Molecular biology is an area of biological science that studies the functions and structures of molecules that make up living organisms. It has had a profound impact on all aspects of the life sciences and many other scientific disciplines such as chemistry, genetics, pharmacology, and biochemistry. As a result, molecular biology has become an essential part of research in many different areas of biology. Recently, advances in molecular biology have enabled scientists to uncover new levels of complexity in the structure of molecules and to develop cutting-edge tools and methods to investigate their functions. The field of molecular biology has made it possible to identify the components of biological systems on a molecular level. For instance, the genomes of many organisms have been sequenced, and sophisticated computational algorithms have been developed to assist in deciphering the molecular processes involved in the generation and maintenance of the organism's genetic information. In addition, powerful tools such as gene editing and high-throughput sequencing have been developed that allow scientists to investigate and manipulate cellular systems in unprecedented ways. The ability to manipulate molecules at the sub-cellular level has led to breakthroughs in understanding and treating many diseases and to the promise of personalized medicine. For instance, CRISPR-Cas9 gene editing technology has been used to edit genes associated with genetic disorders. In addition, genomes are being used to develop drugs to target specific diseases, such as cancer, and to design therapeutic strategies that can be tailored to individual patients. At the same time, molecular biology has enabled the study of the diversity of living systems on a more global scale. For example, the sequencing of additional genomes allows us to compare the similarities and differences between them. In addition, studies of metabolic networks have revealed how complex systems of gene regulation can drive the growth and development of cells and organisms. Finally, molecular biology has enabled the development of transgenic organisms, such as bacteria with enhanced metabolic capabilities, that can be used to better understand and optimize metabolic processes.
Title : Perception and individuality in patient cases identifying the ongoing evolution of Myalgic Encephalomyelitis/Chronic Fatigue Syndrome (ME/CFS)
Ken Ware, NeuroPhysics Therapy Institute, Australia
Title : Narrative medicine: A communication therapy for the communication disorder of Functional Seizures (FS) [also known as Psychogenic Non-Epileptic Seizures (PNES)]
Robert B Slocum, University of Kentucky HealthCare, United States
Title : Personalized and Precision Medicine (PPM), as a unique healthcare model through biodesign-driven biotech and biopharma, translational applications, and neurology-related biomarketing to secure human healthcare and biosafety
Sergey Victorovich Suchkov, N. D. Zelinskii Institute for Organic Chemistry of the Russian Academy of Sciences, Russian Federation
Title : Neuro sensorium
Luiz Moutinho, University of Suffolk, United Kingdom
Title : GBF1 inhibition reduces amyloid-beta levels in viable human postmortem Alzheimer's disease cortical explant and cortical organoid models
Sean J Miller, Yale School of Medicine, United States
Title : Traumatic Spinal Cord Injuries (tSCI) - Are the radiologically based “advances” in the management of the injured spine evidence-based?
W S El Masri, Keele University, United Kingdom