Gene expression during the male gametophytic phase

Abstract

In recent years a number of experimental findings have indicated that in higher plants the gametophytic phase is able to express its own genetic information, a large part of which it shares with the sporophytic generation. Quantitative estimates of haploid and haplodiploid gene expression have been obtained by mRNA and isozyme analysis in several plant species: 60-70% of the genes are expressed in both pollen and plant, about 10% are pollen-specific, and 20% represent the sporophytic domain. Moreover, it has been demonstrated that stage-specific genes are expressed in the gametophytic generation: at least two sets of genes are activated during pollen development, others are expressed only in the postshedding period, during germination and tube growth. Studies have been made to ascertain the role played by gametophyte-expressed genes in pollen development; the in vivo and in vitro pollen tube growth rate has been revealed to be controlled by the gametophyte genome itself. Differential effects of specific chromosomal deficiencies on the development of maize pollen grains have indicated that components of normal microspore development are controlled by genes located in specific parts of the genome. For single gene analysis, gene transfer can be used; on the contrary, for traits with a multifactorial genetic control, direct proof of gene expression both in the gametophytic and the sporophytic generation can be obtained when selection is applied to the pollen population of a hybrid plant, and response to selection is observed in the resulting sporophytic progeny. Response to selection, applied at different stages of the gametophytic phase, has been described in the sporophytic progeny and this with regard to many adaptive traits; thus the phenomenon can have an important bearing on the genetic structure of natural populations and on higher plant evolution, it can also be used as a breeding tool to increase the efficiency of conventional selection methods.