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本文引用的文献

1
Enzymes of nitrogen mobilization in detached leaves of Lolium temulentum during senescence.抽提叶片衰老过程中 Lolium temulentum 氮素动员的酶。
Planta. 1978 Jan;142(2):161-9. doi: 10.1007/BF00388207.
2
Observations on the subcellular distribution of the ammonium ion in maize root tissue using in-vivo (14)N-nuclear magnetic resonance spectroscopy.利用体内 (14)N 核磁共振光谱技术观察玉米根组织中铵离子的亚细胞分布。
Planta. 1991 Feb;183(3):359-67. doi: 10.1007/BF00197734.
3
Asparagine metabolism and nitrogen distribution during protein degradation in sugar-starved maize root tips.在糖饥饿的玉米根尖蛋白质降解过程中天门冬酰胺代谢和氮分布。
Planta. 1992 Oct;188(3):384-95. doi: 10.1007/BF00192806.
4
Increased Fatty Acid beta-Oxidation after Glucose Starvation in Maize Root Tips.玉米根尖葡萄糖饥饿后脂肪酸β-氧化增加。
Plant Physiol. 1992 Jun;99(2):595-600. doi: 10.1104/pp.99.2.595.
5
Study of glucose starvation in excised maize root tips.离体玉米根尖的葡萄糖饥饿研究。
Plant Physiol. 1991 Jun;96(2):619-26. doi: 10.1104/pp.96.2.619.
6
Transient accumulation of asparagine in sycamore cells after a long period of sucrose starvation.在长期蔗糖饥饿后,悬铃木细胞中天冬酰胺的短暂积累。
Plant Physiol. 1990 Oct;94(2):717-22. doi: 10.1104/pp.94.2.717.
7
Mechanisms of starvation tolerance in pearl millet.珍珠粟耐饥饿的机制。
Plant Physiol. 1988 Dec;88(4):1381-7. doi: 10.1104/pp.88.4.1381.
8
Changes in Nonstructural Carbohydrates in Different Parts of Soybean (Glycine max [L.] Merr.) Plants during a Light/Dark Cycle and in Extended Darkness.大豆(Glycine max [L.] Merr.)植株不同部位在光/暗周期及长时间黑暗处理下非结构性碳水化合物的变化
Plant Physiol. 1985 Jul;78(3):576-81. doi: 10.1104/pp.78.3.576.
9
Use of Phloem exudate technique in the study of amino Acid transport in pea plants.应用韧皮液流技术研究豌豆植株中氨基酸的运输。
Plant Physiol. 1981 Sep;68(3):750-4. doi: 10.1104/pp.68.3.750.
10
Soluble Sugars, Respiration, and Energy Charge during Aging of Excised Maize Root Tips.离体玉米根尖衰老过程中的可溶性糖、呼吸作用与能荷
Plant Physiol. 1980 Sep;66(3):516-9. doi: 10.1104/pp.66.3.516.

在经历光/暗循环和长时间黑暗处理的全株玉米中诱导与碳饥饿相关的蛋白水解作用。

Induction of a carbon-starvation-related proteolysis in whole maize plants submitted to Light/Dark cycles and to extended darkness.

作者信息

Brouquisse R, Gaudillere JP, Raymond P

机构信息

Station de Physiologie Vegetale (R.B., P.R.).

出版信息

Plant Physiol. 1998 Aug;117(4):1281-91. doi: 10.1104/pp.117.4.1281.

DOI:10.1104/pp.117.4.1281
PMID:9701583
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC34891/
Abstract

Three-week-old maize (Zea mays L.) plants were submitted to light/dark cycles and to prolonged darkness to investigate the occurrence of sugar-limitation effects in different parts of the whole plant. Soluble sugars fluctuated with light/dark cycles and dropped sharply during extended darkness. Significant decreases in protein level were observed after prolonged darkness in mature roots, root tips, and young leaves. Glutamine and asparagine (Asn) changed in opposite ways, with Asn increasing in the dark. After prolonged darkness the increase in Asn accounted for most of the nitrogen released by protein breakdown. Using polyclonal antibodies against a vacuolar root protease previously described (F. James, R. Brouquisse, C. Suire, A. Pradet, P. Raymond [1996] Biochem J 320: 283-292) or the 20S proteasome, we showed that the increase in proteolytic activities was related to an enrichment of roots in the vacuolar protease, with no change in the amount of 20S proteasome in either roots or leaves. Our results show that no significant net proteolysis is induced in any part of the plant during normal light/dark cycles, although changes in metabolism and growth appear soon after the beginning of the dark period, and starvation-related proteolysis probably appears in prolonged darkness earlier in sink than in mature tissues.

摘要

对三周龄的玉米(Zea mays L.)植株进行光/暗循环处理以及长时间黑暗处理,以研究全株不同部位糖限制效应的发生情况。可溶性糖随光/暗循环波动,在长时间黑暗期间急剧下降。在成熟根、根尖和幼叶中,长时间黑暗处理后蛋白质水平显著降低。谷氨酰胺和天冬酰胺(Asn)变化趋势相反,黑暗中Asn增加。长时间黑暗处理后,Asn的增加占蛋白质分解释放氮的大部分。使用针对先前描述的液泡根蛋白酶(F. James、R. Brouquisse、C. Suire、A. Pradet、P. Raymond [1996] Biochem J 320: 283 - 292)或20S蛋白酶体的多克隆抗体,我们发现蛋白水解活性的增加与液泡蛋白酶在根中的富集有关,根和叶中20S蛋白酶体的量均无变化。我们的结果表明,在正常光/暗循环期间,植株任何部位均未诱导显著的净蛋白水解,尽管在黑暗期开始后不久代谢和生长就出现变化,并且与饥饿相关的蛋白水解可能在长时间黑暗中在库组织中比在成熟组织中更早出现。