<scp><i>CsBPC2</i></scp> is a key regulator of root growth and development

Xu, Feng; Li, Shuzhen; Meng, Di; Di, Qinghua; Zhou, Mi; Yu, Xianchang; He, Chunguang; Yan, Yan; Wang, Jun; Sun, Mintao; Li, Yansu

doi:10.1111/ppl.13977

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Physiologia Plantarum

2023

DOI: 10.1111/ppl.13977

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CsBPC2 is a key regulator of root growth and development

Feng Xu

Shuzhen Li

Di Meng

et al.

Abstract: BASIC PENTACYSTEINE (BPCs) transcription factors are important regulators of plant growth and development. However, the regulatory mechanism of BPC2 in roots remains unclear. In our previous study, we created Csbpc2 cucumber mutants by the CRISPR/Cas9 system, and our studies on the phenotype of Csbpc2 mutants showed that the root growth was inhibited compared with wide‐type (WT). Moreover, the surface area, volume and number of roots decreased significantly, with root system architecture changing from dichotom… Show more

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Cited by 3 publications

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CsBPC2 is essential for cucumber survival under cold stress

Meng,

Li,

Feng

et al. 2023

BMC Plant Biol

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Cold stress affects the growth and development of cucumbers. Whether the BPC2 transcription factor participates in cold tolerance and its regulatory mechanism in plants have not been reported. Here, we used wild-type (WT) cucumber seedlings and two mutant Csbpc2 lines as materials. The underlying mechanisms were studied by determining the phenotype, physiological and biochemical indicators, and transcriptome after cold stress. The results showed that CsBPC2 knockout reduced cucumber cold tolerance by increasing the chilling injury index, relative electrical conductivity and malondialdehyde (MDA) content and decreasing antioxidant enzyme activity. We then conducted RNA sequencing (RNA-seq) to explore transcript-level changes in Csbpc2 mutants. A large number of differentially expressed genes (1032) were identified and found to be unique in Csbpc2 mutants. However, only 489 down-regulated genes related to the synthesis and transport of amino acids and vitamins were found to be enriched through GO analysis. Moreover, both RNA-seq and qPT-PCR techniques revealed that CsBPC2 knockout also decreased the expression of some key cold-responsive genes, such as CsICE1, CsCOR413IM2, CsBZR1 and CsBZR2. These results strongly suggested that CsBPC2 knockout not only affected cold function genes but also decreased the levels of some key metabolites under cold stress. In conclusion, this study reveals for the first time that CsBPC2 is essential for cold tolerance in cucumber and provides a reference for research on the biological function of BPC2 in other plants.

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CsBPC2 is essential for cucumber survival under cold stress

Meng,

Li,

Feng

et al. 2023

BMC Plant Biol

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From Sequencing to Genome Editing in Cucurbitaceae: Application of Modern Genomic Techniques to Enhance Plant Traits

Pawełkowicz,

Zieniuk,

Staszek

et al. 2024

Agriculture

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The availability of genome-sequencing and genome-editing techniques has increased the applicability of innovative solutions, opening up revolutionary prospects for developments in horticultural plant breeding. The Cucurbitaceae family is a group of plants of great importance in horticulture due to their high nutritional and economic value. These plants serve as important models for elucidating the principles of plant development and refining yield improvement strategies. While traditional breeding approaches have made significant contributions to the production of cucurbits, they have also been limited by the reduced genetic diversity and lower rates of variation inherent in these species. This comprehensive review summarises the latest developments in genome editing in cucurbits. It covers various aspects of enhancing plant traits to resist biotic stresses such as pathogenic fungi and viruses, as well as abiotic stresses such as adverse climate change, especially stresses caused by drought and salinity. This study focused on improvements in plant quality and on the optimisation of plant architecture, sex determination of flowers and fruit features. This review provides insights that may hold great promise for the future of horticultural crop improvement and serves as an important reference for the advancement of genome-sequencing and gene-editing technologies in cucurbits.

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The Role of Brassinosteroids in Plant Cold Stress Response

He,

Zhou,

Feng

et al. 2024

Life

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Temperature affects plant growth and geographical distribution. Cold stress occurs when temperatures fall below the physiologically optimal range for plants, causing permanent and irreversible damage to plant growth, development, and production. Brassinosteroids (BRs) are steroid hormones that play an important role in plant growth and various stress responses. Recent studies have shown that low temperatures affect BR biosynthesis in many plant species and that BR signaling is involved in the regulation of plant tolerance to low temperatures, both in the CBF-dependent and CBF-independent pathways. These two regulatory pathways correspond to transient and acclimation responses of low temperature, respectively. The crosstalk between BRs and other hormones is a significant factor in low-temperature tolerance. We provide an overview of recent developments in our knowledge of BRs’ function in plant responses to cold stress and how they interact with other plant hormones in this review.

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CsBPC2 is a key regulator of root growth and development

Cited by 3 publications

References 86 publications

CsBPC2 is essential for cucumber survival under cold stress

CsBPC2 is essential for cucumber survival under cold stress

From Sequencing to Genome Editing in Cucurbitaceae: Application of Modern Genomic Techniques to Enhance Plant Traits

The Role of Brassinosteroids in Plant Cold Stress Response

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