Researchers at the University of São Paulo and Sapienza Università di Roma obtained the material without the need for high temperatures. The product has many potential applications, ranging from electronics to cosmetics.
Researchers at the University of São Paulo extracted genetic material from animals kept in museums for a hundred years and from others living in the wild and concluded that they are a new genus with at least a dozen species. The group is working quickly to identify them all and direct conservation efforts in the Atlantic Forest, where they live.
Cross-referencing climate data and fossils from around 15 million years ago shows that the decline in prey availability may have played a role in the extinction of these felines. Another study cites competition with elephants and an increase in predators as factors that reduced the once diverse antilocaprids to a single species today.
According to a study conducted by researchers in the state of São Paulo, Brazil, more deforested areas have fewer species that are more similar to each other and perform the same ecological functions. The authors say this phenomenon compromises the resilience of the ecosystem.
Center for Research and Innovation in Biodiversity and Drug Discovery
In pre-clinical tests conducted at the University of São Paulo, compounds called batzelladins were effective even against strains of Plasmodium that are resistant to conventional antimalarial drugs.
Researchers at a FAPESP-supported research center have combined innovative techniques to determine the chromosome number of species of the genus Vellozia, typical of this montane savannah ecoregion. The result provides support for conservation programs and biotechnological applications.
Obesity and Comorbidities Research Center
In tests with rodents, researchers from the State University of Campinas and their collaborators found that hyperactivation of the PARP1 protein after exhaustive training was associated with decreased performance, fatigue, and behavioral symptoms of overtraining. Animals treated with a drug that inhibits the molecule’s activity did not exhibit the condition.
Antimicrobial Resistance Institute of São Paulo (Aries Project)
FAPESP will begin supporting the Latin American Center for Medical Mycology, a global network of laboratories led by the University of Exeter in the United Kingdom, which also has a unit in South Africa and will soon open another in Asia. Over five years, the foundation will contribute approximately £ 750,000, while the British institution will invest an additional £ 1 million.
Center for Research on Biodiversity Dynamics and Climate Change
Acetic acid, a component of vinegar, was used by researchers in the state of São Paulo to fractionate kraft lignin. The method produces nanoparticles with different properties, including UV protection.
A project in the Chico Mendes Extractive Reserve shows that rubber provides adequate income to sustain livelihoods and conserve the forest. However, nut collection yields low pay, which contributes to the adoption of unsustainable practices such as extensive cattle ranching.
Center for Research on Redox Processes in Biomedicine
A yeast experiment conducted at a FAPESP-supported research center shows how deficiencies in the proteasome, which is responsible for eliminating damaged and non-functional proteins, affect the metabolism of mitochondria, the organelles that generate energy for cells.
By analyzing patient samples, Brazilian researchers identified the species Fusobacterium nucleatum in nearly 60% of cases, with a higher prevalence in oropharyngeal tumors. This microorganism has also been associated with the development of colorectal cancer.
Blood and urine analyses of the population living in the Mundaú lagoon complex revealed a greater presence of chemical contaminants and metabolic alterations that can exacerbate chronic diseases, such as diabetes and hypertension. These results underscore the need to monitor the health of the inhabitants and control the sources of contamination.
Obesity and Comorbidities Research Center
An experiment conducted at the State University of Campinas showed that FGF19, produced in the intestine, acts on specific regions of the brain, causing the body to burn energy to produce heat; the discovery paves the way for new drugs.