The Krebs Cycle
Matt Johnson explains the Krebs Cycle, its discovery by a University of Sheffield Nobel Prize winner and its role in endurance sports such as cycling.
More details | Watch nowIs there life in your PC?
Telomeres: Telling Tails
Telomeres protect chromosome ends and help stabilize the genome. Throughout human life and in aging, telomeres often erode down, eventually causing cells to malfunction or die. The highly regulated cellular enzyme telomerase adds telomeric DNA to tel....
More details | Watch nowThe Killer Defence
Immune surveillance by virus-specific CD8+ cytotoxic T lymphocytes (CTLs), or killer T cells, has long been known to be central to the control of acute infections and some cancers, though the role of CTL memory in the rapid recall of immune protectio....
More details | Watch nowMinimizing a Bacterial Genome by Global Design and Synthesis
In 2010, we chemically synthesized the 1078 Kb Mycoplasma mycoides genome and transplanted it into a recipient cell cytoplasm to create a 'synthetic cell', JCVI-syn1.0 (Science, 329, 52-56, 2010). We identified several hundred non-essential genes by ....
More details | Watch nowRole of Nitric Oxide and Cyclic GMP in Cell Signaling and Drug Development
Nitric oxide research has grown rapidly with about 150,000 research publications describing its biological effects. It is an important messenger molecule that affects most tissues and biological processes. Many effects of nitric oxide are mediated by....
More details | Watch nowIon Channels: Their Discovery, their Function and their Role in Diseases
The concept of bioelectricity emerged in the late 18th century, based on the experiments of Galvani and Volta. Sixty years ago, Hodgkin and Huxley showed that the nerve impulse is a result of permeability changes of the nerve membrane. This raised th....
More details | Watch nowThe Origins of Cellular Life
The complexity of modern biological life has long made it difficult to understand how life could emerge spontaneously from the chemistry of the early earth. We are attempting to synthesize simple artificial cells in order to discover plausible pathwa....
More details | Watch nowThe Origin of Reversible Protein Phosphorylation as a Regulatory Mechanism
Reversible protein phosphorylation can be considered one of the most prevalent mechanism by which eukaryotic cellular events are regulated. It is directly involved in numerous pathological conditions, and bacterial and viral diseases. This process wa....
More details | Watch nowA Crime against Humanity
When Monsanto first tried to introduce GMO seeds into Europe there was a backlash by the Green parties and their political allies, who feared that American agro-business was about to take over their food supply. Thus began a massive campaign not agai....
More details | Watch nowFinding Mutations that Affect Immunity
Beginning with an exception to normal function caused by a genetic aberration, one may hope to find at least one protein with non-redundant function in a certain biological process. This approach permitted the identification of the receptor for bacte....
More details | Watch nowInsight into the Laws of Nature for Biological Evolution
Both evolutionary biology and genetics have their roots 150 years ago in work with phenotypic variants of plants and animals. In contrast, microbial genetics originating as recently as the 1940s, rapidly revealed that filamentous DNA molecules are th....
More details | Watch nowFrom Proto-oncogenes to Precision Oncology
The diagnosis, classification, and treatment of human cancers are being transformed by scientific discoveries that were strongly influenced by the discovery of the c-src proto-oncogene, as described in the lecture by Michael Bishop. The path to this ....
More details | Watch nowTickling Worms – Surprises from Basic Research
Research, at least my research, has never been linear. I have found that my lab and I often double back on problems after years of inactivity or go off in entirely new directions as dictated by the work and people's interests This lack of direction r....
More details | Watch nowHow to Model the Action of Complex Biological Systems on a Molecular Level
Despite the enormous advances in structural studies of biological systems we are frequently left without a clear structure function correlation and cannot fully describe how different systems actually work. This introduces a major challenge for compu....
More details | Watch nowPhysical perspective on cytoplasmic streaming
Professor Ray Goldstein FRS is the Schlumberger Professor of Complex Physical Systems at the University of Cambridge. Here he describes a biological example of topological inversion, with relevance to engineering problems in human technology.
More details | Watch nowCuckoos and their victims
The sight of a little warbler feeding an enormous cuckoo chick has astonished observers since ancient times. It was once thought that cuckoos were unable to raise their own young because of defective anatomy and behaviour, and so other birds were onl....
More details | Watch nowThe Science of Chillies
Can the wheat which grows in dry areas solve the food crisis?
Chiho describes her important work in looking for varieties of wheat which could help increase food production in arid areas.
More details | Watch nowGrowing gold-banded lilies with fungi
Tomoha describes her work in helping preserve this threatened species of plant.
More details | Watch nowWheat gets over global warming.
Nao describes her work in investigating the ways in which wheat can be made to cope with the higher temperatures expected from global warming.
More details | Watch nowSoil Recovery by Re-use
Aki decribes her experiments in improving soils using various buffering materials.
More details | Watch nowStream affect barnacles shell direction
An interesting look at how the direction of water flow affects shell growth in barnacles.
More details | Watch now