Microbiome analysis uncovers fruit-specific microbial community divergence between wild and cultivated watermelon varieties

Microbiome analysis uncovers fruit-specific microbial community divergence between wild and cultivated watermelon varieties

Blog Article

read more Domestication not only modulates the genetic characteristics of crops but also reconfigures their associated microbial communities, which subsequently impact plant health, disease resistance, and ecological adaptability.In our study, we explore the disparities in microbial communities, metabolic profiles, and fruit quality between the domesticated watermelon cultivar Citrullus lanatus var.vulgaris (M1511-3) and its wild progenitor, Citrullus mucosospermus (PI595203).Our findings reveal that domestication profoundly reshapes microbial composition: Citrullus lanatus var.

vulgaris (M1511-3) is predominantly colonized by Sphingomonas species, which facilitate fruit development and enhance sweetness, whereas Citrullus mucosospermus (PI595203) sustains a more diverse microbial community, encompassing Gammaproteobacteria, Bacilli, and Actinomycetia, which confer increased ecological resilience and disease resistance.These microbial discrepancies are reflected in divergent metabolic profiles: Citrullus mucosospermus (PI595203) exhibits enhanced nucleotide and D-amino acid metabolism, indicative of superior stress adaptation, whereas Citrullus lanatus var.vulgaris (M1511-3) demonstrates optimized carbohydrate, lipid, and amino acid metabolism, underpinning its superior fruit quality.Furthermore, the microbial community of Citrullus lanatus var.

vulgaris (M1511-3) exhibits augmented redox and carbohydrate-binding capacities, while Citrullus mucosospermus (PI595203) displays a broader enzymatic repertoire, promoting more efficient carbohydrate utilization and enhanced environmental adaptability.Remarkably, Citrullus mucosospermus (PI595203) harbors approximately 40 antibiotic resistance genes, underscoring its ability to withstand pathogen-induced stress.In contrast, opheliasmuse.com Citrullus lanatus var.vulgaris (M1511-3) leverages optimized metabolic pathways to enhance fruit quality.

These findings emphasize the pivotal role of microbial interactions in shaping plant traits and suggest the potential of introducing beneficial microbes, such as Sphingomonas, to enhance crop resilience and quality.