遺傳器官 的英文怎麼說

中文拼音 [zhuànguān]
遺傳器官 英文
organ for inheritance
  • : 遺動詞[書面語] (贈與) offer as a gift; make a present of sth : 遺之千金 present sb with a gener...
  • : 傳名詞1 (解釋經文的著作) commentaries on classics 2 (傳記) biography 3 (敘述歷史故事的作品)...
  • : 名詞1. (器具) implement; utensil; ware 2. (器官) organ 3. (度量; 才能) capacity; talent 4. (姓氏) a surname
  • 遺傳 : [生物學] heredity; hereditary; inheritance; inherit
  • 器官 : organ; apparatus
  1. The modeling of the growing status of the cauline of tomato in growing process is discussed, by using nn and genetic algorithm

    摘要採用神經網路和演算法,對溫室栽培番茄生長過程中主要莖的生長過程進行了建模。
  2. Under the genetic plan, organs develop.

    的發育依據圖式而進行。
  3. Constituent cells retain their unique genetic constitution.

    構成的細胞保留著它們獨特的組成。
  4. Rose plants could be regenerated by both organogenesis or somatic embryogenesis, but somatic embryogenesis was mainly used for the regeneration of transgenic rose plants

    月季通過和體細胞胚發生途徑都能再生植株,但轉化主要是利用體細胞胚發生途徑。
  5. There are difference within stomatic distribution of different organs of three plants in differnt genus of the same family, which related to their genetic facters and habitat condition

    同科不同屬的三種植物不同的氣孔分佈存在差異與其和生境條件有關。
  6. Multiple organ comet assay in vivo is very useful for the evaluation of genotoxicity target organ. the comet tail of peripheral lymphocytes is suitable as a biomarker for reflecting the sensitivity of organs after treatment of mtx

    提示,體內多的單細胞凝膠電泳分析對探測體內毒性靶是十分有用的,外周血淋巴細胞在scge分析中的拖尾現象可作為用藥后組織對藥物敏感性反映的生物標志。
  7. " for their discoveries concerning genetic regulation of organ development and programmed cell death

    發現發育和細胞程序性細胞死亡細胞程序化凋亡的調控機理
  8. Brenner shared the nobel medicine prize in 2002 with robert horvitz of the united states and briton john sulston for their work on genetic regulation of organ development and cell death

    布瑞爾與美國科學家羅勃特何維茲和英國科學家約翰薩爾頓三人憑借他們在發育和細胞死亡方面的基因研究成果一舉獲得了2002年的諾貝爾醫學獎。
  9. A pathological condition of a part, an organ, or a system of an organism resulting from various causes, such as infection, genetic defect, or environmental stress, and characterized by an identifiable group of signs or symptoms

    病,疾病有機體的某一部位、某一或系統處于病理狀態,由各種因素引起,如染、缺陷或環境緊張,而且以被視為相同的一組表象或癥狀為特徵
  10. Genetic modification can be used to disguise an animal ' s cells and organs and thereby reduce or even eliminate rejection of the graft

    性的修改能用於偽裝動物的細胞和,因此減少了。甚至消除了移植的排斥作用。
  11. Dry matter accumulation trends of the each individual organ were predicted under the different condition such as varieties, densities, fertilizer applications and sowing dates

    並以收獲指數作為參數調節不同品種的干物質分配比例,預測不同品種、不同密度、不同施肥、不同播期下各的干物質積累動態變化。
  12. Relationship between structures and functions of prothoracicostatic peptide and its analog peptides insect brain neuropeptides are the important regulatory hormones ( or factors ) generated in brain, which control the activities of many organs ( or glands ) and important physiological events in insects, for instance, growth, development, ecdysteroidogenesis, metamorphosis, behavior, metabolism, generation, inheritance and so on

    昆蟲腦經神肽( brainneuropeptide )是昆蟲體內重要的調控因素。它控制和調節著昆蟲某些的活動,包括許多重要的生理過程,如生長發育、蛻皮變態、行為代謝及生殖等等。
  13. This paper expounds the application of the successful clone of the model animal in the gene therapy, finds out the truth of human being ' s senescence on the molecule level, probes into the discovery of the ft gene with theoretical significance and application value, and introduces the researching progresses and application values of the genetic engineering technology, bioengineering breeding and human - organ regeneration

    闡述了模型動物的成功克隆在基因療法上的應用,在分子水平上揭示了人類衰老的秘密,探討了「 ft 」基因的發現具有的理論意義與應用價值,同時介紹了工程技術、生物工程育種和人體再生的研究進展及其應用價值。
  14. In order to establish the genetic transformation system of saussurea medusa maxism by agrobacterium rhizogenes, some work were done. the main results were following : 1 establishment of regeneration systems two systems of regeneration from saussurea medusa maxim were established without cold treatment. the somatic embryos were induced from callus cultured in mise for 35 days. the shoots were induced from cotyledon after cultured in misc 20 days, and from leave which were cultured in misl. the experiment showed that the carbon and glycine in the medium could help to increase the regeneration rate to 95 %

    為篩選水母雪蓮代謝突變體和轉基因研究奠定了一定的基礎,陳亞瓊: m質粒介導水母雪蓮的轉化及毛狀根中決刪合成的調節p義摘要也為研究類黃酮代謝途徑的關鍵酶基因的轉化、高效表達及作用機理提供了理想的實驗體系。主要的實驗結果如下: 1水母雪蓮高頻再生體系的建立通過體細胞胚胎發生途徑和發生途徑,水母雪蓮( squssureamedusamaxim )可以在常溫下獲得再生植株。
  15. In order to understand the mechanism of mtx further and to investigate the genotoxic target organs, we studied the dna damage and the correlation with dose of mtx by using the alkaline single cell gel electrophoresis ( comet ) assay. liver, spleen, bone marrow, thymus, kidney, testicle, stomach and peripheral lymphocytes of mice were isolated at lh, 3h, 6h, 12h, 24h after 5mg / kg mtx intraperitoneal injection

    為了進一步了解甲氨蝶呤( mtx )的作用機制,探測其作用的毒性靶,為應用mtx治療過程中的臨床監測和副作用防治提供理論依據,我們以小鼠為研究對象,用單細胞凝膠電泳技術檢測了mtx腹腔注射染毒1h 、 3h 、 6h 、 12h 、 24h后對肝、脾、骨髓、胸腺、腎、睪丸、胃和外周血淋巴細胞的dna損傷作用及損傷程度與mtx劑量間的關系。
  16. A male patient of 10 years old gave his chief complaint of slow movement and unclear vision in the xishan department of neural regeneration and functional reconstruction in beijing shijingshan district in october 16th 2005

    0引言x -連鎖腎上腺腦白質營養不良是一種性代謝疾病,由於飽和極長鏈脂肪酸在過氧化酶體內-氧化障礙,以致飽和極長鏈脂肪酸在血、腦白質、腎上腺皮質等和組織大量積聚,引起中樞神經系統脫髓鞘和腎上腺皮質萎縮或發育不良。
  17. Toxins accumulated location dextent of the analysis of organ tissue damage, or even inherent genetic weaknesses to be found

    毒素累積的部位及程度,分析的組織細胞的損傷情況,甚至先天的弱點都能發現。
  18. Unlike x - rays or ultraviolet light, terahertz radiation is harmless to many biological cells, hence, can be used to identify the fine details of or to image human cells and organs, as well as to study dna molecules

    太赫茲與x光及紫外光不同,對大部分生物細胞無害,因此可大量應用到細胞及的鑒定或成像,放射診斷和因子研究。
  19. Technology combining genetic engineering of cells with chemical engineering to create artificial organs and tissues such as skin, bone, heart valves, and cartilage for joints

    結合細胞工程和化學工程以創造和組織如:皮膚、骨頭、心臟瓣膜和軟骨關節的技術。
  20. 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、發育和生理生態等諸多生物學領域,主要研究植物的多樣性、植物發育(如種子成熟與發芽過程) 、組織的分化過程、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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