physiological tolerance 中文意思是什麼
physiological tolerance
解釋
生理耐受性- physiological : adj. 生理的,生理學(上)的。 a physiologic strain【生物學】生理小種。 physiologicsaline 生理鹽水。-logi-cally adv.
- tolerance : n 忍受;容忍;寬容;耐性;【物理學】容限;【醫學】耐受[藥]性,耐(藥)力;耐(藥)量;【植物;植...
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The purposes of this project were to further analyze the characteristics of their iron efficiency under iron stress, to study the physiological and molecular mechanisms of iron efficiency under iron deficiency in c. junos and m. xiaojinensis, and to analyze the spatial expression model of fcr ( ferric chelate reductase ) gene under iron stress with the hope to cast a new light on iron stress tolerance on the molecular level, to lay solid foundations for cloning fcr gene in c. junos and m. xiaojinensis, and to provide some basic data for creating new rootstocks with excellent complex characters and iron efficiency
本研究通過進一步分析香橙和小金海棠的耐缺鐵特性,研究它們耐缺鐵的生理原因和分子基礎,並通過分析三價鐵螯合物還原酶基因的空間表達模式,從分子水平上去探討植物耐缺鐵的原因,為從香橙和小金海棠中克隆三價鐵螯合物還原酶基因奠定基礎,並為人工創造耐缺鐵的果樹砧木提供基礎研究數據。 -
Physiological mechanisms of salicylic acid enhancing the salt tolerance of cucumber seedling
水楊酸增強黃瓜幼苗耐鹽性的生理機制 -
Achievements up to now that are related is elaborated, including : 1. the impact of high temperature on the growth and development, yield and grain quality, the physiological or biochemical processes and 2. the performance of heat tolerance
本文對有關的重要成果進行了闡述,包括: 1 .高溫脅迫對水稻生長發育、產量性狀和品質以及主要生理生化過程的影響; 2 .水稻的耐熱性表現。 -
Although a large and increasing number of genes induced by salt stress have been recently identified with the aid of combination of molecular and genetic approaches, their physiological roles in relation to either tolerance or sensitivity are largely unknown in higher plants and many salt - tolerant genes associated have still not been found
為此,人們從遺傳和細胞水平上對水脅迫下植物體內的變化做了大量而廣泛地研究工作,而且,利用分子和遺傳的手段克隆和鑒定了許多鹽脅迫誘導基因。但是,這些基因在高等植物中耐鹽或鹽敏感的生理作用還很不清楚,而且還有很多耐鹽相關基因沒有被發現或明確。 -
Were used to investigate the dehydration protection in the physiological and chemical levels represented by the changes of photosynthesis, sucrose, antioxidants and electrolyte leakage during desiccation and subsequent rehydration, and molecular mechanisms of dehydration tolerance by means of mrna differential display based on the studies of deng ' s
Br成熟植株的離體葉片為實驗材料,以光合作用、蔗糖、抗氧化劑系統和離子滲漏等在脫水復水過程中的變化為切入點,從生理生化水平上探討其耐脫水復甦的機制;同時應用mrna差異顯示技術,從分子水平上探討其耐脫水復甦的機制。
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