In host plants using real-time PCR. Plant Dis 2008, 92:854–861.CrossRef 34. Lozupone C, Lladser ME, Knights D, Stombaugh J, Knight R: UniFrac: an effective distance metric for microbial community comparison. ISME J 2011,5(2):169–172.PubMedCrossRef 35. Tibshirani NVP-BGJ398 price R, Hastie T, Narasimhan B, Chu G: Diagnosis of multiple cancer types by shrunken centroids of gene expression. PNAS 2002,99(10):6567–6572.PubMedCrossRef
36. Laura PLA: Bootstrap confidence intervals for the Shannon biodiversity index: a simulation study. J Agric Biol Environ Stat 2004, 9:42–56.CrossRef Competing interests The authors declare that they have no competing interests. Authors’ contributions MZ, YG and LB carried out the field studies and the DNA extractions. CP and YD participated in the design of the study and its coordination. MZ, LB, YD and CP performed the analysis and drafted the manuscript. All authors read and approved the final manuscript.”
“Background Pseudomonas fluorescens
is a γ –proteobacterium that is found throughout terrestrial ecosystems but is most commonly isolated from the surface of plant roots and leaves. Strains of P. fluorescens are physiologically and ecologically diverse, representing at least five biovars [1]. The see more extreme heterogeneity among P. fluorescens isolates has led scientists to propose that strains of P. fluorescens Geneticin form a complex of species [1–3]. Recent analyses that compare the genomes of several P. fluorescens strains support that hypothesis [4] and demonstrate that strains of P. fluorescens arose from at least three separate lineages [5]. The large genomes PDK4 of P. fluorescens provide an extensive biochemical repertoire that enables some strains to produce and secrete bioactive molecules that mediate microbe-microbe, plant-microbe, and insect-microbe interactions [6]. These secondary metabolites include antimicrobial compounds like phenazines, polyketides, cyclic lipopeptides, pyrrolnitrin, hydrogen cyanide, and others [6,
7]. Because these compounds may play a critical role in both microbial and plant ecology, there is continuing interest in characterizing secondary metabolites produced by isolates of P. fluorescens. P. fluorescens WH6, a strain originally isolated from the rhizosphere of wheat [8, 9], has been shown in our laboratories to produce and secrete a low molecular weight compound that has selective herbicidal and antimicrobial properties [10, 11]. This compound, which we termed a Germination-Arrest Factor (GAF), selectively and irreversibly arrests the germination of a large number of graminaceous species, including a number of invasive grassy weeds [10]. We identified GAF as the non-proteinogenic amino acid 4-formylaminooxyvinylglycine (FVG, L-2-amino-4-formylaminooxy-trans-3-butenoic acid) [12].