Episodic evolution and rapid divergence of members of the rat multigene family encoding the salivary prohormone-like protein SMR1

In rodents, the variable coding sequence (VCS) multigene family displays extensive evolutionary divergence in the protein-coding region. While certain VCS genes coding for proline-rich proteins (hPR-PB, mMSG1, rPR-VB1) are conserved in primates and rodents, others seem to be specific to certain gene...

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Bibliographic Details
Published in:Molecular biology and evolution 1996-07, Vol.13 (6), p.758-766
Main Authors: Courty, Y, Singer, M, Rosinski-Chupin, I, Rougeon, F
Format: Article
Language:English
Subjects:
Amino Acid Sequence
Animals
Animals, Wild - genetics
Base Sequence
Cloning, Molecular
Evolution, Molecular
Female
Genes
Male
Molecular Sequence Data
Multigene Family
Muridae - genetics
Protein Precursors - genetics
Rats - genetics
Rats, Wistar
Rattus norvegicus
Rattus rattus
Salivary Proteins and Peptides - genetics
Sequence Alignment
Sequence Homology
Species Specificity
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Summary:In rodents, the variable coding sequence (VCS) multigene family displays extensive evolutionary divergence in the protein-coding region. While certain VCS genes coding for proline-rich proteins (hPR-PB, mMSG1, rPR-VB1) are conserved in primates and rodents, others seem to be specific to certain genera. This appears to be the case for the Rattus genes forming the A-subclass. This subclass is composed of three genes in R. norvegicus and probably five genes in R. rattus. The first described VCSA gene (Rn. VCSA1) was found to encode a prohormone-like protein named SMR1 (-VA1), expressed mainly in the submandibular glands (SMG) of male rats. To further understand the evolution of this variable multigene family, we have cloned the two additional genes (Rn. VCSA2 and Rn. VCSA3) forming the R. norvegicus A-subclass and three VCSA genes (Rr. VCSA1a, b and Rr. VCSA2) of R. rattus. The putative SMR1 proteins encoded by all these genes display the same prohormone-like structure as Rn. SMR1-VA1. However, we observe a polymorphism in some internal cleavage sites which suggests that multiple processing of the SMR1 proteins could result in the liberation of peptides differing in structure and length. The phylogenetic analysis of the sequences reveals that the duplication events giving rise to the VCSA1, -A2, and -A3 progenitors were anterior to the R. norvegicus and R. rattus split, and that a VCSA1 duplication event likely occurred specifically in R. rattus. A striking observation is that the coding sequences of the VCSA genes have rapidly diverged from their ancestors. Along all branches of the phylogeny, the nonsynonymous divergence rate is identical or superior to the synonymous divergence rate. We suggest that frequent changes in functional requirements are mainly responsible for the episodic evolution and the rapid divergence of the VCSA genes.
ISSN:0737-4038
1537-1719
DOI:10.1093/oxfordjournals.molbev.a025636