Simulation of Chordate Intron Evolution Using Randomly Generated and Mutated Base Sequences

Author:

Wang Guang-Dong1ORCID,Wang Yong2,Zeng Zhen1,Mao Jun-Ming1,He Qin-Liu2,Yao Qin1,Chen Ke-Ping1

Affiliation:

1. Institute of Life Sciences, Jiangsu University, Zhenjiang, China

2. School of Food and Biological Engineering, Jiangsu University, Zhenjiang, China

Abstract

Introns are well known for their high variation not only in length but also in base sequence. The evolution of intron sequences has aroused broad interest in the past decades. However, very little is known about the evolutionary pattern of introns due to the lack of efficient analytical method. In this study, we designed 2 evolutionary models, that is, mutation-and-deletion (MD) and mutation-and-insertion (MI), to simulate intron evolution using randomly generated and mutated bases by referencing to the phylogenetic tree constructed using 14 chordate introns from TF4 (transcription factor–like protein 4) gene. A comparison of attributes between model-generated sequences and chordate introns showed that the MD model with proper parameter settings could generate sequences that have attributes matchable to chordate introns, whereas the MI model with any parameter settings failed in doing so. These data suggest that the surveyed chordate introns have evolved from a long ancestral sequence through gradual reduction in length. The established methodology provides an effective measure to study the evolutionary pattern of intron sequences from organisms of various taxonomic groups. (C++ scripts of MD and MI models are available upon request.)

Publisher

SAGE Publications

Subject

Computer Science Applications,Genetics,Ecology, Evolution, Behavior and Systematics

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