非細胞植物 的英文怎麼說
中文拼音 [fēixìbāozhíwù]
非細胞植物
英文
acellular plant- 非 : Ⅰ名詞1 (錯誤) mistake; wrong; errors 2 (指非洲) short for africa 3 (姓氏) a surname Ⅱ動詞1 ...
- 細 : 形容詞1 (條狀物橫剖面小) thin; slender 2 (顆粒小) in small particles; fine 3 (音量小) thin ...
- 胞 : Ⅰ名詞1 (胞衣) afterbirth2 (同一個國家或民族的人) fellow countryman; compatriot Ⅱ形容詞(同胞...
- 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...
- 細胞 : cell; sytes; bioplast; cella; [口語] gene; [生物學] cellule; cellule cellulli cellulo ; cello ; k...
- 植物 : plant; flora; botany; stray; greenery; phyton; phytum; phyta; phyt ; phyto ; phyte : 草本植物 her...
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The total rna was isolated from pokeweed ( phytolacca americana ) leaves using the method of guanidine isothiocyante and used as template to amplify the total length and deleted mutant pokeweed antiviral protein ( pap ) gene by rt - pcr and then the pap gene was cloned into pgem - t vector. the sequencing results showed that pap gene had 99. 9 % identity comparing with the pap gene nucleotide sequence reported by lin et al ( 1991 ). the iptg - inducible expression vector containing the pap gene was constructed and transferred into e. coli bl21 ( de3 ) - plyss
將缺失型pap基因克隆到植物表達載體pbi121中,通過液氮冷凍法將重組質粒轉入農桿菌lba4404細胞中,然後採用葉盤法,在該農桿菌的介導下將pap基因導入普通煙草中,經過卡那黴素抗性篩選,最後獲得了轉pap基因的工程煙草植株,摩擦接種煙草花葉病毒( tmv ) ,與非轉基因煙草相比,能夠推遲癥狀表現達2月之久,說明pap基因能夠在其它植物體內產生有活性的高抗病毒的蛋白質。To meet the increasing demand of this expensive cytokine, we expressed it in transgenic plantso this is a promising way for producing therapeutic proteins in large scale because of its safety, low expense and ease to manipulate
為了滿足對afgf這種價格昂貴的細胞因子的需求,本實驗探索利用轉基因植物表達afgf 。利用轉基因植物大規模生產治療性蛋白是一種非常有潛力的方法,這是因為此種方法安全、生產成本低、易於操作。Biotic or abiotic stimuli can first cause the alteration in apoplastic signaling system ; on the other hand, apoplast provides a convenient pathway for cell - cell communication, and therefore plays a key role in regulation of cell differentiation, organ genesis, and growth development of plants
當植物遭受生物或非生物環境刺激時,可能首先引起質外體信號系統的變化;同時質外體作為植物細胞之間最方便的通道,在細胞間信號傳遞和信息交流上起重要作用,從而成為協調植物細胞分化、器官形成和整體生長發育的決定性因素之一。The outer tangential wall of no - nodules legume plants epidermal cells is thicker and darker than that of nodule legume plants
非結瘤豆科植物的根表皮細胞外切向壁的厚度比結瘤豆科植物的要厚,顏色也較深。Basic science research plays an equally important role in the understanding of disease mechanisms, and the faculty emphasizes the integration of basic science research and clinical research, such as in the areas of transplantation immunology, molecular and cellular biology in various cancers, developmental biology of paediatric surgical diseases, and common childhood diseases
基礎科學研究對了解疾病同樣重要。醫學院非常著重基礎科學研究及臨床研究的結合,例如在移植免疫學、有關各種癌癥的分子及細胞生物學、小兒外科疾病的發育生物學及一般兒科疾病等范疇。Jasmonic acid and its derivative methyl jasmonate, collectively called jasmonates, are phyto - regulators existing widely in plants and playing an important role in plant cells
摘要茉莉酸及其衍生物茉莉酸甲酯等統稱為茉莉酸鹽,是廣泛存在於植物中的一種生長調節物質,在植物細胞中起著非常重要的作用。The epidemic cells of no - nodules legume plants arrange compact and orderliness, however, the cells of nodules legume plants are thin and destroyed easily when slice
非結瘤豆科植物的表皮細胞排列緻密且整齊;而結瘤豆科植物表皮細胞較薄,切片時容易收縮破損。The transplanted cells from the pig pancreas regulate their insulin production in line with 6 what they are eating, just like the pancreas in non - diabetics
從豬胰臟移植來的細胞調控著患者的胰島素產生,使其數量與他們正在吃的食物相匹配,就如非糖尿病患者的胰臟一樣。Cdpks play important roles in plant calcium signal transduction. there is increasing evidence that cdpks participate in c / n metabolism, transmembrane transport of ion and water, cytoskeletal regulation, stomatal movement regulation, growth and development regulation and biotic and abiotic stress responses in plants
Cdpks在植物鈣信號轉導中具有重要的作用,越來越多的證據表明,在植物碳氮代謝、離子和水分跨膜運輸、細胞骨架調節、氣孔運動調節、生長發育調節以及生物和非生物脅迫應答反應中均有cdpks的參與。In this text summarizes the research progress of isoflavones and which synthesized characters and transfered research in non - legumes including arabidopsis 、 tobacco 、 maize bms cells and yeast in the last years
本文綜述了近幾年來大豆異黃酮的研究進展及其在非豆科植物擬南芥、煙草、玉米bms細胞和酵母的轉化研究及合成特點。This review focuses on the current research progress of the liver cell differentiation source, and it also discusses the advantages and disadvantages of various hepatic stem cells and nonhepatic stem cells, expecting to provide a reference for liver cell source selection during tissue engineering, an adequate and suitable source for bioartificial liver and hepatocyte transplantation and to help to treat liver diseases
本文著重論述了目前肝臟細胞的分化來源研究進展情況,並對各種肝源性和非肝源性幹細胞的優缺點進行了討論,以期為肝組織工程選擇細胞來源提供參考,為生物人工肝、肝細胞移植提供充足、合適的細胞來源,協助治療肝臟疾病。Stem cell research might yield ways to grow new body parts, but without a parallel curer for alzheimer ' s, this wonderful new technology would do no more than allow more people to persist in vegetative states for years longer than is currently possible
幹細胞研究可能會找到新器官的培育途徑,但是如果我們沒有同時找到醫治老年癡呆癥的良方,這種奇妙的新技術無非只是讓更多的人在植物狀態下茍活更長的時間罷了。Non - model plant proteomics research progress is summarized, it includes non - model plant individual and population proteomics research, tissue and organ proteomics research, subcellular proteomics, plants respond to environment proteomics and biotic environment factor proteomics research, and different perspectives of plant proteomics are also discussed in this paper
概述了非模式植物蛋白質組學的研究進展,主要包括非模式植物個體及群體蛋白質組學,組織和器官蛋白質組學,亞細胞蛋白質組學,響應環境變化的蛋白質組學以及非模式植物生物環境因子的蛋白質組學的研究情況,同時對植物蛋白質組學的發展前景進行了展望。Proteome techniques have widely been applied to the fields of plant genetics, plant development, and plant physiology and ecology to investigate plant genetic diversity, plant development such as seed maturation and germination processes, differentiation of plant tissue and organ, separation and functional identification of novel component of various organells, mechanisms of plant adapted to abiotic or biotic stresses including high temperature, low temperature, high salt, drought, and pathogens and insects, and interaction of plant with microbe
摘要蛋白質組技術已廣泛應用於植物遺傳、發育和生理生態等諸多生物學領域,主要研究植物的遺傳多樣性、植物發育(如種子成熟與發芽過程) 、組織器官的分化過程、不同亞細胞結構的新蛋白組分的發現及其功能鑒定、植物對非生物逆境(包括高溫、低溫、高鹽和乾旱等)和生物逆境(病蟲害)的適應機制和植物與微生物(根瘤共生體)相互作用機制。Zellularbiologie ( cellular biology ) : the study of living organisms - plants, animals and microorganisms including their structure and function and their relationship with one another and with the inanimate world
細胞生物學:對生物即植物、動物和微生物的結構、活動相互關系以及與非生物界的研究。Some c4 plants, for example, absorb co2 and photosynthesise it at either end of special elongated [ 4 ] cells, instead of separating the functions out into two different types of cell
比如說,有的c4植物對co2的吸收和光合都是分別在某一類長形的特殊細胞兩端進行,而非分散到兩類不同的細胞中。分享友人