Multiple Ribonuclease H-Encoding Genes in the Caenorhabditis elegans Genome Contrasts with the Two Typical Ribonuclease H-Encoding Genes in the Human Genome

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Molecular Biology and Evolution 19:1910-1919 (2002)
© 2002 Society for Molecular Biology and Evolution

Multiple Ribonuclease H–Encoding Genes in the Caenorhabditis elegans Genome Contrasts with the Two Typical Ribonuclease H–Encoding Genes in the Human Genome

Arulvathani Arudchandran^*, Susana M. Cerritelli^*, Nathan J. Bowen, Xiongfong Chen, Michael W. Krause and Robert J. Crouch^*

*Laboratory of Molecular Genetics,
${dagger}$ Laboratory of Gene Regulation and Development,
${ddagger}$ Unit on Biologic Computation, National Institute of Child Health and Human Development,
$§$ Laboratory of Molecular Biology, National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of Health, Bethesda, Maryland

Database searches of the Caenorhabditis elegans and human genomicDNA sequences revealed genes encoding ribonuclease H1 (RNaseH1) and RNase H2 in each genome. The human genome contains asingle copy of each gene, whereas C. elegans has four genesencoding RNase H1–related proteins and one gene for RNaseH2. By analyzing the mRNAs produced from the C. elegans genes,examining the amino acid sequence of the predicted protein,and expressing the proteins in Esherichia coli we have identifiedtwo active RNase H1–like proteins. One is similar to othereukaryotic RNases H1, whereas the second RNase H (rnh-1.1) isunique. The rnh-1.0 gene is transcribed as a dicistronic messagewith three dsRNA-binding domains; the mature mRNA is transsplicedwith SL2 splice leader and contains only one dsRNA-binding domain.Formation of RNase H1 is further regulated by differential cis-splicingevents. A single rnh-2 gene, encoding a protein similar to severalother eukaryotic RNase H2L's, also has been examined. The diversityand enzymatic properties of RNase H homologues are other examplesof expansion of protein families in C. elegans. The presenceof two RNases H1 in C. elegans suggests that two enzymes arerequired in this rather simple organism to perform the functionsthat are accomplished by a single enzyme in more complex organisms.Phylogenetic analysis indicates that the active C. elegans RNasesH1 are distantly related to one another and that the C. elegansRNase H1 is more closely related to the human RNase H1. Thedatabase searches also suggest that RNase H domains of LTR-retrotransposonsin C. elegans are quite unrelated to cellular RNases H1, butnumerous RNase H domains of human endogenous retroviruses aremore closely related to cellular RNases H.

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