2024
DOI: 10.1002/pld3.565
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The melon Fom‐1–Prv resistance gene pair: Correlated spatial expression and interaction with a viral protein

Michael Normantovich,
Arie Amitzur,
Sharon Offri
et al.

Abstract: The head‐to‐head oriented pair of melon resistance genes, Fom‐1 and Prv, control resistance to Fusarium oxysporum races 0 and 2 and papaya ringspot virus (PRSV), respectively. They encode, via several RNA splice variants, TIR‐NBS‐LRR proteins, and Prv has a C‐terminal extra domain with a second NBS homologous sequence. In other systems, paired R‐proteins were shown to operate by “labor division,” with one protein having an extra integrated domain that directly binds the pathogen's Avr factor, and the second pr… Show more

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“…Despite these limitations, studies on plant synthetic promoters provide valuable information concerning the regulatory mechanisms controlling gene expression in complex traits, enabling the regulation of metabolic pathway activity [28,50,78]. Moreover, of particular importance is research on plant bidirectional and orthogonal expression systems, providing solutions to problems associated with the coordinated and controlled expression of stacked genes as well as decreasing the exposition to homologous DNA sequences [28,78,79]. Besides the putative practical applications, studies on plant synthetic promoters are often performed on the whole genome scale, supported by advanced machine and deep learning algorithms.…”
Section: Introductionmentioning
confidence: 99%
“…Despite these limitations, studies on plant synthetic promoters provide valuable information concerning the regulatory mechanisms controlling gene expression in complex traits, enabling the regulation of metabolic pathway activity [28,50,78]. Moreover, of particular importance is research on plant bidirectional and orthogonal expression systems, providing solutions to problems associated with the coordinated and controlled expression of stacked genes as well as decreasing the exposition to homologous DNA sequences [28,78,79]. Besides the putative practical applications, studies on plant synthetic promoters are often performed on the whole genome scale, supported by advanced machine and deep learning algorithms.…”
Section: Introductionmentioning
confidence: 99%