[HTML][HTML] Isolation of nuclei from mouse white adipose tissues for single-nucleus genomics
EL Van Hauwaert, E Gammelmark, AK Sárvári… - STAR protocols, 2021 - Elsevier
EL Van Hauwaert, E Gammelmark, AK Sárvári, L Larsen, R Nielsen, JGS Madsen…
STAR protocols, 2021•ElsevierLipid-filled adipocytes are incompatible with droplet-based single-cell methods, such as 10x
Genomics-based technology, thus restricting droplet-based single-cell analyses of adipose
tissues to the stromal vascular fraction. To overcome this limitation and obtain cellular and
molecular insight into adipose tissue composition and plasticity, single-nucleus sequencing-
based technologies can be applied. Here, we provide an optimized protocol for nuclei
isolation from mouse adipose tissues suitable for single-nucleus RNA sequencing. This …
Genomics-based technology, thus restricting droplet-based single-cell analyses of adipose
tissues to the stromal vascular fraction. To overcome this limitation and obtain cellular and
molecular insight into adipose tissue composition and plasticity, single-nucleus sequencing-
based technologies can be applied. Here, we provide an optimized protocol for nuclei
isolation from mouse adipose tissues suitable for single-nucleus RNA sequencing. This …
Summary
Lipid-filled adipocytes are incompatible with droplet-based single-cell methods, such as 10x Genomics-based technology, thus restricting droplet-based single-cell analyses of adipose tissues to the stromal vascular fraction. To overcome this limitation and obtain cellular and molecular insight into adipose tissue composition and plasticity, single-nucleus sequencing-based technologies can be applied. Here, we provide an optimized protocol for nuclei isolation from mouse adipose tissues suitable for single-nucleus RNA sequencing. This allows for transcriptomic profiling of the entire adipose tissue at single-cell resolution.
For complete details on the use of this protocol, please refer to Sárvári et al., 2021.
Elsevier