生理遺傳學 的英文怎麼說
中文拼音 [shēnglǐyízhuànxué]
生理遺傳學
英文
physiologic genetics- 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;...
- 理 : Ⅰ名詞1 (物質組織的條紋) texture; grain (in wood skin etc ) 2 (道理;事理) reason; logic; tru...
- 遺 : 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 : 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)...
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 生理 : physiology生理反應 physiological reaction; 生理節律 circadian rhythm; 生理解剖學 physiological an...
- 遺傳學 : genetics; hereditism遺傳學家 geneticist
- 遺傳 : [生物學] heredity; hereditary; inheritance; inherit
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The results showed as follows : ( 1 ) 6 traits are correlative with genomic factors according to analysis of population genetics and comparison of the coherence of twins. ( 2 ) the hereditary mode of rolling tongue or pointed tongue was the dominant heredity of single gene of autosome, and the can - rolling type or can - pointed type was the dominant character
本文首次從群體遺傳學、家系分析、典型系譜分析及雙生子分析多個角度並結合多種相關數理統計方法,對6項人類學特徵的遺傳方式進行了探討,初步確定了各項特徵的遺傳方式,評價了各特徵的遺傳與環境的相對重要性。We know evolution happened not because of transitional fossils such as a. natans but because of the convergence of evidence from such diverse fields as geology, paleontology, biogeography, comparative anatomy and physiology, molecular biology, genetics, and many more
我們知道確實有演化的事實,並不是因為陸行鯨之類的過渡化石,而是來自不同領域匯聚起來的證據,像是地質學、古生物學、生物地理學、比較解剖與生理學、分子生物學、遺傳學等。At present our school accept post - doctoral researchers in 9 majors which are botany, zoology, physiology, genetics hydrobiology, microbiology, biochemistry, molecular biology, ecology and biophysics
目前,植物學、動物學、生理學、水生生物學、微生物學、遺傳學、生物化學與分子生物學、生態學、生物物理學等9個專業接收博士后研究人員。The principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans
教導遺傳學原理,並應用在學習分子、細胞、多細胞生物包括人類各層級生物上的功能。This course discusses the principles of genetics with application to the study of biological function at the level of molecules, cells, and multicellular organisms, including humans
本課程討論了在分子、細胞、多細胞生物水平以及包括人類在內的生物功能的遺傳學原理與應用。Hidden markov models have been widely used for modeling sequences of weakly dependent random variables, with applications in as such as speech processing, neurophysiology and biology
隱馬爾可夫模型可應用於弱相依隨機變量的建模上,也可用作研究發音過程、神經生理學與生物遺傳等方面的工具。Medical radiobiology is a very important basic disciplines of medicine, radiobiology and clinical radiation injury, including the basic elements of their studies to molecular biology, pathology, medical genetics, biochemistry, radiation health studies
醫學放射生物學是放射醫學的一門重要的基礎學科,包括放射生物學和放射損傷臨床學的基本內容,其先修課程為分子生物學、病理學、醫學遺傳學、生物化學、放射衛生學等。The horrible paradox in this almost four - century - old play of man s constitutional inability to foresee consequences while in hot pursuit of what he calls " truth " is that as each discovery of this truth has brought man close and close to his own extinction either through the prospects of physical destruction or psychological maltransformation or biogenetic tampering, science itself remains supremely and arrogantly confident of its limitless purposes and indeed has the full support and encouragement of governments, industrial entrepreneurs and peoples generally, all of whom continue to believe in its doubtful benefits
將近四世紀以來,人類熱中追求於他所謂"真理"這個人類天生無法預見後果的游戲里,可怕的矛盾存在於,每次真理的發現,或經由預期身體的滅亡或精神惡化或擅改生物遺傳,都帶領著人類,一步一步地接近人類自身的滅絕;然科學本身,對其無限的目的,仍高傲無上地維持其自信,而且,全然保有來自,政府,企業,及普遍人們的支持與鼓勵,他們都仍然相信那其實很可疑的益處Along with the development of the cytobiology and the molecular biology, and thoroughly research of the biophysics, the biochemistry, the genetics and immunology, it has cultivated the modem biological technology, such al genetic engineering, cellular engineering, enzyme engineering, fermentation engineering and so on, to change biology characteristic to carry on the material transformation, has formed the front biological examination technology : the dna probe, the pcr technology, the molecular mark, the bioluminescence technology, genechip technology and so on the widespread application of these advanced biotechnologies in dairy industry baa impelled the dairying technical transformation, and has been having vital significance to dairy production, research and dairy product security
摘要隨著細胞生物學和分子生物學的發展及對生物物理、生物化學、遺傳學和免疫學研究的深入,培育了基因工程、細胞工程、酶工程、發酵工程等改變生物特性進行物質轉化的現代生物技術,形成了dna探針、 pcr技術、分子標記、生物熒光技術、基因晶元技術等前沿性的生物檢測技術,其在乳品工業中的廣泛應用,推動了乳業的技術變革,對乳品生產、研究和乳品安全意義重大。The morphological, physiological, biochemical and genetic diversities between bacillus thuringiensis wild - type strain ybt - 1463 and its plasmid - free mutant bmb171 was comparatively studied. it showed that the plasmid - free mutant strain bmb171 lost the ability to form the parasporal crystal, but there was on obvious diversities were observed on the sensitivity to 10 antibiotics, the utilization of 19 carbon sources and 12 nitrogen sources, as well as the growth properties between ybt - 1463 and bmb171, whereas the electro - transformation frequencies of bmb171 were much higher than those of ybt - 1463, respectively with 5 exogenous plasmids as the donor dnas
對出發菌株ybt - 1463和其無質粒突變株bmb171的部分形態、生理生化和遺傳學特性進行的比較研究的結果表明,突變株bmb171不形成伴胞晶體,但在個體形態與菌落特徵、對紅黴素等10種抗生素的敏感性、對葡萄糖等19種碳源和谷氨酸等12種氮源的利用能力及生長性能與出發菌株ybt - 1463無明顯差異。Article to college entrance examination chinese current situation of test, combination of thoery and practice, pass with western chinese graduation examination way, contrast of the method, middle school of developed country, the first part put forward college entrance examination chinese have an examination three principle that should follow, namely content and form of test should respect and meet hereditary quality and individual character difference of quality of student ; should work in concert with latest scientific research results ; should regard measuring students " innovation ability as the main purpose
文章針對高考語文考試的現狀,理論聯系實際,通過與西方發達國家中學語文畢業考試方式、方法的對比,第一部分提出高考語文考試應遵循的三個原則,即考試的內容和形式應尊重和適應學生的遺傳素質和個性品質的差異;應與最新的科學研究成果相呼應,內容應新穎、獨特,能激發人的潛能;應以檢測學生的創新能力為主要目的。These will lay a foundation for students to learn plant taxonomy, plant physiology, plant ecology, plant resources, genetics, cytology, molecular biology, etc. in the future
這將為學生以後學習植物分類學、植物生理學、植物生態學、植物資源學、遺傳學、細胞學、分子生物學等打下基礎。By comparing the biological characteristics of original normal filament, linear filament and the curved filament retransited from linear filament, certain evidence of the morphologic variation regulated by a special transposon are detected on the level of protein and dna, which will help us to discover the mechanisms of this morphologic variation on molecular genetics level and solve the problem in production of spirulina in large scale
在比較了正常藻絲體、變直藻絲體及回復正常螺旋形態的藻絲體一組材料生物學特性的基礎上,進一步在蛋白質及dna水平上找到了轉座子調控此形態變異的某些證據,為闡明螺旋藻形態變異與重建的分子遺傳學機制以及解決螺旋藻大規模生產的實際問題提供理論依據。The future characterization and genetic analysis for candidate mutant were carried out and find that some candidate mutant ( such as roi30 doil - 1 doi0311131 ) have good phenotype by drought h2o2 aba - stressed treatment. at the same time we also observe the development of candidate mutant at different growth stages carefully. many modal difference between mutant an d wild type at the same period were found, such as more rosette layering fatty and big in leaves, advancment or delay for the flower period, rosettes living in the main stem, shorten in figure, the amount of seed little, sterilization etc. these physiological and modal changes may reflect with maladjustment in expressions of some gene and confusion on their inner control, . we will futher study concrete and detailed function mechanism
我們對這些擬南芥侯選突變體進行進一步的鑒定和遺傳學分析,發現ro口口、 doil 、 doi口jlll3i等潛在突變株對aba 、過氧化氫及早脅迫有明顯表型,同時對潛在突變體的生長發育進行了詳細的觀察,發現多數潛在突變株與同條件下野生型比出現了許多明顯的形態改變,如:蓮座基葉增多、分層、肥大,花期提前或延遲,主莖生輪座,株型矮化,產籽量少,不育,敗育等,這些生理和形態上的差異很可能反映了它們內部某些基因的表達受到了影響、代謝調控發生了紊亂,具體和詳細的作用機制還需要進一步的研究。Chromosome karyotypintg. the classical method in the technology of chromosome genetic analysis, is one of the important means in genetic research and supplementary clinical diagnosis. and it is then key index to analyze chromosome translocation or deficiency, and diagnosis of a variety of genetic diseases. the goal of chromosome analysis is to relate deviations from normal structure to biological or clinical effects
染色體核型分析,染色體遺傳分析技術的經典方法,是遺傳學科學研究和輔助臨床診斷的重要手段之一,是分析染色體易位,缺失,診斷各種遺傳病變的關鍵指標,染色體分析的目的就是要確定細胞或個體的染色體組成,尤其是要將其與正常結構間的偏差和生理的或臨床疾病關聯起來。The academy recognized him for his laboratory ' s 1991 discovery of the long - sought " channels " that regulate and facilitate water molecule transport through cell membranes, a. process essential to all living organisms
水通道或稱水孔蛋白的發現為這類蛋白的生化學、生理學和遺傳學開創了一個黃金時代。In brief, our courses will explore life phenomena at various angles including ( 1 ) global interactions of different biological communities ; ( 2 ) whole organism structures, development, physiology and functions ; ( 3 ) individual cell, cellular components and functions, and the signal transduction therein ; and ( 4 ) biochemical, genetic, and molecular basis of life
簡而言之,本系的學科嘗試從不同的角度去了解生命現象,包括( 1 )生物社群間的宏觀相互作用; ( 2 )生物個體結構、發育、生理及功能; ( 3 )個別細胞,細胞成份與其功能,以及其間的訊號傳導; ( 4 )生命的生化、遺傳和分子基礎。We use different genetic teaching methods to promote student ' s practice of making experiments and utilization of internet resources ; stimulate and direct student ' s desire of exploring the knowledge properly ; impel students to think and analyse deligently ; enhance their ability of thinking, utilizing and operating ; foster student ' s ability to grasp information and self - study ability ; increase student ' s comprehensive ability through all directions to meet the needs of the quick development of life science in 21st century
摘要通過在遺傳學教學中採用不同的教學方式、加強實驗操作和運用網路資源的實踐,合理引導並激發學生對知識探索的慾望,促使學生勤於思考與分析,提高思維能力、運用能力和動手能力,培養學生具有信息能力和自主學習能力,全方位多角度地提高學生的綜合素質,以適應21世紀生命科學迅速發展的需要。In this article the author discusses the relationship between science / technology and ethics, the basic principles of bioethics and the difference between morality and ethics, and then addresses ethical issues in stem cell research, gene therapy, reproductive genetics, xenotransplantation, biomedical research and clinical trials
摘要本文在討論科學技術與倫理學關系、生命倫理學基本原則以及道德與倫理學之間的異同后,探討了人的克隆和幹細胞研究、基因治療、生殖遺傳學、異種移植、生物醫學和臨床研究中的倫理問題。Abstract : by analyzing the study results on mictroorganism genetics and enzymology in the environmental biological technology over the world and the trend of the development and application of environmental biological technology in water pollution control, this paper intents to provide a reference for choosing the applied wastewater treatment technology
文摘:分析了國內外關于微生物遺傳學、酶學在環境生物技術領域中的研究進展以及環境生物技術在污水治理中的開發與應用及其發展趨勢,為選擇實用的污水處理技術提供了參考依據。分享友人