ISSN:0032-0889    

DOI:10.1104/pp.107.1.1

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

ISSN:0032-0889    

DOI:10.1104/pp.107.1.7

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Zeins, the seed storage proteins of maize, are a group of alcohol-soluble polypeptides of different molecular masses that share a similar amino acid composition but vary in their sulfur amino acid composition. They are synthesized on the rough endoplasmic reticulum (ER) in the endosperm and are stored in ER-derived protein bodies. Our goal is to balance the amino acid composition of the methionine-deficient forage legumes by expressing the sulfur amino acid-rich 15-kD zeins in their leaves. However, it is crucial to know whether this protein would be stable in nonseed tissues of transgenic plants. The major focus of this paper is to compare the accumulation pattern of the 15-kD zein protein with a vacuolar targeted seed protein, [beta]-phaseolin, in nonseed tissues and to determine the basis for its stability/instability. We have introduced the 15-kD zein and bean [beta]-phaseolin-coding sequences behind the 35S cauliflower mosaic virus promoter into tobacco (Nicotiana tabacum) and analyzed the protein's accumulation pattern in different tissues. Our results demonstrate that the 15-kD seed protein is stable not only in seeds but in all nonseed tissues tested, whereas the [beta]-phaseolin protein accumulated only in mid- and postmaturation seeds. Interestingly, zein accumulates in novel protein bodies both in the seeds and in nonseed tissues. We attribute the instability of the [beta]-phaseolin protein in nonseed tissues to the fact that it is targeted to protease-rich vacuoles. The stability of the 15-kD zein could be attributed to its retention in the ER or to the protease-resistant nature of the protein.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.13

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Transgenic seeds of rice (Oryza sativa L.) were used to investigate temporal, spatial, and hormonal regulation of a rice [alpha]-amylase gene, RAmy1A. Two overlapping segments of the RAmy1A promoter were fused to the coding region of the bacterial reporter gene, gusA. The resulting promoter-gusA fusions, pE4/GUS (-232 to +31) and pH4/GUS (-748 to +31), were used separately to transform rice protoplasts. [beta]-Glucuronidase (GUS) activity was detected in germinated transgenic seeds, although the two constructs showed no significant difference in timing or location of GUS expression. Both constructs first expressed GUS in the scutellar epithelium and then in the aleurone layer. Aleurone expression of GUS activity was strongly induced when embryoless half-seeds were treated with gibberellic acid. GUS expression in the aleurone layer was also suppressed by abscisic acid. These results indicate that the 5[prime] regulatory region from -232 to +31 is sufficient for temporal, spatial, and hormonal regulation of RAmy1A gene expression.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.25

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

The unicellular green alga Chlorella kessleri can induce monosaccharide-H+ symport catalyzing the energy-dependent transport of D-glucose (D-Glc) and several other pentoses and hexoses across the plasmalemma. The gene coding for the inducible HUP1 monosaccharide-H+ symporter has been cloned and the protein has been characterized previously. The data presented in this paper demonstrate that the presence of the HUP1 gene product alone is not sufficient to cover the broad substrate specificity of monosaccharide transport in induced Chlorella cells. Two other HUP genes are shown to be co-induced in Chlorella in response to D-Glc in the medium. The cloning of HUP2 and HUP3 cDNA and genomic sequences is described, both being very homologous to HUP1. Modification of the 5[prime] untranslated sequences of full-length cDNA clones of HUP2 and HUP3 allowed the functional expression of both transporters in Schizosaccharomyces pombe. HUP2 was shown to be a galactose-H+ symporter, whereas the substrate specificity of the HUP3 gene product is very similar to that of the HUP1 protein. However, HUP3 does not seem to be induced to high levels in Glc-treated Chlorella cells. Results are also presented proving that the product of the HUP1 gene is localized in the plasmalemma of D-Glc-induced Chlorella cells and is absent in plasma membranes of noninduced cells. Incubation of thin sections of Chlorella cells with anti-HUP1 antibodies and a fluorescence-labeled, second antibody yielded a ring of fluorescence on the surface of Glc-induced Chlorella cells.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.33

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Threonine dehydratase/deaminase (TD), the first enzyme in the isoleucine biosynthetic pathway, is feedback inhibited by isoleucine. By screening M2 populations of ethyl methane sulfonate-treated Arabidopsis thaliana Columbia wild-type seeds, we isolated five independent mutants that were resistant to L-O-methylthreonine, an isoleucine structural analog. Growth in the mutants was 50- to 600-fold more resistant to L-O-methylthreonine than in the wild type. The resistance was due to a single, dominant nuclear gene that was denoted omr1 and was mapped to chromosome 3 in GM11b, the mutant line exhibiting the highest level of resistance. Biochemical characteristics (specific activities, Km, Vmax, and pH optimum) of TD in extracts from the wild type and GM11b were similar except for the inhibition constant of isoleucine, which was 50-fold higher in GM11b than in the wild type. Levels of free isoleucine were 20-fold higher in extracts from GM11b than in extracts from wild type. Therefore, isoleucine feedback insensitivity in GM11b is due to a mutant form of the TD enzyme encoded by omr1. The mutant allele omr1 of the line GM11b could provide a new selectable marker for plant genetic transformation.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.43

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

A mutagenesis program using ethylmethane sulfonate on Medicago truncatula Gaertn cv Jemalong, an annual, autogamous and diploid lucerne, permitted the isolation of a mutant (TE7) unable to establish an effective nitrogen-fixing symbiosis, [Nod+Fix-], with Rhizobium meliloti wild-type strains. The mutant phenotype is characterized by an altered infection process that leads to the formation of two kinds of inefficient nodules on the same root system. A certain proportion of the nodules are small, round, and uninfected, with infection threads limited to the outer root cortical cells. Others develop to a normal elongated shape and are infected; bacterial release occurs but the bacteria do not differentiate into bacteroids. The ratio of invaded to uninvaded nodules depends on the bacterial strain used. Throughout the infection process, certain events correlated with the plant defense response against pathogens can be observed: (a) the presence of polyphenolic compounds associated with the walls of infected cells and also with some parts of infection threads in the root cortex; (b) appositions on infection thread walls during the early stage of infection and also within the central tissue of infected nodules; and (c) autophagy of the plant cells that contain released bacteria. Genetic data suggest that the phenotype of TE7 is under monogenic and recessive control; this gene has been designated Mtsym1.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.53

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Cell and chloroplast development were characterized in young Triticum aestivum cv Hereward leaves grown at ambient (350 [mu]L L-1) or at elevated (650 [mu]L L-1) CO2. In elevated CO2, cell and chloroplast expansion was accelerated by 10 and 25%, respectively, in the first leaf of 7-d-old wheat plants without disruption to the leaf developmental pattern. Elevated CO2 did not affect the number of chloroplasts in relation to mesophyll cell size or the linear relationship between chloroplast number or size and mesophyll cell size. No major changes in leaf anatomy or in chloroplast ultrastructure were detected as a result of growth in elevated CO2, but there was a marked reduction in starch accumulation. In leaf sections fluorescently tagged antisera were used to visualize and quantitate the amount of cytochrome f, the [alpha]- and [beta]-subunits of the coupling factor 1 in ATP synthase, D1 protein of the photosystem II reaction center, the 33-kD protein of the extrinsic oxygen-evolving complex, subunit II of photosystem I, and ribulose-1,5-bisphosphate carboxylase/oxygenase. A significant finding was that in 10 to 20% of the mesophyll cells grown in elevated CO2 the 33-kD protein of the extrinsic oxygen-evolving complex of photosystem II and cytochrome f were deficient by 75%, but the other proteins accumulated normally.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.63

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Here we describe the in vitro polymerization of actin from maize (Zea mays) pollen. The purified actin from maize pollen reported in our previous paper (X. Liu, L.F. Yen [1992] Plant Physiol 99: 1151–1155) is biologically active. In the presence of ATP, KCl, and MgCl2 the purified pollen actin polymerized into filaments. During polymerization the spectra of absorbance at 232 nm increased gradually. Polymerization of pollen actin was evidently accompanied by an increase in viscosity of the pollen actin solution. Also, the specific viscosity of pollen F-actin increased in a concentration-dependent manner. The ultraviolet difference spectrum of pollen actin is very similar to that of rabbit muscle actin. The activity of myosin ATPase from rabbit muscle was activated 7-fold by the polymerized pollen actin (F-actin). The actin filaments were visualized under the electron microscope as doubly wound strands of 7 nm diameter. If cytochalasin B was added before staining, no actin filaments were observed. When actin filaments were treated with rabbit heavy meromyosin, the actin filaments were decorated with an arrowhead structure. These results imply that there is much similarity between pollen and muscle acti

ISSN:0032-0889    

DOI:10.1104/pp.107.1.73

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB

摘要:

Turnover rate is an important aspect of the regulation of plant processes by plant growth substances. To study turnover of indole-3-acetic acid (IAA), two [alpha]-methyltryptophan-resistant lines (MTR1 and MTR2) of Lemna gibba were generated by nitrosomethyl urea treatment of an inbred line derived from L. gibba G-3. In this report we describe: (a) the development of a selection system using this near isogenic line of L. gibba; (b) techniques for chemical mutation of the lines and selection for [alpha]-methyltryptophan resistance; and (c) the partial characterization of the selected lines. MTR lines contained 3-fold higher levels of anthranilate synthase activity. The enzyme in the MTR lines required higher levels of tryptophan for feedback inhibition. MTR lines also contained 8-fold higher levels of tryptophan, 3-fold higher levels of free IAA, and similar levels of total IAA compared to the inbred line. Turnover rates in the inbred and selected lines were calculated, using the first-order rate equation, based on the decrease over time in isotopic enrichment of I3C6-IAA introduced into L. gibba during a 1-h pulse period. Isotope enrichment in IAA was determined by using gas chromatography-mass spectrometry. Both MTR lines had an approximately 10-fold higher rate of IAA turnover than the parent inbred line.

ISSN:0032-0889    

DOI:10.1104/pp.107.1.77

出版商:American Society of Plant Biologists    

年代:1995

数据来源: ASPB