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UrduResearchers from Nanjing Agricultural University, have identified a key homeodomain transcription factor involved in pear fruit ripening. Their study (DOI: 10.1093/hr/uhae086), published on March 28, 2024, in the journal Horticulture Research, explores how PbHB.G7.2 regulates ethylene biosynthesis by binding to the PbACS1b gene promoter. This research uncovers new insights into the genetic control of fruit ripening, paving the way for advancements in horticultural practices.
The study focused on identifying transcription factors involved in ethylene biosynthesis during pear fruit ripening. Through transcriptome analysis, the researchers identified PbHB.G7.2, which directly binds to the promoter of PbACS1b, enhancing its activity and increasing ethylene production. PbHB.G7.2 interacts with other homeodomain transcription factors, PbHB.G1 and PbHB.G2.1, disrupting its transcriptional activation. These interactions are crucial as they regulate the levels of ethylene produced, affecting the ripening process. In over-expression experiments, PbHB.G7.2 significantly increased ethylene production in pear fruit callus, confirming its role in ethylene biosynthesis. The dual-luciferase assay demonstrated that PbHB.G7.2 enhances the PbACS1b promoter’s activity, pinpointing the binding region within the upstream sequence of the gene. The researchers further validated the physical interaction between PbHB.G7.2 and the PbACS1b promoter through electrophoretic mobility shift assays.
Dr. Shao-Ling Zhang, a senior researcher at Nanjing Agricultural University, stated, “This discovery is a significant advancement in our understanding of the genetic regulation of fruit ripening. Identifying PbHB.G7.2 as a key regulator of ethylene biosynthesis provides valuable insights that can be applied to improve pear cultivation and enhance fruit quality. This research highlights the importance of molecular studies in addressing agricultural challenges.”
The identification of PbHB.G7.2’s role in ethylene biosynthesis during pear fruit ripening opens new avenues for developing targeted breeding strategies to improve fruit quality. By manipulating the expression of this transcription factor, it may be possible to control the ripening process, leading to longer shelf life and better-tasting fruit. Additionally, these findings could be applied to other climacteric fruits, offering broader implications for horticulture and agriculture industries. This research underscores the potential of genetic studies in advancing agricultural practices and ensuring food security.
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References
DOI
Original Source URL
https://doi.org/10.1093/hr/uhae086
Funding information
This work was supported by the Bioinformatics Center of Nanjing Agricultural University, the Jiangsu seed industry revitalization project (JBGS[2021]022), the Key Research and Development Program (Modern Agriculture) of Jiangsu Province (BE2022381), the Jiangsu Agricultural Science and Technology Innovation Fund (CX(20)2020), and the Earmarked Fund for China Agriculture Research System (CARS-28).
About Horticulture Research
Horticulture Research is an open access journal of Nanjing Agricultural University and ranked number one in the Horticulture category of the Journal Citation Reports ™ from Clarivate, 2022. The journal is committed to publishing original research articles, reviews, perspectives, comments, correspondence articles and letters to the editor related to all major horticultural plants and disciplines, including biotechnology, breeding, cellular and molecular biology, evolution, genetics, inter-species interactions, physiology, and the origination and domestication of crops.
