TY - JOUR
T1 - Investigating mechanism of sweetness intensity differences through dynamic analysis of sweetener–T1R2–membrane systems
AU - Miao, Yulu
AU - Ni, Hui
AU - Zhang, Xingyi
AU - Zhi, Fengdong
AU - Long, Xiang
AU - Yang, Xuepeng
AU - He, Xiao
AU - Zhang, Lujia
N1 - Publisher Copyright:
© 2021 Elsevier Ltd
PY - 2022/4/16
Y1 - 2022/4/16
N2 - Knowing the mechanism of action of sweet taste receptors is important for the design of new, healthy sweeteners. However, little is known about the structures and recognition mechanisms of these receptors. 28 sweeteners were assessed by molecular docking, and 8 typical sweeteners were chosen to construct sweetener–T1R2–membrane systems to analyze interactions between receptor and sweeteners. Natural sweeteners with low-intensity sweetness, such as fructose and xylitol, were released from the Venus flytrap domain at ∼30 ns, with displacements greater than 50 Å. In contrast, artificial neotame and advantame bound stably to the receptor, within 5 Å. Van der Waals interactions were significant in high-intensity sweetener systems, imparting an energy difference of over 15 kcal/mol between neotame (artificial sweetener) and fructose (natural). These results provide a deeper understanding of the mechanisms of sweetener function and offer a new direction for the design of sweeteners.
AB - Knowing the mechanism of action of sweet taste receptors is important for the design of new, healthy sweeteners. However, little is known about the structures and recognition mechanisms of these receptors. 28 sweeteners were assessed by molecular docking, and 8 typical sweeteners were chosen to construct sweetener–T1R2–membrane systems to analyze interactions between receptor and sweeteners. Natural sweeteners with low-intensity sweetness, such as fructose and xylitol, were released from the Venus flytrap domain at ∼30 ns, with displacements greater than 50 Å. In contrast, artificial neotame and advantame bound stably to the receptor, within 5 Å. Van der Waals interactions were significant in high-intensity sweetener systems, imparting an energy difference of over 15 kcal/mol between neotame (artificial sweetener) and fructose (natural). These results provide a deeper understanding of the mechanisms of sweetener function and offer a new direction for the design of sweeteners.
KW - Molecular dynamics simulation
KW - Sweetener intensity
KW - Sweetener–T1R2–membrane system
KW - Venus flytrap domain opening
UR - https://www.scopus.com/pages/publications/85121133392
U2 - 10.1016/j.foodchem.2021.131807
DO - 10.1016/j.foodchem.2021.131807
M3 - 文章
C2 - 34915374
AN - SCOPUS:85121133392
SN - 0308-8146
VL - 374
JO - Food Chemistry
JF - Food Chemistry
M1 - 131807
ER -