RESUMEN
Objective:To optimize the water extraction technology of Xiaokeantangfang. Methods: The extraction technology of Xiaokeantangfang was optimized by orthogonal design with the content of astragaloside A and the extract yield as the indices and the a-mount of added water,extraction time and extraction times as the influencing factors,and the results were verified. Results:The amount of added water had significant effect on the content of astragaloside A(P<0. 05). The optimal extraction technology was as follows:12-fold amount of added water,extracting for 3 times with 0. 5 hour per time. The average extract yield was 38. 33%(RSD=1. 22%,n=3), and the average content of astragaloside A was 0. 0828 mg·g-1 for 3 batches of samples in the validation tests(RSD=3. 37%, n=3). Conclusion:The optimal water extraction technology of Xiaokeantangfang is stable and feasible, which can provide experimen-tal basis for the oral preparation of Xiaokeantangfang.
RESUMEN
Diabetes mellitus is a complex metabolic disorder characterized by chronic hyperglycemia due to absolute or relative lack of insulin. Though great efforts have been made to investigate the pathogenesis of diabetes, the underlying mechanism behind the development of diabetes and its complications remains unexplored. Cumulative evidence has linked mitochondrial modification to the pathogenesis of diabetes and its complications and they are also observed in various tissues affected by diabetes. Proteomics is an attractive tool for the study of diabetes since it allows researchers to compare normal and diabetic samples by identifying and quantifying the differentially expressed proteins in tissues, cells or organelles. Great progress has already been made in mitochondrial proteomics to elucidate the role of mitochondria in the pathogenesis of diabetes and its complications. Further studies on the changes of mitochondrial protein specifically post-translational modifications during the diabetic state using proteomic tools, would provide more information to better understand diabetes.