We are exploring age-dependent changes in gene expression during the adult life span. To identify any abundantly-expressed genes whose expression increases or decreases with age, we differentially screened a cDNA library with age-specific cDNA probes. To generate the library, RNA was isolated from a synchronous culture of strain BA671, which carries a temperature-sensitive allele of the gene
spe-9. At 25.5 C, a synchronous population of BA671 adults remains largely free from progeny contamination. The mean life span of about 16 days for BA671 under our mass culturing conditions is similar to that for N2, indicating that processes limiting life span are not altered in BA671. Worms were harvested for RNA isolation 14 days from hatching, i.e., near the end of the life span. cDNA was synthesized from poly(A)+ RNA according to standard methods and ligated to the vector LambdaGEM-2. The resulting 'old worm' cDNA library contained 6.3x10+E6 recombinants, 0.1% of which hybridized to an
act-4-specific probe. The library was screened in duplicate with cDNA probes synthesized from 'young' or 'old' poly(A)+ RNA isolated from synchronous adults 4 and 14 days, respectively, from the time of hatching. Of 2x10+E4 plaques screened, about 3000 (15%) hybridized detectably with one or both probes. Approximately 2.5-3 % of these gave a differential signal. Replicate filter lifts were probed with
act-3- or
act-4-specific probes to determine if these abundantly-expressed genes were represented, as expected, among the plaques yielding detectable signals in the differential screen. Plaques hybridizing to the
act-3 or
act-4 probes were identified among those detected with the age-specific cDNA probes. Thus, the differential screen was capable of detecting sequences corresponding to transcripts present in the poly(A)+ RNA fraction at frequencies of at least those of
act-3 and
act-4 (about 0.1%). Neither the
act-3- nor the
act-4-hybridizing plaques, however, exhibited differential signals with the age-specific cDNA probes. Four clones (two hybridizing more strongly to the 'young' cDNA probe and two hybridizing more strongly to the 'old' cDNA probe) were chosen for further analysis. The inserts from these four clones were isolated and used to probe Northern blots of age-specific total RNAs isolated from several synchronous cultures. Two of the clones (
y1 and
y16) detected a transcript of 2.4 kb which decreased with increasing age in RNA from three different cultures. The extent of the decrease varied somewhat among these cultures, with the greatest drop observed to be about tenfold. The other two clones,
s3 and
s20, hybridized to transcripts of 1.2 and 1.6 kb, respectively. Both of these transcripts exhibited increases of a few-fold in total RNA from old vs. young cultures.