Abstract
Summary
Single-cell transcriptomics has revealed conserved and divergent programmes of organogenesis in mammals, but existing studies have focused on eutherians. Marsupials exhibit short gestation and complete development externally, necessitating accelerated differentiation of anterior features required for locomotion and feeding. As such, they represent a unique outgroup with which to understand temporal shifts in development, known as heterochrony. Here, we generate the first single-cell transcriptomic atlas of gastrulation and early organogenesis in a marsupial, the opossum Monodelphis domestica . We find that anterior prioritisation is achieved by earlier initiation and shorter duration of transcriptional programmes relative to eutherians. The result is uncoupling of transcriptional and morphological progression, revealing unforeseen diversity in the order of developmental sequences in mammals. We uncover novel tissues for which heterochrony has not previously been documented. Our findings indicate that accelerated activation of transcriptional programmes facilitates the rapid growth needed for survival of the marsupial neonate.
