Dallice Mills

Molecular strategies of pathogens and host plants

The field of the molecular basis of plant disease is rapidly developing. The nineteen chapters of current information in Molecular Strategies of Pathogens and Host Plants are written by well known experts in the United States and Japan, and cover recent progress in the genetics and molecular biology of bacteria and fungi which are pathogens of plants. This research emphasizes the genes which are responsible for production of toxins, enzymes, and hormones that lead to pathogenicity and specificity in plant-pathogen interactions. Several chapters also examine the biochemistry of the plants response to microbial attack.

Specific Detection of Clavibacter michiganensis subsp. sepedonicus by Amplification of Three Unique DNA Sequences Isolated by Subtraction Hybridization.

ABSTRACT Three single-copy, unique DNA fragments, designated Cms50, Cms72, and Cms85, were isolated from strain CS3 of Clavibacter michiganensis subsp. sepedonicus by subtraction hybridization using driver DNA from C. michiganensis subsp. insidiosus, C. michiganensis subsp. michiganensis, and Rhodococcus facians. Radio-labeled probes made of these fragments and used in Southern blot analysis revealed each to be absolutely specific to all North American C. michiganensis subsp. sepedonicus strains tested, including plasmidless and nonmucoid strains. The probes have no homology with genomic DNA from related C. michiganensis subspecies insidiosus, michiganensis, and tessellarius, nor with DNA from 11 additional bacterial species and three unidentified strains, some of which have been previously reported to display cross-reactivity with C. michiganensis subsp. sepedonicus-specific antisera. The three fragments shared no homology, and they appeared to be separated from each other by at least 20 kbp in the CS3 genome. Internal primer sets permitted amplification of each fragment by the polymerase chain reaction (PCR) only from C. michiganensis subsp. sepedonicus DNA. In a PCR-based sensitivity assay using a primer set that amplifies Cms85, the lowest level of detection of C. michiganensis subsp. sepedonicus was 100 CFU per milliliter when cells were added to potato core fluid. Erroneous results that may arise from PCR artifacts and mutational events are, therefore, minimized by the redundancy of the primer sets, and the products should be verifiable with unique capture probes in sequence-based detection systems.

An improved, high-quality draft genome sequence of the Germination-Arrest Factor-producing Pseudomonas fluorescens WH6

BackgroundPseudomonas fluorescens is a genetically and physiologically diverse species of bacteria present in many habitats and in association with plants. This species of bacteria produces a large array of secondary metabolites with potential as natural products. P. fluorescens isolate WH6 produces Germination-Arrest Factor (GAF), a predicted small peptide or amino acid analog with herbicidal activity that specifically inhibits germination of seeds of graminaceous species.ResultsWe used a hybrid next-generation sequencing approach to develop a high-quality draft genome sequence for P. fluorescens WH6. We employed automated, manual, and experimental methods to further improve the draft genome sequence. From this assembly of 6.27 megabases, we predicted 5876 genes, of which 3115 were core to P. fluorescens and 1567 were unique to WH6. Comparative genomic studies of WH6 revealed high similarity in synteny and orthology of genes with P. fluorescens SBW25. A phylogenomic study also placed WH6 in the same lineage as SBW25. In a previous non-saturating mutagenesis screen we identified two genes necessary for GAF activity in WH6. Mapping of their flanking sequences revealed genes that encode a candidate anti-sigma factor and an aminotransferase. Finally, we discovered several candidate virulence and host-association mechanisms, one of which appears to be a complete type III secretion system.ConclusionsThe improved high-quality draft genome sequence of WH6 contributes towards resolving the P. fluorescens species, providing additional impetus for establishing two separate lineages in P. fluorescens. Despite the high levels of orthology and synteny to SBW25, WH6 still had a substantial number of unique genes and represents another source for the discovery of genes with implications in affecting plant growth and health. Two genes are demonstrably necessary for GAF and further characterization of their proteins is important for developing natural products as control measure against grassy weeds. Finally, WH6 is the first isolate of P. fluorescens reported to encode a complete T3SS. This gives us the opportunity to explore the role of what has traditionally been thought of as a virulence mechanism for non-pathogenic interactions with plants.

Electrophoretic karyotyping without the need for generating protoplasts.

SummaryChromosome samples for pulsed-field electrophoresis have been prepared without first generating protoplasts. The technique involves treatment of intact, agarose-solidified cell material with protease in the presence of EDTA and SDS. Saccharomyces cerevisiae, Ustilago hordei, Tilletia caries, and T. controversa karyotypes are clearly resolved with this technique. Colonies of U. hordei and S. cerevisiae removed from the surface of agarsolidified media and prepared for PFGE by this abbreviated method also yield well resolved karyotypes.

Characterization of genome plasticity in Ustilago hordei

Southern-blot hybridization analysis was used to identify and quantify chromosome-length polymorphisms for ten linkage groups of 14 races of Ustilago hordei. The bands identified by the probes were shown to vary as much as hundreds of kilobase pairs, but the magnitude of the variability was typically 5–15% of the average size of all bands to which a particular probe hybridized. A filamentous morphology mutant, recovered following heatshock treatment of a strain with the greatest number of chromosome bands, was shown to have suffered a 50-kb deletion in a 940-kb chromosome. The mutation to filamentous morphology, designated fil1-1, and the deletion, were shown to invariably cosegregate 2:2 with the wildtype (sporidial) morphology in an ordered tetrad. Genetic and physical analyses place the Fill locus and the deletion near the terminus of one arm of the 940-kb chromosome. These results suggest that deletions of this type may be one of the causes of chromosome-length polymorphisms observed in field isolates of U. hordei.

4-Formylaminooxyvinylglycine, an herbicidal germination-arrest factor from Pseudomonas rhizosphere bacteria.

A new oxyvinylglycine has been identified as a naturally occurring herbicide that irreversibly arrests germination of the seeds of grassy weeds, such as annual bluegrass (Poa annua), without significantly affecting the growth of established grass seedlings and mature plants or germination of the seeds of broadleaf plant species (dicots). Previously, Pseudomonas fluorescens WH6 and over 20 other rhizosphere bacteria were isolated and selected for their ability to arrest germination of P. annua seeds. The germination-arrest factor (GAF, 1) responsible for this developmentally specific herbicidal action has now been isolated from the culture filtrate of P. fluorescens WH6. Purification of this highly polar, low molecular weight natural product allowed its structure to be assigned as 4-formylaminooxy-l-vinylglycine on the basis of NMR spectroscopic and mass spectrometric data, in combination with D/L-amino acid oxidase reactions to establish the absolute configuration. Assay results for P. annua inhibition by related compounds known to regulate plant growth are presented, and a cellular target for 1 is proposed. Furthermore, using bioassays, TLC, and capillary NMR spectroscopy, it has been shown that GAF (1) is secreted by all other herbicidally active rhizosphere bacteria in our collection.

INSERTION SPECIFICITY AND TRANS-ACTIVATION OF IS801

Abstract The transposable element IS801, isolated from plasmid pMMC7105 of Pseudomonas syringae pv. phaseolicola, transposes in Escherichia coli to plasmid targets, expressing a relatively relaxed target specificity. The target sequences are tetramers with homology with the left terminus (GAAC) of the transposing unit, the alternative targets being GAAC, GGAC, CAAG, and CGAC. In the areas flanking IS801 in 13 different locations, no similarities other than the target tetramer were observed. The transposase is physically and functionally separable from the transposing unit since transposition of constructs carrying marker genes occurs with the transposase expressed in trans. The IS801 transposase shows amino acid sequence homology to the transposases of the E. coli elements IS91 and IS1294. These tranposases contain conserved amino acid motifs found in the replicases of certain plasmids that replicate as rolling circles.

Characterization of eight excision plasmids of Pseudomonas syringae pv. phaseolicola.

SummaryPseudomonas syringae pv. phaseolicola strain LR719 contains a 150 kilobase pair (kb) plasmid pMC7105, stably integrated into its chromosome. Occasionally, single colony isolates of this strain contain an excision plasmid. Eight unique excision plasmids were selected and characterized by BamHI restriction endonuclease and blot hybridization analyses. These plasmids ranged in size from 35 to 270 kb; the largest contained approximately 130 kb of chromosomal DNA sequences. Restriction maps of pMC7105 were developed to deduce the site of integration and to identify the fragments in which recombination occurred to produce each excision plasmid. The eight excision plasmids were arranged into five classes based on the sites where excision occurs. A 20 kb region of pMC7105, which includes BamHI fragment 9 and portions of adjacent fragments, is present in all excision plasmids and thought to contain the origin of replication. The site of integration on pMC7105 maps within BamHI fragment 8. This fragment shows homology with seven other BamHI fragments of pMC7105 and with five chromosomal fragments identified among the excision plasmids. The data strongly suggest that the integration of pMC7105 may have occurred at a repetitive sequence present on the chromosome and on the plasmid.

Genetics of germination-arrest factor (GAF) production by Pseudomonas fluorescens WH6: identification of a gene cluster essential for GAF biosynthesis

The genetic basis of the biosynthesis of the germination-arrest factor (GAF) produced by Pseudomonas fluorescens WH6, and previously identified as 4-formylaminooxyvinylglycine, has been investigated here. In addition to inhibiting the germination of a wide range of grassy weeds, GAF exhibits a selective antimicrobial activity against the bacterial plant pathogen Erwinia amylovora. We utilized the in vitro response of E. amylovora to GAF as a rapid screen for loss-of-function GAF phenotypes generated by transposon mutagenesis. A Tn5 mutant library consisting of 6364 WH6 transformants was screened in this Erwinia assay, resulting in the identification of 18 non-redundant transposon insertion sites that led to loss of GAF production in WH6, as confirmed by TLC analysis. These insertions mapped to five different genes and four intergenic regions. Three of these genes, including two putative regulatory genes (gntR and iopB homologues), were clustered in a 13 kb chromosomal region containing 13 putative ORFs. A GAF mutation identified previously as affecting an aminotransferase also maps to this region. We suggest that three of the genes in this region (a carbamoyltransferase, an aminotransferase and a formyltransferase) encode the enzymes necessary to synthesize dihydroGAF, the putative immediate precursor of GAF in a proposed GAF biosynthetic pathway. RT-qPCR analyses demonstrated that mutations in the gntR and iopB regulatory genes, as well as in a prtR homologue identified earlier as controlling GAF formation, suppressed transcription of at least two of the putative GAF biosynthetic genes (encoding the aminotransferase and formyltransferase) located in this 13 kb region.

Selective inhibition of Erwinia amylovora by the herbicidally active germination-arrest factor (GAF) produced by Pseudomonas bacteria

Aims:  The germination‐arrest factor (GAF) produced by Pseudomonas fluorescens WH6, and identified as 4‐formylaminooxyvinylglycine, specifically inhibits the germination of a wide range of grassy weeds. This study was undertaken to determine whether GAF has antimicrobial activity in addition to its inhibitory effects on grass seed germination.