Abstract
Napier grass is an important tropical forage-grass and of growing potential as an energy crop. One-hundred-five Napier grass accessions, encompassing two independent collections, were subjected to genotyping by sequencing which generated a set of high-density genome-wide markers together with short sequence reads. The reads, averaging 54 nucleotides, were mapped to the pearl millet genome and the closest genes and annotation information were used to select candidate genes linked to key forage traits. 980 highly polymorphic SNP markers, distributed across the genome, were used to assess population structure and diversity with seven-subgroups identified. A few representative accessions were selected with the objective of distributing subsets of a manageable size for further evaluation. Genome-wide linkage disequilibrium (LD) analyses revealed a fast LD-decay, on average 2.54 kbp, in the combined population with a slower LD-decay in the ILRI collection compared with the EMBRAPA collection, the significance of which is discussed. This initiative generated high-density markers with a good distribution across the genome. The diversity analysis revealed the existence of a substantial amount of variation in the ILRI collection and identified some unique materials from the EMBRAPA collection, demonstrating the potential of the overall population for further genetic and marker-trait-association studies.
Highlights
Napier grass is an important tropical forage-grass and of growing potential as an energy crop
The collection from the International Livestock Research Institute (ILRI) forage genebank represents a diverse set of genotypes assembled from a range of environments and origins (Supplementary Table S1) which is maintained in situ at the Bishoftu and Ziway (Batu) sites in Ethiopia
The SilicoDArT and single nucleotide polymorphism (SNP) markers identified in our study, in conjunction with simple sequence repeat (SSR) and SNP markers developed by Paudel et al.[31] and Wang et al.[25], serve to enhance the data resources available for Napier grass improvement using marker assisted breeding
Summary
Napier grass is an important tropical forage-grass and of growing potential as an energy crop. Genome-wide linkage disequilibrium (LD) analyses revealed a fast LD-decay, on average 2.54 kbp, in the combined population with a slower LD-decay in the ILRI collection compared with the EMBRAPA collection, the significance of which is discussed. This initiative generated high-density markers with a good distribution across the genome. The GBS approach, which enabled the identification of high quality genome-wide simple sequence repeat (SSR) and single nucleotide polymorphism (SNP) markers, has recently been applied to Napier grass[25,31] leading to the construction of the first high density linkage map in this species[31]
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