Viability and stability of biological control agents on cotton and snap bean seeds.

Cotton and snap bean were selected for a multi-year, multi-state regional (south-eastern USA) research project to evaluate the efficacy of both commercial and experimental bacterial and fungal biological control agents for the management of damping-off diseases. The goal for this portion of the project was to determine the viability and stability of biological agents after application to seed. The biological seed treatments used included: (1) Bacillaceae bacteria, (2) non-Bacillaceae bacteria, (3) the fungus Trichoderma and (4) the fungus Beauveria bassiana. Seed assays were conducted to evaluate the following application factors: short-term (< or = 3 months) stability after seed treatment; quality (i.e. isolate purity); compatibility with chemical pesticides and other biocontrol agents; application uniformity between years and plant species. For the bacterial treatments, the Bacillaceae genera (Bacillus and Paenibacillus) maintained the greatest population of bacteria per seed, the best viability over time and the best application uniformity across years and seed type. The non-Bacillaceae genera Burkholderia and Pseudomonas had the least viability and uniformity. Although Beauveria bassiana was only evaluated one year, the seed fungal populations were high and uniform. The seed fungal populations and uniformity for the Trichoderma isolates were more variable, except for the commercial product T-22. However, this product was contaminated with a Streptomyces isolate in both the years that it was evaluated. The study demonstrated that Bacillaceae can be mixed with Trichoderma isolates or with numerous pesticides to provide an integrated pest control/growth enhancement package.

Androgens suppress osteoclast formation induced by RANKL and macrophage-colony stimulating factor.

Androgen deficiency in males leads to an increase in osteoclastic bone resorption and a progressive decrease in bone mineral density. In the current studies, we examined the ability of 5 alpha-dihydrotestosterone to suppress osteoclast formation induced by receptor activator of NF-kB ligand (RANKL) and macrophage-colony stimulating factor in vitro. 5 alpha-Dihydrotestosterone suppressed the differentiation of bone marrow monocytes into osteoclasts from both sham-operated and orchidectomized mice. Androgen deficiency also led to an increase in the number of hematopoietic precursors capable of forming osteoclasts and increased the relative responsiveness of these cells to androgens in vitro. Interestingly, E2 was as effective as 5 alpha-dihydrotestosterone in suppressing osteoclast formation in bone marrow monocytes from both sham and orchidectomized mice. As with bone marrow monocytes, 5 alpha-dihydrotestosterone also suppressed RANKL-induced osteoclast formation in the monocyte-macrophagic cell line RAW264.7. In RAW264.7 cells, androgens appear to block RANKL-induced osteoclast formation through selective regulation of c-JUN: Accordingly, 5 alpha-dihydrotestosterone suppressed RANKL-induced c-Jun N-terminal kinase activation and reduced c-Jun expression levels. These effects resulted in a reduction in RANKL-induced activator protein-1 DNA binding activity and a corresponding suppression in activator protein-1-mediated transcriptional activation. These studies indicate that both E and androgens can suppress osteoclast formation via a direct, stromal cell-independent action on osteoclast precursors to block key transcription factors such as c-Jun essential for osteoclast differentiation.

The mycobiota from seeds of Shrunken-2 (sh2) Sweet Corn.

Sixteen species of fungi were isolated from the pericarp, endosperm, scutellum, and embryo of low (<75% germination), moderate (75-89%), and high vigor (>89%) seedlots of supersweet sweet corn (sh2) hybrids over two years. Most frequently isolated species werePenicillium oxalicum, Rhizopus arrhizus (14.5%), andRhizopus spp (17.4%).Fusarium moniliforme, a common inhabitant in field or dent corn, was isolated from only 2.4% of the samples. The low mean isolation values may be the result of poor conditions for infection or the data may reflect the methods used including sterilization techniques or random tissue selection.Aspergillus niger, F. moniliforme, andP. oxalicum, were isolated at a significantly greater level than other fungi from the high vigor hybrids at 0.89, 0.46 m and 4.46 respectively compared to 0.04, 0, and 1.82 for the low vigor hybrids. When Total Fungi were compared mean isolations were significantly greater from the high vigor hybrids at 11.96, the moderate 8.79, or low 4.86 vigor groups. When data from seed sources for all vigor groups were compared, significantly greater mean isolations were obtained from Illinois Foundation Seed hybrids forCladosporium sp,R. arrhizus, andRhizopus spp., but greater rates were obtained forFusarium oxysporum from the Asgrow hybrids. Isolation frequencies for the 16 species were not significantly different between the seed tissue types from any of the hybrids evaluated during this investigation. Results from this study showed that there is a diverse group of fungi present within thesh2 seed and seed treatments must be developed which will minimize seed rot and seedling blight from both internal seedborne and external pathogens.

Fast and sensitive laser-based enzymatic detection of the lactose operon in microorganisms.

This work investigates the ability of laser-based, time-resolved fluorometry to detect the lactose operon genetic marker in microorganisms and to study protein-DNA interactions. In the first study, rapid detection of the Escherichia coli lacZY operon inserted in two strains of Pseudomonas proposed as fungal biological control organisms was achieved. Optimization of incubation time, immobilization apparatus size, and reagent volumes, along with the laser-based instrumentation, yielded an assay capable of detecting 10(4) immobilized lac+ Pseudomonas fluorescens cells within a 30-min incubation time. In the second study, the synthesis of E. coli beta-galactosidase was monitored in "real-time" with observable enzymatic activity beginning 4 to 5 min after induction with isopropylthiogalactoside.

Enhanced instrumental sensitivity and selectivity for aminopeptidase profiling.

Laser-excited fluorimetry has been applied to the identification of bacteria and fungus. The instrumental sensitivity and selectivity of the aminopeptidase profiling method has been enhanced by the use of laser excitation in conjunction with improved spectral and temporal background rejection. The linear dynamic range for the aminopeptidase technique has been increased by achieving a reduced lower limit of detection of the fluorescent tag, beta-naphthylamine. Standard aminopeptidase methodology only provides a linear dynamic range of 1.5 orders of magnitude. The laser-based method expanded the range to three orders of magnitude allowing the inherent specificity of aminopeptidase enzymes within the pathogen to be observed. The enhanced linear dynamic range was observed in profiles of Agrobacterium tumefaciens rubi and Phytophthora megasperma var. sojae.

Aminopeptidase profiles of four species of phytophthora.

Phytophthora palmivora, P. cinnamomi, P. drechsleri, and P. cactorum were readily separated on the basis of the aminopeptidase substrate specificities of their mycelial suspensions. Variability among isolates of the same species was not significant with most substrates and isolates tested, regardless of source. Both qualitative and quantitative differences in enzyme activity were useful for species identification. Differentiation of these four species was possible with comparative reactions of l-alanyl-, l-arginyl-, l-benzoylarginyl, l-gamma-glutamyl-, l-glycyl-, l-hydroxyprolyl-, l-leucyl-, l-lysyl-, 4-methoxyleucyl-, l-prolyl-, and 4-methoxyalanyl-beta-naphthylamides. Variation in peptidase activity was usually detectable after 4 h of incubation, with increased activity sometimes manifest after 24 h of incubation. P. palmivora exhibited the lowest, and P. drechsleri exhibited the highest, overall peptidase activity. This fluorescent aminopeptidase profile procedure provides a relatively rapid method to supplement other taxonomic criteria for identification of these species of Phytophthora.

A proposed role of zein and glutelin as N sinks in maize.

Zea mays grown with high levels of N fertilizer transports more sucrose into kernels than with low N. Sucrose translocation was greatest in genotypes with the highest capacity to deposit nitrogenous compounds as zein and glutelin in the kernel. These two proteins combined contain about 80% of the total N in the kernel and about 60% of the total N in the plant at maturity. They appear to serve as a functional N sink for the deposition of nitrogenous compounds. As the N sink capacity increases with additional available N fertilizer, more sucrose is transported into the kernel, resulting in increased kernel weight and grain yield. Zein functions as a more dynamic N sink than glutelin because the synthesis of zein is readily manipulated by N fertilization and genetic means. Increases in N deposition in the normal endosperm induced by N fertilizer are confined primarily to zein. Early termination of zein accumulation in the opaque-2 mutant results in a reduction of sucrose movement into kernels. By using plants heterozygous for normal and opaque-2 in these studies, interplant variability was eliminated and the hypothesis relating the kernel N sink capacity to productivity was strengthened.