The latest pre-clinical HIV vaccine developments
This article lists three of the most recent advances in pre-clinical HIV research and vaccine development.
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This article lists three of the most recent advances in pre-clinical HIV research and vaccine development.
Researchers have shown that bicyclic azetidines, medicines used to treat malaria, can also kill the Cryptosporidium parasite in mice.
A team has discovered channels that enable the transport of lipids between the malaria parasite and red blood cells during infection.
Using a genetically attenuated parasite (GAP) with a particular deleted gene, researchers have developed a new potential malaria vaccine that arrests at the late liver stage.
A compound called tartrolon E, a byproduct of bacteria from shipworms, has been identified as researchers with the potential to fight and kill several parasites, including Cryptosporidium.
Researchers have shown that adding the RPL6 protein to malaria vaccines was successful at protecting mice against the condition.
Using an antibody to a particular malaria protein called PfGARP, researchers have developed a new strategy for designing a malaria vaccine.
A group of researchers has created a free library of 14,000 known macrolactones for other scientists to use in drug development.
A study has shown that the COVID-19 pandemic has resulted in a high level of research donations, making the condition the third most funded disease on average by year.
A study has revealed that a sponge endemic to an Indonesian bay produces manzamine A, a compound which inhibits proteins in cervical cancers.
Researchers have developed a novel affordable and reproducible assay to study the malaria parasite, using a new cytoplasmic dye, Cell Trace Far-Red (CTFR).
A collaborative team has developed a compound called WM382, which targets two crucial enzymes in the malaria parasite, effectively killing it.
Researchers in the United States have used particles from the tobacco mosaic virus (TMV) to produce a new much-needed malaria vaccine.
Researchers have produced a capillary model which allows investigation of the dynamics of blood flow obstruction in real scale and could be used to test new therapies for P. falciparum malaria.
Researchers have been able to watch rhomboid proteases in a native lipid environment which may be useful for the development of Parkinson's and malaria medication.