The recent advancements and developments reached in Neurogenomics, especially over the past year, have been exceptional and are the result of the great achievements made by researchers and scientists thus far.
In order to explore this fast-growing field, Frontiers is launching a new series of Research Topics focusing on the evolution of methods, processes, techniques, and ways of thinking in Neurogenomics that led to new discoveries and research approaches. In this article collection, we seek contributions exploring the changing context and the rising new perspectives within Neurogenomics.
The emphasis of this series is on the dynamics of change and evolution of the latest progress made, as well as on the evolving methods and responses in research across the field of Neurogenomics.
This article collection will inform, inspire and provide direction and guidance to researchers in the field.
Topics may include, but are by no means limited to:
- Interactions among genotypes, phenotypes, and the environment using a range of genomic and bioinformatic approaches relevant to studies on nervous system function
- Synthesis of datasets that capture multiple integrated levels of nervous system function — including biochemical, cellular, physiological, behavioral, and cognitive. We welcome large-scale studies of sequence variants, transcriptomes, proteomes, metabolomes, and epigenetic modifications, and their associations with function and disease
The recent advancements and developments reached in Neurogenomics, especially over the past year, have been exceptional and are the result of the great achievements made by researchers and scientists thus far.
In order to explore this fast-growing field, Frontiers is launching a new series of Research Topics focusing on the evolution of methods, processes, techniques, and ways of thinking in Neurogenomics that led to new discoveries and research approaches. In this article collection, we seek contributions exploring the changing context and the rising new perspectives within Neurogenomics.
The emphasis of this series is on the dynamics of change and evolution of the latest progress made, as well as on the evolving methods and responses in research across the field of Neurogenomics.
This article collection will inform, inspire and provide direction and guidance to researchers in the field.
Topics may include, but are by no means limited to:
- Interactions among genotypes, phenotypes, and the environment using a range of genomic and bioinformatic approaches relevant to studies on nervous system function
- Synthesis of datasets that capture multiple integrated levels of nervous system function — including biochemical, cellular, physiological, behavioral, and cognitive. We welcome large-scale studies of sequence variants, transcriptomes, proteomes, metabolomes, and epigenetic modifications, and their associations with function and disease