PubMed 35048110

PubMed ID: 35048110

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An efficient root transformation system for CRISPR/Cas9-based analyses of shoot-root communication in cucurbit crops.
Authors: Geng Shouyu, Sohail Hamza, Cao Haishun, Sun Jingyu, Chen Zhi, Zhou Lijian, Wang Wenbo, Ye Runwen, Yang Li, Bie Zhilong
Journal: Horticulture research (Hortic Res), Vol.9(), 2022

DOI: 10.1093/hr/uhab082 PMCID: PMC5650140

Abstract
Cucurbit crops are suitable models for studying long-distance signaling in horticultural plants. Although thousands of substances are graft transmissible in cucurbits, functional studies have been hampered by the lack of efficient genetic transformation systems. Here, we report a convenient and efficient root transformation method for several cucurbit crops that will facilitate studies of functional genes and shoot-root crosstalk. We obtained healthy plants with completely transformed roots and non-transgenic shoots within 6 weeks. Furthermore, we combined this root transformation method with grafting, which allowed for gene manipulation in the rootstock. We validated our system by exploring salt tolerance mechanisms using a cucumber (Cucumis sativus)/pumpkin (Cucurbita moschata Duch.) (scion/rootstock) graft in which the sodium transporter gene High-affinity K+ transporter1 (CmoHKT1;1) was edited in the pumpkin rootstock and by overexpressing the pumpkin tonoplast Na+/H+ antiporter gene Sodium hydrogen exchanger4 (CmoNHX4) in cucumber roots.
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