鹽代謝 的英文怎麼說
中文拼音 [yándàixiè]
鹽代謝
英文
salt metabolism-
Antibiotics can cause disorders of water and salt metabolism.
抗菌素能引起水、鹽代謝的紊亂。Features : contain lemon grass, jojoba essential oil and rich mineral deep sea salt particles, which can clean out the aged cutin on the skin surface, promote the blood circulation and metabolism, destroy and resist bug, dispel inflammation. its fresh lemon grass fragrances can dispel the beriberi and foot bad smells, clear out the bad smells, relief the tired foot, get rid out of the swollen feeling, increase the funny interests by washing foot, let the foot to recover fresh and energetic completely
特點:蘊含的檸檬草、荷荷巴等香薰精油及含豐富礦物質的深海鹽幼細粒子,溫和清除積聚于肌膚表面的老化角質,促進血液循環及新陳代謝,殺滅並抑制病菌,消除足部炎癥,清新自然的檸檬草芬芳,有效祛除腳氣、腳臭,清除腳部異味,同時舒緩疲倦雙足,消除腫脹的感覺,增添浴足情趣,讓浸泡后的雙足徹底恢復清爽與活力!“ salt ” bath features super moisturizing energy and can instantly warm the body, promote metabolism and blood circulation, intensively clean skin, remove aged horniness and make skin moist and supple
「鹽」沐浴具有超強保濕潤澤能量,能使身體快速溫熱,提高新陳代謝,促進血液循環,在洗浴同時能深層潔凈肌膚,將體內的老化角質排出體內,維持肌膚柔潤如同新生。Analyzing the metabolizing of the hing energy phosphate and sports retirement
淺析高能磷酸鹽的代謝與運動性疲勞Bamboo salt contain abundant vitamin and 100 % natural ossein fiber, which can go into the pore to activate body ' s ferment cells and effectively restrain and decompose melanin so as to maintain skin white and shine
竹鹽蘊藏豐富的維他命及100 %純天然骨膠原纖維,能深入毛孔激發體內酵素細胞有效的防止黑色素的生成,並對其分解代謝,從而令肌膚白皙透亮。The salbes mineral salt is sudoriferous and can discharge the waste and superfluous water in body, promoting the metabolism of skin, and it can also soften dirt and supply salbes mineral salt and minerals, making skin delicate and tight
索貝斯礦鹽有發汗的作用,它可以排出體內的廢物和多餘的水分,促進皮膚的新陳代謝,還可以軟化污垢、補充索貝斯礦鹽分和礦物質,使肌膚細致、緊繃。D - glucosamine hydrochloride can be used to promote the synthesis of cartilage cell protein polysaccharide, to increase the viscosity of the joint synovia, to improve the metabolism of the joint cartilage, to treat rheumarthritis effectively and to prevent human body from cholesterol store so as to ensure human beings healthy and guard humaan beings against ageing
氨基葡萄糖鹽酸鹽能促進軟骨細胞蛋白多糖的合成,提高關節滑液粘性,改善關節軟骨代謝,有效治療風濕關節炎,並可防止人體膽固醇的蓄積,達到保健抗衰老的目的。The propagules of b. gymnorrhiza and a. corniculatum undergo some growth before becoming detached from the parent plant. they accumulated large amounts of ions during the development while the level of ion concentrations are consistently lower in their embryos compared to leaves of parent plant. before detachment, the growth of hypocotyls were reduced, the water content declined, while the osmotic potential was approaching to or more negative than that of the solution on which their parent plant vegetating
另一方面維持較大比例的有機滲透調節劑,控制細胞液中鹽離子的水平以減少代謝毒害;木欖成熟胚軸的密度接近或低於生境中海水的密度,適于隨水漂浮和傳播;胚軸內離子濃度呈下降趨勢,但最終以達到和母樹生境中的離子濃度水平相一致為目標。In this paper, kandelia candel ( l. ) druce hypocotyls were cultivated in sand and treated with 15 % seawater for 60 days under laboratory conditions. the influence of increasing concentrations of napthalene and pyrene ( 0, 0. 1, 1 and 10mg / l ) on hypocotyl germination and growth, photosynthesis metabolism, water metabolism and membrane protection system were observed to inquire into the ecophysiological responses of mangrove k. candel to pahs phytotoxicity. moreover, the concentration and distribution of parent polycyclic aromatic hydrocarbons ( pah ' s ) in surface sediment, underground root and leaf residue of mangroves in jiulong river estuary ( fugong, north and south shores of haimen island, baijiao ), neighbouring xiamen western harbour ( dong islet ) and dongzui harbour ( fenglin ) were examined
在實驗室條件下,分別以0 . 1 、 1和10mg l的萘( nap )和芘( pyr ) 3個梯度濃度組級砂基培養秋茄( kandeliacandel ( l . ) druce )幼苗,培養基鹽度15 ,培養期60d ,以不加pahs為對照,分析了nap和pyr對紅樹植物秋茄幼苗的生長、光合代謝、水分代謝以及膜保護系統的影響,探討pahs對紅樹植物秋茄的的生理生態效應及植物性毒害( phytotoxicity )的機理。S. fredii can synthesize phb in culture medium of glucose and change its metabolic pathway by intimidation pressure when alkanoates were added int o culture medium. according to this theory, metabolic pathway of p ( hb - hh ) was induced
根據費氏中華根瘤菌在以葡萄糖為碳源時合成phb ,而在烷酸鹽提供一定環境脅迫壓條件下,改變了代謝方向,我們推導出該菌合成phas的代謝途徑。Ammonium chloride is rapidly absorbed from the gastro - intestinal tract. the ammonium ion is converted in urea into the liver ; the anion thus liberated into the blood stream and extracellular fluids causes a metabolic acidosis and decreases the ph of the urine ; this is followed by a transient diuresis
氯化銨能迅速地從胃腸道被吸收。在肝臟氨鹽基離子被轉換成尿素,陰離子因而被解放入血液和細胞外流體導致代謝性的酸中毒,使尿液變酸,形成短暫的多尿。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。About 25 salt - induced proteins were identified by maldi - tof / ms, and finally the function of 17 induced proteins were determined, including heat - shock proteins ( groes, clp ). abc transporter, rna polymerase ( p - subunit ) and enzymes involved in signal transduction and metabolism. meanwhile, 84 proteins were idifferentially expressed after salt shock 5 min and 50 min in late exponential phase
應用maldi - tof ms對30個鹽脅迫蛋白進行分析,已初步確定17個誘導蛋白的功能,其中包括與鹽脅迫相關的熱激蛋白( groes 、 clp ) 、與代謝途徑和信號傳導等有關的酶,以及abc轉運蛋白、轉錄調節蛋白、 rna聚合酶的亞基等。The main effect factors include : 1. microbial species, which seem to have different degradation rate under varied circumstances and n - alkanes ; 2. physical and chemical properties of crude oil itself, which have an important effect on biodegradation, such as conglutination, boiling point, refractive index, ingredient and concentration of the oil ; and 3. culture condition of microorganism, under which the degrading activity of microorganism will be affected by surfactant, light condition, sorbent, nutrition, co - metabolite, oxygen, temperature and salinity during the inoculation of selected or indigenous microorganisms
其中主要影響因素包括:菌種的影響,菌種在不同的環境中和對不同碳鏈長度的碳氫化合物表現出不同的降解效率;石油物質本身物理化學特性的影響,如石油物質在水體或土壤中的濃度以及石油的粘度、沸點、折射率等特性;生存環境條件的影響,在接種入高效率的降解菌或利用土著微生物進行降解時,降解率受到生存環境中各種條件的影響,如表面活性劑、光照條件、吸附劑的利用、營養鹽、共代謝底物、氧氣、溫度、鹽度等。Effect of salinity on oxygen consumption and nh3 - n excretion of macrobrachium rosenbergii
鹽度對羅氏沼蝦代謝率的影響It is necessary to study aerobic treatment with in - situ bioremediation by means of inoculated microorganism and added nutrition and co - metabolism substrate
接種微生物、添加電子受體、營養鹽和共代謝基質是生物修復的主要技術手段。Results indicated that the concentration of salvolatile and the conserved effect was in proportion because of the capability to counteract the acids produced by microbe
實驗結果表明,濃度越高的碳酸銨鹽溶液的保存體系,其緩沖能力越大,越能很好地中和細菌代謝產生的脂肪酸,以防止天然膠乳的迅速凝固,保存效果越好。At2g29080 gene may be involved in regulation of salt metabolism in arabidopsis thaliana
29080基因可能參與了擬南芥鹽代謝的調節The colocalization results implicated that nk3 and vasopressin ( vp ) are in same neurons. and by regulating expressing and releasing of vp, nig can modulate function of the paraventricular nucleus and superoptic nuclei. especially it is closely related to salt and water taste
在室旁核和視上核存在nk3受體與加壓素的雙標神經元,與水鹽代謝有關的神經元在高滲刺激下表達fos ,同時可以激活含nk3受體神經元,提示nk3受體通過調節加壓素釋放參與水鹽代謝和滲透壓的調節。Twenty - six induced proteins were analyzed by matrix assisted laser desorption / ionization time - of - flight mass spectrometry ( maldi - tof / ms ) and identified by database searching. among them, 20 ones were assigned and their functions were known, including salt stress proteins, or enzymes are related to salt stress, y - butyrobetaine and iipopolysaccharide synthesis, metabolism pathway and signal transduction
應用maldi - tof ms對26個鹽激誘導蛋白進行分析,將獲得的肽指紋圖譜經數據庫檢索,初步確定了20個誘導蛋白的功能,其中包括與鹽脅迫、 -丁酰甜菜堿、脂多糖合成、代謝途徑和信號傳導等有關的酶。分享友人