Crossability and amplified fragment length polymorphism variation among four types of Panicum coloratum L. and meiotic chromosome paring of their F1 hybrids

The objective of this study was to determine the genetic relationships among four types (A, B, C and D) of Panicum coloratum L. on the basis of the crossability and the amplified fragment length polymorphism (AFLP) variations among the types, and the meiotic chromosome pairing and fertility in F1 hybrids obtained from crosses between different types. F1 hybrids were obtained from crosses between P. coloratum L. var. makarikariense cv. Burnett (A) and P. coloratum L. PI 404632 (D), and between P. coloratum L. CPI 16794 (B) and P. coloratum L. cv. Solai (C). Other crosses failed to produce F1 hybrid seeds. F1 hybrids between Burnett (A) and PI 404632 (D) had 2n = 36 chromosomes and regular meiotic chromosome pairing with 18 bivalents per cell. They produced approximately 80% stainable pollen and normally set seeds. F1 hybrids between Solai (C) and CPI 16794 (B) had 2n = 45 chromosomes and a mean chromosome pairing of 9.50 univalents, 17.67 bivalents and 0.05 trivalents. The most frequent paring behavior was nine univalents and 18 bivalents, suggesting that Solai has two genomes homologous to those of CPI 16794 and one different genome. The F1 hybrids showed approximately 80% stainable pollen and approximately 20% seed fertility. Cluster analysis of polymorphic AFLP in five plants of each of the four types yielded two major clusters. Burnett (A) and PI 404632 (D) clustered together, while Solai (C) clustered with CPI 16794 (B). The results of hybridization studies and AFLP analysis of the four types of P. coloratum , and meiotic examination of the derived F1 hybrids demonstrate that types A and D are genetically differentiated from types B and C, and are reproductively isolated from these two types.