Precise 3D models (like those from Nature Chemical Biology ) are used to design better drugs that fit into specific protein cavities.
A 3D representation showing how a small molecule (inhibitor) binds to a protein pocket. xenib0465.jpg
Research often focuses on how inhibiting these proteins can stop the growth of tumor cells, particularly in breast or gastric cancers. Precise 3D models (like those from Nature Chemical
In situ hybridization images showing where specific genes are active in a developing embryo. Key Research Connections In situ hybridization images showing where specific genes
23030 - Gene ResultKDM4B lysine demethylase 4B [ (human)] - NCBI
The "xenib" prefix often appears in databases like Xenbase , which hosts genomic and expression data for Xenopus (frog) research models. In a scientific "write-up" context, this image likely visualizes one of the following:
These proteins, such as KDM5B , are "master regulators" that can turn genes on or off, making them major targets in cancer research.