The crystal structure of a human endogenous reverse transcriptase has similarities to HIV reverse transcriptase, a well-known tractable drug target, which will help design drugs to treat cancer and ...

The crystal structure of a human endogenous reverse transcriptase has similarities to HIV reverse transcriptase, a well-known tractable drug target, which will help design drugs to treat cancer and ...

The HIV-2 serotype of HIV is a cause of disease in parts of the West African population, and there is evidence for its spread to Europe and Asia. HIV-2 reverse transcriptase (RT) demonstrates an ...

Retrotransposons are a class of mobile genetic elements that replicate by converting their single-stranded RNA intermediate to double-stranded DNA through the combined DNA polymerase and ribonuclease ...

Proceedings of the National Academy of Sciences of the United States of America, Vol. 101, No. 29 (Jul. 20, 2004), pp. 10548-10553 (6 pages) We have determined the crystal structure of the HIV type 1 ...

CAMBRIDGE, Mass.--(BUSINESS WIRE)--ROME Therapeutics, a biotechnology company harnessing the power of the dark genome for drug development, today announced a new publication in The Proceedings of the ...

Figure 1: Chemical reactions of DNA polymerization and ATP-mediated pyrophosphorolytic excision catalyzed by HIV-1 reverse transcriptase (RT). Figure 2: Binding of AZTppppA′ to AZTr HIV-1 reverse ...

Researchers have determined the structure of the most common material in our genomes. New treatments for autoimmune diseases, cancer and neurodegeneration may follow. A multidisciplinary study ...

A multidisciplinary study published in Nature has elucidated the structure of the machinery responsible for writing much of our "dark genome" - the 98 percent of our DNA that has largely unknown ...

The crystal structure of a human endogenous reverse transcriptase has similarities to HIV reverse transcriptase, a well-known tractable drug target, which will help design drugs to treat cancer and ...

A multidisciplinary study published in Nature has elucidated the structure of the machinery responsible for writing much of our "dark genome"—the 98% of our DNA that has largely unknown biological ...