Diane Ragone scite author profile

Breadfruit (Artocarpus altilis, Moraceae), a traditional starch crop in Oceania, has enjoyed legendary status ever since its role in the infamous mutiny aboard the H.M.S. Bounty in 1789, yet its origins remain unclear. Breadfruit's closest relatives are A. camansi and A. mariannensis. DNA fingerprinting data (AFLP, amplified fragment length polymorphisms) from over 200 breadfruit cultivars, 30 A. camansi, and 24 A. mariannensis individuals were used to investigate the relationships among these species. Multivariate analyses and the identification of species-specific AFLP markers indicate at least two origins of breadfruit. Most Melanesian and Polynesian cultivars appear to have arisen over generations of vegetative propagation and selection from A. camansi. In contrast, most Micronesian breadfruit cultivars appear to be the result of hybridization between A. camansi-derived breadfruit and A. mariannensis. Because breadfruit depends on humans for dispersal, the data were compared to theories on the human colonization of Oceania. The results agree with the well-supported theory that humans settled Polynesia via Melanesia. Additionally, a long-distance migration from eastern Melanesia into Micronesia is supported.

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Beyond the Bounty: Breadfruit (Artocarpus altilis) for food security and novel foods in the 21st Century

Jones

Ragone

Tavana³

et al. 2011

Ethnobot. Res. App.

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Low‐coverage, whole‐genome sequencing of Artocarpus camansi (Moraceae) for phylogenetic marker development and gene discovery

Gardner

Johnson²,

Ragone

et al. 2016

Appl Plant Sci

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Premise of the study:We used moderately low-coverage (17×) whole-genome sequencing of Artocarpus camansi (Moraceae) to develop genomic resources for Artocarpus and Moraceae.Methods and Results:A de novo assembly of Illumina short reads (251,378,536 pairs, 2 × 100 bp) accounted for 93% of the predicted genome size. Predicted coding regions were used in a three-way orthology search with published genomes of Morus notabilis and Cannabis sativa. Phylogenetic markers for Moraceae were developed from 333 inferred single-copy exons. Ninety-eight putative MADS-box genes were identified. Analysis of all predicted coding regions resulted in preliminary annotation of 49,089 genes. An analysis of synonymous substitutions for pairs of orthologs (Ks analysis) in M. notabilis and A. camansi strongly suggested a lineage-specific whole-genome duplication in Artocarpus.Conclusions:This study substantially increases the genomic resources available for Artocarpus and Moraceae and demonstrates the value of low-coverage de novo assemblies for nonmodel organisms with moderately large genomes.

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Sensory Evaluation of Fruit Quality and Nutritional Composition of 20 Breadfruit (Artocarpus, Moraceae) Cultivars

Ragone

Cavaletto

2006

Economic Botany

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Breadfruit (Artocarpus altilis and hybrids): A traditional crop with the potential to prevent hunger and mitigate diabetes in Oceania

Turi

Liu

Ragone

et al. 2015

Trends in Food Science & Technology

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Diane Ragone

Complex origins of breadfruit (Artocarpus altilis, Moraceae): implications for human migrations in Oceania

Beyond the Bounty: Breadfruit (Artocarpus altilis) for food security and novel foods in the 21st Century

Low‐coverage, whole‐genome sequencing of Artocarpus camansi (Moraceae) for phylogenetic marker development and gene discovery

Sensory Evaluation of Fruit Quality and Nutritional Composition of 20 Breadfruit (Artocarpus, Moraceae) Cultivars

Breadfruit (Artocarpus altilis and hybrids): A traditional crop with the potential to prevent hunger and mitigate diabetes in Oceania

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