Comparison of the change in BMI for a given height and varying weights.
A dramatic illustration of how hearing happens in the ear.
An overview of how dietary fat gets digested, packaged, and sent to various tissues for storage or energy.
A timeline illustrating the gradual effects of obesity on the body, including diabetes, atherosclerosis, and heart attack.
The job of the human heart—in fact of all vertebrate hearts—is to pump oxygenated blood throughout the cells of the body and to return deoxygenated blood to lungs or gills for replenishment.
The lactase enzyme is produced in the small intestine of infants. It digests lactose by breaking it into glucose and galactose.
Dr. Rosenthal uses a model of a heart and an artery to describe how blockages lead to heart attack and tissue damage.
What do humans, flies, and worms have in common? More than you might think. See how transgenic organisms are engineered, and how they enable researchers to study genetic diseases.
Venomous carniverous cone snails are a rich source of molecules for scientific research and potential drug development.
Cone snails have evolved many different toxins for different uses. Total molecular biodiversity may number in the millions.
How a nerve cell gets its identity, sends axons, and makes connections with other cells.
Understanding the neural circuits in the spinal cord that control movement.
The cellular and molecular nature of learning and memory, investigated in simpler sea slugs and more-complex mice.
In four talks, A. James Hudspeth, MD, PhD, and Jeremy H. Nathans, MD, PhD, discuss how sensory information is encoded and transmitted to the brain. They describe the detailed workings of two senses of great importance to humans—vision and hearing.
Dr. Hudspeth will begin by discussing how simple organisms—such as bacteria—have the capacity to detect and react to a stimulus.
Dr. Nathans will discuss how the visual process involves the detection of light by photo-receptors in the retina.
Dr. Hudspeth will explain the basis for the ear’s remarkable ability to detect sound through the hair cell, the sensory receptor found in the inner ear.
Dr. Nathans will complete the lecture series by clarifying what is known about the brain’s ability to process and integrate various elements of the visual system, such as color, motion, and depth.
Finding factors to reverse age-related loss of cell maintenance, and some examples of stem cell therapies.
Dr. Evans describes how fat communicates with muscle and how diet and exercise influence that relationship.
Dr. Evans reviews how PPARs regulate body weight by controlling whether fat is burned or stored.
A Q&A session on obesity and related issues, with the lecturers and students attending the Holiday Lectures on Science.
In four lectures, Richard P. Lifton, MD, PhD, and Christine E. Seidman, MD, discuss their groundbreaking work in using genetic and molecular approaches to understand cardiovascular diseases.
The heart acts as a dual pump, sending oxygen-depleted blood to the lungs to be reinvigorated and pumping oxygen-rich blood to vital organs throughout the body.
Molecular genetic approaches have identified genes that, when mutated, cause either increased or decreased blood pressure.