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Genome sequence of <i>Valsa</i> canker pathogens uncovers a potential adaptation of colonization of woody bark

Zhiyuan YinState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaHuiquan LiuState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaZhengpeng LiState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaXiwang KeState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaDaolong DouDepartment of Plant Pathology Nanjing Agricultural University 1 Weigang Road Nanjing 210095 ChinaXiaoning GaoState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaNa SongState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaQingqing DaiState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaYuxing WuState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaJin‐Rong XuDepartment of Botany and Plant Pathology Purdue University West Lafayette IN 47907 USAZhensheng KangState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 ChinaLili HuangState Key Laboratory of Crop Stress Biology for Arid Areas and College of Plant Protection Northwest A&amp;F University Yangling 712100 China
2015en
ABI

Аннотация

Canker caused by ascomycetous Valsa species are among the most destructive diseases of woody plants worldwide. These pathogens are distinct from other pathogens because they only effectively attack tree bark in the field. To unravel the potential adaptation mechanism of bark colonization, we examined the genomes of Valsa mali and Valsa pyri that preferentially infect apple and pear, respectively. We reported the 44.7 and 35.7 Mb genomes of V. mali and V. pyri, respectively. We also identified the potential genomic determinants of wood colonization by comparing them with related cereal pathogens. Both genomes encode a plethora of pathogenicity-related genes involved in plant cell wall degradation and secondary metabolite biosynthesis. In order to adapt to the nutrient limitation and low pH environment in bark, they seem to employ membrane transporters associated with nitrogen uptake and secrete proteases predominantly with acidic pH optima. Remarkably, both Valsa genomes are especially suited for pectin decomposition, but are limited in lignocellulose and cutin degradation. Besides many similarities, the two genomes show distinct variations in many secondary metabolism gene clusters. Our results show a potential adaptation of Valsa canker pathogens to colonize woody bark. Secondary metabolism gene clusters are probably responsible for this host specificity.

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