Hyperspectral light sheet microscopy.
Wiebke JahrBenjamin SchmidChristopher SchmiedFlorian O FahrbachJan HuiskenPublished in: Nature communications (2015)
To study the development and interactions of cells and tissues, multiple fluorescent markers need to be imaged efficiently in a single living organism. Instead of acquiring individual colours sequentially with filters, we created a platform based on line-scanning light sheet microscopy to record the entire spectrum for each pixel in a three-dimensional volume. We evaluated data sets with varying spectral sampling and determined the optimal channel width to be around 5 nm. With the help of these data sets, we show that our setup outperforms filter-based approaches with regard to image quality and discrimination of fluorophores. By spectral unmixing we resolved overlapping fluorophores with up to nanometre resolution and removed autofluorescence in zebrafish and fruit fly embryos.
Keyphrases
- optical coherence tomography
- image quality
- single molecule
- high resolution
- dual energy
- high throughput
- electronic health record
- label free
- induced apoptosis
- computed tomography
- big data
- high speed
- living cells
- cell cycle arrest
- gene expression
- magnetic resonance imaging
- signaling pathway
- mass spectrometry
- machine learning
- cell proliferation
- endoplasmic reticulum stress
- oxidative stress
- cell death
- artificial intelligence
- light emitting