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Chromosome‐level assembly, genetic and physical mapping of Phalaenopsis aphrodite genome provides new insights into species adaptation and resources for orchid breeding
by
Ho, Hsiu‐Yin
, Chao, Ya‐Ting
, Yen, Shao‐Hua
, Hsu, Hui‐Lan
, Chang, Song‐Bin
, Yeh, Jen‐Hau
, Chen, Kai‐Yi
, Chen, Wan‐Chieh
, Tsai, Yi‐Hui
, Kuo, Tzu‐Yen
, Hsueh, Hao‐Yen
, Kuo, Yi‐Tzu
, Chen, Chun‐Yi
, Yeh, Chih‐Hsin
, Su, Chun‐Lin
, Shih, Ming‐Che
in
Adaptation
/ Adaptation, Physiological - genetics
/ Assembly
/ biotechnology
/ Breeding
/ Canopies
/ canopy
/ Chromosome Mapping
/ Chromosomes
/ Chromosomes, Plant - genetics
/ de novo assembly
/ Economic importance
/ Epiphytes
/ Essences and essential oils industry
/ Flavorings
/ Flavors
/ Fluorescence
/ Fluorescence in situ hybridization
/ fluorescence in situ hybridization
/ Food plants
/ Fungi
/ Gene mapping
/ Genes
/ genetic mapping
/ Genetic research
/ Genome, Plant - genetics
/ Genome, Plant - physiology
/ Genomes
/ Genomics
/ hybridization
/ Hybrids
/ International economic relations
/ Karyotypes
/ Karyotyping
/ Mapping
/ Microhabitats
/ Morphology
/ orchid
/ Orchidaceae - genetics
/ Ornamental plants
/ Pachytene
/ pachytene stage
/ Palmicola aphrodite
/ Phalaenopsis
/ Phalaenopsis aphrodite
/ Phylogeny
/ Physical mapping
/ Plant breeding
/ Plant Breeding - methods
/ plant genome
/ Plants
/ pollinia (pollen)
/ Proteins
/ Rain forests
/ Rainforests
/ restriction site‐associated DNA sequencing
/ Scaffolds
/ Single-nucleotide polymorphism
2018
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Chromosome‐level assembly, genetic and physical mapping of Phalaenopsis aphrodite genome provides new insights into species adaptation and resources for orchid breeding
by
Ho, Hsiu‐Yin
, Chao, Ya‐Ting
, Yen, Shao‐Hua
, Hsu, Hui‐Lan
, Chang, Song‐Bin
, Yeh, Jen‐Hau
, Chen, Kai‐Yi
, Chen, Wan‐Chieh
, Tsai, Yi‐Hui
, Kuo, Tzu‐Yen
, Hsueh, Hao‐Yen
, Kuo, Yi‐Tzu
, Chen, Chun‐Yi
, Yeh, Chih‐Hsin
, Su, Chun‐Lin
, Shih, Ming‐Che
in
Adaptation
/ Adaptation, Physiological - genetics
/ Assembly
/ biotechnology
/ Breeding
/ Canopies
/ canopy
/ Chromosome Mapping
/ Chromosomes
/ Chromosomes, Plant - genetics
/ de novo assembly
/ Economic importance
/ Epiphytes
/ Essences and essential oils industry
/ Flavorings
/ Flavors
/ Fluorescence
/ Fluorescence in situ hybridization
/ fluorescence in situ hybridization
/ Food plants
/ Fungi
/ Gene mapping
/ Genes
/ genetic mapping
/ Genetic research
/ Genome, Plant - genetics
/ Genome, Plant - physiology
/ Genomes
/ Genomics
/ hybridization
/ Hybrids
/ International economic relations
/ Karyotypes
/ Karyotyping
/ Mapping
/ Microhabitats
/ Morphology
/ orchid
/ Orchidaceae - genetics
/ Ornamental plants
/ Pachytene
/ pachytene stage
/ Palmicola aphrodite
/ Phalaenopsis
/ Phalaenopsis aphrodite
/ Phylogeny
/ Physical mapping
/ Plant breeding
/ Plant Breeding - methods
/ plant genome
/ Plants
/ pollinia (pollen)
/ Proteins
/ Rain forests
/ Rainforests
/ restriction site‐associated DNA sequencing
/ Scaffolds
/ Single-nucleotide polymorphism
2018
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Chromosome‐level assembly, genetic and physical mapping of Phalaenopsis aphrodite genome provides new insights into species adaptation and resources for orchid breeding
by
Ho, Hsiu‐Yin
, Chao, Ya‐Ting
, Yen, Shao‐Hua
, Hsu, Hui‐Lan
, Chang, Song‐Bin
, Yeh, Jen‐Hau
, Chen, Kai‐Yi
, Chen, Wan‐Chieh
, Tsai, Yi‐Hui
, Kuo, Tzu‐Yen
, Hsueh, Hao‐Yen
, Kuo, Yi‐Tzu
, Chen, Chun‐Yi
, Yeh, Chih‐Hsin
, Su, Chun‐Lin
, Shih, Ming‐Che
in
Adaptation
/ Adaptation, Physiological - genetics
/ Assembly
/ biotechnology
/ Breeding
/ Canopies
/ canopy
/ Chromosome Mapping
/ Chromosomes
/ Chromosomes, Plant - genetics
/ de novo assembly
/ Economic importance
/ Epiphytes
/ Essences and essential oils industry
/ Flavorings
/ Flavors
/ Fluorescence
/ Fluorescence in situ hybridization
/ fluorescence in situ hybridization
/ Food plants
/ Fungi
/ Gene mapping
/ Genes
/ genetic mapping
/ Genetic research
/ Genome, Plant - genetics
/ Genome, Plant - physiology
/ Genomes
/ Genomics
/ hybridization
/ Hybrids
/ International economic relations
/ Karyotypes
/ Karyotyping
/ Mapping
/ Microhabitats
/ Morphology
/ orchid
/ Orchidaceae - genetics
/ Ornamental plants
/ Pachytene
/ pachytene stage
/ Palmicola aphrodite
/ Phalaenopsis
/ Phalaenopsis aphrodite
/ Phylogeny
/ Physical mapping
/ Plant breeding
/ Plant Breeding - methods
/ plant genome
/ Plants
/ pollinia (pollen)
/ Proteins
/ Rain forests
/ Rainforests
/ restriction site‐associated DNA sequencing
/ Scaffolds
/ Single-nucleotide polymorphism
2018
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Chromosome‐level assembly, genetic and physical mapping of Phalaenopsis aphrodite genome provides new insights into species adaptation and resources for orchid breeding
Journal Article
Chromosome‐level assembly, genetic and physical mapping of Phalaenopsis aphrodite genome provides new insights into species adaptation and resources for orchid breeding
2018
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Overview
Summary The Orchidaceae is a diverse and ecologically important plant family. Approximately 69% of all orchid species are epiphytes, which provide diverse microhabitats for many small animals and fungi in the canopy of tropical rainforests. Moreover, many orchids are of economic importance as food flavourings or ornamental plants. Phalaenopsis aphrodite, an epiphytic orchid, is a major breeding parent of many commercial orchid hybrids. We provide a high‐quality chromosome‐scale assembly of the P. aphrodite genome. The total length of all scaffolds is 1025.1 Mb, with N50 scaffold size of 19.7 Mb. A total of 28 902 protein‐coding genes were identified. We constructed an orchid genetic linkage map, and then anchored and ordered the genomic scaffolds along the linkage groups. We also established a high‐resolution pachytene karyotype of P. aphrodite and completed the assignment of linkage groups to the 19 chromosomes using fluorescence in situ hybridization. We identified an expansion in the epiphytic orchid lineage of FRS5‐like subclade associated with adaptations to the life in the canopy. Phylogenetic analysis further provides new insights into the orchid lineage‐specific duplications of MADS‐box genes, which might have contributed to the variation in labellum and pollinium morphology and its accessory structure. To our knowledge, this is the first orchid genome to be integrated with a SNP‐based genetic linkage map and validated by physical mapping. The genome and genetic map not only offer unprecedented resources for increasing breeding efficiency in horticultural orchids but also provide an important foundation for future studies in adaptation genomics of epiphytes.
Publisher
John Wiley & Sons, Inc,John Wiley and Sons Inc
Subject
/ Adaptation, Physiological - genetics
/ Assembly
/ Breeding
/ Canopies
/ canopy
/ Chromosomes, Plant - genetics
/ Essences and essential oils industry
/ Flavors
/ Fluorescence in situ hybridization
/ fluorescence in situ hybridization
/ Fungi
/ Genes
/ Genomes
/ Genomics
/ Hybrids
/ International economic relations
/ Mapping
/ orchid
/ Plants
/ Proteins
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