Hypothesis: genes which function in a stochastic lineage commitment process are subject to monoallelic expression

The collection of genes which are now known to be monoallelically expressed in mammals is a diverse set. In the case of the genes which encode transducing receptors, such as immunoglobulins or odoront receptors, monoallelic expression ensures that cell activity is related to encountering a unique ligand. However, some monoallelically expressed genes do not encode receptors, and in these cases the physiological purpose of monoallelic expression is uncertain. Even more puzzling are the cases of imprinted genes, where only the maternal or only the paternal allele is expressed. In this article we consider the hypothesis that some of these cases of monoallelic expression reflect the unusual instances in development in which lineage commitment results from a selective rather than an instructive mechanism. These mechanisms are distinguished by their reliance on either external signals (instructive) or internal, cell autonomous events (selective) to cause the changes in gene expression which correspond to lineage commitment. While the instructive mechanism predicts that lineage commitment genes will be expressed or silenced biallelically, the selective mechanism predicts that commitment genes will be subject to monoallelic expression. Specifically, for the cases in which lineage commitment results from activating gene expression, the selective mechanism predicts that commitment genes will be monoallelically expressed following commitment, such as observed recently for some cytokine and transcription factor genes. For the cases in which extinction of gene expression causes commitment, the selective mechanism predicts that the commitment genes will be monoallelically expressed prior to commitment, as for X-linked and imprinted genes.