Figure 1. A number of fluorescent probes can be excited with a single laser (blue line). In confocal microscopy, laser excitation light is raster scanned across the sample to induce the fluorescence ...

Discover how cohesin mechanics and nanotracker technology are transforming DNA research in this Bruker webinar.

Review of fluorescent probes for detecting G-Quadruplex DNA The article by Dr. Michael D. Heagy and Dr. Susantha K. Ganegamage is published in the journal, Current Organic Chemistry, 2022 Peer ...

Additionally, each fluorescence component was detected quantitatively by PARAFAC scores. One of the detected components ...

Importantly, the DNA assembly of the antennas is easy to do and highly programmable to target a range of proteins, and the signals can be viewed through run-of-the-mill fluorescence spectroscopy.

There are species-specific and photoacclimative differences in the abundance and composition of functional light-harvesting complexes (including photosystem 1- and 2-enriched bands) which are ...

In this study, absorption, fluorescence, synchronous fluorescence, and Raman spectra of nonirradiated and ultraviolet (UV)-irradiated thymine solutions were recorded in order to detect thymine dimer ...

a, Fluorescence spectrum of Y-cut Yb:LCB at room temperature. b, Laser spectrum with different phonon number n = 1 ~ 5. c, Laser output power versus the absorbed pump power for various phonon numbers.

Dietz’s team had previously decorated the DNA nanoshells with antibodies that could grab viruses and stop them from infecting cells (Nat. Mater. 2021, DOI: 10.1038/s41563-021-01020-4).