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Dietary Connections01:23

Dietary Connections

61.1K
In biological systems, most metabolic pathways are interconnected. The cellular respiration processes that convert glucose to ATP—such as glycolysis, pyruvate oxidation, and the citric acid cycle—tie into those that break down other organic compounds. As a result, various foods—from apples to cheese to guacamole—end up as ATP. In addition to carbohydrates, food also contains proteins and lipids—such as cholesterol and fats. All of these organic compounds are used...
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What is Glycolysis?00:56

What is Glycolysis?

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Overview
Cells make energy by breaking down macromolecules. Cellular respiration is the biochemical process that converts "food energy" (from the chemical bonds of macromolecules) into chemical energy in the form of adenosine triphosphate (ATP). The first step of this tightly regulated and intricate process is glycolysis. The word glycolysis originates from the Latin glyco (sugar) and lysis (breakdown). Glycolysis serves two main intracellular functions: generating ATP and generating...
175.1K
Glucose Homeostasis: Pancreatic Islets and Insulin Secretion01:27

Glucose Homeostasis: Pancreatic Islets and Insulin Secretion

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The pancreatic islets comprising only 1%-2% of the volume are highly vascularized and innervated mini-organs. They contain five endocrine cell types, including β cells that secrete insulin, which is synthesized as a single polypeptide chain, preproinsulin, processed to proinsulin, and finally to insulin and C-peptide. This process is complex and regulated, involving the Golgi complex, the endoplasmic reticulum, and the secretory granules of the β cell.
Insulin and C-peptide are...
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Chemistry of Carbohydrates03:25

Chemistry of Carbohydrates

88.2K
Carbohydrates are an essential part of the diet in humans and animals. Grains, fruits, and vegetables are natural sources of carbohydrates that provide energy to the body, particularly through glucose, a simple sugar that is a component of starch and an ingredient in many staple foods. The stoichiometric formula (CH2O)n, where n is the number of carbons in the molecule represents carbohydrates. In other words, the ratio of carbon to hydrogen to oxygen is 1:2:1 in carbohydrate molecules. This...
88.2K
Glucose Transporters01:27

Glucose Transporters

26.9K
Glucose transporters facilitate the transport of glucose across the cell membrane. In addition to glucose, some glucose transporters can also aid the movement of other hexoses such as fructose, mannose, and galactose.
Facilitated diffusion-glucose transporters (GLUTs) are encoded by the solute-linked carrier (SLC) family 2, subfamily A gene family, or SLC2A. The 14 GLUT protein members are distributed into three classes:
26.9K
Glycolysis: Preparatory Phase01:21

Glycolysis: Preparatory Phase

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In cellular metabolism (the complete breakdown of glucose to extract energy),  glycolysis is the first step. Glycolysis takes place in the cytoplasm of both prokaryotic and eukaryotic cells. Glucose enters heterotrophic cells in two ways. One method is through secondary active transport, where the transport takes place against the glucose concentration gradient. The other mechanism uses a group of integral proteins called GLUT proteins, also known as glucose transporter proteins. These...
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Updated: Dec 12, 2025

Preparation of Binary and Ternary Deep Eutectic Systems
06:15

Preparation of Binary and Ternary Deep Eutectic Systems

Published on: October 31, 2019

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Structure and properties of two glucose-based deep eutectic systems.

Fernando Bergua1, Ignacio Delso2, José Muñoz-Embid1

  • 1Departamento de Química Física, Instituto Agroalimentario de Aragón-IA2 (Universidad de Zaragoza-CITA), Zaragoza, Spain.

Food Chemistry
|August 9, 2020
PubMed
Summary
This summary is machine-generated.

Researchers explored eco-friendly deep eutectic solvents (DESs) for industrial use. They found d-glucose:choline chloride:water (GCH) DES exhibited a more compact structure and enhanced quercetin solubility compared to water.

Keywords:
Choline chlorideCitric acidGlucoseQuercetinSolubilityThermophysical properties

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Area of Science:

  • Green Chemistry
  • Materials Science
  • Physical Chemistry

Background:

  • Growing industrialization necessitates environmentally benign solvents.
  • Deep eutectic solvents (DESs) offer sustainable alternatives but require detailed characterization.
  • Understanding DES molecular organization and thermophysical properties is crucial for industrial application.

Purpose of the Study:

  • To characterize two d-glucose-based deep eutectic solvents (DESs): d-glucose:choline chloride:water (GCH) and d-glucose:citric acid:water (GCiH).
  • To investigate the supramolecular structure, role of water, and diffusion coefficients using NMR.
  • To evaluate key thermophysical properties and determine the solubility of quercetin in these DESs.

Main Methods:

  • Nuclear Magnetic Resonance (NMR) spectroscopy for supramolecular structure analysis and diffusion coefficient calculation.
  • Comprehensive evaluation of seven thermophysical properties across various temperatures.
  • Quercetin solubility measurements in the synthesized DESs and water.

Main Results:

  • NMR analysis revealed a robust supramolecular structure in GCH and a significant presence of β-glucose in both DESs.
  • Thermophysical property evaluation indicated that the choline chloride-containing DES (GCH) possesses a more compact fluid structure.
  • Quercetin solubility was significantly higher in both GCH and GCiH DESs compared to water, with GCH showing the greatest enhancement.

Conclusions:

  • The characterized DESs, particularly GCH, demonstrate promising properties for potential industrial applications.
  • The findings contribute to a deeper understanding of DES molecular interactions and their influence on physical properties.
  • Enhanced solubility of quercetin suggests these DESs could be effective in extraction or formulation processes.