Comparative Transcriptome Analysis Unveils the Molecular Mechanism Underlying Sepal Colour Changes under Acidic pH Substratum in Hydrangea macrophylla

Rahmati, Razieh; Hamid, Rasmieh; Ghorbanzadeh, Zahra; Jacob, Feba; Azadi, Pejman; Zeinalabedini, Mehrshad; Farsad, Laleh Karimi; Kazemi, Masoud; Ebrahimi, Mohammad Ali; Shahinnia, Fahimeh; Salekdeh, Ghasem Hosseini; Ghaffari, Mohammad Reza; Hajirezaei, Mohammad‐Reza

doi:10.3390/ijms232315428

Cited by 7 publications

(1 citation statement)

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“…High-quality SSR and SNP markers have been developed and used in diversity analysis and genetic mapping [98,100,[102][103][104][105]. Tran-scriptomic analyses have been used to identify genes involved in aluminum tolerance and accumulation [106][107][108], flower development [109], leaf color [110,111], and stress response [112]. Current studies on transcriptional changes following inoculation with powdery mildew will provide a rich resource to target candidate genes and candidate pathways for introgression into superior cultivars.…”

Section: Breeding For Powdery Mildew Resistancementioning

confidence: 99%

Powdery Mildew of Bigleaf Hydrangea: Biology, Control, and Breeding Strategies for Resistance

Jennings,

Baysal-Gurel,

Alexander

2024

Horticulturae

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Hydrangea macrophylla, commonly known as bigleaf, garden, French, or florist hydrangea, is the most economically important member of the Hydrangea genus, with a breeding history spanning hundreds of years. Bigleaf hydrangea breeding improvement has largely focused on aesthetic traits and there are few varieties tolerant or resistant to major diseases such as powdery mildew. Powdery mildew is an obligate biotrophic Ascomycete in the order Erysiphales represented by approximately 900 species worldwide. The disease-causing agent in hydrangeas is Golovinomyces orontii (formerly Erysiphe polygoni DC), which tarnishes the beauty, growth, and salability of bigleaf hydrangea plants, especially those packed closely in production environments. Chemical or biological control is commonly used in production. A recently published haplotype-resolved genome of bigleaf hydrangea enables targeted analyses and breeding techniques for powdery mildew resistance. Analyzing transcriptomes of tolerant and susceptible hydrangeas through RNA sequencing will lead to the identification of differentially expressed genes and/or pathways. Concurrent application of marker-assisted selection, genetic transformation, and gene editing will contribute to the development of powdery-mildew-resistant varieties of bigleaf hydrangea. The aim of this review is to give a general overview of powdery mildew, its impact on bigleaf hydrangea, current control methods, molecular mechanisms, and breeding prospects for powdery mildew resistance in bigleaf hydrangea.

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