JOURNAL ARTICLE
Strigolactone regulates adventitious root formation via the MdSMXL7‐MdWRKY6‐MdBRC1 signaling cascade in apple.
Published In: Plant Journal, 2023, v. 113, n. 4. P. 772 1 of 3
Database: Academic Search Ultimate 2 of 3
Authored By: Fan, Xingqiang; Li, Yuqi; Deng, Cecilia H.; Wang, Shiyao; Wang, Zijun; WANG, YI; Qiu, Changpeng; Xu, Xuefeng; Han, Zhenhai; Li, Wei 3 of 3
Abstract
SUMMARY: Propagation through stem cuttings is a popular method worldwide for species such as fruit tree rootstocks and forest trees. Adventitious root (AR) formation from stem cuttings is crucial for effective and successful clonal propagation of apple rootstocks. Strigolactones (SLs) are newly identified hormones involved in AR formation. However, the regulatory mechanisms underpinning this process remain elusive. In the present study, weighted gene co‐expression network analysis, as well as rooting assays using stable transgenic apple materials, revealed that MdBRC1 served as a key gene in the inhibition of AR formation by SLs. We have demonstrated that MdSMXL7 and MdWRKY6 synergistically regulated MdBRC1 expression, depending on the interactions of MdSMXL7 and MdWRKY6 at the protein level downstream of SLs as well as the direct promoter binding on MdBRC1 by MdWRKY6. Furthermore, biochemical studies and genetic analysis revealed that MdBRC1 inhibited AR formation by triggering the expression of MdGH3.1 in a transcriptional activation pathway. Finally, the present study not only proposes a component, MdWRKY6, that enables MdSMXL7 to regulate MdBRC1 during the process of SL‐controlled AR formation in apple, but also provides prospective target genes to enhance AR formation capacity using CRISPR (i.e. clustered regularly interspaced short palindromic repeats) technology, particularly in woody plants. Significance Statement: Strigolactones (SLs) signaling and functions that lead to the changes of adventitious root (AR) formation are still largely unknown. In the present study, we have identified an MdSMXL7‐MdWRKY6‐MdBRC1 molecular regulatory network for SL‐mediated inhibition of AR formation in apple. Our findings have broadened the understanding of SL‐controlled AR formation, especially in woody plants. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Plant Journal. 2023/02, Vol. 113, Issue 4, p772
- Document Type:Article
- Subject Area:Botany
- Publication Date:2023
- ISSN:0960-7412
- DOI:10.1111/tpj.16082
- Accession Number:161896971
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