Annual Research & Review in Biology

Xanthomonas axonopodis pv. punicae is an important bacterial pathogen associated with bacterial blight of pomegranate and can affect leaves, stems, branches and fruits. This review summarises factors that may contribute to virulence development, pathogen adaptation and disease progression in pomegranate. Fruit development involves biochemical, cellular and molecular changes, including alterations in sugars, organic acids, phenolic compounds, antioxidant status, cell wall metabolism and ripening-associated regulation. These changes may influence pathogen colonisation, survival and symptom development. In Xanthomonas, virulence is supported by multiple mechanisms, including extracellular polysaccharide production, biofilm formation, motility, environmental sensing, secretion systems, effector proteins and stress-tolerance responses. Type III secretion systems and associated effectors play important roles in suppressing plant immune responses and supporting bacterial growth in host tissues. Genetic processes such as mutation, recombination, horizontal gene transfer and variation in virulence-associated genes may contribute to adaptability and pathogenic diversity among strains. Environmental factors, including temperature, humidity, rainfall and osmotic or oxidative stress, may further influence pathogen survival, dispersal and disease severity. Current management approaches rely on integrated disease management, sanitation, cultural practices, chemical control, biological control agents, molecular detection, resistance screening and the identification of host resistance-related genes. By bringing these areas together, the review provides a consolidated interpretation of how fruit physiology and bacterial adaptive traits may interact during disease development. The review highlights that virulence in pomegranate-associated Xanthomonas is likely shaped by combined host, pathogen, genetic and environmental factors. A clearer understanding of these mechanisms may support improved diagnosis, resistance breeding and sustainable disease management strategies for bacterial blight of pomegranate.