Coilia nasus is widely distributed in the Yangtze River, the coastal waters of China, Korea and the Ariake Sound of Japan. Several ecotypes exist and this provides a useful model for the study of comparative diversity between molecular markers. Here we analyze and compare the nucleotide sequences between single-copy ribosomal protein S7 gene intron 1 (rpS7) and multiple-copy ribosomal internal transcribed spacer 1 (ITS1) in this species to compare the phylogenetic signal of the two nuclear genes. Nucleotide substitutions among the two gene sequences and partial sequence of mitochondrial cytochrome c oxidase subunit I (COI) gene were also analyzed. A total of 115 clones for rpS7 and 122 clones for ITS1 were obtained from 37 specimens. The nucleotide sequence length is 741 to 743 bp for rpS7 and 334 to 348 bp for ITS1. Intra- and inter-specimen variation in rpS7 results from nucleotide substitution, while such variation in ITS1 is mainly due to different numbers of short base repeats. The content of G + C is lower in rpS7 (43.5%) than in ITS1 (68.2%). Our results indicate that the proportion of the sequence variable sites is higher in rpS7 (61) than in ITS1 (23); the informative parsimony of rpS7 is evidently higher than that of ITS1 (26 vs. 2); the overall ratio between transitions and transversions in ITS1 is slightly lower than in rpS7, but remarkably lower than in COI. These results suggest that rpS7 is more suitable than ITS1 as a marker for genetic divergence of this group. Furthermore, gene flow is observed between the different geographic populations of C. nasus from the phylogeny of this species based on rpS7, showing that rpS7 has more evolutionary characteristics for understanding the processes of genomic evolution at the intraspecific level.
Keywords: Coilia nasus; comparative evolution; concerted evolution; internal transcribed spacer; phylogeny; ribosomal protein S7 gene.