Segregation distortion in Arabidopsis gametophytic factor 1 (gfa1) mutants is caused by a deficiency of an essential RNA splicing factor

The female and male gametophytes are critical components of the angiosperm life cycle and are essential for the reproductive process. The gametophytes share many essential cellular processes with each other and with the sporophyte generation. As a consequence, these processes can only be analyzed genetically in the gametophyte generation. Here, we report the characterization of the gametophytic factor 1 (gfa1) mutant. The gfa1 mutation exhibits reduced transmission through both the female and male gametophytes. Reduced transmission through the female gametophyte is due to an effect on female gametophyte development. By contrast, development of the pollen grain is not affected in gfa1; rather, reduced transmission is likely due to an effect on pollen tube growth. We have identified multiple T-DNA-insertion alleles of gfa1 in a gene encoding a protein with high similarity to Snu114/U5-116 kD proteins from yeast and animals required for normal pre-mRNA splicing. Consistent with its predicted function, the GFA1 gene (At1g06220) is expressed throughout the plant. Together, these data suggest that GFA1 functions in mRNA splicing during the plant life cycle.