An In-Depth Study of TCA cycles, OPA1, S6K1, ATPase, TLR4, MHC-class-I, GCs, and IFNs Bio-Synthesis, and Their Roles of Deficiency in Diabetes, Asthma, Cancer, etc and the NAD Roles in Their Activities

Japan Journal of Clinical & Medical Research Pub Date : 2021-09-30 DOI:10.47363/jjcmr/2021(1)115
Ashraf Marzouk El Tantawi
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引用次数: 2

Abstract

The roles of S6K1 is regulating ATPase, and GTPase synthesis, and consequently the endocytic proliferations including endocytic soluble MHC class II synthesis which regulate both SIRPα1 and TLR4 synthesis , where diabetes reflect deficiency in Ser amino acids that reflect deficiency in pyrimidines synthesis consequently deficiency in Estrogen and reflect increasing in androgen synthesis with increasing in consuming in purines (A&G) that lead to decreasing in anabolic processes which depends on presence of adenosine and guanosine stored in ribosimes.
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TCA循环、OPA1、S6K1、ATPase、TLR4、mhc - 1类、GCs、IFNs的生物合成及其在糖尿病、哮喘、癌症等疾病缺乏中的作用及NAD在其活性中的作用的深入研究
S6K1的作用是调节atp酶和GTPase的合成,从而调节内吞增殖,包括调节SIRPα1和TLR4合成的内吞可溶性MHC II类合成。糖尿病反映了丝氨酸的缺乏,丝氨酸的缺乏反映了嘧啶合成的缺乏,从而导致雌激素的缺乏,反映了雄激素合成的增加,嘌呤的消耗增加,导致合成代谢过程的减少,这取决于核糖体中储存的腺苷和鸟苷的存在。
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Japan Journal of Clinical & Medical Research
Japan Journal of Clinical & Medical Research
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