Graduated students and experienced bioinformatists usually ask for how they can find jobs in real world, so first of all we need a short review to careers in bioinformatics.

Bioinformatics in the world scientific fields divide to two special part, it can be purely academic or can be combined with other sciences and applied to industrial products . Academic profession degree such as Professors specializing in bioinformatics are relatively new during previous decade, as widespread computer access was only available within the last 20 years to average researchers. However, most schools with prestigious biology programs are adding bioinformatics courses to their lists. Academic and researches , study a wide variety of applications for bioinformatics at universities. Studies range from computer modeling of organic reactions, to computational stimulating of proteins and toxins, to create a model of populations and evolution. The application of technology to biology is so diverse that most of them cannot be covered here in this short review.

Bioinformatics in industry, is revolutionizing and developing many processes and technologies. Consider the agricultural industry for example. It has taken botanists and plant science scientists and farmers centuries to develop the crops we have today with genetic engineering. They have previously done this by meticulously analyzing the crop, selecting varieties that faired the best, and reproducing only the best. Now, with bioinformatics science , computers can be trained with artificial intelligence to analyze the genome of particular plants, track millions of plants at a time, and predict which plants will be the best. Revolutions in artificial intelligence will aid and speed this process.

Bioinformatics create a new vision to The pharmaceutical industries. Not only do they need people to analyze and develop current drugs as drug discovery projects, but they need next level thinkers who can develop methods, software and technologies to predict the reactions certain drugs would cost. As computing power increases, the number and kinds of reactions which can be modeled increases dramatically. This could mean the end of animal testing that face lots of ethical issues and a new age of informed drug making with fast, secure and exact technologies. Other medical professions, including everything from doctors to biomedical device creators and developers. are also embracing technology. Patient care in hospitals in now tracked through methods developed in bioinformatics, and can greatly improve the monitoring provided by doctors and hospitals. Many advanced imaging procedures and electrical activity tests of the heart and brain require analysis through computers because of their complex nature and this will be able with computerized algorithms, software and tools that developed by bioinformatists.

as the first professions who can be employ in bioinformatics, epidemiology, still uses technology as much as possible today. The recognition and identification of many patterns of common diseases would still be a mystery if not for computer modeling. Using computers and data gathered in the field, epidemiologists work to understand disease outbreaks and how we can reduce our exposure to communicable diseases. Various software is designed to do everything from track the geographic location of outbreaks, to assessing possible risk factors for disease, all the way to tracking the organisms which cause disease and monitoring how they evolve with their molecular network modelling. This is done by the makers of the flu vaccine and corona virus 19 vaccine known as COVID 19 Vaccine, who every year adjust their formula based on the expected mutations to the influenza virus. Bioinformatics provides the basis for these estimations.

During this way, many population biologists track changes in a population over time using computers and specialized software. That will help them understand evolution and revolution in societies While this used to mean a scientist entered their observations into a spreadsheet and made a graph, it is now much more advanced. Scientists can measure and observe individual changes to a genome over time in a population using the advanced processing power of computers that today with Quantum technologies it happen in a blink of an eye. While macroevolution may take millions of years, microevolution happens every generation and scientists have now documented that with help from bioinformatics. On a larger scale, climate scientists use bioinformatics to make large calculations about the impact certain organism have on the environment. Thanks to bioinformatics analysis, we now know that a large majority of the oxygen we rely on comes from algae in the ocean. This science will keep increasing as technology advances and we are able to create more advanced models and process and collect more data and all of this process make bioinformatics careers from hospital to R&D section of biotechnology companies and pharmaceutical industries and this short review may guide you to how find a job in a long lists of job offers during job finding websites.