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Krzysztof J. Rakowski Janusz J. Zwiazek Michael J. Sumner 《Trees - Structure and Function》1995,9(4):190-194
Eastern white pine (Pinus strobus L.) seedlings were grown in controlled environment growth cabinets and fumigated with 0.4 and 1.6 g m–3 hydrogen fluoride for 2–28 days. Plasma membranes were isolated from needles of treated and control seedlings and their chemical composition and ATPase activity examined to determine early effects of hydrogen fluoride action. In plants treated for 2 days with both fluoride levels, ratios of plasma membrane free sterols:phospholipids and sterols:proteins were drastically higher than ratios in control plants. Seedlings treated with hydrogen fluoride for 8 days contained plasma membranes with elevated phospholipid:protein and sterol:protein ratios and their plasma membrane ATPase activity was higher than that of control plants. Prolonged, 28-day hydrogen fluoride treatment with 1.6 g m–3 level was the only treatment which produced a drastic inhibition of plasma membrane ATPase activity. During the initial stages of hydrogen fluoride treatment, treated cells did not show alterations of ultrastructure which were previously shown in cells of plants treated with soil applied sodium fluoride. The results of the present study indicate that the plasma membranes may be among the initial sites of hydrogen fluoride injury to plants as well as initial sites of defense reaction. 相似文献
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C Crone J Frokjaer-Jensen JJ Friedman O Christensen 《The Journal of general physiology》1978,71(2):195-220
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Using polyclonal antibodies raised against human serum albumin (HSA), a 70-kDa microsomal protein with an isoelectric point of approximately 6.5 was detected in spinach ( Spinacia oleracea L.). The protein was purified by selective ammonium sulfate precipitation and anion exchange HPLC. The protein shared 100% identity with the first 15 amino acids at the NH2 terminus of HSA, including the X-X-H amino acid region, which was identified in HSA as being responsible for binding of copper, zinc, indole derivatives and calcium. Blue staining of the protein with the cationic carbocyanine dye 'Stains-all' and 45 Ca overlay following SDS-PAGE also suggest that the 70-kDa plant protein binds calcium. The protein reacted positively with carbohydrate specific thymol stain, and the carbohydrates associated with the protein were identified by gas chromatography-mass spectrometry (GC-MS) as galactose and galacturonic acid. The 70-kDa plant protein was present in the detergent-poor phase following Triton X-114 extraction of the microsomal proteins. Cell fractionation using continuous sucrose gradients showed that the protein is present in membrane fractions with high activity of endoplasmic reticulum (ER) and Golgi marker enzymes. Using nitrocellulose tissue prints probed with anti-HSA antibodies, we demonstrated that the protein is present in the apoplastic space of petioles, suggesting that the protein is secreted to the apoplast of cortex cells in plants. Localization and binding properties suggest that the plant protein identified in the present study may participate in secretion processes, possibly involved with the transport of precursors required for cell-wall synthesis. 相似文献
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Laccaria bicolor aquaporin LbAQP1 is required for Hartig net development in trembling aspen (Populus tremuloides) 下载免费PDF全文
Alfonso Navarro‐RóDenas Hao Xu Minna Kemppainen Alejandro G. Pardo Janusz J. Zwiazek 《Plant, cell & environment》2015,38(11):2475-2486
The development of ectomycorrhizal associations is crucial for growth of many forest trees. However, the signals that are exchanged between the fungus and the host plant during the colonization process are still poorly understood. In this study, we have identified the relationship between expression patterns of Laccaria bicolor aquaporin LbAQP1 and the development of ectomycorrhizal structures in trembling aspen (Populus tremuloides) seedlings. The peak expression of LbAQP1 was 700‐fold higher in the hyphae within the root than in the free‐living mycelium after 24 h of direct interaction with the roots. Moreover, in LbAQP1 knock‐down strains, a non‐mycorrhizal phenotype was developed without the Hartig net and the expression of the mycorrhizal effector protein MiSSP7 quickly declined after an initial peak on day 5 of interaction of the fungal hyphae with the roots. The increase in the expression of LbAQP1 required a direct contact of the fungus with the root and it modulated the expression of MiSSP7. We have also determined that LbAQP1 facilitated NO, H2O2 and CO2 transport when heterologously expressed in yeast. The report demonstrates that the L. bicolor aquaporin LbAQP1 acts as a molecular signalling channel, which is fundamental for the development of Hartig net in root tips of P. tremuloides. 相似文献
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The aim of this study was to examine the diurnal and seasonal variations in the sensitivity of leaf lamina (K lam) hydraulic conductance to irradiance in bur oak (Quercus macrocarpa Michx.) and trembling aspen (Populus tremuloides Michx.), which vary in their responses of K lam to irradiance. K lam was determined using the high-pressure method and the measurements were carried out in June, August and September. The irradiance response of K lam in bur oak was present throughout the day and declined in senescing leaves. In trembling aspen, K lam declined from morning to late afternoon and drastically decreased before the onset of leaf senescence, but it was not sensitive to irradiance. In both tree species, the capacity of the petioles to supply water to leaf lamina changed during the day in accordance with the ability of the leaf lamina to transport water. Petiole hydraulic conductivity (K pet) declined during the season in bur oak leaves, while it tended to increase in trembling aspen leaves. There was no correlation between the K lam values and air temperature or light intensity at the time of leaf collection. For trembling aspen, K pet was negatively correlated with the air temperature suggesting sensitivity to drought. We conclude that the water transport properties of petioles and leaf lamina in the two studied tree species reflect their ecological adaptations. Trembling aspen leaves have high hydraulic conductivity and high stomatal conductance regardless of the irradiance level, consistent with the rapid growth and high demand for water. In contrast, the increased lamina hydraulic conductivity and stomatal conductance under high irradiance in bur oak trees reflect a water conservation strategy. 相似文献