The pomegranate (Punica granatum L.) genome provides insights into fruit quality and ovule developmental biology
Pollinator
0301 basic medicine
Retroelements
Floral biology
Flowers
Nursing
Plant Science
FOS: Health sciences
Plant Pathology and Resistance to Fungal Diseases
Horticulture
Gene
Pomegranate
Anthocyanins
Agricultural and Biological Sciences
03 medical and health sciences
Quantitative Trait, Heritable
Health Sciences
Genetics
Genetics and Cultivation of Bananas
Pollination
Biology
Research Articles
Phylogeny
Lythraceae
Ovule
2. Zero hunger
Nutrition and Dietetics
Genome
Botany
Life Sciences
15. Life on land
Hydrolyzable Tannins
Fruit
FOS: Biological sciences
Punica
Pollen
Health Benefits of Pomegranate Consumption
Genome, Plant
Metabolic Networks and Pathways
DOI:
10.1111/pbi.12875
Publication Date:
2017-12-24T05:12:23Z
AUTHORS (25)
ABSTRACT
SummaryPomegranate (Punica granatum L.) has an ancient cultivation history and has become an emerging profitable fruit crop due to its attractive features such as the bright red appearance and the high abundance of medicinally valuable ellagitannin‐based compounds in its peel and aril. However, the limited genomic resources have restricted further elucidation of genetics and evolution of these interesting traits. Here, we report a 274‐Mb high‐quality draft pomegranate genome sequence, which covers approximately 81.5% of the estimated 336‐Mb genome, consists of 2177 scaffolds with an N50 size of 1.7 Mb and contains 30 903 genes. Phylogenomic analysis supported that pomegranate belongs to the Lythraceae family rather than the monogeneric Punicaceae family, and comparative analyses showed that pomegranate and Eucalyptus grandis share the paleotetraploidy event. Integrated genomic and transcriptomic analyses provided insights into the molecular mechanisms underlying the biosynthesis of ellagitannin‐based compounds, the colour formation in both peels and arils during pomegranate fruit development, and the unique ovule development processes that are characteristic of pomegranate. This genome sequence provides an important resource to expand our understanding of some unique biological processes and to facilitate both comparative biology studies and crop breeding.
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