In molecular shuttles, a ring molecule is threaded onto a linear molecular strand and can move between two portions of the ...

KAIST researchers have discovered a molecular switch that can revert cancer cells back to normal by capturing the critical ...

By fusing circular dichroism with high-resolution microspectroscopy and microscopic imaging, this cutting-edge technology is ...

The research team led by Professor Kwang-Hyun Cho of KAIST Bio and Brain Engineering who recently announce "Cancer Reversion ...

Professor Kwang-Hyun Cho's research team has recently been highlighted for their work on developing an original technology ...

Molecular Biology is the field of biology that studies ... Findings from various model systems highlight the conserved function of the Rpl12 protein in ribophagy, and show its importance in ...

As the incidence of genetic disorders increases, there is a corresponding rise in the demand for molecular biology enzymes, kits, and reagents essential for conducting tests. These tools are vital for ...

Researchers have demonstrated the feasibility of a morphological-based approach to interpreting spatial transcriptomic (ST) data, helping to improve understanding of the lesions that occur in chronic ...

Fundamental and technical advances in chemistry, biochemistry, and structural and molecular biology over the past several decades have provided unprecedented opportunities to probe living systems at a ...

What happens in the brain as we age? Might it be at all possible to rejuvenate nerve cells? Seeking answers to these ...

Cell biologists must decide whether to embrace the maturing field of systems biology. We argue that a fusion of the two is urgently needed to strengthen both fields. As researchers working in both ...

The department is well-equipped for research in modern molecular and cell biology. Facilities include next generation sequencing platforms, cell imaging systems, protein and small molecule mass ...