1 General Medical Backgrounds
2 Clinical Pharmacology of Drugs Used in the Treatment of Patients with Peptic Ulcer
3 Theoretical Backgrounds of the Necessarity for the Changes of Paradigm in Our Ulcer Research
4 General Biochemical Methods to be Used in Gastrointestinal Mucosa in Animal Experiments and in Human Observations Done on Gastrointestinal Resecates (after Surgical Interventions)
5 Membrane-Bound Atp-Dependent Energy System (A Short Historic View from Their Discoveries up to Now)
6 Actual Positions in the Research of Membrane-bound ATPdependent ATP-ase Systems in the World in the Different Tissues and Gastrointestinal Mucosa (in 1968-69)
7 Biochemical Examination of the Human Gastrointestinal Tract
8 Animal Models Used to Study the Different Mechanisms Involved in the Gastric Mucosal Damage and in the Protection
9 Direct Action of Helicobacter pylori on the Freshly Isolated Rat Gastric Mucosa Cells (GMCs)
10 Studies on the Stable Cell Lines (Gastric Cancer, Hepatoma, Colorectal Cancer, Mouse Myeloma)
Thus, cells rely on other mechanisms to supply ATP to support cell work, which involves the store of energy in more complex molecules such as glycogen and triacylglycerols, and more importantly, having a sensitive control system to rapidly increase metabolism during times of energy (ATP) demand.
Atp resynthesis energy systems Coursework Service
The human body is also capable of resynthesising ATP to allow it to continue producing energy. To do this it must use energy to reverse the equation shown above. This is known as an endothermic reaction as it requires energy. The breakdown of ATP is called exothermic as it produces energy. The process of breaking down and resynthesising ATP is efficient at producing energy as less energy is required to resynthesis the ATP than is made to break it down. Here is the Resynthesis equation:
This is an Anatomy and Kinesiology, not Physiology class
There are two energy systems used in during the process of respiration. Aerobic Respiration, meaning 'with oxygen' which is used for long-term, steady paced exercise and day-to-day activities and Anaerobic Respiration or 'without oxygen' which produces fast bursts of energy for short, powerful bursts. The Anaerobic system can be divided into two further systems, ATP-PC and Lactic acid. All energy systems work together, but the intensity and type of activity will determine which system is predominant.
Cofactor (biochemistry) - Wikipedia
The aerobic energy system utilises proteins, fats and carbohydrate (glycogen) for resynthesising ATP. This energy system can be developed with various intensity (Tempo) runs.
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Anaerobic Capacity refers to the body's ability to regenerate ATP using the glycolytic system and Anaerobic Power refers to the body's ability to regenerate ATP using the phosphagen system. These energy systems can be developed with appropriate sessions.
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Glycolysis involves several more reactions than any component of the phosphagen system, slightly decreasing the maximal rate of ATP regeneration ( Figure 5 ).