organ differentiation 中文意思是什麼

organ differentiation 解釋
瀑分化
  • organ : n 1 【音樂】(教堂用的)管風琴(=〈美國〉 pipe organ);(足踏)風琴;手搖風琴;口琴。2 (生物的...
  • differentiation : n. 1. 差別,區別;區分,劃分。2. 【生物學】分化,變異。3. 【地質學;地理學】(從共同的巖漿產生出不同的巖石的)分異作用。4. 【數學】微分法。
  1. Mammary gland is a unique organ, which can postnatally regenerate, terminally differentiate, and involute upon successive cycle of pregnancy, lactation, and involution, respectively, and provides an optimal model for the study of organogenesis, differentiation, apoptosis, and pattern formation involved in development

    哺乳動物的乳腺是唯一在動物出生后可以多次再生、退化的器官。不同發育時期的動物乳腺中都存在一定比例的幹細胞,正是這些幹細胞維持和保證了乳腺發育的特性。
  2. 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。
  3. In this report, we mainly covered the following aspects of " tissue organ regeneration and replication in situ " : 1 ) procedures of tissue organd regeneration and replication and replication in clnical practice ; 2 ) the discover and existence of potentiald regenerative cell ( prc ) ; 3 ) the proliferation, differentiation and regeneration law of potential law of potential regenerative cells ; 4 ) study procedure on tissue organ regeneration and replication from prcs in vitro based on the model of full skin organ regeneration in situ after extensive in vitro, set up the method and technology of searching life regenerative substance required in tissue organ regeneration and replication in situ. in this study, first, the whole human body is divided into 206 function units, which are the " tissue organ " in regeneration study. then the histology foundation of tissue organ regeneration and replication in situ is set up. in ordre to prove the existence of the potential regenerative cells and their potential baility and function, we established clinical tracking rechnique of skin organ regeneration in situ ; meanwhile, several tissue organ regeneration and replication in vitro models which represent different kinds of runctions were sucessfully set up, with all these techniques and models, we confirmed : 1 ) the existence, function and ability of pptemtoa regenerative cells ; 2 ) the importance of life regenerative substance ; 3 ) the feasibility of tissue organ regeneration and replication in situ ; 4 ) the big value of tissue organ regeneration and replication in situ in life science and medicine progerss. we also showed the possible foreground of capture cancer with this method and technologh. in this report, nearly 200 photographs of several tissue organ regeneration and replication in situ or in vitro demonstrated the whole process of tissue organ and big organ entities regeneration and replication from cells. the results of tissue organ regeneration and replication in situ mainly include : 1 ) whole skin organ regeneration and replication in situ ; 2 ) gastrointestinal mucosa tissue organ regeneration in vitro ; 3 ) hair follicle tissue organ regeneration in situ or in vitro ; 4 ) never tissue organ regeneration in situ ; 5 ) pancreas tissue organ regeneration and replication in vitro ; 5 ) marrow tissue regeneration in vitro ; 6 ) renal glomerulus and tubule tissue organ tugeneraation in vitro ; 7 ) heart muscle regeneration in vitro, etcl. in order to let more and more people know and understand this technology of tissue organd regeneration and replication in situ, herein, for the first time, we publicize the key points of actualizing this technology. also, we publicized the technology procedures and the frame constitute of life substances. we bilieve this is a big contribution to human science

    本研究報告,重點報道了組織器官的原位再生復制的臨床程序,報道了組織潛能再生細胞的發現和存在,以及該細胞的增殖分化和形成組織器官的變化規律.以燒傷后皮膚組織器官的原位再生復制為模型,研究出了體外組織潛能再生細胞復制組織器官的培養方法;以體外組織器官的復制為模型,建立了尋找原位組織器官再生復制所需生命物質的方法和技術.本研究,首先按人體的器官功能,分解為206個功能單位,確立了所復制的人體器官中的組織功能單位為組織器官,從而建立了原位組織器官再生復制的組織學基礎.為了驗證組織潛能再生細胞的再生潛能,建立了皮膚器官原位再生的實體臨床跟蹤技術,同時又建立了能代表有關器官功能類別的代表組織器官的原位和體外復制模型,以多組織器官的成功復制確定潛能再生細胞的作用,確定生命研究再生物質的重要性,確定組織器官原位再生復制的可行性,確定了組織器官原位再生復制的生命科學研究和醫學進步的重大應用價值,同時展示了用此方法和技術攻克癌癥的前景.本研究報告,以近二百幅多個組織器官原位和體外再生復制的實體圖片,展示了潛能再生細胞復制的組織器官和大器官司實體;展示了細胞再生復制器官的全過程.真實的報告了組織器官原位再生復制的成果.所公布的主要成果為:皮膚器官的原位再生復制;胃腸黏膜組織器官的原位和體外再生復制;毛囊組織器官的原位和體外再生復制;神經組織器官的原位復制;胰腺組織器官的體外復制;骨髓組織的體外復制;腎小球小管組織器官的體外復制;心肌的體外復制等.為了讓更多的人學會和掌握組織器官原位再生復制技術,本報告首次公布實施技術的重要環節和技術流程;首次公布了生命再生物質的框架和組成.作者自費研究成果對人類生命科學的一大貢獻
  4. The digestive tract of animal was not only the important digestive organ but also the biggest endocrine organ which, with a great number of endocrine cells, played an important role in eating, digestion and other physiological activities, and might have regulation effect on the development and differentiation of digestive system of animals

    胃腸道不僅是動物體內重要的消化器官,也是動物體內最大的內分泌器官,含有多種內分泌細胞,它們在動物攝食、消化及各種生理活動中具有重要功能,同時可能對胚胎期消化道系統的分化發育起調節作用。
  5. The results of its culture in vitro were as follow : young leaves were the best explants in callus induction, the suitable culture medium was ms + ba2. 0mg / l + naa0. 1mg / l. the results of organ differentiation were that ba was better than zt in the induction of shoots, but zt was better than ba in the induction of root and callus quantity

    蝟實愈傷組織誘導以幼嫩葉片為外植體較好,培養ms + ba2 . 0mg l + naa0 . 1mg l為好。進一步誘導器官分化,結果發現ba對芽的誘導效應強于zt ,而zt在對根的誘導、愈傷組織生長量上優于ba 。
  6. 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。
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