Glycogenesis is anabolic

Research has shown that individuals with type 2 diabetes have lower blood levels of chromium than those without the disease.[38] Primalog contains chromium in the form of chromium nicotinate glycinate chelate as opposed to the well-known chromium picolinate. The reason for using this particular form is that the chromium contained in Primalog is bound to niacin, and research shows that it’s 18x more bioactive than other types of chromium .[40] In fact, some animal studies show it’s absorbed and retained 600% more than chromium chloride and 300% more than the frequently used common chromium picolinate![41]

As we age, the balance slowly shifts towards a more catabolic dominant metabolism, initiating the many physical and energetic changes we associate with later stages of life. The body becomes less efficient, losing the ability to keep pace with the rate of break down that is occurring. This shift results in decreased energy levels, physical deterioration, increased susceptibility to illness and injury, and longer recovery times. While this is a natural process that everyone experiences, the choices we make over the course of our lives can greatly improve our body’s ability to age gracefully. A healthy lifestyle that includes proper diet, regular exercise, and good rest is essential.

In human beings, PEP carboxykinase is equally distributed in both location and thus either oxaloacetate or PEP formed inside the matrix of mitochondria must be transported out into the cytosol. The transport of oxaloacetate requires shuttle system. It is converted either into malate catalyzed by malate dehydrogenase or into aspartate catalyzed by aspartate aminotransferase in the matrix before being transported out of the matrix into the cytosol through their respective transporter. In the cytosol, malate or aspartate is converted back into the oxaloacetate catalyzed by cytosolic isoenzymes and then oxaloacetate is converted into the phosphoenolpyruvate catalyzed by PEP carboxykinase.

Anabolic processes tend toward "building up" organs and tissues . These processes produce growth and differentiation of cells and increase in body size, a process that involves synthesis of complex molecules . Examples of anabolic processes include the growth and mineralization of bone and increases in muscle mass. Endocrinologists have traditionally classified hormones as anabolic or catabolic, depending on which part of metabolism they stimulate. The classic anabolic hormones are the anabolic steroids , which stimulate protein synthesis, muscle growth, and insulin . [3] The balance between anabolism and catabolism is also regulated by circadian rhythms , with processes such as glucose metabolism fluctuating to match an animal's normal periods of activity throughout the day. [4]

Glycogenesis is anabolic

glycogenesis is anabolic

Anabolic processes tend toward "building up" organs and tissues . These processes produce growth and differentiation of cells and increase in body size, a process that involves synthesis of complex molecules . Examples of anabolic processes include the growth and mineralization of bone and increases in muscle mass. Endocrinologists have traditionally classified hormones as anabolic or catabolic, depending on which part of metabolism they stimulate. The classic anabolic hormones are the anabolic steroids , which stimulate protein synthesis, muscle growth, and insulin . [3] The balance between anabolism and catabolism is also regulated by circadian rhythms , with processes such as glucose metabolism fluctuating to match an animal's normal periods of activity throughout the day. [4]

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