植物體內生物 的英文怎麼說
中文拼音 [zhíwùtǐnèishēngwù]
植物體內生物
英文
endoxylophyte- 植 : Ⅰ動詞1. (栽種) plant; grow; cultivate 2. (樹立) establish; set up Ⅱ名詞(姓氏) a surname
- 物 : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
- 體 : 體構詞成分。
- 內 : 名詞1. (內部; 里頭; 里邊) inner; inside; within 2. (妻子或妻子的親屬) one's wife or her relatives 3. (姓氏) a surname
- 生 : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
- 植物 : plant; flora; botany; stray; greenery; phyton; phytum; phyta; phyt ; phyto ; phyte : 草本植物 her...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
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Cold hardening ( cold acclimation ) processes taking place in plants before the onset of winter that prepare them to withstand low temperatures
低溫鍛煉(低溫馴化) :在冬季來臨之前植物體內發生的一些生理變化,目的是為了經受即將來臨的低溫。Ethylene is a simple, readily diffusible gaseous hormone and it regulates multiple developmental processes. such ethylene - dependent processes have long been presumed to be dependent on the synthesis or activation of ethylene receptors
乙烯是植物體內結構最為簡單的激素,其生物合成途徑早已被闡明,從上個世紀90年代人們就開始了對乙烯受體和信號傳導的研究。Ethylene, as the most simple plant hormone, plays major roles in regulation of plant growth and development
乙烯是植物體內一種最簡單的激素,在植物的生長和發育過程中起著重要作用。In terms with the principle of fusarium oxysporiun caused plant disease : bundles were blocked and fusarid acid killing cells was formed by hyphae so that caused water metabolism abnormal and plant wilting. in order to find out effective method of anti - fiisarium oxysporuin, long ya lillium was taken as material with plant tissue culture and genetic transformation techniques in this paper
針對尖孢鐮刀菌的致病機理:菌絲阻塞維管束引起水分代謝失常和菌絲在植物體內產生毒素(鐮刀菌酸)損害膜結構造成代謝失常,從而導致植物萎焉。本實驗以龍牙百合為研究對象,應用細胞工程中的離體培養方法並結合轉基因技術,以期找到抗尖孢鐮刀菌的有效途徑。Enzyme ( polypeptide ) : the enzyme is a kind of organic catalyst created by the body of aloe, which is a kind of special protein
酶(多肽) :酶是蘆薈植物體內所產生的一種有機催化劑,是一種特殊蛋白質。Despite intensive investgation on the detection. localization, biological roles and signal transduction pathway of extracellular cam in plants, the mechanism by which extrallular cam is activated by ca2 + has been unclear, manily because of specific of extrallular milieu
已經證實,植物體普遍存在胞外鈣調素,它可能作為一種廣譜性多肽第一信使在細胞外產生多種生物學功能,並具有跨膜及胞內信號轉導機制。Polyamines are a group of physiologically active substances in plants and their metabolic changes have a close relation to flower bud formation and development in high plants
摘要多胺是植物體內一類生理活性物質,其代謝變化與高等植物的花芽形成和發育關系密切。These proteins are ubiquitous in the plant kingdom where they form a multiple genetic family. they have been suggested to be involved in dif ferent aspects of plant physiology and cell biology through their ability to bind and / or carry lipophilic compounds, including the formation of cutin by transporting the hydrophobic cutin monomers to the apoplast and the defence of plants against pathogens as antimicrobial agents and in flowering
此外nsltp在植物體內廣泛存在並由一個基因家族編碼,由於它能結合和轉運脂類物質,因此推測它可能參與植物體內許多不同的生理過程,如轉運蠟質的角質單體到表皮細胞外側,作為抑菌蛋白抵抗病原菌的入侵以及花粉和柱頭的識別等。Hydroxynitrile lyases are the versatile group of enzymes, which play a significant defensive role in plant system against microbial attack
摘要醇腈酶是用途較廣的一類酶,在植物體內抵禦微生物侵襲方面起著重要作用。Defensive strategies can be induced either by herbivore or mechanical damage. an overview on the function of elicitors, early signals events and systemic response of signal transduction were given
摘要主要時防禦反應形成過程中化學誘導物的作用、細胞內發生的早期信號事件和信號分子在植物體內的系統性傳遞進行了綜述。A summing up of the biological action of molybdenum in plants
鉬在植物體內生理功能的研究綜述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。The internal cellular ca ( superscript 2 + ), moreover, act as a second messenger to transduct the salt - stress signal, and regulate the physiological and biochemical responses in plant
而且細胞內的鈣離子作為第二信使傳遞脅迫信號,調節植物體內的生理生化反應。This relationship deals with one of the strange episodes in the understanding of chemical growth regulation in plants.
這種相互關系涉及到對植物體內化學生長調節的理解中的一個奇怪的意外事件。An abnormal new growth of tissue in animals or plants ; a tumor
瘤動物或植物體內組織的異常新生物;腫瘤High salt stress disrupts homeostasis in water potential and ion distribution. this disorder of homeostasis occurs at both the cellular and the whole plant levels. drastic changes in ion and water homeostasis lead to molecular damage, growth inhibition and even death
滲透脅迫、離子脅迫及其造成的一系列次級脅迫如氧化脅迫等,嚴重干擾植物體內業已存在的細胞及整株水平上的水分及離子穩態,造成植物細胞分子損傷,生長減緩甚至死亡。To investigate whether it is suitable for biodegradable plastic production, we constructed the chloroplast integration and expression vector ptrv - phb, and integrated all the genes necessary for phb synthesis into tobacco chloroplast genome through gene - gun transformation. the chloroplast transformants showed phenotypically normal growth and were fertile
本研究在國內率先探討將葉綠體轉化技術引入植物生產生物可降解塑料這一領域的可行性(國外僅有日本一例) ,構建了葉綠體轉化及表達載體ptrv - phb ,通過基因槍法將phb合成相關基因導入煙草葉綠體基因組。Objective : new cationic antimicrobial polypeptides named as defensins are recently discovered. they are widely distributed in animals and plants. they have broad antimicrobial spectrum and highly efficient antimicrobial activity, because of its special antimicrobial mechanism, they have drug resistance to pathogen
目的: defensins是近年來發現的廣泛存在於動物和植物體內的一類陽離子多肽,它具有廣譜、高效殺菌活性,因其獨特的抗菌機理,病原微生物不易對其產生耐藥性。Under stress conditions, a series of physiological and biochemical reactions will occur in plants
在逆境脅迫下,植物體內通常會發生一系列的生理生化反應。The stability of plant internal redox environment and plant tolerance to stresses are closely related with a more efficient antioxidant and redox regulatatory system. so, it is helpful for us to study the response mechanism of oxidative stress in order to understand the mechanism of stress response of plant
氧化脅迫會改變植物體內穩定的氧化還原內環境,影響植物的正常代謝、生長過程、和植物的生存。大量研究表明,植物對氧化還原內環境的調節能力以及植物的抗氧化能力與植物的脅迫耐受力密切相關。分享友人