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NMT歷*的今天

2012年9月16日，中科院南京土壤研究所施衛明、張建華、許衛鋒利用NMT在New Phytologist上發表了標題為Abscisic acid accumulation modulates auxin transport in the root tip to enhance proton secretion for maintaining root growth under moderate water stress的研究成果。

期刊：New Phytologist

主題：脫落酸積累調節根尖中的生長素運輸以增強質子分泌以在中度水脅迫下維持根生長

標題：Abscisic acid accumulation modulates auxin transport in the root tip to enhance proton secretion for maintaining root growth under moderate water stress

影響因子：6.645

檢測指標：H⁺流速

檢測部位：擬南芥、水稻根尖（從根冠分界處50、100、200、300、400、500、600、700、800、900、1000、1200、1500、1800、2000、2500、3000、3500、4000和5000μm）

H⁺流實驗處理方法：

15日齡水稻幼苗，5％PEG 8000或0.1 μM ABA處理24小時

H⁺流實驗測試液成份：文獻無

推薦測試液：0.1mM CaCl20.3mM MES，pH6.0

作者：中科院南京土壤研究所施衛明、張建華、許衛鋒

英文摘要

Maintenance of root growth is essential for plant adaptation to soil drying. Here, we tested the hypothesis that auxin transport is involved in mediating ABA's modulation by activating proton secretion in the root tip to maintain root growth under moderate water stress.

Rice and Arabidopsis plants were raised under a hydroponic system and subjected to moderate water stress (−0.47 MPa) with polyethylene glycol (PEG). ABA accumulation, auxin transport and plasma membrane H+‐ATPase activity at the root tip were monitored in addition to the primary root elongation and root hair density.

We found that moderate water stress increases ABA accumulation and auxin transport in the root apex. Additionally, ABA modulation is involved in the regulation of auxin transport in the root tip. The transported auxin activates the plasma membrane H+‐ATPase to release more protons along the root tip in its adaption to moderate water stress. The proton secretion in the root tip is essential in maintaining or promoting primary root elongation and root hair development under moderate water stress.

These results suggest that ABA accumulation modulates auxin transport in the root tip, which enhances proton secretion for maintaining root growth under moderate water stress.

 中文摘要（谷歌機翻）

保持根系生長對植物適應土壤干燥至關重要。在這里，我們測試了生長素轉運通過激活根尖中的質子分泌來介導ABA調節以在中等水分脅迫下維持根生長的假設。

在水培系統下培養水稻和擬南芥植物，并用聚乙二醇（PEG）進行適度的水分脅迫（-0.47MPa）。除了初生根伸長和根毛密度之外，還監測根尖處的ABA積累，生長素轉運和質膜H+-ATP酶活性。

我們發現，適度的水分脅迫會增加根尖中ABA的積累和生長素的轉運。另外，ABA調節涉及根尖中生長素運輸的調節。運輸的生長素激活質膜H+-ATPase以沿著根尖釋放更多的質子，以適應中度水分脅迫。根尖中的質子分泌對于在中度水分脅迫下維持或促進初生根伸長和根毛發育是*的。

這些結果表明，ABA積累調節根尖中的生長素運輸，這增強了質子分泌，從而在中度水分脅迫下維持根生長。

Fig. 1 Effects of moderate water stress or exogenous ABA treatment on H⁺ ?ux along the root tip of rice or Arabidopsis plants (0–5000 lm from the root cap junction). Fifteen-day-old rice or Arabidopsis plants were exposed to control conditions (●, control), moderate water stress (○,5%PEG 8000) or exogenous ABA (▼, 0.1 lM) for 24 h in hydroponics. The values are the means and SD of six replicates from two independent experiments.