A minigene is a minimal gene fragment that includes an exon and the control regions necessary for the gene to express itself in the same way as a wild type gene fragment. This is a minigene in its most basic sense. More complex minigenes can be constructed containing multiple exons and intron(s). Minigenes provide a valuable tool for researchers evaluating splicing patterns both in vivo and in vitro biochemically assessed experiments. Specifically, minigenes are used as splice reporter vectors (also called exon-trapping vectors) and act as a probe to determine which factors are important in sp
A minigene is a minimal gene fragment that includes an exon and the control regions necessary for the gene to express itself in the same way as a wild type gene fragment. This is a minigene in its most basic sense. More complex minigenes can be constructed containing multiple exons and intron(s). Minigenes provide a valuable tool for researchers evaluating splicing patterns both in vivo and in vitro biochemically assessed experiments. Specifically, minigenes are used as splice reporter vectors (also called exon-trapping vectors) and act as a probe to determine which factors are important in splicing outcomes. They can be constructed to test the way both cis-regulatory elements (RNA effects) and trans-regulatory elements (associated proteins/splicing factors) affect gene expression.
right|thumb|alt=Modified splice diagram for minigene splicing|pre-mRNA splice patterns showing constitutive exons and introns and the inserted fragment. Orange lines show alternative splicing outcomes as dictated by the exonic sequences and intronic sequences (yellow and green bands) that influence splicing. These sequences may be splicing enhancers or silencers, polypyrimidine tract binding protein sites or other elements.
Discovered by embedding cosine similarity (sentence-transformers MiniLM, 384-dim).