Abstract
Main conclusionGenome-wide annotation reveals that the gene birth–death process of the Cucurbita R family is associated with a species-specific diversification of TNL and CNL protein classes.The Cucurbitaceae family includes nearly 1000 plant species known universally as cucurbits. Cucurbita genus includes many economically important worldwide crops vulnerable to more than 200 pathogens. Therefore, the identification of pathogen-recognition genes is of utmost importance for this genus. The major class of plant-resistance (R) genes encodes nucleotide-binding site and leucine-rich repeat (NLR) proteins, and is divided into three sub-classes namely, TIR-NB-LRR (TNL), CC-NB-LRR (CNL) and RPW8-NB-LRR (RNL). Although the characterization of the NLR gene family has been carried out in important Cucurbita species, this information is still linked to the availability of sequenced genomes. In this study, we analyzed 40 de novo transcriptomes and 5 genome assemblies, which were explored to investigate the Cucurbita expressed-NLR (eNLR) and NLR repertoires using an ad hoc gene annotation approach. Over 1850 NLR-encoding genes were identified, finely characterized and compared to 96 well-characterized plant R-genes. The maximum likelihood analyses revealed an unusual diversification of CNL/TNL genes and a strong RNL conservation. Indeed, several gene gain and loss events have shaped the Cucurbita NLR family. Finally, to provide a first validation step Cucurbita, eNLRs were explored by real-time PCR analysis. The NLR repertories of the 12 Cucurbita species presented in this paper will be useful to discover novel R-genes.
Highlights
Cucurbita is an important genus of the Cucurbitaceae family that encloses independently domesticated species native to Central and South America (Castellanos-Morales et al 2018)
C. sororia nucleotide-binding site and leucine-rich repeat (NLR) gene family was excluded from evolutionary change analyses because our ortholog dataset was inadequate to correctly estimate a ʎ value including C. sororia
Seedlings were grown in a climatic chamber at 26 °C and 60% of relative humidity, NLR‐resistance gene annotation in Cucurbita species
Summary
Cucurbita is an important genus of the Cucurbitaceae family that encloses independently domesticated species native to Central and South America (Castellanos-Morales et al 2018). Domestication and further breeding contributed to narrowing the genetic base of the species, making the Cucurbita crops susceptible to existing pests and diseases (Román et al 2020). This vulnerability, along with the increasing interest in developing new, environmentally friendly Cucurbita-resistant cultivars, steers the identification and the study of structural and functional mechanisms of the evolution of pathogen-recognition genes. The information on the defense arsenal of wild Cucurbita species is very limited, its exploration is an important goal for developing cultivars
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