COMPARATIVE STUDY
JOURNAL ARTICLE

Comparative and functional genomic analyses of the pathogenicity of phytopathogen Xanthomonas campestris pv. campestris

Wei Qian, Yantao Jia, Shuang-Xi Ren, Yong-Qiang He, Jia-Xun Feng, Ling-Feng Lu, Qihong Sun, Ge Ying, Dong-Jie Tang, Hua Tang, Wei Wu, Pei Hao, Lifeng Wang, Bo-Le Jiang, Shenyan Zeng, Wen-Yi Gu, Gang Lu, Li Rong, Yingchuan Tian, Zhijian Yao, Gang Fu, Baoshan Chen, Rongxiang Fang, Boqin Qiang, Zhu Chen, Guo-Ping Zhao, Ji-Liang Tang, Chaozu He
Genome Research 2005, 15 (6): 757-67
15899963
Xanthomonas campestris pathovar campestris (Xcc) is the causative agent of crucifer black rot disease, which causes severe losses in agricultural yield world-wide. This bacterium is a model organism for studying plant-bacteria interactions. We sequenced the complete genome of Xcc 8004 (5,148,708 bp), which is highly conserved relative to that of Xcc ATCC 33913. Comparative genomics analysis indicated that, in addition to a significant genomic-scale rearrangement cross the replication axis between two IS1478 elements, loss and acquisition of blocks of genes, rather than point mutations, constitute the main genetic variation between the two Xcc strains. Screening of a high-density transposon insertional mutant library (16,512 clones) of Xcc 8004 against a host plant (Brassica oleraceae) identified 75 nonredundant, single-copy insertions in protein-coding sequences (CDSs) and intergenic regions. In addition to known virulence factors, full virulence was found to require several additional metabolic pathways and regulatory systems, such as fatty acid degradation, type IV secretion system, cell signaling, and amino acids and nucleotide metabolism. Among the identified pathogenicity-related genes, three of unknown function were found in Xcc 8004-specific chromosomal segments, revealing a direct correlation between genomic dynamics and Xcc virulence. The present combination of comparative and functional genomic analyses provides valuable information about the genetic basis of Xcc pathogenicity, which may offer novel insight toward the development of efficient methods for prevention of this important plant disease.

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