Japanese researchers used a nonviral piggyBac system to genetically modify cynomolgus monkeys, enabling more accurate disease ...

Genetic engineering in non-human primates has long been limited by the need for virus-based gene delivery methods. Recently, ...

Ubiquitin marks proteins for degradation, whereby ubiquitin molecules can be combined in different types and numbers forming ...

Bio-conjugation techniques utilizing proteins, such as attaching fluorescent markers to identify cancer cells, are actively ...

Bioluminescent luciferase enzymes have historically been too dim to use as probes in living tissue. But recent advances have ...

The discovery of DsRed (and other Anthozoa fluorescent proteins of various hues) had a twofold impact on the fluorescent protein engineering community. First, there is now a relatively diverse ...

Fluorescent proteins have come along way since the discovery of GFP from the jellyfish Aequorea victoria in the early 1960s. Today, both natural and engineered fluorescent proteins come in a ...

A research team has developed an innovative technique that enables precise modification of specific proteins within complex ...

Artificial cells using riboswitch-gene fusion in liposomes produce fluorescent proteins when detecting specific targets.

Genetic engineering in non-human primates has long been limited by the need for virus-based gene delivery methods. Recently, ...

Researchers successfully use a nonviral, piggyBac transposon system to introduce a transgene into cynomolgus monkeys.