Monoclonal antibodies incorporated into Neotyphodium coenophialum fungal cultures: inhibition of fungal growth and stability of antibodies.

Three monoclonal antibodies (mAbs) produced against proteins from the tall fescue (Festuca arundinacea Schreb.) fungal endophyte Neotyphodium coenophialum hybridize exclusively to a fungal protein under denaturing conditions. The protein is approximately 88 kDa in size. These mAbs were individually incorporated into liquid medium to determine their effects on fungal growth in culture. Neotyphodium-specific mAbs inhibited fungal growth for the duration of the study. Fungal cultures grown in the presence of Neotyphodium-naive mAbs or in the absence of all mAbs grew unimpeded. Bright-field microscopy and immunohistochemical studies of cultures containing Neotyphodium-specific mAbs revealed a change in mycelia morphology with clumps exhibiting a gelatinous matrix containing sparse hyphae, while cultures receiving Neotyphodium-naive mAbs in medium demonstrated unrestricted growth with overlapping and branched hyphae. In liquid culture devoid of fungal isolates, mAbs were stable and detected throughout the experiment, but were below threshold detection levels within 15 min following inclusion in liquid cultures containing Neotyphodium spp., indicating rapid binding to fungal mycelia. Monoclonal antibodies may provide a new method to help control plant pathogenic fungi where chemical or genetic means are not feasible.

Ergot alkaloid transport across ruminant gastric tissues.

Ergot alkaloids cause fescue toxicosis when livestock graze endophyte-infected tall fescue. It is generally accepted that ergovaline is the toxic component of endophyte-infected tall fescue, but there is no direct evidence to support this hypothesis. The objective of this study was to examine relative and potential transport of ergoline and ergopeptine alkaloids across isolated gastric tissues in vitro. Sheep ruminal and omasal tissues were surgically removed and placed in parabiotic chambers. Equimolar concentrations of lysergic acid, lysergol, ergonovine, ergotamine, and ergocryptine were added to a Kreb's Ringer phosphate (KRP) solution on the mucosal side of the tissue. Tissue was incubated in near-physiological conditions for 240 min. Samples were taken from KRP on the serosal side of the chambers at times 0, 30, 60, 120, 180, and 240 min and analyzed for ergot alkaloids by competitive ELISA. The serosal KRP remaining after incubation was freeze-dried and the alkaloid species quantified by HPLC. The area of ruminal and omasal tissues was measured and the potential transportable alkaloids calculated by multiplying the moles of transported alkaloids per square centimeter of each tissue type by the surface area of the tissue. Studies were conducted to compare alkaloid transport in reticular, ruminal, and omasal tissues and to determine whether transport was active or passive. Ruminal tissue had greater ergot alkaloid transport potential than omasal tissue (85 vs 60 mmol) because of a larger surface area. The ruminal posterior dorsal sac had the greatest potential for alkaloid transport, but the other ruminal tissues were not different from one another. Alkaloid transport was less among reticular tissues than among ruminal tissues. Transport of alkaloids seemed to be an active process. The alkaloids with greatest transport potential were lysergic acid and lysergol. Ergopeptine alkaloids tended to pass across omasal tissues in greater quantities than across ruminal tissues, but their transport was minimal compared to lysergic acid and lysergol.

Urinary alkaloid excretion as a diagnostic tool for fescue toxicosis in cattle.

Fescue toxicosis research studies have often included serum prolactin as a physiologic index of the disorder. Serum prolactin has not been used as a clinical measure of fescue toxicosis because of variation associated with sex and physiologic condition of the animal and climatic and seasonal factors. The primary excretory route of the alkaloids responsible for this toxicosis is the urine. Three pasture experiments were conducted to examine serum prolactin and urinary ergot alkaloid variability among steers continuously grazing endophyte-infected (E+) or endophyte-free (E-) tall fescue and among steers that were switched from one pasture form to the other. A fourth grazing experiment was used to examine how to best to manage the steers prior to sampling for urinary ergot alkaloid excretion. Coefficients of variability for urinary alkaloid excretion were consistently lower (46-65%) than serum prolactin (64-142%). Urinary alkaloid excretion patterns changed within 12 hours following switching steers from E+ to E- pasture or vice versa, but serum prolactin was recalcitrant to change. Because it is less variable and more dynamic than serum prolactin, urinary alkaloid excretion can be used for health assessment of steers grazing E+ and E- pastures. Regression analysis established a quadratic relationship between alkaloid excretion and average daily weight gain, with a regression coefficient of 0.86. Urinary alkaloid analysis was useful in determining whether cattle were consuming toxic tall fescue.

Intra- and Interpopulation Genome Variation In Meloidogyne arenaria.

The genetic heterogeneity of two M. arenaria race 2 populations (designated Pelion and Govan) was examined using RFLP analysis of 12 clonal lines established from single egg masses (six distinct clonal lines from each population). These populations are essentially identical by traditional biochemical and race identification schemes; however, the Govan population is more aggressive than the Pelion population, producing larger galls and exhibiting greater reproductive capabilities on many soybean cultivars and experimental accessions. Variation at the genomic DNA level was examined using probes representative of expressed DNA sequences present in the eukaryotic genome. Ribosomal DNA, interspersed repeated sequences, and cDNA probes were tested for detection of polymorphism within and between single egg mass lines of each population. Cloned cDNAs and ribosomal intergenic spacer sequences detect polymorphism both within and between populations, demonstrating the usefulness of these sequence classes for molecular genetic analysis of population structure and genome evolution.

Genomic RFLP Analysis of Meloidogyne arenaria Race 2 Populations.

Traditional morphological methods of Meloidogyne identification have been unsuccessful in distinguishing three South Carolina, USA Meloidogyne arenaria race 2 populations-Govan, Pelion, and Florence. These populations differ greatly in reproductive rate and aggressiveness on soybean hosts. Total genomic DNA from eggs of each population was digested with the restriction endonuclease Eco RI and Southern hybridization analyses were performed with single-copy and interspersed multi-copy cloned probes. Probes were isolated from a genomic library of Eco RI, M. arenaria DNA fragments cloned into pUC8. One probe, designated pE1.6A, when hybridized to Southern blots of M. arenaria genomic DNAs, displayed an interspersed repetitive pattern, and the RFLPs distinguished the Govan population from the Pelion and Florence populations. Another clone, pE6.0A, carrying moderately repeated sequences, distinguished the Pelion and Florence isolates. This communication demonstrates the utility of genomic RFLP analysis for distinguishing populations of the same race within the same species. To test the possible utility of these moderately repeated sequence probes for detecting the presence of nematode DNA in DNA samples from roots inoculated with varying numbers of nematodes, dot blot hybridization analyses were performed. It is possible to detect as few as 30 nematodes per root sample with these cloned probes.