Intestinal Development and Gut Disease: Contributions From the Caenorhabditis elegans Model.

The mammalian intestine is a highly organized and complex system essential for nutrient absorption, immune response, and homeostasis. Disruptions in its development can lead to various gut diseases, ranging from congenital anomalies to inflammatory and neoplastic disorders. Caenorhabditis elegans (C elegans) has emerged as a valuable model organism for studying intestinal development and gut diseases due to its genetic tractability and transparent body.

A pathway-based genetic score for inflammation: An indicator of vulnerability to phthalate-induced adverse neurodevelopment outcomes.

Introduction: Phthalates, chemical additives used to enhance plastic products' flexibility, are easily released into the environment, and can harm the brain development through various mechanisms including inflammation. Genetic variation influencing an individual's susceptibility to inflammation may play a role in the effects of phthalate exposure on neurodevelopment however there is no summary measure developed for genetic susceptibility to inflammation.

Methods: We developed a genetic pathway function score for inflammation (gPFS), based on the transcriptional activity of the inflammatory response pathway in the brain and other tissues.

Gene model for the ortholog of in .

Gene model for the ortholog of Insulin-like peptide 5 ( ) in the May 2011 (Agencourt dana_caf1/DanaCAF1) Genome Assembly (GenBank Accession: GCA_000005115.1 ) of . This ortholog was characterized as part of a developing dataset to study the evolution of the Insulin/insulin-like growth factor signaling pathway (IIS) across the genus using the Genomics Education Partnership gene annotation protocol for Course-based Undergraduate Research Experiences.