carboxylic acid in both transgenic line and wild type showed similar results. OsRAA1 constitutive expression also caused longer leaves and sterile florets at the last stage of plant development. Analysis of northern blot and GUS activity staining of OsRAA1::GUS transgenic plants demonstrated that the OsRAA1 expression was induced by auxin. At the same time, overexpression of OsRAA1 also caused endogenous indole-3-acetic acid to increase. These data suggested that OsRAA1 as a new gene functions in the development of rice root systems, which are mediated by auxin. A positive feedback regulation mechanism of OsRAA1 to indole-3-acetic acid metabolism may be involved in rice root development in nature.     

Agrobacterium rhizogenes-mediated transformation of scented geranium

A method is described for producing genetically transformed plants from explants of three scentedPelargonium spp. Transgenic hairy root lines were developed fromPelargonium spp leaf explants and microcuttings after inoculation withAgrobacterium rhizogenes strains derived from the agropine A4 strain. Hairy root lines grew prolifically on growth regulator-free medium. Transgenic shoots were regenerated from hairy roots and the plants have been successfully transferred to soil. The phenotype of regenerated plants has been characterized as having abundant root development, more leaves and internodes than the controls, short internodes and highly branched roots and aerial parts. Southern blot analyses have confirmed the transgenic nature of these plants.     

Agrobacterium rhizogenes-mediated transformation of scented geranium

A method is described for producing genetically transformed plants from explants of three scentedPelargonium spp. Transgenic hairy root lines were developed fromPelargonium spp leaf explants and microcuttings after inoculation withAgrobacterium rhizogenes strains derived from the agropine A4 strain. Hairy root lines grew prolifically on growth regulator-free medium. Transgenic shoots were regenerated from hairy roots and the plants have been successfully transferred to soil. The phenotype of regenerated plants has been characterized as having abundant root development, more leaves and internodes than the controls, short internodes and highly branched roots and aerial parts. Southern blot analyses have confirmed the transgenic nature of these plants.     

The influence of branches and leaf area on rooting and development of Cotinus coggygria cv. Royal Purple cuttings

The influence of branches and mature leaves on the rooting and subsequent development of cuttings was examined, using Cotinus coggygria cv. Royal Purple. A model system was developed, whereby branched cuttings could be harvested from stock hedges and manipulated to alter leaf area, the number of actively‐growing, lateral branches and thus the source: sink ratio for photoassimilates. Highest percentage rooting ((80%) was promoted by retention of branches and a full leaf area. Reducing leaf area resulted in a lower rooting percentage (44%); however, greatest reductions in rooting were associated with the removal of lateral branches ((22%). Applying exogenous auxin (indole‐3‐butyric acid) at the excision point where branches had been removed significantly improved rooting potential, but did not fully substitute for the presence of branches with active shoot tips. Negative effects associated with removing a proportion of mature leaves appeared to relate to alterations in carbon balance rather than an influence on the supply of endogenous auxin to the potential rooting zone. The use of branched cuttings accelerated root and shoot development and resulted in a finished plant being produced more rapidly than is achieved from conventional, non‐branched cuttings. The results presented indicate a means for improving the efficiency of production of Cotinus coggygria, which may be applicable to a wider range of ornamental plants.     

转基因金叶银中杨叶色及生长变异分析

转PaGLK基因银中杨抑制表达株系叶绿素含量显著降低,叶片呈现黄色（命名为金叶银中杨）,以转PaGLK基因的银中杨为材料,测定其叶色参数和叶绿素含量的时序变化规律、分析生长特性。结果显示,转PaGLK基因的银中杨使叶片颜色发生改变,抑制表达株系整个生长期叶绿素含量显著低于WT（P<0.05）,叶色亮度显著高于WT（P<0.05）,并且在生长发育期叶片一直呈现深黄绿色。抑制表达株系中的Y2速生期内苗高日生长量（GD）高于对照株系,苗期株高不受影响。而过表达转基因银中杨的当年高生长都显著低于对照株系 （P<0.05）,其速生期内苗高日生长量均值（GD）也低于对照株系,其均值为对照株系的22.19%。PaGLK抑制表达株系在城市园林绿化具有潜在的应用价值。     

Altered development of Arabidopsis thaliana carrying the Agrobacterium tumefaciens ipt gene is partially due to ethylene effects

Transgenic Arabidopsis thaliana plants containingthe Agrobacterium tumefaciens cytokinin-biosynthesis geneipt were produced to study the effect of increasedcytokinin (CK) levels on the development of this rosette plant species. Inthreeindependently transformed lines (ipt-156, 158 and 161),Arabidopsis plants had smaller leaves, an underdevelopedroot system and decreased apical dominance in inflorescence stems. The smallertransgenic leaves were highly serrated along the margins, pale green and hadpointed leaf tips. In cross section, transgenic leaves had smaller cells andirregularly shaped epidermal cells. In the ipt-161 line,leaves and hypocotyls frequently exhibited purple color due to anthocyaninproduction. The most severe phenotype was observed in tissue cultureconditions,while growth in soil reduced or eliminated some phenotypic effects. Compared toC24 wild type plants, ipt-161 plants accumulated zeatinandzeatin riboside with an approximate 10-fold increase in the total pool of CKs.Astudy of the progeny resulting from crosses between theipt-161 transgenic line and the ethylene insensitivemutants ein1, ein2 andeti5 suggested that part of the altered developmentexhibited by the ipt transgenic plants was caused byincreased ethylene levels.     

The Analysis of Arabidopsis Nicotianamine Synthase Mutants Reveals Functions for Nicotianamine in Seed Iron Loading and Iron Deficiency Responses

Nicotianamine chelates and transports micronutrient metal ions in plants. It has been speculated that nicotianamine is involved in seed loading with micronutrients. A tomato (Solanum lycopersicum) mutant (chloronerva) and a tobacco (Nicotiana tabacum) transgenic line have been utilized to analyze the effects of nicotianamine loss. These mutants showed early leaf chlorosis and had sterile flowers. Arabidopsis (Arabidopsis thaliana) has four NICOTIANAMINE SYNTHASE (NAS) genes. We constructed two quadruple nas mutants: one had full loss of NAS function, was sterile, and showed a chloronerva-like phenotype (nas4x-2); another mutant, with intermediate phenotype (nas4x-1), developed chlorotic leaves, which became severe upon transition from the vegetative to the reproductive phase and upon iron (Fe) deficiency. Residual nicotianamine levels were sufficient to sustain the life cycle. Therefore, the nas4x-1 mutant enabled us to study late nicotianamine functions. This mutant had no detectable nicotianamine in rosette leaves of the reproductive stage but low nicotianamine levels in vegetative rosette leaves and seeds. Fe accumulated in the rosette leaves, while less Fe was present in flowers and seeds. Leaves, roots, and flowers showed symptoms of Fe deficiency, whereas leaves also showed signs of sufficient Fe supply, as revealed by molecular-physiological analysis. The mutant was not able to fully mobilize Fe to sustain Fe supply of flowers and seeds in the normal way. Thus, nicotianamine is needed for correct supply of seeds with Fe. These results are fundamental for plant manipulation approaches to modify Fe homeostasis regulation through alterations of NAS genes.