Scientific Background
Curriculum Vitae
Personal Profile: Jarl Endres M.S
A Ph.D. Microbiology & Immunology with a background in neuroscience possesses a unique interdisciplinary expertise that bridges the fields of pathology, molecular biology, and neuroscience. This individual has undergone extensive training in understanding the molecular mechanisms underlying neurological diseases, including neurodegenerative disorders, psychiatric conditions, and neurodevelopmental abnormalities. With a deep understanding of brain anatomy, physiology, and pathology, they investigate how genetic, molecular, and environmental factors contribute to the onset and progression of neurological disorders. Through cutting-edge research, advanced laboratory techniques, and innovative experimental approaches, they strive to uncover novel insights into disease mechanisms, identify diagnostic biomarkers, and develop targeted therapies to combat neurological disorders. Their interdisciplinary perspective allows them to integrate knowledge from pathology, neuroscience, and molecular biology to advance our understanding of brain health and disease. They are well-equipped to contribute to academic research, clinical diagnostics, drug discovery, and therapeutic development aimed at improving outcomes for individuals affected by neurological conditions.
Education
Colorado State University
B.S Neuroscience
A comprehensive understanding of the brain and nervous system. This interdisciplinary field combines elements of biology, psychology, chemistry, and other disciplines to explore the structure, function, and development of the brain, as well as its relationship to behavior, cognition, and disease.
Colorado State University
M.S Microbiology/Immunology
A Master of Science (M.S.) program in Microbiology, Immunology, with a focus in Synthetic Biology offers an interdisciplinary curriculum that integrates principles of molecular biology, microbiology, immunology, and bioengineering to explore the application of synthetic biology techniques in understanding and manipulating microbial and immune systems. Advanced topics such as genetic engineering, genome editing, synthetic gene circuits, and synthetic immunotherapy approaches. Proficiency in designing, constructing, and analyzing synthetic biological systems with applications in biotechnology, medicine, and beyond.
Undisclosed
Ph.D Microbiology & immunology (current candidate)​
A Doctor of Philosophy (Ph.D.) in Microbiology and Immunology with a focus on Synthetic Biology is an advanced research-oriented degree that combines the study of microorganisms, the immune system, and the engineering of biological systems. This program delves into genetic engineering techniques such as CRISPR-Cas for precise genome editing and metabolic pathway engineering to produce valuable biochemicals. It also involves developing novel therapeutics like engineered immune cells and synthetic vaccines, leveraging bioinformatics for modeling biological systems, and creating synthetic microbial communities for complex tasks like bioremediation. Students engage in cutting-edge research with broad applications in medicine, biotechnology, and environmental science, preparing them for careers in academia, industry, and government research institutions. This interdisciplinary field aims to understand and manipulate fundamental biological processes to develop innovative solutions to global challenges.