What is the difference between genomic and proteomics?
Genomics and proteomics are closely related scientific fields. One is focused on studying genome, a set of inherited material found in each cell of the body. The second is the study of proteins and protein, collection of individual proteins in the cells and the whole body. Understanding one is generally required for the other, but they are two different study fields. Genom is a catalog of cards, a list of everything that should be in the library. Proteom is the actual content of the library. Scientists who study genome are interested in seeing the qualities for which genome codes, understanding the task of DNA, which does not seem to coded anything like cards referring to long -lost books and books that have been checked, and looking at how the characteristics are inherited.
people who study proteomics are interested in togenoma actually expresses in the body. They look at how proteins are formed, what disrupts the production of proteins, how protein variants are formed, and related matters. Genomics and proteomics are certainly connected because the genome of the postsTies plans for proteom. Protein mapping and research provides scientists with information on how the same gene can express differently in different individuals, and also adds insight and understanding to scientists who are interested in how proteins behave in the body.
Genomics and proteomics require extensive scientific education. Many people working in both fields have advanced titles and spend most of their time in the laboratory. Their work can also be applied to fields such as pharmacology and medicine, where people report information they collect in the laboratory into the real world, in the field. There are many shared intestues between scientists in genomic and proteomics.
Early education for both fields tends to be similar, because people have to learn the same basic basics whether they intend to unravel the mysteries of genome or learn more about the structure of proteins. When people enter more advanced studies, their work begins ifT and enters different areas of study. Researchers of genomics and proteomics may end up in different laboratories and environments and apply their research in different ways; For example, a researcher of genomic can identify DNA coding sequence for expression of a particular protein, and a research worker of proteomics can shed light on what this protein does.