Tag: Evolutionary Biology

Children with a high genetic risk of developing type 1 diabetes have different gut microbiomes than children with a low risk, according to a new study from Linköping University in Sweden and the University of Florida in the US. The results published in the scientific journal Nature Communications suggest that genetic risk can shape an

Controlling mosquito-borne illnesses, such as Dengue or West Nile virus, has historically been difficult due to a lack of effective vaccines and concerns about the environmental impact of insecticides. Thus, scientists have turned to manipulating Wolbachia, a parasitic bacterium within mosquitoes, as a way to control the reproductive fitness of mosquito populations that transmit human

A tree’s growth is dependent on nutrients from the soil and water, as well as the microbes in, on, and around the roots. Similarly, a human’s health is shaped both by environmental factors and the body’s interactions with the microbiome, particularly in the gut. Genome sequences are critical for characterizing individual microbes and understanding their

One of the commonest causes of congenital disability, the Human Cytomegalovirus (HCMV), is less prone to mutation than previously thought, a finding which could help develop a successful vaccine, UCL researchers have found. HCMV, a DNA virus and type of herpes virus, is one of the world’s most common and widespread human infections, affecting between

Currently, the medicinal use of cannabinoids, extracted from cannabis, is a subject of debate around the world. In Switzerland, more and more people are advocating for increased research into cannabis. Today, tetrahydrocannabinol (THC) is used in the medical field to deal with certain types of pain, muscle cramps, dizziness and loss of appetite. However, it

Those pesky bees that come buzzing around on a muggy summer day are helping researchers reveal the genes responsible for social behaviors. A new study published this week found that the social lives of sweat bees — named for their attraction to perspiration — are linked to patterns of activity in specific genes, including ones

The genetic basis of lifespan determination is poorly understood. Most research has been done on short-lived animals, and it is unclear if these insights can be transferred to long-lived mammals like humans. By comparing genes of long- and short-lived rodents, researchers from Leibniz Institute on Aging (FLI) in Jena/Germany now identified in a collaborative project