https://www.selleckchem.com/products/NXY-059.html Type 2 diabetes (T2D) is one of the most widely spread metabolic disordersand is also referred as a 'lifestyle' disorder. According toa study conducted by IDB, the number of individuals affected with diabetes is expected to increase from 463 to 700 million by the end of year 2045. Thus, there is a great need to developed targeted therapies that can maintain homeostasis of glucose levels and improving insulin sensitivity which can overcome hurdles associated with conventional medicine. Detailed analysis was conducted by analyzing various research and review papers which were searched using MEDLINE and EMBASE using various keywords. This search retrieved the most appropriate content on these molecules targeting Nrf-2 functions and Nrf-2 pathway associated with diabetic neuropathy and nephropathy. In this review article, we have highlighted the role of Nrf-2 in diabetic associated complications of neuropathy and nephropathy. Since hyperglycemia is associated with oxidative stress and inflammation, regulating Nrfbetic neuropathy and nephropathy.Streptomyces sp. 2M21 was evaluated for keratinase production in bioreactors using chicken feathers. Firstly, optimization of bioengineering parameters (agitation and aeration rates) using Response Surface Methodology was carried out in 2 L bioreactors. Optimized conditions identified by the modified quadratic model were verified as 150 rpm and 1 vvm experimentally corresponding to 351 U/ml of keratinase activity. Moreover, scaling up sequentially to 20 L bioreactors was implemented using constant impeller tip speed and constant mass transfer coefficient as key scale-up parameters. The keratinase activity in 5, 10 and 20 L bioreactors showed similar results with the one of shake flasks (412 U/ml) and 2 L bioreactors (351 U/ml)with respect to the keratinase activity values of 336, 385 and 344 U/ml, respectively. The results suggest keratinase production by evaluating chicken feathe