Intrachromosomal colocalization strengthens co-expression, co-modification and evolutionary conservation of neighboring genes

• Main Authors: Shuaibin Lian, Tianliang Liu, Shengli Jing, Hongyu Yuan, Zaibao Zhang, Lin Cheng
• Format: Article
• Language: English
• Published: BMC 2018-06-01
• Series: BMC Genomics
• Subjects: Neighboring gene pairs; Intrachromosomal colocalization; Evolutionary neighboring; Similarities
• Online Access: http://link.springer.com/article/10.1186/s12864-018-4844-1

Abstract Background Gene order and location in chromosomes of species are non-random. Neighboring gene pairs tend to display some similarities, such as co-expression and co-modification. However, the contribution of linear proximity, spatial proximity, and evolutionary proximity to these similarities remain unclear, together with whether the presence of several types of proximity can strengthens the similarities. Results In this study, we investigated the properties of three kinds of colocalized gene pairs: intrachromosomal colocalized gene pairs, always-neighboring gene pairs, and evolutionary neighboring gene pairs. Our analysis showed that (1) Different types of colocalized genes differentially contribute to co-expression, co-modifications and conservation across species; (2) Intrachromosomal colocalization can strengthen co-expression and co-modification of neighboring gene pairs and their conservation across species; (3) The combination of the three kinds of colocalization can lead to the strongest co-modification and is most strongly conserved across species. (4) Colocalized gene pairs are indicative of phylogenetic relationships and whole genome duplications (WGDs). Conclusions These results provide valuable clues for future efforts to understand the characteristics of colocalized gene pairs and how the neighborhood affects their interactions.