Extremely stable transcripts may compensate for the elimination of the gene fert-1 from all Ascaris lumbricoides somatic cells.

The single-copy gene fert-1 becomes eliminated from all somatic cells during the process of chromatin diminution in Ascaris lumbricoides var. suum. By using Northern blot and in situ hybridization techniques, we have analyzed its rather unusual expression pattern. Different splicing and 3' end formation events generate in a developmentally regulated manner various poly(A)+ and poly(A)- fert-1 RNA species. The lack of any significant open reading frame in most of its RNA products indicates that fert-1 may function as structural RNA rather than encoding a protein. Fert-1 transcripts are produced in the precursors of the gametes, but degraded at the time of meiosis and not passed on to the zygote. Embryonic transcription of fert-1 sets in as soon as the female nucleus has completed its meiosis. Our data thus demonstrate that the Ascaris transcription apparatus is active prior to the general onset of zygotic transcription, which we think takes place in the four- to six-cell-stage embryos. Upon elimination of fert-1 gene from the somatic cells, most of its transcripts disappear. Two short fert-1 RNA products, however, are stably maintained throughout development until the second larval stage, which is more than 1 month after the elimination of their coding sequences. Possible functions of fert-1 are discussed.