The holocentricity in the dioecious nutmeg (Myristica fragrans) is not based on major satellite repeats.

Holocentric species are characterized by the presence of centromeres throughout the length of the chromosomes. We confirmed the holocentricity of the dioecious, small chromosome-size species Myristica fragrans based on the chromosome-wide distribution of the centromere-specific protein KNL1, α-tubulin fibers, and the cell cycle-dependent histone H3 serine 28 phosphorylation (H3S28ph) mark. Each holocentromere is likely composed of, on average, ten centromere units, but none of the identified and in situ hybridized high-copy satellite repeats is centromere-specific. No sex-specific major repeats are present in the high-copy repeat composition of male or female plants, or a significant difference in genome size was detected. Therefore, it is unlikely that M. fragrans possesses heteromorphic sex chromosomes.

Microsatellite markers development for Indonesian nutmeg (Myristica fragrans Houtt.) and transferability to other Myristicaceae spp.

Myristica fragrans (Myristicaceae) is a tropical evergreen tree that yields the two famous spices: nutmeg and mace. Despite its socio-economic importance, the spatial distribution of its genetic diversity is barely documented. In this aim, 48 nuclear microsatellite markers were isolated of which 14 were polymorphic in M. fragrans. Number of alleles per locus ranged from 2 to 6. The level of observed heterozygosity ranged from 0.038 to 0.929 across loci. Transferability of these microsatellites in other Myristica species (M. fatua, M. argentea, and M. crassipes) and Myristicaceae species (Horsfieldia palauensis) was tested and successful. These new microsatellites will be useful for future investigation on genetic diversity and population structure of M. fragrans and phylogenetically-related species.