AI Article Synopsis
- Gene network simulations often focus on linear interactions between single genes, but real biological genes have more complex regulatory structures with multiple cis-regulatory modules (CRMs).
- The hunchback (hb) gene in Drosophila development is a specific example that utilizes three CRMs to generate two different mRNA transcripts.
- A modeling framework using differential equations is proposed to capture these regulatory dynamics, incorporating a genetic algorithms approach to screen potential interactions and validate them against biological expression data.
Article Abstract
Gene network simulations are increasingly used to quantify mutual gene regulation in biological tissues. These are generally based on linear interactions between single-entity regulatory and target genes. Biological genes, by contrast, commonly have multiple, partially independent, cis-regulatory modules (CRMs) for regulator binding, and can produce variant transcription and translation products. We present a modeling framework to address some of the gene regulatory dynamics implied by this biological complexity. Spatial patterning of the hunchback (hb) gene in Drosophila development involves control by three CRMs producing two distinct mRNA transcripts. We use this example to develop a differential equations model for transcription which takes into account the cis-regulatory architecture of the gene. Potential regulatory interactions are screened by a genetic algorithms (GAs) approach and compared to biological expression data.
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| http://dx.doi.org/10.1142/S0219720016410055 | DOI Listing |
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