[1]
Khan, M.Y.; Alouffi, S. Ahmad. Immunochemical studies on native and glycated LDL–An approach to uncover the structural perturbations. Int. Biol. Macromol., 2018, 115, 287-299.
[2]
Ahmad, S.; Siddiqui, Z.; Rehman, S.; Khan, M.Y.; Khan, H.; Khanum, S.; Alouffi, S.; Saeed, M. A glycation angle to look into the diabetic vasculopathy: cause and cure. Curr. Vas. Pharmacol., 2017, 15(4), 352-364.
[3]
Rehman, S.; Faisal, M.; Alatar, A.A.; Ahmad, S. Physico-chemical changes induced in serum proteins, Immunoglobulin-G and Fibrinogen by reactive carbonyl species, Methylglyoxal. Curr. Protein Pept. Sci., 2019, 20, 1-10.
[4]
Ahmad, S.; Khan, H.; Shahab, U.; Rehman, S.; Rafi, Z.; Khan, M.Y.; Ansari, A.; Siddiqui, Z.; Ashraf, J.M.; Abdullah, S.M.; Habib, S. Protein oxidation: an overview of metabolism of sulphur containing amino acid, cysteine. Front. Biosci. (Schol. Ed.), 2017, 9, 71-87.
[5]
Ahmad, S.; Khan, H.; Siddiqui, Z.; Khan, M.Y.; Rehman, S.; Shahab, U.; Godovikova, T.; Silnikov, V. AGEs, RAGEs and s-RAGE; friend or foe for cancer. Semin. Cancer Biol., 2018, 49, 44-55.
[6]
Ahmad, S.; Khan, M.Y.; Rafi, Z.; Khan, H.; Siddiqui, Z.; Rehman, S.; Shahab, U.; Khan, M.S.; Saeed, M.; Alouffi, S.; Khan, M.S. Oxidation, glycation and glycoxidation—the vicious cycle and lung cancer. Semin. Cancer Biol., 2018, 49, 44-55.
[7]
Ahmad, S.; Khan, M.S.; Akhter, F.; Khan, M.S.; Khan, A.; Ashraf, J.M.; Pandey, R.P.; Shahab, U. Glycoxidation of biological macromolecules: a critical approach to halt the menace of glycation. Glycobiology, 2014, 24(11), 979-990.
[8]
Saeed, M.; Kausar, M.A.; Singh, R.; Siddiqui, A.; Akhter, A. The role of glyoxalase in glycation and carbonyl stress induced metabolic disorders. Curr. Protein Pept. Sci., 2020, 21(9), 845-859.
[9]
Khan, M.M. Badruddeen.; Mujahid, M.; Akhtar, J.; Khan, M.I.; Ahmad, U. An overview on stroke: mechanism, in vivo experimental models thereof and neuroprotective agents. Curr. Protein Pept. Sci., 2020, 21(9), 860-877.
[10]
Ahmad, K.; Shaikh, S.; Lee, E.J.; Le, Y-H.; Choi, I. Consequences of dicarbonyl stress on skeletal muscle proteins and in Type 2 diabetes. Curr. Protein Pept. Sci., 2020, 21(9), 878-889.
[11]
Alouffi, S.; Khan, M.W.A. Dicarbonyls generation, toxicities, detoxifications and potential roles in diabetes complications. Curr. Protein Pept. Sci., 2020, 21(9), 890-898.
[12]
Khanam, A.; Ahmad, S.; Husain, A.; Rehman, S.; Farooqui, A.; Yusuf, M. A Glycation and Antioxidants: Hand in glove of antiglycation and natural antioxidants. Curr. Protein Pept. Sci., 2020, 21(9), 899-915.
[13]
Rehman, R.; Faisal, M.; Alatar, A.A.; Ahmad, S. Physico-chemical changes induced in serum proteins, Immunoglobulin-G and Fibrinogen by reactive carbonyl species, Methylglyoxal. Curr. Protein Pept. Sci., 2020, 21(9), 916-923.
[14]
Rafi, Z.; Alouffi, S.; Khan, M.S.; Ahmad, S. 2′-Deoxyribose mediated glycation leads to alterations in BSA structure via generation of carbonyl species. Curr. Protein Pept. Sci., 2020, 21(9), 924-935.