Project description:Regeneration in the Ctenophore Mnemiopsis leidyi: A Transcriptomic Analysis

Project description:Ctenophores’ amazing capacity of regeneration has fascinated biologists for centuries. The morphological features of ctenophore regeneration have been documented, but the molecular and cellular components behind this phenomenon have remained a mystery. Here, next generation sequencing technologies and transcriptomic analysis are used to investigate the regeneration dynamics in the ctenophore Mnemiopsis leidyi. The resulting data identify multiple signaling pathways that might be involved in ctenophore regeneration. These include evolutionarily conserved pathways, such as Ca2+-dependent and MAP-kinase signaling pathways, that are up regulated during regeneration, as well as genes involved in energetics and cytoskeleton function. The data also show evidence for involvement of dozens of ctenophore specific secretory molecules, their receptors and processing components that are important signal messengers in regeneration. A unique subset of transcription factors were also found to be involved in regeneration which may be upstream regulators of those signaling pathways. In summary, our data indicate that the strategies which ctenophores employ to regenerate use a unique combination of evolutionarily conserved and ctenophore specific signaling components. These data provide novel insights into the mechanisms of regeneration in the earliest branching taxa in Metazoa.

Project description:Mnemiopsis leidyi

Project description:Mnemiopsis leidyi genome sequencing

Project description:Microcosm experiment on degradation of organic matter from M. Leidyi by marine bacteria

Project description:Mnemiopsis leidyi Raw sequence reads

Project description:Mnemiopsis leidyi Transcriptome or Gene expression

Project description:Mnemiopsis leidyi high resolution developmental transcriptomic time-course

Project description:Animal transcriptomes to advance sonogenetic tools: Mnemiopsis leidyi

Project description:Single- and eight-cell stage Mnemiopsis leidyi RNAseq raw sequence reads