Like us, RNA cannot do its job if it is not in the right place at the right time, so the transport of RNA to its proper place is critical for cellular function. Since the 1990s, scientists have ...

Hajun Kim, Taejoon Kwon, and Joo Hun Kang—from the Department of Biomedical Engineering at UNIST has unveiled a novel ...

This was first demonstrated in vitro and in vivo using the example of an RNA riboswitch. The versatility of the approach is highlighted by the first covalent "fluorescent light-up RNA aptamer ...

他们开发的smLiveFISH技术（single-molecule live-cell fluorescence in situ hybridization），首次实现了对活细胞中天然RNA分子的实时单分子追踪，其精度足以捕捉 ...

Genes have to be expressed in the right place, at the time, and at the right levels. Scientists wanted to know more about how ...

For the development of two bright multi-colour fluorogenic aptamer tags, and for demystifying the fluorescence activation mechanism, enabling efficient imaging of diverse RNAs in living cells.

For the Liu Lab, necessity is truly the mother of invention. The researchers were examining how the 3D organization of the ...

MI’s Highly sensitive Chromogenic RNA in situ Hybridization (HCR Pro RNA-ISH) is an assay used for fluorescent imaging of RNA targets in formalin-fixed, paraffin-embedded tissue samples.

High sensitivity: Fluorescence-based quantification offers ... undesired substances—even identifying DNA contamination in RNA samples. Contaminant detection & analysis: Acclaro provides a ...