Abstract
Water is an abundant commodity and has various important functions. It stabilizes the structure of biological macromolecules, controls biochemical activities, and regulates interfacial/intermolecular interactions. Common aspects of interfacial water can be obtained by overviewing fundamental functions and properties at different temporal and spatial scales. It is important to understand the hydrogen bonding and structural properties of water and to evaluate the individual molecular species having different hydration properties. Water molecules form hydrogen bonds with biomolecules and contribute to the adjustment of their properties, such as surface charge, hydrophilicity, and structural flexibility. In this review, the fundamental properties of water molecules and the methods used for the analyses of water dynamics are summarized. In particular, the interrelation between the hydration properties, determined by molecules, and the properties of molecules, determined by their hydration properties, are discussed using the lipid membrane as an example. Accordingly, interesting water functions are introduced that provide beneficial information in the fields of biochemistry, medicine, and food chemistry.
Highlights
Water is an abundant and interesting molecule that has various functions in biological systems
In the case of agar hydrogels often used as edible polymers, their stiffness can contribute as a determinant of taste, wherein the hydration state is a considerable factor that determines the sponge structure of the formed hydrogel
E sum-frequency generation (SFG) vibrational spectroscopy can observe an asymmetric molecular fraction in the vicinity of the interface [48]. It is mainly used for analyzing the hydration state to the lipid membrane at an airwater interface [43], and it is applied to monitor the direction at which the water molecules orient themselves around the lipid head group (H-up, H-down) [49, 50]
Summary
Water is an abundant and interesting molecule that has various functions in biological systems. E biological interfaces, e.g., the surfaces of proteins, nucleic acids, and lipid membranes, are usually in well-hydrated states, and the properties of interfacial water have been attracting the interest of researchers for years [2,3,4,5]. The hydration properties of food are complicated, the hydration water layer of each component (proteins, nucleic acids, membranes, and other small molecules) is still relevant from the viewpoints of chemistry, biology, medicinal chemistry, and so on (Figure 1). E understanding of the hydration properties is essential for food materials from the viewpoint of the structural stability and function of each component, including the lipid membranes. Most of the water properties are investigated to relate to the D-structure, whereas there are few measurement methods relevant to the V-structure. e evaluation of the hydration water behaviors can be dependent on the measurement method in accordance with the characteristics of the target water
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