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91.
A cytoplasmically inherited mutant controlling early chloroplast development in barley seedlings 总被引:4,自引:0,他引:4
Prina AR Arias MC Lainez V Landau A Maldonado S 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2003,107(8):1410-1418
Cytoplasmic line 2 (CL2) has been previously reported as a cytoplasmically inherited chlorophyll-deficient mutant selected from a chloroplast-mutator genotype of barley. It was characterized by a localized effect on the upper part of the first-leaf blade. At emergence the CL2 seedlings-phenotype varied from a grainy light green to an albino color. They gradually greened during the following days, starting from the base of the blade and extending to cover most of its surface when it was fully grown. The present results, from both light microscopy and transmission electron microscopy (TEM), confirmed the previously described positional and time-dependent expression of the CL2 syndrome along the first-leaf blade. During the first days after emergence, light microscopy showed a normally developed chloroplast at the middle part of the CL2 first-leaf blade, meanwhile at the tip only small plastids were observed. TEM showed that the shapes and the internal structure of the small plastids were abnormal, presenting features of proplastids, amyloplasts and/or senescent gerontoplasts. Besides, they lack plastid ribosomes, contrasting with what was observed inside chloroplasts from normal tips, which presented abundant ribosomes. Phenotypic observations and spectrophotometric analysis of seedlings produced by mother plants that had been grown under different temperatures indicated that higher temperatures during seed formation were negatively associated with pigment content in CL2 seedlings. In contrast, higher temperatures during the growth of CL2 seedlings have been associated with increased pigment content. Aqueous solution with kanamycin and streptomycin, which are antibiotics known to interfere with plastid gene translation, were used for imbibition of wild-type and CL2 seeds. Antibiotic treatments differentially reduced the chlorophyll content in the upper part of the first-leaf blade in CL2, but not in wild-type seedlings. These results suggest that in the wild-type, plastid-gene proteins which are necessary for chloroplast development and chlorophyll synthesis in the upper part of the first-leaf blade are usually synthesized during embryogenesis. However, under certain circumstances, in CL2 seedlings, they would be synthesized after germination. In addition, a shortening of the sheath has been observed in association with pigment decrease suggesting the existence of plastid factors affecting the expression of some nuclear genes. We consider the CL2 mutant a unique experimental material useful to study biological phenomena and external factors regulating plastid, and nuclear gene expression during embryogenesis and early seedling development.Communicated by R. Hagemann 相似文献
92.
The pathogenesis-related accumulation of superoxide radical anions (O·−
2) and hydrogen peroxide (H2O2) was comparatively analyzed in a barley line (Hordeum vulgare L. cv Sultan-5) carrying the powdery mildew (Blumeria graminis f.sp. hordei, Speer, Bgh) resistance gene Mla12, and in susceptible mutants defective in Mla12 or in genes “required for Mla12-specified disease resistance” (Rar1 and Rar2). In-situ localization of reactive oxygen intermediates was performed both by microscopic detection of azide-insensitive
nitroblue tetrazolium (NBT) reduction or diaminobenzidine (DAB) polymerization, and by an NBT-DAB double-staining procedure.
The Mla12-mediated hypersensitive cell death occurred either in attacked epidermal cells or adjacent mesophyll cells of wild-type plants.
Whole-cell H2O2 accumulation was detected in dying cells, while O·−
2 emerged in adjacent cells. Importantly, all susceptible mutants lacked these reactions. An oxalate oxidase, which is known
to generate H2O2 and has been implicated in barley resistance against the powdery mildew fungus, was not differentially expressed between
the wild type and all mutants. The results demonstrate that the Rar1 and Rar2 gene products, which are control elements of R-gene-mediated programmed cell death, also control accumulation of reactive oxygen intermediates but not the pathogenesis-related
expression of oxalate oxidase.
Received: 7 January 2000 / Accepted: 2 June 2000 相似文献
93.
94.
Accumulation of the pathogenesis-related (PR) proteins localised in intercellular spaces of barley primary leaves, chlorophyll
content, structure of chloroplasts, and photosynthesis were examined during natural and in vitro induced leaf senescence (cultivation
of whole plants in the dark or detached leaves under nutrient deficiency). Some of PR proteins accumulated during natural
senescence, but their accumulation pattern was different from those of pathogen-induced as well as during in vitro-induced
senescence, which indicate different molecular bases of these processes. Photosynthetic rate and chlorophyll content indicate
that natural senescence of barley primary leaves began from 15th day after sowing. In 35-d-old first leaves, the chloroplasts
showed typical characteristics of senescence as significant decrease of size, greater grana, and prominent plastoglobuli.
The chloroplasts contained more grana under in vitro induced senescence and they had reduced length in the dark. Correspondingly,
accumulation of PR proteins was detectable on about the 15th day but the content of some PR proteins increased in later stages
of senescence.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献
95.
León A. Bravo Gustavo E. Zúñiga Miren Alberdi Luis J. Corcuera 《Physiologia plantarum》1998,103(1):17-23
The role of ABA in freezing resistance in nonacclimated and cold‐acclimated barley ( Hordeum vulgare L.) was studied. Eleven nonacclimated cultivars differed in their LT50 , ranging from −10.8 to −4.8°C. Sugars, free proline, soluble proteins and ABA were analyzed in nonacclimated cultivars and during cold acclimation of one cultivar. There was an inverse correlation between LT50 and both ABA and sucrose contents. Exogenous ABA caused a decrease in the freezing point of leaf tissue in the cultivar with the lowest level of endogenous ABA, but not in the cultivar with the highest level, suggesting that ABA in the latter may be near the optimum endogenous level to induce freezing tolerance. Plants of cv. Aramir treated with ABA or allowed to acclimate to cold temperature increased their soluble sugar content to a similar level. The LT50 of leaves of cold‐acclimated cv. Aramir decreased from −5.8 to −11.4°C, with biphasic kinetics, accumulating proline and soluble sugars with similar kinetics. The biphasic profile observed during cold acclimation could be a direct consequence of cryoprotectant accumulation kinetics. ABA and soluble protein accumulation showed a single step profile, associated mainly with the second phase of the LT50 decrease. Thus, a significant increase in endogenous ABA is part of the response of barley to low temperature and may be required as a signal for the second phase of cold acclimation. Endogenous ABA contents in the nonacclimated state may determine constitutive freezing tolerance. 相似文献
96.
Expression of CDC2Zm and KNOTTED1 (KN1) in maize (Zea mays L.) and their cross-reacting proteins in barley (Hordeum vulgare L.) was studied using immunolocalization during in-vitro axillary shoot meristem proliferation and adventitious shoot meristem
formation. Expression of CDC2Zm, a protein involved in cell division, roughly correlated with in-vitro cell proliferation
and in the meristematic domes CDC2Zm expression was triggered during in-vitro proliferation. Analysis of the expression of
KN1, a protein necessary for maintenance of the shoot meristem, showed that KN1 or KN1-homologue(s) expression was retained
in meristematic cells during in-vitro proliferation of axillary shoot meristems. Multiple adventitious shoot meristems appeared
to form directly from the KN1- or KN1 homologue(s)-expressing meristematic cells in the in-vitro proliferating meristematic
domes. However, unlike Arabidopsis (Arabidopsis thaliana) and tobacco (Nicotiana tabacum) leaves ectopically expressing KN1 (G. Chuck et al., 1996 Plant Cell 8: 1277–1289; N. Sinha et al., 1993 Genes Dev. 7: 787–797),
transgenic maize leaves over-expressing KN1 were unable to initiate adventitious shoot meristems on their surfaces either
in planta or in vitro. Therefore, expression of KN1 is not the sole triggering factor responsible for inducing adventitious shoot meristem
formation from in-vitro proliferating axillary shoot meristems in maize. Our results show that genes critical to cell division
and plant development have utility in defining in-vitro plant morphogenesis at the molecular level and, in combination with
transformation technologies, will be powerful tools in identifying the fundamental molecular and-or genetic triggering factor(s)
responsible for reprogramming of plant cells during plant morphogenesis in-vitro.
Received: 2 June 1997 / Accepted: 21 July 1997 相似文献
97.
98.
99.
Absorption spectra at ca 100 K from 400 to 750 nm and fluorescence emission spectra at 77 K from 600 to 750 nm were obtained from: 1) etiolated leaves of the H-ordeum vulgare L. (barley) mutant albozonata 2 and SAN 9789-treated Avena sativa L. (oat) with low levels of carotenoids, and 2) preparations of protochlorophyllide holo-chrome from Phaseolus vulgaris L. cv. Commodore (bean).
This allowed clear resolution for the first time of the Soret bands of the green pigments before and after light-induced accumulation of intermediate(s) in protochlorophyllide to chlorophyllide photoreduction and after conversion of the intermediate(s) to chlorophyllide by warming the samples to 233 K in darkness. Although the intermediate(s) differ(s) in absorption and fluorescence in the red wavelength region from both protochlorophyllide and chlorophyllide, the extinction in the Soret band is not distinguishable from that of chlorophyllide. These observations indicate that the C7-C8 double bond in ring IV of protochlorophyllide has been altered in intermediate(s) accumulated at low temperature in intense light, such that the transition state exhibits the character of a π complex. 相似文献
This allowed clear resolution for the first time of the Soret bands of the green pigments before and after light-induced accumulation of intermediate(s) in protochlorophyllide to chlorophyllide photoreduction and after conversion of the intermediate(s) to chlorophyllide by warming the samples to 233 K in darkness. Although the intermediate(s) differ(s) in absorption and fluorescence in the red wavelength region from both protochlorophyllide and chlorophyllide, the extinction in the Soret band is not distinguishable from that of chlorophyllide. These observations indicate that the C7-C8 double bond in ring IV of protochlorophyllide has been altered in intermediate(s) accumulated at low temperature in intense light, such that the transition state exhibits the character of a π complex. 相似文献
100.
Relationships between growth of osmotically stressed intact seedlings and polyribosome levels and water status of growing tissues were examined. Sudden exposure of barley (Hordeum vulgare L. cv. Arivat) roots to a solution of ?0.8 MPa polyethylene glycol caused leaf growth to stop almost immedately, but growth resumed at a much lower rate after 0.5–1 h. In the growing region of leaves, the polyribosome: total ribosome ratio of free (non-membrane-bound) ribosomes was significantly reduced after 15 min stress, but a decrease in the large polyribosome:total polyribosome ratio occurred only after 1–2 h. Membrane-bound and free polyribosome levels both decreased to 70% of unstressed control values after 4 h stress. Recovery of total polyribosomes occurred within 1 h after relief of 4 h stress, but required 3 h after relief of 24 h stress. Stress detectably reduced the water potential and osmotic potential of growing tissue within 0.5–1.0 h, and osmotic adjustment continued for up to 10 h. Recovery of water status was incomplete after 1 h relief of a 4 h stress. In contrast, expanded blade tissues of stressed plants underwent minor changes in water status and slow decreases in polyribosomes levels. These results confirm that growing tissues of barley leaves are selectively responsive to stress, and suggest that changes in growth, water status and polyribosome levels may be initiated by the same signal. Measurements of seedling growth, polyribosome levels and water status of growing tissues of barley and wheat (Triticum aestivum L. cv. Zaragoza) leaves, etiolated pea (Pisum sativum L. cv. Alaska) epicotyl and etiolated squash (Cucurbita pepo L. cv. Elite) hypocotyl stressed with polyethylene glycol solutions of ?0.3 to ?0.8 MPa for 12 h or more showed that polyribosome levels were highly correlated with seedling growth rate as well as with tissue water and osmotic potentials, while turgor remained unchanged. These results suggest that long-term growth of osmotically stressed plants may be limited by a reduced capacity for protein synthesis in growing tissues and is not dictated by turgor loss. 相似文献