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Many metabolic processes involve condensation reactions, a type of reaction forming new bonds that produces water as a "waste product".
No, but there are many similarities between all cells.
Firstly there is more than one metabolic reaction, the term simply means pathways of reaction that build up and/or breakdown complex molecules. So all cells have many metabolic pathways each with many reactions and many waste products. For this reason the question is unanswerable.
A cell maintains metabolic disequilibrium in many ways. The most renowned of these is, the cell uses the energy from anabolic pathways to drive catabolic pathways
The cytoplasm is the site where most cellular activities occur, such as many metabolic pathways like glycolysis, and processes such as cell division.
Cells such as liver cells, sperm cells and muscle cells have more mitochondria. This is because they are more metabolically active and need a plentiful supply of ATP (adenosine triphosphate) for metabolic processes. For example, many chemical processes occur in liver cells and sperm cells are known for movement.
Many metabolic processes involve condensation reactions, a type of reaction forming new bonds that produces water as a "waste product".
D: all of the above Glycolysis, electron transport, and the Krebs Cycle
No, but there are many similarities between all cells.
The cytoplasm is the site where most cellular activities occur, such as many metabolic pathways, and processes such as cell division.
There are many things that people would believe that refers to all the life processes of the body. The processes of the body could be human development, biology, physiology, and metabolic processes.
Firstly there is more than one metabolic reaction, the term simply means pathways of reaction that build up and/or breakdown complex molecules. So all cells have many metabolic pathways each with many reactions and many waste products. For this reason the question is unanswerable.
Mitochondria produce ATP, which is a form of energy to help with many processes. Mitochondrion is the singular version.
As an animal, you need eukaryotic cells rather than plant cells to perform many of the functions that differentiate animals from plants. One example is that eukaryotic cells have mitochondria rather than chloroplasts. This allows eukaryotes (you) to synthesize metabolic products from a variety of heterotrophically-obtained molecules instead of using autotrophic processes.
The definition of the word liver is "a large lobed glandular organ in the abdomen of vertebrates, involved in many metabolic processes."
Enzymes act as a catalyst in biochemical reactions. Hence they are the key players of all the reactions that occurs in cells, such as metabolic conversions, synthesis and degradation of biomolecules and so on.
Both types of compounds are involved in the many life processes that occur in living cells.