![]() ![]() This is fueled by a great variability of powerful chromatographic instruments currently available, with very high sensitivity, resolution, and identification capacity, that provide a strong basis for an analytical platform able to support the challenging demands of the postgenomic and post COVID-19 eras. From the life sciences, which allowed us to identify endogenous metabolites relevant to disease mechanisms, to the OMICS field, nanotechnology, clinical and forensic analysis, drug discovery, environment, and “foodprint”, among others, the wide range of applications of today’s chromatographic techniques is impressive. Chromatography boosted a comprehensive and deeper understanding of the complexity and diversity of human–environment interactions and systems, how these interactions affect our life, and the several societal challenges we are currently facing, namely those related to the sustainability of our planet and the future generations. ![]() The intent of this article is to compile a list of tools and information resources used by scientists to treat information from the massive sequencing of recent platforms to new generations and the applications of this information in different areas of life sciences including medicine.Ĭhromatography was born approximately one century ago and has undergone outstanding technological improvements in innovation, research, and development since then that has made it fundamental to advances in knowledge at different levels, with a relevant impact on the well-being and health of individuals. Recently, sequencing platforms, a large scale of genomes and transcriptomes, have created new challenges not only to the genomics but especially for bioinformatics. The goal is to provide scientists with the right means to explain normal biological processes, dysfunctions of these processes which give rise to disease and approaches that allow the discovery of new medical cures. All this work produces an “ocean” of information that can only be “sailed” with the help of computerized methods. ![]() Bioinformatics combines the methods used in the collection, storage, identification, analysis, and correlation of this huge and complex information. Looking for drafting your winning cover letter? See our sample Molecular Biologist Cover Letter.While we have a basic understanding of the functioning of the gene when coding sequences of specific proteins, we feel the lack of information on the role that DNA has on specific diseases or functions of thousands of proteins that are produced. A college degree in life science with majors in molecular biology will enable me to gain this job, however, possessing a mater’s qualification will be useful for the majority of opportunities. To excel in this career, the Biologists need the following skill sets – hands-on knowledge and experience with laboratory support and operations the ability to adhere to safety precautions, inventory management skills quality control and assurance knowledge, and multitasking skills. Typical work activities that are listed on the Molecular Biologist Resume are – developing new methods for diagnosing and treating diseases detecting and identifying environmental pollutants conducting continued testing of new crops and other products examining the sequence of DNA compiling data on research conducted, designing and executing experiments growing bacteria to identify product effectiveness, and translating research into technology. A Molecular Biologist studies biochemical processes within the living cells of people, plants, animals, and other living organisms. ![]()
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