Differential expression and function of fubl-1 gene isoforms in C. elegans

Alternative splicing is the process of producing a variety of transcripts from one and the same gene. This adds further possible variability to gene expression and can in theory mean that one protein coding gene can produce multiple proteins with potentially different functions. Therefore, to understand the function of a gene, alternative splicing must be accounted for. However, this is made more complex by the fact that the existence of different messenger RNA isoforms does not necessarily entail different protein isoforms, which in turn means that an analysis of both the transcripts and final protein is necessary. Far Upstream Element Binding Protein 1 Like 1 (FUBL-1, or C12D8.1) is an RNA binding protein in Caenorhabditis elegans which is believed to take part in gene regulation, and which seemingly interacts within an argonaut effector pathway called ERGO-1. The gene has five proposed isoforms for which there are varying amounts of RNA data but only the first isoform, FUBL-1a has proteomics data available. In other words, different messenger RNA isoforms exist but it is unclear which are translated into protein. In this study, I have looked at fubl-1 and its isoforms to gain further understanding of this protein. This entailed both analysing long read RNA sequencing data to identify messenger RNA isoforms as well as a laboratory analysis of the protein to look for protein isoforms. I found evidence for all isoforms existing as messenger RNAs, and fubl-1a was by far the most highly expressed. In my protein analysis, I found indications of different isoforms, but not conclusive evidence