CLARITY is a method for chemical transformation of intact biological tissues into a hydrogel-tissue hybrid, which becomes amenable to interrogation with light and macromolecular labels while retaining fine structure and native biological molecules. This emerging accessibility of information from large intact samples has created both new opportunities and new challenges. Here we describe protocols spanning multiple dimensions of the CLARITY workflow, ranging from simple, reliable and efficient lipid removal without electrophoretic instrumentation (passive CLARITY) to optimized objectives and integration with light-sheet optics (CLARITY-optimized light-sheet microscopy (COLM)) for accelerating data collection from clarified samples by several orders of magnitude while maintaining or increasing quality and resolution. The entire protocol takes from 7–28 d to complete for an adult mouse brain, including hydrogel embedding, full lipid removal, whole-brain antibody staining (which, if needed, accounts for 7–10 of the days), and whole-brain high-resolution imaging; timing within this window depends on the choice of lipid removal options, on the size of the tissue, and on the number and type of immunostaining rounds performed. This protocol has been successfully applied to the study of adult mouse, adult zebrafish and adult human brains, and it may find many other applications in the structural and molecular analysis of large assembled biological systems.
Access optionsAccess options
Subscribe to Journal
Get full journal access for 1 year
only $41.25 per issue
All prices are NET prices.
VAT will be added later in the checkout.
Rent or Buy article
Get time limited or full article access on ReadCube.
All prices are NET prices.
We thank the entire Deisseroth laboratory for helpful discussions and Anna Lei for technical assistance. K.D. is supported by the Defense Advance Research Projects Agency (DARPA) Neuro-FAST program, the National Institute of Mental Health (NIMH), the National Science Foundation (NSF), the National Institute on Drug Abuse (NIDA), the Simons Foundation and the Wiegers Family Fund. All CLARITY tools and methods described are distributed and supported freely (http://clarityresourcecenter.org, http://wiki.claritytechniques.org) and discussed in an open forum (http://forum.claritytechniques.org).
Integrated supplementary information
Volume rendering of whole mouse brain volume acquired from an intact clarified Thy1-eYFP mouse brain using 10× magnification objective in COLM.
The dataset was down-sampled 4 fold in each lateral pixel dimension to make the volume rendering feasible with current computing power. The entire image volume was acquired in ∼4 hours.
Rendering of 3.15 mm × 3.15 mm × 5.3 mm volume acquired from an intact clarified Thy1-eYFP mouse brain using the 25× magnification objective in COLM.
The dataset was down-sampled 2 fold in each lateral pixel dimension. The entire image volume was acquired in ∼1.5 hours.