Sequence analysis of genes in four species of ciliated protozoa and analysis of tRNAs in Tetrahymena has demonstrated that TAG and TAA encode glutamine or glutamic acid in these organisms and TGA is the only stop codon. Thus, it has generally been assumed that all ciliates use a nonuniversal genetic code in which TGA acts as the sole termination codon. We have sequenced the linear DNA molecules that carry an actin gene and a P-tubulin gene from the ciliate Euplotes crassus. These genes are shown to use TAA as a termination codon based on homology to known actin and ,-tubulin gene sequences. In addition, we have sequenced a portion of the 3' terminus of the E. crassus H4 histone gene and show that it also uses TAA as a termination codon. These data indicate that the timing of genetic code changes in the ciliates must be reconsidered.Ciliated protozoa are characterized by the possession of two types of nuclei: a germ-line micronucleus, which is transcriptionally inactive, and a vegetative macronucleus, which is responsible for most, if not all, transcription in the cell. Hypotrichous ciliates such as Euplotes, Stylonychia, and Oxytricha undergo a macronuclear developmental process that involves the degradation of >90% of all micronuclear DNA sequences and amplification of the remaining macronuclear-destined sequences (for review see ref. 1). These macronuclear molecules range in size from 400 base pairs (bp) to 20 kilobase pairs (kb) and are present in thousands of copies. Each molecule is believed to encode a single gene product and to contain all the information necessary for its replication and transcription. Holotrichous ciliates, such as Tetrahymena, undergo a similar, but less drastic, process of macronuclear development, in which 10-20% of all micronuclear sequences are degraded (2), and the resulting macronuclear molecules average 600 kb in size (3). Amplification of macronuclear sequences also occurs in Tetrahymena, resulting in -45 copies of each macronuclear chromosome (3).All ciliate macronuclear genes sequenced to date use TGA as a stop codon (4). A number of these genes appear to use TAA and TAG as glutamine or glutamic acid codons at internal positions in the gene. A comparison of the derived amino acid sequence of Stylonychia lemnae a-tubulin with other known a-tubulins showed that a single TAA codon in the Stylonychia gene corresponded to glutamine (5). In addition, actin and two different H3 histone genes in Tetrahymena thermophila appear to use TAA as a glutamine codon (6-8), and two surface antigen genes in Paramecium contain both TAA and TAG codons that specify either glutamine or glutamic acid (9, 10). Both a TAA and a TAG codon are internal to an open reading frame that shares significant homology with ADP/ATP carrier proteins from other organisms and is found on an alternatively processed family of macronuclear chromosomes in Oxytricha fallax (11). Recent experiments have shown that T. thermophila possesses tRNAs with anticodons specific for TAA and TAG codons that are aminoacylated...