Synthetic gene regulation is a fundamental tool for precise control of gene expression, and genetic networks are an important driver for cellular processes such as differentiation, development, and response to environmental signals. This research topic will highlight recent advances in synthetic gene regulation and genetic networks analysis, with special emphasis on novel synthetic biology tools and methodologies. The aim is to promote the development of innovative and high-quality research in genetic systems and circuit design.
Gene regulation has several applications in biotechnology, biomedicine, and bioenergy fields. For instance, it can be used to optimize metabolic pathways, tune gene-expression levels, and design synthetic gene circuits for biosensor applications. This analysis is also foundational for understanding cellular processes, development, and disease. Synthetic genetic networks can mimic natural systems and provide insights into the complexity of gene regulation.
This research topic is expected to provide a platform for researchers to discuss the latest developments and challenges in synthetic gene-regulatory networks, foster interdisciplinary research collaborations, and promote innovative research in synthetic biology. By focusing on this area of synthetic biology, we can heighten our understanding of the genetic organization of living organisms as well as the principles underlying effective genetic circuit design within synthetic biology.
Keywords:
genetic system, circuit design, gene regulation, gene regulatory networks, gene expression, genetic networks, synthetic gene
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Synthetic gene regulation is a fundamental tool for precise control of gene expression, and genetic networks are an important driver for cellular processes such as differentiation, development, and response to environmental signals. This research topic will highlight recent advances in synthetic gene regulation and genetic networks analysis, with special emphasis on novel synthetic biology tools and methodologies. The aim is to promote the development of innovative and high-quality research in genetic systems and circuit design.
Gene regulation has several applications in biotechnology, biomedicine, and bioenergy fields. For instance, it can be used to optimize metabolic pathways, tune gene-expression levels, and design synthetic gene circuits for biosensor applications. This analysis is also foundational for understanding cellular processes, development, and disease. Synthetic genetic networks can mimic natural systems and provide insights into the complexity of gene regulation.
This research topic is expected to provide a platform for researchers to discuss the latest developments and challenges in synthetic gene-regulatory networks, foster interdisciplinary research collaborations, and promote innovative research in synthetic biology. By focusing on this area of synthetic biology, we can heighten our understanding of the genetic organization of living organisms as well as the principles underlying effective genetic circuit design within synthetic biology.
Keywords:
genetic system, circuit design, gene regulation, gene regulatory networks, gene expression, genetic networks, synthetic gene
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.