metabolic change 中文意思是什麼

metabolic change 解釋
代謝變化
  • metabolic : adj. 1. 變化的,變形的。2. 【生物學】新陳代謝的,代謝作用的。
  • change : vt 1 改變,變更,變換,變革。2 交換;兌換;把(大票等)換成零錢;把(支票等)兌成現金。3 換(車、...
  1. With 24 c or 4 c, the change trends of the content of the salidroside was basically consentaneous in the consecutive cultural eras of the callus. in the callus from the different explants, the influence was maximal to the the activity of pal enzyme and the influence was lowest to the the activity of ca4h enzyme, and the influence to the the activity of tal enzyme was ascertained according to the explant of the callus. so in the same explant with the different temperature or in the different explant with the same temperature, there was no incident between the content of the salidroside and the activity of enzymes pal, ca4h and tal, and we presumed that there may be emphasized particularly on different metabolic pathway of salidroside

    ( 2 ) 、愈傷組織的外植體來源、培養溫度條件和不同的繼代培養數都影響著其中紅景天甙的含量和苯丙氨酸解氨酶( pal ) 、肉桂酸解氨酶( ca4h )和酪氨酸解氨酶( tal )這3種酶的活性;不管是葉來源還是莖來源,不管是24培養還是4培養的愈傷組織,在連續繼代培養中紅景天甙含量的變化趨勢基本上是一致的;無論是葉來源的愈傷組織還是莖來源的愈傷組織,培養溫度對pal酶的酶活性影響最大,對ca4h酶的酶活性影響最小,對tal酶的酶活性影響視不同的外植體來源而定;在相同外植體來源的愈傷組織中及不同的培養溫度的條件下,或是在不同外植體來源的愈傷組織中及相同溫度的培養條件下,其紅景天甙含量與pal酶、 ca4h酶和tal酶的酶活性之間沒有完全一致的對應伴隨關系。
  2. Influence of acute endurance exercise on dynamic change of monoamine neurotransmitter and its metabolic ability in the diencephalon of rat

    中藥對急性耐力運動大鼠腦組織血清素及其代謝能力的影響
  3. Quinic acid, used shikimate pathway in e. coli, it is necessary to extend metabolic pathway by introduction of a heterogenous gene qutb into the host cell. double specific enzyme genes arog, qutb or three ones arog, qutb, arob were co - expressed in a single plasmid pbv220 to improve the enzymes " rate - limiting reactions. modifications of e. coli chromosome by both disruption of the arod gene and directed - site insertion of the arob gene resulted in the change of carbon flow redirected into the quinic acid biosynthesis branch

    利用大腸桿菌莽草酸途徑合成新的代謝物奎尼酸,須在宿主細胞引入異源酶基因擴展代謝途徑;串聯表達酶基因,同時適量增加不同種屬的多個關鍵酶酶量,改善限速反應;利用同源重組進行基因整合和基因破壞,改造染色體結構定向改變微生物代謝途徑;目的是將碳代謝流最大程度的引向奎尼酸生成的方向。
  4. 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。
  5. Analysis on relationship of knowledge and behavioral change with metabolic control and occurence of complications in patients with diabetes

    型糖尿病患者健康知識行為與代謝控制關系的調查
  6. The conclusions further elucidate the damages such as metabolic alteration, membrane damage, enzyme inactivation and genetic alteration may be resulted from the change of glutathione redox system caused by so2. protective roles of seabuckthorn seed oil on oxidative damage induced by so2 were also processed

    進一步明確了機體的所有損傷(代謝過程變化、細胞膜損傷、酶失活以及遺傳物質改變)均可能與so _ 2吸入所致谷胱甘肽氧化還原系統發生顯著變化有直接或間接的關系。
  7. 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
  8. 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
分享到 Line

分享到臉書