母本植物 的英文怎麼說
中文拼音 [mǔběnzhíwù]
母本植物
英文
pistillate parent- 母 : Ⅰ名詞1 (母親) mother 2 (泛指女性長輩) one s elderly female relatives 3 (配套的兩件東西里的凹...
- 本 : i 名詞1 (草木的莖或根)stem or root of plants 2 (事物的根源)foundation; origin; basis 3 (本錢...
- 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...
- 植物 : plant; flora; botany; stray; greenery; phyton; phytum; phyta; phyt ; phyto ; phyte : 草本植物 her...
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The implantation of a property and prosper, must depend on a well - known brand and production, big enterprise, group leader business enterprise or business enterprise group to develop, the author bring up of clear and definite a target ( building the medicine flattop, making wudang a medicine harbor ), push forward two development way of million - project ( plant a million mu chinese herbal medicine, arouse 100 ten thousand farmers amass a fortune with the middle - class family ), integrating three greatest resources ( chinese herbal medicine, capital and human resource ), classification raising the hormone medicine, inside the patent medicine and bio - medicine, vet ' s medicine with medical treatment apparatus and drugs packing a four group leader business enterpriseses, and it is fit for the practice ; the author bring forward that the framework of chinese herbal medicine by company add households, going by business enterprise mechanism to circulate, and accord with the busi ness enterprise and the farmer benefits, it carry on actually
一個產業的培植與繁榮,必須依靠龍頭企業或企業集團的帶動,靠一批骨幹企業一批知名品牌、產品作支撐,才能促進該產業可持續發展。作者提出的明確一個目標(打造醫藥航母,建設武當藥港) ,推進兩個百萬工程(種植100萬畝中藥材,帶動100萬農民致富與小康) ,整合三大資源(中藥材、資本與人力資源) ,分類培植激素類藥物、中成藥與生物醫藥類、獸醫藥類和醫療器械與藥品包裝類四個龍頭企業的發展思路,切合該地區實際;作者提出的公司加基地加農戶加依託單位的中藥材種植模式,按企業機制運行,符合企業和農民利益,切實可行。Zhejiang fritillary ( fritillaria thunbergii miq ) is a liliaceous perennial herbaceous plant. it is a frequently used chinese medicinal material. it has a good effect on relieving a cough, removing phlegm, reducing heat and moistening lungs
浙貝母為百合科貝母屬多年生草本植物,是一種常用中藥材,在臨床上具有清熱潤肺、止咳化痰之功效,有較高的藥用價值,被列為「浙八味」之首。Abstract : plant responses to salt stress via a complex mechanism, including sensing and transducing the stress signal, activating the transcription factors and the corresponding metabolizing genes. since the whole mechanism is still unclear, this review emphasize the biochemical events during the plant adaptation to salt stress referring to an index of importance : the homeostasis in cytoplasm, the biosynthesis of osmolytes and the transport of water. most of these biochemical events were elucidated by study of halophyte and salt - sensitive mutations, also many important genes involved were cloned and used to generate stress - tolerance phenotypes in transgenic plants. on the other hand, about the molecular mechanism in signal transduction, the research of arabidopsis mutations and yeast functional complementation provided helpful traces but not full pathway
摘要植物對鹽脅迫的耐受反應是個復雜的過程,在分子水平上它包括對外界鹽信號的感應和傳遞,特異轉錄因子的激活和下游控制生理生化應答的效應基因的表達.在生化應答中,本文著重討論負責維持和重建離子平衡的膜轉運蛋白、滲調劑的生物合成和功能及水分控制.這些生理生化應答最終使得液泡中離子濃度升高和滲調劑在胞質中積累.近年來,通過對各種鹽生植物或鹽敏感突變株的研究,闡明了許多鹽應答的離子轉運途徑、水通道和物種特異的滲調劑代謝途徑,克隆了其相關基因並能在轉基因淡水植物中產生耐鹽表型;另一方面,在擬南芥突變體及利用酵母鹽敏感突變株功能互補篩選得到一些編碼信號傳遞蛋白的基因,這些都有助於闡明植物鹽脅迫應答的分子機制。Recently, the expression system of methylotrophic yeast has been developed quickly. as a result of its many advantages, such as high expression, high stability, high secretion and so on, many kinds of protein, including animal, plant, microorganism proteins, have been expressed by this system in the world, but we have not seen any report about yeast expression of poifn - a until now, this research is the first example in the world that poifn - a is expressed by methylotrophic yeast system
近年來,甲醇營養型酵母表達系統的研究得到迅速發展,因其具有高表達、高穩定、高分泌、能對表達的外源蛋白進行正確的折疊、加工,利於下游分離純化操作、能大規模發酵生產等諸多優點,國內外已經利用此系統表達了多種對人類有益的動植物及微生物活性蛋白,但對豬型干擾素的酵母表達還未見報導,本研究是國內外首次採用此系統表達豬型干擾素。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。3. stomata characteristic is very important to improve photosynthetic capacity. the stomata of c4 plants such as echinochloa rusgalli, maize, are larger than c3 plants such as rice and stomata density of c4 plants is less than c3 plants
C _ 4植物長芒稗、玉米等氣孔較大,但單位面積氣孔數少,水稻及其雜交後代的氣孔器大小顯著小於c _ 4植物,而ygfl的氣孔器大小略大於其母本。分享友人