Structural sequences that are extensively separated by nonstructural intervening sequences in the natural ovalbumin gene are coordinately expressed in target and nontarget tissue. The intervening sequences, which consist of unique sequences in the chick genome, are transcribed in their entirety. The amount of nuclear RNA corresponding to these sequences, however, is approximately 10 times less than that observed for structural sequences. The accumulation of RNA corresponding to structural and intervening sequences during acute estrogen stimulation suggests either that there are different rates of transcription for these regions of the ovalbumin gene or that RNA sequences corresponding to the intervening sequences are preferentially processed and degraded. Comparison of the in vitro expression of portions of the ovalbumin gene in nuclei isolated from chronically stimulated oviducts indicates that both structural and intervening sequences are preferentially transcribed in vitro at rates approximately 500 times greater than expected for random transcription of the haploid chick genome. In addition, electrophoresis of oviduct nuclear RNA on agarose gels containing methylmercury hydroxide reveals multiple species of RNA that are from 1.3 to over 4 times larger than ovalbumin mRNA and hybridize to both structural and intervening sequences of the ovalbumin gene. These results are consistent with transcription of the entire ovalbumin gene into a large precursor molecule followed by excision of the intervening sequences and appropriate ligation of the structural sequences to form the mature mRNA.