Zhang, Wei Zhao, Lilin Zhou, Jiao Yu, Haiying Zhang, Chi Lv, Yunxue Lin, Zhe Hu, Songnian Zou, Zhen Sun, Jianghua Phylogenetic analysis and activity of Mn-SOD. from Enhancement of oxidative stress contributes to increased pathogenicity of the invasive pine wood nematode (A) The phylogenetic analysis of Mn-SOD amino acids from B. xylophilus and other organisms. The sequences and NCBI accession number used are listed as follows: NP_038699.2, Mus musculus; NP_956270.1, Danio rerio; NP_492290.1, Caenorhabditis elegans; NP_187703.1, Arabidopsis thaliana; WP_032292902.1, Escherichia coli; NP_476925.1, Drosophila melanogaster; NP_001055195.1, Oryza sativa; XP_003115144.1, Caenorhabditis remanei; NP_011872.1, Saccharomyces cerevisiae; CDJ98014.1, Haemonchus contortus; XP_013295293.1, Necator americanus; KIH60312.1, Ancylostoma duodenale. (B) The plotted curve depicts the rate of inhibition as a function of Mn-SOD protein concentration. The inhibition rate~ 50% corresponds to one unit of enzyme activity. Bursaphelenchus xylophilus;fecundity;pathogenicity;reactive oxygen species;manganese superoxide dismutase 2018-12-10
    https://rs.figshare.com/articles/figure/Phylogenetic_analysis_and_activity_of_Mn-SOD_from_Enhancement_of_oxidative_stress_contributes_to_increased_pathogenicity_of_the_invasive_pine_wood_nematode/7442441
10.6084/m9.figshare.7442441.v1