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1
Water Stress and Protein Synthesis: V. Protein Synthesis, Protein Stability, and Membrane Permeability in a Drought-sensitive and a Drought-tolerant Moss.水分胁迫与蛋白质合成:V. 耐旱和敏感两种藓中的蛋白质合成、蛋白质稳定性和膜通透性。
Plant Physiol. 1977 Feb;59(2):295-300. doi: 10.1104/pp.59.2.295.
2
Plant desiccation and protein synthesis: an in vitro system from dry and hydrated mosses using endogenous and synthetic messenger ribonucleic Acid.植物脱水与蛋白质合成:利用内源和合成信使核糖核酸,建立来自干燥和水合苔藓的体外系统
Plant Physiol. 1975 Feb;55(2):340-5. doi: 10.1104/pp.55.2.340.
3
Messenger RNA is conserved during drying of the drought-tolerant moss Tortula ruralis.信使核糖核酸在耐旱藓类扭口藓干燥过程中保持不变。
Proc Natl Acad Sci U S A. 1978 Feb;75(2):842-6. doi: 10.1073/pnas.75.2.842.
4
Plant Desiccation and Protein Synthesis: II. On the Relationship between Endogenous Adenosine Triphosphate Levels and Protein-synthesizing Capacity.植物脱水与蛋白质合成:II. 关于内源性三磷酸腺苷水平与蛋白质合成能力之间的关系
Plant Physiol. 1975 Jun;55(6):1110-4. doi: 10.1104/pp.55.6.1110.
5
Plant Desiccation and Protein Synthesis. IV. RNA Synthesis, Stability, and Recruitment of RNA into Protein Synthesis during Desiccation and Rehydration of the Desiccation-Tolerant Moss, Tortula ruralis.植物脱水与蛋白质合成。IV. 耐旱藓类植物,Tortula ruralis 脱水和复水过程中的 RNA 合成、稳定性以及 RNA 向蛋白质合成的募集。
Plant Physiol. 1984 Jan;74(1):21-5. doi: 10.1104/pp.74.1.21.
6
Plant Desiccation and Protein Synthesis : V. Stability of Poly (A) and Poly (A) RNA during Desiccation and Their Synthesis upon Rehydration in the Desiccation-Tolerant Moss Tortula ruralis and the Intolerant Moss Cratoneuron filicinum.植物脱水与蛋白质合成:V. 耐旱苔藓扭口藓和不耐旱苔藓蕨叶曲柄藓脱水过程中多聚腺苷酸(Poly (A))和多聚腺苷酸RNA(Poly (A) RNA)的稳定性及其复水时的合成
Plant Physiol. 1984 Apr;74(4):917-22. doi: 10.1104/pp.74.4.917.
7
Photosynthetic responses of a moss, Tortula ruralis, ssp. ruralis, and the lichens Cladonia convoluta and C. furcata to water deficit and short periods of desiccation, and their ecophysiological significance: a baseline study at present-day CO concentration.一种苔藓(真藓原变种)以及地衣(卷枝石蕊和叉状石蕊)对水分亏缺和短期干燥的光合响应及其生理生态学意义:在当前二氧化碳浓度下的基线研究
New Phytol. 1996 Jun;133(2):353-361. doi: 10.1111/j.1469-8137.1996.tb01902.x.
8
Respiration in Relation to Adenosine Triphosphate Content during Desiccation and Rehydration of a Desiccation-tolerant and a Desiccation-intolerant Moss.耐旱和不耐旱苔藓在干燥和复水过程中与三磷酸腺苷含量相关的呼吸作用
Plant Physiol. 1979 Jul;64(1):13-7. doi: 10.1104/pp.64.1.13.
9
Glutathione Status and Protein Synthesis during Drought and Subsequent Rehydration in Tortula ruralis.扭口藓在干旱及随后复水过程中的谷胱甘肽状态与蛋白质合成
Plant Physiol. 1987 Apr;83(4):816-9. doi: 10.1104/pp.83.4.816.
10
Stability and Synthesis of Phospholipids during Desiccation and Rehydration of a Desiccation-Tolerant and a Desiccation-Intolerant Moss.耐旱和不耐旱苔藓在干燥和复水过程中磷脂的稳定性和合成。
Plant Physiol. 1982 Mar;69(3):724-7. doi: 10.1104/pp.69.3.724.

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1
Assessment of changes in growth traits, oxidative stress parameters, and enzymatic and non-enzymatic antioxidant defense mechanisms in Lepidium draba plant under osmotic stress induced by polyethylene glycol.评估聚乙二醇诱导的渗透胁迫下独行菜植物生长特性、氧化应激参数以及酶和非酶抗氧化防御机制的变化。
Protoplasma. 2020 Mar;257(2):459-473. doi: 10.1007/s00709-019-01457-0. Epub 2019 Nov 27.
2
Comparative desiccation tolerance of two Sphagnum mosses.两种泥炭藓的耐干燥性比较
Oecologia. 1984 May;62(2):182-187. doi: 10.1007/BF00379011.
3
Photosynthetic recovery of the resurrection plant Selaginella lepidophylla (Hook. and Grev.) Spring: effects of prior desiccation rate and mechanisms of desiccation damage.复苏植物卷柏(Hook. and Grev.)Spring的光合恢复:先前脱水速率的影响及脱水损伤机制
Oecologia. 1983 Apr;58(1):115-120. doi: 10.1007/BF00384550.
4
Photosynthetic recovery of resurrection spikemosses from different hydration regimes.不同水分状况下复苏卷柏的光合恢复
Oecologia. 1980 Sep;46(3):380-385. doi: 10.1007/BF00346267.
5
Photosynthetic recovery in the resurrection plant Selaginella lepidophylla after wetting.复苏植物卷柏在湿润后光合功能的恢复
Oecologia. 1979 Jan;39(1):93-106. doi: 10.1007/BF00346000.
6
Clonal integration facilitates the colonization of drought environments by plant invaders.克隆整合促进了植物入侵物种在干旱环境中的定殖。
AoB Plants. 2016 Jun 28;8. doi: 10.1093/aobpla/plw023. Print 2016.
7
Abscisic-acid-induced drought tolerance in Funaria hygrometrica Hedw.脱落酸诱导的湿地泥炭藓耐旱性
Planta. 1991 Dec;186(1):99-103. doi: 10.1007/BF00201503.
8
Influence of Protoplasmic Water Loss on the Control of Protein Synthesis in the Desiccation-Tolerant Moss Tortula ruralis: Ramifications for a Repair-Based Mechanism of Desiccation Tolerance.原浆水损失对耐旱藓类 Tortula ruralis 中蛋白质合成控制的影响:对基于修复的耐旱机制的影响。
Plant Physiol. 1991 Dec;97(4):1501-11. doi: 10.1104/pp.97.4.1501.
9
Drought Stress, Enzymes of Glutathione Metabolism, Oxidation Injury, and Protein Synthesis in Tortula ruralis.干旱胁迫、扭口藓中谷胱甘肽代谢的酶、氧化损伤和蛋白质合成
Plant Physiol. 1991 Feb;95(2):648-51. doi: 10.1104/pp.95.2.648.
10
Protein Synthesis during Rehydration of Rapidly Dried Tortula ruralis: Evidence for Oxidation Injury.快速干燥的扭口藓复水过程中的蛋白质合成:氧化损伤的证据
Plant Physiol. 1987 Dec;85(4):1094-8. doi: 10.1104/pp.85.4.1094.

本文引用的文献

1
Variation in germination and amino Acid leakage of seeds with temperature related to membrane phase change.种子萌发和氨基酸渗漏随温度的变化与膜相变有关。
Plant Physiol. 1976 Jul;58(1):7-11. doi: 10.1104/pp.58.1.7.
2
Water Stress and Protein Synthesis: II. Interaction between Water Stress, Hydrostatic Pressure, and Abscisic Acid on the Pattern of Protein Synthesis in Avena Coleoptiles.水分胁迫与蛋白质合成:二、水分胁迫、静水压力和脱落酸对燕麦胚芽鞘蛋白质合成模式的相互作用。
Plant Physiol. 1975 Apr;55(4):782-5. doi: 10.1104/pp.55.4.782.
3
Water stress and protein synthesis: I. Differential inhibition of protein synthesis.水分胁迫与蛋白质合成:I. 蛋白质合成的差异抑制。
Plant Physiol. 1975 Apr;55(4):778-81. doi: 10.1104/pp.55.4.778.
4
The osmotic potential of polyethylene glycol 6000.聚乙二醇6000的渗透势
Plant Physiol. 1973 May;51(5):914-6. doi: 10.1104/pp.51.5.914.
5
Rapid Changes in Levels of Polyribosomes in Zea mays in Response to Water Stress.玉米中多核糖体水平对水分胁迫的快速变化
Plant Physiol. 1970 Aug;46(2):281-5. doi: 10.1104/pp.46.2.281.
6
Inhibition of oxygen evolution in chloroplasts isolated from leaves with low water potentials.在水势低的叶片中分离出的叶绿体中氧气的释放被抑制。
Plant Physiol. 1970 May;45(5):612-5. doi: 10.1104/pp.45.5.612.
7
Protein measurement with the Folin phenol reagent.使用福林酚试剂进行蛋白质测定。
J Biol Chem. 1951 Nov;193(1):265-75.
8
Osmotic regulation of alpha-amylase synthesis and polyribosome formation in aleurone cells of barley.大麦糊粉层细胞中α-淀粉酶合成和多核糖体形成的渗透调节
J Cell Biol. 1973 Nov;59(2 Pt 1):444-55. doi: 10.1083/jcb.59.2.444.
9
Some ultrastructural and enzymatic effects of water stress in cotton (gossypium hirsutum L.) leaves.水分胁迫对棉花(陆地棉)叶片的一些超微结构及酶活性的影响
Proc Natl Acad Sci U S A. 1974 Aug;71(8):3243-7. doi: 10.1073/pnas.71.8.3243.
10
Plant desiccation: polysome loss not due to ribonuclease.植物脱水:多核糖体损失并非由核糖核酸酶所致。
Science. 1976 Jan 16;191(4223):181-2. doi: 10.1126/science.1246604.

水分胁迫与蛋白质合成:V. 耐旱和敏感两种藓中的蛋白质合成、蛋白质稳定性和膜通透性。

Water Stress and Protein Synthesis: V. Protein Synthesis, Protein Stability, and Membrane Permeability in a Drought-sensitive and a Drought-tolerant Moss.

机构信息

Department of Biology, University of Calgary, Calgary, Alberta T2N 1N4 Canada.

出版信息

Plant Physiol. 1977 Feb;59(2):295-300. doi: 10.1104/pp.59.2.295.

DOI:10.1104/pp.59.2.295
PMID:16659837
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC542385/
Abstract

The effects have been studied of water stress and desiccation on protein synthesis in the drought-tolerant moss Tortula ruralis and the drought-sensitive moss Hygrohypnum luridum. At any particular level of steady state water stress, the inhibition of protein synthesis was greater in H. luridum than in T. ruralis. Water stress-induced changes in the pattern of protein synthesis, as determined by the double label ratio technique, were minor in T. ruralis, but major in H. luridum. Proteins of both mosses were found to be stable during desiccation and subsequent rehydration. Changes in membrane permeability, as indicated by the leakage of amino acid, were observed during rehydration of desiccated moss and were dependent on the rate of desiccation. The leakage was small and reversible in T. ruralis but large and irreversible in H. luridum. Although H. luridum failed to recover from complete desiccation (80% loss in fresh weight), it was able to recover fully from steady state stress under conditions where a maximum loss of 55% in fresh weight was recorded.

摘要

研究了水分胁迫和干燥对耐旱藓类 Tortula ruralis 和耐旱藓 Hygrohypnum luridum 中蛋白质合成的影响。在任何特定的稳定水分胁迫水平下,H. luridum 中蛋白质合成的抑制作用大于 T. ruralis。通过双标记比技术确定的水分胁迫诱导的蛋白质合成模式变化在 T. ruralis 中较小,但在 H. luridum 中较大。两种藓类的蛋白质在干燥和随后的复水过程中都被发现是稳定的。在干燥的藓类复水过程中观察到膜通透性的变化,如氨基酸泄漏所表明的,这取决于干燥的速度。在 T. ruralis 中,泄漏较小且可逆转,但在 H. luridum 中,泄漏较大且不可逆转。尽管 H. luridum 不能从完全干燥(新鲜重量损失 80%)中恢复,但它能够从记录到最大新鲜重量损失 55%的稳定胁迫条件下完全恢复。