Recruitment of RNA polymerases to the cognate promoter is a key step for the transcription initiation of specific genes in eukaryotes. Recently, RNA polymerase I (pol I) of Saccharomyces cerevisiae was shown to be recruited to the rDNA promoter via interaction between Rrn3p, a conserved transcription factor for rDNA, and A43, a subunit specific to pol I. The question of whether a similar interaction for pol I recruitment is conserved in other eukaryotes remains to be answered. We show here that Schizosaccharomyces pombe rpa21(+) encodes a protein of apparent molecular mass 21 kD which shows 36% identity to the A43 subunit of pol I in S. cerevisiae, and that rpa21(+) is essential for cell growth. To gain further insight into the functions of RPA21, we isolated a total of 22 temperature-sensitive (ts) mutants of rpa21(+) and found that most of the substitutions causing the ts phenotype are clustered in the N-terminal half of RPA21. The ts mutants showed a markedly reduced amount of primary transcripts of rDNA immediately after temperature shift-up. Over-expression of S. pombe rrn3(+) in the ts mutants suppressed the growth defect in an allele-specific manner. Therefore, we conclude that S. pombe RPA21 plays a functional role similar to that of A43 in S. cerevisiae and that the mechanism of recruitment of pol I to the rDNA promoter by the interaction of a specific pol I subunit with Rrn3p is evolutionarily conserved.