Donghui Peng scite author profile

To improve our understanding of the origin and evolution of mycoheterotrophic plants, we here present the chromosome-scale genome assemblies of two sibling orchid species: partially mycoheterotrophic Platanthera zijinensis and holomycoheterotrophic Platanthera guangdongensis. Comparative analysis shows that mycoheterotrophy is associated with increased substitution rates and gene loss, and the deletion of most photoreceptor genes and auxin transporter genes might be linked to the unique phenotypes of fully mycoheterotrophic orchids. Conversely, trehalase genes that catalyse the conversion of trehalose into glucose have expanded in most sequenced orchids, in line with the fact that the germination of orchid non-endosperm seeds needs carbohydrates from fungi during the protocorm stage. We further show that the mature plant of P. guangdongensis, different from photosynthetic orchids, keeps expressing trehalase genes to hijack trehalose from fungi. Therefore, we propose that mycoheterotrophy in mature orchids is a continuation of the protocorm stage by sustaining the expression of trehalase genes. Our results shed light on the molecular mechanism underlying initial, partial and full mycoheterotrophy.

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The Cymbidium genome reveals the evolution of unique morphological traits

Ai¹,

Li²,

Sun³

et al. 2021

Hortic Res

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The marvelously diverse Orchidaceae constitutes the largest family of angiosperms. The genus Cymbidium in Orchidaceae is well known for its unique vegetation, floral morphology, and flower scent traits. Here, a chromosome-scale assembly of the genome of Cymbidium ensifolium (Jianlan) is presented. Comparative genomic analysis showed that C. ensifolium has experienced two whole-genome duplication (WGD) events, the most recent of which was shared by all orchids, while the older event was the τ event shared by most monocots. The results of MADS-box genes analysis provided support for establishing a unique gene model of orchid flower development regulation, and flower shape mutations in C. ensifolium were shown to be associated with the abnormal expression of MADS-box genes. The most abundant floral scent components identified included methyl jasmonate, acacia alcohol and linalool, and the genes involved in the floral scent component network of C. ensifolium were determined. Furthermore, the decreased expression of photosynthesis-antennae and photosynthesis metabolic pathway genes in leaves was shown to result in colorful striped leaves, while the increased expression of MADS-box genes in leaves led to perianth-like leaves. Our results provide fundamental insights into orchid evolution and diversification.

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The <i>Cymbidium goeringii</i> genome provides insight into organ development and adaptive evolution in orchids

Sun¹,

Chen²,

Huang³

et al. 2021

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The Melastoma dodecandrum genome and the evolution of Myrtales

Yang¹,

Zhou²,

Chen³

et al. 2022

Journal of Genetics and Genomics

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Correction: The Cymbidium genome reveals the evolution of unique morphological traits

Sun

et al. 2021

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Donghui Peng

Genomes of leafy and leafless Platanthera orchids illuminate the evolution of mycoheterotrophy

The Cymbidium genome reveals the evolution of unique morphological traits

The <i>Cymbidium goeringii</i> genome provides insight into organ development and adaptive evolution in orchids

The Melastoma dodecandrum genome and the evolution of Myrtales

Correction: The Cymbidium genome reveals the evolution of unique morphological traits

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