Biochemistry and molecular biology are two of the most fundamental sciences in the modern era. Both are branches of science that investigate and study the structure and function of living organisms, from the biological molecular level to the cellular level. Biochemistry is the study of the chemistry of life. It examines the structure and function of complex molecules and chemical interactions between various biological components. Biochemists work to identify, synthesize, and characterize biomolecules. Through their research, biochemists are able to unlock secrets of life and gain insight into the causes of diseases. Molecular biology is the study of the structure and behavior of genes, proteins, and other molecules. It focuses on the basic interactions between molecules in different biological processes. This includes the function of proteins in controlling gene expression and the role of our genetic code in controlling the development of organisms. Molecular biologists often work in laboratories using advanced techniques and technologies to investigate molecular systems and uncover hidden relationships within them. Together, biochemistry and molecular biology allow us to understand the development and regulation of living organisms. The knowledge gained from the application of these fields can be applied to medicine, agriculture, and other areas of biological research and technology. This knowledge has helped uncover the mysteries of the human body and the process of diseases. It has also allowed us to identify, manipulate, and create new materials and organisms, revolutionizing the way we view the world.
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 : Atypical presentation of Juvenile myoclonic epilepsy in a 16-year-old female: A case report
George Diaz, Memorial Healthcare Systems, United States
Title : Triple-network dysfunction, ME/CFS, and the NeuroPhysics Treatment Process “A dynamical systems perspective on psychophysical organization and environmental interaction”
Ken Ware, NeuroPhysics Therapy Institute and Research Centre, Australia
Title : In silico in vitro and in vivo study of geraniol role in Alzheimer's disease
Bhuvanesh Baniya, Mohanlal Sukhadia University, India
Title : Prince transform: a wave-mechanical framework for real-time EEG analysis and early seizure prediction using chirp and drift detection
Mustafa A Khan, Sevaro Health Inc., United States
Title : Gut-brain axis in autism spectrum disorder: MicroRNAs as a critical mediator of pathogenesis
Rahem Rahmati, Shahrekord University of Medical Sciences, Iran (Islamic Republic of)