糖代謝調節的 的英文怎麼說
中文拼音 [tángdàixièdiàojiéde]
糖代謝調節的
英文
glycoregulatory- 糖 : Ⅰ名詞1 [化學] (碳水化合物) sugar 2 (食糖的統稱) sugar 3 (糖果) sweets; candy; sweety Ⅱ形容...
- 代 : Ⅰ動詞1 (代替) take the place of; be in place of 2 (代理) act on behalf of; acting Ⅱ名詞1 (歷...
- 謝 : Ⅰ動詞1 (感謝) thank 2 (認錯; 道歉) make an apology; excuse oneself 3 (辭去; 拒絕) decline 4...
- 調 : Ⅰ動詞1 (配合得均勻合適) harmonize; suit well; fit in perfectly 2 (使配合得均勻合適) mix; adju...
- 節 : 節構詞成分。
- 的 : 4次方是 The fourth power of 2 is direction
- 代謝 : 1. (交替; 更替) supersession 2. [生物學] (新陳代謝的簡稱) metabolize
- 調節 : regulate; adjust; monitor; measure; take care of; condition; regulation; adjustment; conditioning...
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Its medicinal clinic functions are : antiphlogistic, antalgic, antifebrile, reducing blood sugar, keeping normal ocular function ; adjusting nerve conduct and fat assimilation. it also takes part in incretion activity, increases systole to improve immunity, which has sanitarian effect to different ages
在醫療制藥方面,本品具有解熱鎮痛保肝降血糖維持正常視覺功能調節神經傳導調節脂類代謝膽磷汁分解利膽護肝,參與內分泌活動,增加心臟收縮能力,提高人體免疫能力的作用。Physiological function and secretion regulation of glucagons and hormones regulating calcium metabolism
胰高血糖素和調節鈣代謝激素的生理作用及分泌的調節。Recent studies have focused on rehydration on recovery from prolonged exercise, consumption of glycemic index meal on exercise performance, and whole body energy metabolism and thermoregulation during exercise
實驗室近期的研究主要集中在血糖指數食物對運動能力的影響、運動中機體的能量代謝和體溫調節、以及學童肥胖與靜態生活等方面。The applied chemical industry academy of mengzhou city was established in 1995. it was a commercial corporation combining scientific research development with production. in jan 2002, this corporation was formally renamed as tailijie co., ltd. recently, with the help of advanced equipment and special technology, our company has presented a new product - polydextrose, which is one kind of solube meal fibre. this product is appraised as " a product promoted by the health project in the new century ", " food comprising special nutrition " and listed among the new technology products of henan province
它以獨特的純天然健康食品及原料,具有低熱量低脂肪低膽固醇低鈉等特性,對調節人體脂類代謝,降低膽固醇水平,減少糖量吸收,預防治便秘,排毒養?等,都有明顯的保健功效。曾先後評? "河南省科技成果" , "河南省高新技術?品" , "特殊營養食品"和"新世紀中國健康工程推廣?品"等,並被列入河南省與國家火炬計劃。Shengyuan maintenance blood - sugar capsule is chooses the cactus, the balsam pear, the black bee bee glue, the kudzu root four pelts the sugar ingredient reasonably to blend, purifies the highly effective multi - skill health product by the modern biotechnology extract which but becomes, has the bidirectional adjustment, the control blood sugar, the activation and the nutrition island of langerhans beta cell, the promotion endogenous secretions insulin secretion, enhances the human body sugar metabolism and the fat metabolism ability, strengthens the pancreas function the function, at the same time also has the repair diabetes liver, the kidney damage, the prevention and the improvement diabetes illness complication function
聖源維糖軟膠囊是選擇仙人掌、苦瓜、黑蜂蜂膠、葛根四大降糖成份合理配伍,以現代生物科技萃取精製而成的高效復合型健康產品,具有雙向調節、控制血糖,激活和營養胰島細胞,促進內源性胰島素分泌,提高人體糖代謝和脂肪代謝能力,增強胰臟功能的作用,同時又具有修復糖尿病肝、腎損傷,預防和改善糖尿病並發癥的作用。The expressed apoe protein in central neuronal system functions potentially in deposition and clearance of amyloidal peptide, sustaining the stabilization of microtubule proteins, cellular signal transduction, immune regulation, glucose metabolism and oxidation stress. apoe plays a key biological active role in vivo
中樞神經系統中的apoe對腦組織澱粉樣蛋白的沉積與清除、微管蛋白穩定性的維持、細胞信號轉導、免疫調節、葡萄糖代謝、氧化應激等都有潛在的作用, apoe在體內發揮十分重要的生物學活性。Effects of diverse environmental factors on the growth rate ( od4oo ) and nitrogenase activity ( ara ) of the strain w12 hi nitrogen - free culture were investigated in our experiments. the results implied that the strain w12 could easily adapt to different cultural conditions : it could use various carbon sources ( especially glucose, sucrose, malic acid, mannitol ), propagate quickly and fix nitrogen at a temperature range of 15 ? to 40 ? and at 25 - 35 ? for optimum, at a ph range of 4 to 8. 5, at a saline concentration range of 0. 01 % to 1. 5 % ; low nlv " concentration had little effect on its nitrogenase activity. ara could also be detected when it grow in the culture media with 5mmol / l ntv "
W12菌株對環境因子的適應性研究:無氮培養條件下,測定溫度、碳源、酸堿度、滲透壓對w12生長及固氮能力的影響,結果表明,在15 - 40下均能生長並表達固氮酶活性,其最適生長及固氮的溫度為25 - 35 ;能利用葡萄糖、蔗糖、蘋果酸、甘露醇等多種碳源生長並固氮,當培養基中同時存在蔗糖和蘋果酸時,細菌生長和固氮活性最強;在偏酸和偏堿的條件下( ph4 . 5 - 8 . 5 )均能保持較強的生長勢和較高的固氮酶活性,並能通過調節自身代謝平衡並適應環境的酸、堿性變化,使培養液趨于中性:能耐受較高的滲透壓,培養液中卜、 5 naci濃度對其生長和固氮酶活性影響不大,當naci濃度升至2時,菌株的生長勢及固氮酶活性才有所下降:低濃度的鉸對其固氮酶活性影響不大,在0Gc binds to mr with higher affinity than gr. this gc - receptor interaction is also controlled at the pre - receptor level by two important factors : corticosteroid binding globulin ( cbg ) and 11 b - hydroxysteroid dehydrogenases ( 11 - hsds )
糖皮質激素與受體結合的量除與血漿中糖皮質激素水平、皮質醇結合蛋白( cbg )濃度有關外,還受到細胞內受體前糖皮質激素代謝酶? 11 -羥基類固醇脫氫酶( 11 - hsd )的調節。New york ( reuters health ) sept 07 - a short period of sleep deprivation causes changes in hormonal glucose regulation, with a strong effect on pancreatic islet secretion, a decrease in glucagon levels and a slight reduction in c - peptide levels, according to a small study in the august issue of the journal of clinical endocrinology and metabolism
紐約(路透社健康新聞) 9月7日據《臨床內分泌及代謝》雜志8月刊上的一項小型研究稱,短期的睡眠不足會導致葡萄糖調節激素改變,對胰島素分泌產生強烈影響,降低高血糖素水平,使c -肽水平輕微減少。It was found that the trehalose metabolism was regulated and controlled by several factors such as substrate concentration, temperature and others
結果表明海藻糖的代謝受幾種因素如底物濃度、發酵溫度以及其他條件的調節與控制。Previous studies have showed that sulfonylureas possess a bidirectional effect on cardiovascular system : they can raise the coronary artery tone, aggravate ischemic injury to the cardiovascular tissues, and accelerate cardiac hypertrophy through closing cardiovascular atp - sensitive k ( superscript - ) channels ; meanwhile they can also regulate glucolipid metabolism, modulate inflammatory reaction and inhibit atherosclerosis through activating peroxisome proliferators - activated receptors
摘要基礎研究表明,磺脲類藥物對心血管系統有雙向影響:磺脲類藥物能夠關閉心血管系統atp敏感性鉀通道,從而增高冠脈張力,加重缺血對心血管組織的損傷和促進心臟肥厚的發生;另一方面,磺脲類藥物能夠激活過氧化物酶體增殖物激活受體,從而調控糖脂代謝,調節炎癥反應和抑制動脈粥樣硬化的發生。The results suggested : the differential gene expression in the adrenal gland under acute hyperglycemia / hypoglycemia was related to blood glucose ; these genes might regulate blood glucose by influencing the metabolism and secretion of hormones, cytoskeleton constitution and signal transduction in the adrenal gland ; bbs4 gene might participate in glucoregulation via the activities of adrenal medulla ; the differential genes expressed under acute vs chronic hyperglycemia might play a basic role of the structural and functional changes in the adrenal gland, lead to the process of chronic complications of diabetes or accommodate to the status of hyperglycemia
結果提示:腎上腺基因差異性表達和血糖變化有關;在急性高低血糖情況下,這些基因可能通過影響腎上腺內激素的分泌和代謝、細胞骨架構成和信號轉導來調節血糖; bbs4可能參與血糖調節,其作用可能和腎上腺髓質的活動有關;慢性高血糖情況下的腎上腺差異表達不同於急性高血糖,這種表達差異可能與腎上腺慢性的結構和機能改變相關,或參與了糖尿病慢性並發癥的發生發展、高血糖狀態的調節。Adipokines, the bioactive factors derived mainly from adipocytes, regulate pancreatic - cell function including insulin secretion, gene expression and apoptosis. in this review, we propose that adipokines influence - cell function through three interdependent pathways. the first is through regulating lipid and glucose metabolism in - cells. the second implicates the change of ion channel opening and closing in - cells. the third pathway is via the modification of insulin sensitivity of - cells. the endocrine function of adipocytes is dynamic, and the secretion of various adipokines changes under different metabolic conditions. during the progression from the normal state to obesity and to type 2 diabetes, adipokines contribute to the occurrence and development of - cell dysfunction in type 2 diabetes
脂肪因子包括脂肪細胞分泌的多種活性因子,它們通過內分泌方式調節胰島細胞的胰島素分泌、基因表達以及細胞凋亡等多方面的功能.本文提出脂肪因子影響胰島細胞功能主要通過三條相互聯系的途徑而實現.第一是調節細胞內葡萄糖和脂肪的代謝;第二是影響細胞離子通道的活性;第三是改變細胞本身的胰島素敏感性.脂肪細胞的內分泌功能是一個動態過程,在不同的代謝狀態下,各脂肪因子的分泌發生不同變化.從正常代謝狀態發展到肥胖以及2型糖尿病的過程中,脂肪因子參與了胰島細胞功能障礙的發生與發展Abstract : adipokines, the bioactive factors derived mainly from adipocytes, regulate pancreatic - cell function including insulin secretion, gene expression and apoptosis. in this review, we propose that adipokines influence - cell function through three interdependent pathways. the first is through regulating lipid and glucose metabolism in - cells. the second implicates the change of ion channel opening and closing in - cells. the third pathway is via the modification of insulin sensitivity of - cells. the endocrine function of adipocytes is dynamic, and the secretion of various adipokines changes under different metabolic conditions. during the progression from the normal state to obesity and to type 2 diabetes, adipokines contribute to the occurrence and development of - cell dysfunction in type 2 diabetes
文摘:脂肪因子包括脂肪細胞分泌的多種活性因子,它們通過內分泌方式調節胰島細胞的胰島素分泌、基因表達以及細胞凋亡等多方面的功能.本文提出脂肪因子影響胰島細胞功能主要通過三條相互聯系的途徑而實現.第一是調節細胞內葡萄糖和脂肪的代謝;第二是影響細胞離子通道的活性;第三是改變細胞本身的胰島素敏感性.脂肪細胞的內分泌功能是一個動態過程,在不同的代謝狀態下,各脂肪因子的分泌發生不同變化.從正常代謝狀態發展到肥胖以及2型糖尿病的過程中,脂肪因子參與了胰島細胞功能障礙的發生與發展分享友人