The robust structural nature of human serum albumin (HSA) is responsible for its multifarious functional property. The site specific glycation of HSA due to hyperglycaemia (excess glucose) causes structural changes which have an impact on the functioning of the protein. This work investigates the effects of glucose-mediated glycation in the altered inter-domain motion, distorted binding site conformation and modified hydration patterns, Trp214 orientation, and secondary structure transition using simulation approach. Here we have observed an increase of turns in the helices of glycated HSA, which modulates the open-close conformation of Sudlow I & II. The secondary structure changes of glycated HSA indicate plausible reduction in the alpha helical content in the helices which participates in ligand binding. It also affects geometrical features of drug binding sites (Sudlow I and II) such as volume and hydration. We found that glycation disturbs domain specific mobility patterns of HSA, a substantial feature for albumin drug binding ability which is also correlated with changes in the local environment of Trp214.Communicated by Ramaswamy H. Sarma.
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Article Synopsis
- Controlled glycation of proteins can lead to harmful compounds called AGEs, especially when blood glucose levels are high, prompting research into natural protective agents like ginger extract.
- In experiments, human serum albumin (HSA) was treated with glucose alone or with ginger extract, revealing ginger's ability to inhibit glycation and reduce harmful modifications to the protein over ten weeks.
- The study concluded that ginger extract has antioxidant properties and can prevent the biochemical and structural changes associated with glycation in HSA, suggesting its potential use in managing health issues related to diabetes and other diseases.
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