The answer is Proteomics.
<u>Proteomics</u> is a discipline of study that involves an examination of proteins and how the proteins encoded by genes interact to produce cell and tissue types.
What is Proteomics?
The extensive study of proteomes is known as proteomics. An organism, system, or biological setting produces a set of proteins known as a proteome. We might speak of an organ or a species' proteome (like that of Homo sapiens) (for example, the liver). The proteome is dynamic; it varies from cell to cell and alterations occur over time. The underlying transcriptome is somewhat reflected in the proteome. However, in addition to the relevant gene's expression level, a number of other factors also affect protein activity, which is frequently measured by the rate at which the processes in which the protein is engaged react.
Proteomics is employed to look into:
- When and where do proteins expressed.
- rates of protein synthesis, degradation, and abundance at steady state.
- how proteins are altered, for as by phosphorylation and other post-translational modifications (PTMs).
- the transfer of proteins among subcellular spaces.
- protein involvement in metabolic processes.
- what interactions proteins have with one another.
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Chromatids pull towards opposite poles of the cell
Since you did not give choice to your question, I'll give you a brief information relative to the topic above.
An analysis of the DNA sequence of
an organism will most probably r<span>esult in a change to a current classification of an organism.
>>></span>DNA<span> analysis is o</span><span>ne of the new reasons why organisms/species are being re-evaluated </span>. Basic genetic<span> analysis information can change our ideas of how closely two organisms/species are closely related thus, their classification can change.</span>
