Skip to main content

Paper Using LUMICKS Technology Published in Nature

DNA-repair-Nature

Great news: Another paper using LUMICKS technology was published, this time in Nature! Congratulations to the authors. Several are now part of LUMICKS.

In the study “Sliding sleeves of XRCC4-XLF bridge DNA and connect fragments of broken DNA” Brouwer et al. describe how XRCC4 and XLF proteins play a crucial role in non-homologous end joining, a repair mechanism of double-strand DNA breaks. Two DNA strands were trapped independently using four optical traps and a break was induced. By visualizing the proteins and measuring the force they found that the repair proteins form bridges and hold the DNA together. These bridges are extremely strong, can slide along the DNA and specifically bind to DNA ends. The full article can be found here.

The technique used in this paper is made commercially available by LUMICKS. Read more about the C-Trap® optical tweezers-fluorescence microscope and the u-Flux™ microfluidics system.

Close Menu

For pricing, reach out to your application scientist or account manager

Open Email

Fill in our contact form, we will reach out to you!

Please include ‘Lakeview data analysis price inquiry’ in the Message box

Contact Us


Join our newsletter

Get exclusive news on the latest publications, product developments, events and breakthrough science.

By submitting the form you agree to LUMICKS' privacy policy. You can revoke your consent at any time.

Download our webinar recording:

 

Download our Cell Therapy (CAR-T, TCR, NK) applications deck