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Using synthetic biology, we engineered a cellulose-producing bacterium that can produce eumelanin and respond to light, so that it is possible to grow a microbial leather material that is colored black or contains projected black patterns.
Cells interact with their local environment to enact global tissue function. By harnessing gene–gene covariation in cellular neighborhoods from spatial transcriptomics data, the covariance environment (COVET) niche representation and the environmental variational inference (ENVI) data integration method model phenotype–microenvironment interplay and reconstruct the spatial context of dissociated single-cell RNA sequencing datasets.
Using gene–gene covariance structure to represent cellular neighborhoods improves the integration of single-cell RNA sequencing and spatial transcriptomics data.
VitaDAO funds longevity research through a blockchain-based decentralized autonomous organization (DAO), showcasing the potential of collaborative, transparent and alternative systems while also highlighting the challenges of coordination, regulation, biases and skepticism in reshaping traditional research financing methods.