completion
Sometimes these modifications can regulate where a protein is found in the cellfor example, in the nucleus, the cytoplasm, or attached to the plasma membrane. Chemical modifications occur in response to external stimuli such as stress, the lack of nutrients, heat, or ultraviolet light exposure. These changes can alter epigenetic accessibility, transcription, mRNA stability, or translationall resulting in changes in expression of various genes. This is an efficient way for the cell to rapidly change the levels of specific proteins in response to the environment. Because proteins are involved in every stage of gene regulation, the phosphorylation of a protein depending on the protein that is modified can alter accessibility to the chromosome, can alter translation by altering transcription factor binding or function , can change nuclear shuttling by influencing modifications to the nuclear pore complex , can alter RNA stability by binding or not binding to the RNA to regulate its stability , can modify translation increase or decrease , or can change post-translational modifications add or remove phosphates or other chemical modifications . The addition of an ubiquitin group to a protein marks that protein for degradation. Ubiquitin acts like a flag indicating that the protein lifespan is complete. These proteins are moved to the proteasome, an organelle that functions to remove proteins, to be degraded Figure 16.14 . One way to control gene expression, therefore, is to alter the longevity of the protein.