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Differences in Proteins Synthesized in Needles of Unshaded and Shaded Pinus ponderosa var Scopulorum Seedlings during Prolonged Drought 1

机译：长期干旱下无阴影和有阴影的黄松樟树幼苗针中合成蛋白质的差异1

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Proteins were radiolabeled and extracted from needles of Pinus ponderosa var scopulorum (Dougl. ex Laws.) seedlings progressively drought-stressed for about 1 month. A set of novel, low molecular weight proteins was detected in fluorographs of two-dimensional gels when relative water content of needles fell below 70%. Their synthesis was undetectable in the fully recovered seedlings within 48 hours after rewatering. In similarly stressed seedlings that were shaded to 10% full light, the low molecular weight polypeptides were not detected or appeared at very low levels. The shaded seedlings, in which drought tolerance was reduced, did not recover upon termination of the drought. The results suggest that protein synthesis induced by water deficit in drought-tolerant seedlings may contribute to resisting the effects of cellular dehydration.

机译：蛋白质经过放射性标记，并从逐渐干旱胁迫约1个月的黄松樟子松（Dougl。ex Laws。）幼苗的针中提取。当针头的相对水含量低于70％时，在二维凝胶的荧光照片中检测到一组新颖的低分子量蛋白质。复水后48小时内，在完全恢复的幼苗中无法检测到它们的合成。在被遮蔽至10％的全光照下的类似胁迫幼苗中，未检测到低分子量多肽，或者其含量非常低。耐旱性降低的阴影幼苗在干旱终止后并未恢复。结果表明，耐旱幼苗水分缺乏诱导的蛋白质合成可能有助于抵抗细胞脱水的影响。

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Vance, Nan C.; Copes, Donald O.; Zaerr, Joe B.;
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年度 1990
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1. Correction:Differences in Proteins Synthesized in Needles of Unshaded and Shaded Pinus ponderosa var Scopulorum Seedlings during Prolonged Drought (vol 92, pg 1244, 1990) [J] . Vance NC, Copes DL, Zaerr JB Plant physiology . 2009,第2期

机译：校正：长期干旱期间未遮蔽和遮蔽的黄松阔叶松幼苗针中合成蛋白质的差异（第92卷，第1244页，1990年）
2. Soil Type Affects Pinus ponderosa var. scopulorum (Pinaceae) Seedling Growth in Simulated Drought Experiments [J] . Alexander J. Lindsey, Jason S. Kilgore Applications in plant sciences. . 2013,第2期

机译：土壤类型影响黄松模拟干旱实验中的十字花科（Pinaceae）幼苗生长
3. Climate has a larger effect than stand basal area on wood density in Pinus ponderosa var. scopulorum in the southwestern USA [J] . Vaughan Damon, Auty David, Kolb Thomas E., Annals of Forest Science . 2019,第3期

机译：气候效果比Pinus Ponderosa VAR的木质密度的展台基底效果更大。美国西南部的脚轮
4. EFFECTS OF OZONE AND/OR EXCESS SOIL NITROGEN ON GROWTH, NEEDLE GAS EXCHANGE RATES AND RUBISCO CONTENTS OF Pinus densiflora SEEDLINGS [C] . TATSURO NAKAJI, TAKESHI IZUTA Acid Rain 2000 . 2001

机译：臭氧和/或过量土壤氮对松树幼苗生长，针气交换速率和橡胶含量的影响
5. GEOGRAPHIC VARIATION OF ROOT DEVELOPMENT OF PONDEROSA PINE (PINUS PONDEROSA LAWS.) SEEDLINGS AS RELATED TO SHOOT GROWTH AND SEED CHARACTERISTICS. [D] . ANANTACHOTE, ANAN. 1980

机译：松树幼苗根系发育的地理变化（与松树生长和种子特性有关）。
6. Differences in Proteins Synthesized in Needles of Unshaded and Shaded Pinus ponderosa var Scopulorum Seedlings during Prolonged Drought [O] . Nan C. Vance, Donald O. Copes, Joe B. Zaerr 1990

机译：长期干旱期间无阴影和有阴影的黄松阔叶树幼苗针中合成蛋白质的差异
7. Soil Type Affects Pinus ponderosa var. scopulorum (Pinaceae) Seedling Growth in Simulated Drought Experiments [O] . Alexander J. Lindsey, Jason S. Kilgore 2013

机译：土壤类型影响 pinus ponderosa var。 scopulorum （松科）幼苗在模拟干旱实验中的生长

8. Variability in the intraspecific response of Pinus ponderosa seedlings subjected to long-term exposure to elevated CO(sub 2) [R] . Houpis, J. L. J. , Anschel, D. J. , Pushnik, J. C. , 1995

机译：长期暴露于高CO浓度的pinus ponderosa幼苗内部特异性反应的变异性（sub 2）

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2. 干旱胁迫下香蕉幼苗蛋白质组学分析 [J] . 孙洁 ,庞昇泽 ,禤维言 . 南方农业学报 . 2016,第012期

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5. CPPU对干旱胁迫下小麦幼苗叶片的蛋白响应及生育期差异的影响 [J] . 赵芳 ,姚占军 ,苏集华 . 华北农学报 . 2012,第002期

6. 干旱胁迫下桑叶蛋白质差异表达分析 [C] . JIAO Feng ,焦锋 ,PAN LuLu . 2012全国生态桑及桑树生态产业学术会议 . 2012

7. 玉米幼苗响应干旱胁迫和脱落酸诱导的磷酸化蛋白质组学差异 [A] . 李鸿杰 . 2016

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Differences in Proteins Synthesized in Needles of Unshaded and Shaded Pinus ponderosa var Scopulorum Seedlings during Prolonged Drought 1

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