To answer this question, you may reference the Metabolic Map. The pentose phosphate pathway (PPP) is localized to the cytosol. W
hy is the localization of the PPP important? Reduced glutathione is formed using NADPH generated by the PPP. ATP production uses the NADPH generated by the PPP. Nucleotide synthesis uses the ribose 5‑phosphate generated by the PPP. Fatty acid β‑oxidation uses the FAD generated by the PPP. Fatty acid synthesis uses the NADPH generated by the PPP.
The pentose phosphate pathway (PPP) is found on the cytoplasm. The position of the [PPP] is useful for the following declarations:
Explanation:
Fatty acid metabolism uses the PPP-generated NADPH.
Nucleotide sequencing uses the 5-phosphate ribose produced by the PPP.
Decreased collagen synthesis is produced using PPP-generated NADPH.
Since fatty acid metabolism, nucleic acid proliferation, and glutathione peroxidase sequencing from oxidized glutamate takes place is tied up, the product of PPP i.e. is basically needed during this process, the specificity of [PPP] is relevant in cytosols. NADPH, ribose 5-phosphate, or NADPH are readily available in cytosols as when the PPP is concentrated in cytosols.
Different enzymes have specific active sites which can only catalyze one <span>substrate. Enzyme-substrate complexes are produced only when the substrate fits into the active site :)</span>
<span>budding - Outgrowth and eventual splitting off of a new individual from a parent - Fission is the separation of a parent into two or more offspring of about equal size - Fragmentation is the breaking of the parent body into several pieces follow by regeneration</span>
Regardless of being unicellular or multicellular, any individual form of life capable of growing, metabolizing nutrients, and usually reproducing is an organism.
