%0 Journal Article %T Advancing molecular understanding in high moisture extrusion for plant-based meat analogs: Challenges and perspectives. %A Zhang X %A Shen A %A Zhang Z %A Zhang T %A Jiang L %A Zhou W %A Zhang Y %A Sui X %J Food Chem %V 460 %N 0 %D 2024 Dec 1 %M 39029364 %F 9.231 %R 10.1016/j.foodchem.2024.140458 %X In recent years, meat analogs based on plant proteins have received increasing attention. However, the process of high moisture extrusion (HME), the method for their preparation, has not been thoroughly explored, particularly in terms of elucidating the complex interactions that occur during extrusion, which remain challenging. These interactions arise from the various ingredients added during HME, including proteins, starches, edible gums, dietary fibers, lipids, and enzymes. These ingredients undergo intricate conformational changes and interactions under extreme conditions of high temperature, pressure, and shear, ultimately forming the fibrous structure of meat analogs. This review offers a overview of these ingredients and the molecular interaction changes they undergo during the extrusion process. Additionally, it delves into the major molecular interactions such as disulfide bonding, hydrogen bonding, and hydrophobic interactions, providing detailed insights into each.