Biological systems and pathologies like cancer are comrpised of a heterogeneous mixture of cells with diverse identities and functions. To understand the full functioning of such complex biological systems, new methods are required that have the cacacity to measure gene-regulation in single cells. To achieve this, we develop methods that have the sensitivity to measure nuclear processes in single cells. Previously, based on an ERC-StG, we have developed the first methods to profile one layer of epigenetics and transcriptomics in the same cell. Currently, for this proposal we plan to achieve mapping many layers of gene-regulation in single cells. This will provide us with information on the interdependencies and hierarchies of various components that coorinately regulate gene expression. We implement these technologies in preimplantation development to obtain insight into the epigenetic states that comprise totipotency. Such knowledge is indispensable to pave the way for the development of new tissue-regeneration approaches to more efficiently generate patient-derived tissues and organs.