Short interspersed nuclear elements (SINEs) are abundant in Solanaceae and have a family‐specific impact on gene structure and genome organization

Summary Short interspersed nuclear elements (SINEs) are highly abundant non‐autonomous retrotransposons that are widespread in plants. They are short in size, non‐coding, show high sequence diversity, and are therefore mostly not or not correctly annotated in plant genome sequences. Hence, comparative studies on genomic SINE populations are rare. To explore the structural organization and impact of SINEs, we comparatively investigated the genome sequences of the Solanaceae species potato ( Solanum tuberosum ), tomato ( Solanum lycopersicum ), wild tomato ( Solanum pennellii ), and two pepper cultivars ( Capsicum annuum ). Based on 8.5 Gbp sequence data, we annotated 82 983 SINE copies belonging to 10 families and subfamilies on a base pair level. Solanaceae SINEs are dispersed over all chromosomes with enrichments in distal regions. Depending on the genome assemblies and gene predictions, 30% of all SINE copies are associated with genes, particularly frequent in introns and untranslated regions (UTRs). The close association with genes is family specific. More than 10% of all genes annotated in the Solanaceae species investigated contain at least one SINE insertion, and we found genes harbouring up to 16 SINE copies. We demonstrate the involvement of SINEs in gene and genome evolution including the donation of splice sites, start and stop codons and exons to genes, enlargement of introns and UTRs, generation of tandem‐like duplications and transduction of adjacent sequence regions.