Mapping the jp (jumbo pollen) gene and QTLs involved in multinucleate microspore formation in diploid alfalfa

The objective of this research was to map the jumbo-pollen trait in diploid alfalfa. Homozygous recessive (jpjp) plants are characterized by the complete failure of post-meiotic cytokinesis during microsporogenesis resulting in 100% 4n-pollen formation. Three F1 segregating populations were produced and analyzed for pollen-grain production and the segregation of RFLP markers. The first cross combination did not segregate for the jumbo-pollen trait, but showed a clear segregation for multinucleate (bi-, tri- and tetra-nucleate)-microspore formation. Cytological analysis showed that few plants produced 100% normal (uninucleate) microspores, whereas most of them produced multinucleate microspores at a variable frequency (0–75%). Plants with multinucleate microspores always showed a prevalence of binucleated microspores, even though some plants showed a background presence of tri- and tetra-nucleate microspores. QTL analysis based on ANOVA I and Step-wise Multiple Regression identified three QTLs with a highly significant effect on multinucleate-microspore formation. Two cross combinations, subsequently executed, showed Mendelian segregation for the jumbo-pollen trait and were effective in locating the jp gene on linkage group 6 close to the Vg1G1b RFLP locus. Interestingly, this RFLP locus was also linked to one QTL for multinucleate-microspore formation. Genetic models are discussed concerning the presence in linkage group 6 of a cluster of genes involved in multinucleate-microspore formation together with possible relationships between the jp gene and the Vg1G1b QTL.