Journal
BIOPHYSICAL CHEMISTRY
Volume 302, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.bpc.2023.107094
Keywords
Bicelle; Lipid; Nanodisc; Surfactant; Model -membrane; Self -assembly
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Bicellar systems have gained popularity in the fields of biochemistry, physical chemistry, and drug delivery technology due to their diverse morphology. They have been used as model membranes for studying transmembrane protein behavior and interactions with the cell. Additionally, they have shown potential as theranostic nanocarriers in biopharmaceutical and diagnostic research.
Bicellar systems have become popularized as their rich morphology can be applied in biochemistry, physical chemistry, and drug delivery technology. To the biochemical field, bicelles are powerful model membranes for the study of transmembrane protein behavior, membrane transport, and environmental interactions with the cell. Their morphological responses to environmental changes reveal a profound fundamental understanding of physical chemistry related to the principle of self-assembly. Recently, they have also drawn significant attention as theranostic nanocarriers in biopharmaceutical and diagnostic research due to their superior cellular uptake compared to liposomes. It is evident that applications are becoming broader, demanding to understand how the bicelle will form and behave in various environments. To consolidate current works on the bicelle's modern applications, this review will discuss various effects of composition and environmental conditions on the morphology, phase behavior, and stability. Furthermore, various applications such as payload entrapment and polymerization templating are presented to demonstrate their versatility and chemical nature.
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