Flow cytometric analysis of Eimeria tenella sporozoite populations exposed to salinomycin sodium in vitro: a comparative study using light and electron microscopy and an in vitro sporozoite invasion-inhibition test.

Eimeria tenella sporozoites exposed to 100, 70, 60 and 50 micrograms salinomycin sodium (SAL)/ml medium 199 at 41 degrees C and then stained with propidium iodide/fluorescein diacetate were analysed by means of flow cytometry (FCM). After 20 min exposure, they showed dose-dependent alterations in their size and shape, i.e.

Binding sites in mammalian genes and viral gene regulatory regions recognized by methylated DNA-binding protein.

Methylated DNA-binding protein (MDBP), a ubiquitous mammalian protein, recognizes a variety of related DNA sequences. Some of these sequences require methylation of their CpG dinucleotides for binding and others do not. We report that MDBP binds, in a DNA methylation-independent fashion, to two sites in the mouse polyomavirus enhancer, one in the enhancer of the human hepatitis B virus, and to one in the long terminal repeat of equine infectious anemia proviral DNA.

An MDBP site in the first intron of the human c-myc gene.

The expression of the human c-myc protooncogene is subject to many levels and types of control. Evidence suggests that regulation of the expression of this gene involves elements within the gene as well as those upstream from the gene. We show that a ubiquitous mammalian sequence-specific DNA-binding protein, MDBP, binds specifically to a site in the beginning of the first intron of this gene.

Highly repeated sites in the apolipoprotein(a) gene recognized by methylated DNA-binding protein, a sequence-specific DNA-binding protein.

Methylated DNA-binding protein (MDBP), a sequence-specific DNA-binding protein, was found to recognize more than 30 sites within an allele of the human apolipoprotein(a) gene. High plasma levels of apolipoprotein(a), a risk factor for atherosclerosis, have been correlated with genetically inherited lower-molecular-mass isoforms of this protein. MDBP might help down modulate the expression of the apolipoprotein(a) gene in a manner dependent on the length of a given allele of the gene and the number of MDBP sites in it.

Subfornical organ participates in salt appetite.

The effects of subfornical organ (SFO) lesions on salt and water intakes after sodium depletion were studied. Water and salt intakes were measured over 45 hr during a regimen that combined furosemide diuresis and access to low-sodium diet. Water was solely available for 23 hr after diuresis, and water and 0.

Atrial natriuretic peptide in the subfornical organ reduces drinking induced by angiotensin or in response to water deprivation.

Three experiments tested whether the subfornical organ (SFO) could be a site of action for the antidipsogenic effects of atrial natriuretic peptide (ANP) in rats. Pretreatment with 100, 230, or 500 pmol ANP in the SFO reduced drinking induced by 10 pmol angiotensin II in the SFO. Drinking in response to water deprivation was reduced by ANP in rats having cannulas in or near the SFO, but not in rats having cannulas distant from the SFO or in the ventricles.

How different DNA sequences are recognized by a DNA-binding protein: effects of partial proteolysis.

MDBP is a sequence-specific DNA-binding protein from mammals that recognizes a variety of DNA sequences, all of which show much homology to a partially palindromic 14 base-pair consensus sequence. MDBP subjected to limited proteolysis and then incubated with various specific oligonucleotide duplexes yielded two types of complexes. The relative concentrations of these complexes varied greatly depending on how closely the MDBP site matched the consensus sequence.

Preparation of the Fusarium toxin, nivalenol, by oxidation of the putative biosynthetic precursor, 7-deoxynivalenol.

Nivalenol is a toxic trichothecene metabolite which is produced by a number of different Fusarium species. However, the nature of its immediate biosynthetic precursor is not known. Oxidation of 7-deoxynivalenol(3 alpha,4 beta,15-trihydroxy-12,13- epoxytrichothec-9-ene-8-one) to nivalenol occurred with reagents known to react by a free radical pathway, such as hydrogen peroxide-ferrous ion-ascorbic acid or lead tetracetate, but not with electrophilic reagents requiring prior formation of the enol.

A plant DNA-binding protein that recognizes 5-methylcytosine residues.

A novel, 5-methylcytosine-specific, DNA-binding protein, DBP-m, has been identified in nuclear extracts of peas. DBP-m specifically recognizes 5-methylcytosine residues in DNA without appreciable DNA sequence specificity, unlike a mammalian DNA-binding protein (MDBP), which recognizes 5-methylcytosine residues but only in a related family of 14-base-pair sequences.

Related sites in human and herpesvirus DNA recognized by methylated DNA-binding protein from human placenta.

Methylated DNA-binding protein (MDBP) from mammalian cells binds specifically to six pBR322 and M13mp8 DNA sequences but only when they are methylated at their CpG dinucleotide pairs. We cloned three high-affinity MDBP recognition sites from the human genome on the basis of their binding to MDBP. These showed much homology to the previously characterized prokaryotic sites.

Human methylated DNA-binding protein. Determinants of a pBR322 recognition site.

Methylated DNA-binding protein (MDBP) from human placenta has a high affinity for a site in pBR322 (pB site 1) when that site is methylated at its CpG dinucleotides. Dimethyl sulfate interference analysis and experiments with ligands prepared by oligonucleotide-directed mutagenesis indicate that 15 contiguous base pairs, 14 of which exhibit hyphenated dyad symmetry, influence MDBP binding to pB site 1. These 14 base pairs, 5'-RTMGYCAMGG(M/T)GAY-3' (M, 5-methylcytosine), suffice for recognition by MDBP as demonstrated with a double-stranded, MpG-containing oligonucleotide used as a free ligand or cloned into M13mp19 and subsequently methylated.

Methylated DNA-binding protein is present in various mammalian cell types.

A DNA-binding protein from human placenta, methylated DNA-binding protein (MDBP), binds to certain DNA sequences only when they contain 5-methylcytosine (m5C) residues at specific positions. We found a very similar DNA-binding activity in nuclear extracts of rat tissues, calf thymus, human embryonal carcinoma cells, HeLa cells, and mouse LTK cells. Like human placental MDBP, the analogous DNA-binding proteins from the above mammalian cell lines formed a number of different low-electrophoretic-mobility complexes with a 14-bp MDBP-specific oligonucleotide duplex.

Repair of thymine.guanine and uracil.guanine mismatched base-pairs in bacteriophage M13mp18 DNA heteroduplexes.

Repair of thymine.guanine (T.G) and uracil.

Protein synthesis inhibition by 8-oxo-12,13-epoxytrichothecenes.

The Fusarium mycotoxin, 4-deoxynivalenol, is an abundant, natural contaminant of corn and wheat. 8-Oxo-12,13-epoxytrichothecenes related to 4-deoxynivalenol were synthesized; they either lacked the 7-hydroxyl but contained a hydroxyl at C-4 (7-deoxynivalenol) or lacked substituents at C-3 and C-7 (3,7-dideoxynivalenol). The ability of these synthetic analogs and their acetylated derivatives to inhibit protein synthesis by cultured mammalian cells was compared to that of 4-deoxynivalenol.

Effect on aflatoxin production of competition between wild-type and mutant strains of Aspergillus parasiticus.

Co-cultivation of a strain of Aspergillus parasiticus, capable of making aflatoxins, with blocked mutant strains, capable of producing none or only a low level of aflatoxins, reduced the net yield of aflatoxins more than that expected based on spore recovery. Yields of aflatoxins were 8-fold less for a norsolorinic acid-producing strain, 14-fold less for an averantin-producing strain, 6-fold less for an averufin-producing strain, and 21-fold less for a versicolorin A-producing strain when co-cultured in equal amounts with a wild-type strain of Aspergillus parasiticus. Even when the wild-type strain was initially present in 100-fold excess, with two of the mutant strains, reduced aflatoxin production was still observed.

Effect of site-specific DNA methylation and mutagenesis on recognition by methylated DNA-binding protein from human placenta.

Methylated DNA-binding protein (MDBP) from human placenta is the first protein shown to bind specifically to certain DNA sequences only when they are methylated at cytosine residues. Among the sites recognized by MDBP is pB site 1, a pBR322-derived sequence which has a high affinity for MDBP when methylated at all CpG positions. We have substituted pB site 1 with 5-methyl-cytosine (m5C) residues at one to three of its CpG dinucleotides on one strand by the use of m5C-containing oligonucleotides.

Developmental stage specificity and dose response of secalonic acid D-induced cleft palate and the absence of cytotoxicity in developing mouse palate.

Incidence of cleft palate (CP) in full-term mouse fetuses was evaluated following administration of 25 mg/kg of the mycotoxin, secalonic acid D (SAD), to groups of female mice on each of Days 10, 11, 12, 13, 14, or 15 of pregnancy. Although the highest numerical incidence (45.3%) of cleft palate resulted following SAD exposure on Day 12 of pregnancy, and the response tapered off to 16.

Hydrolysis by restriction endonucleases at their DNA recognition sequences substituted with mismatched base pairs.

Restriction endonucleases were tested for their ability to catalyze the cleavage of mismatch-containing recognition sites in DNA. These mismatched base pairs were T.G, U.

Effect of phytate on aflatoxin formation by Aspergillus parasiticus grown on different grains.

Aflatoxin production by Aspergillus parasiticus on corn, soybean, and cottonseed in the absence or presence of added sodium phytate was examined. No variation in aflatoxin concentrations was found in raw, chemically sterilized, or autoclaved soybeans whereas a five-fold reduction in total aflatoxins was found in cottonseed after addition of 330 micrograms sodium phytate to 10 g of autoclaved material. However, phytate did not affect aflatoxin production on non-sterile cottonseeds, although in corn a slight inhibition was found.

Protein synthesis by mammalian cells treated with C-3-modified analogs of the 12,13-epoxytrichothecenes T-2 and T-2 tetraol.

Modification at the C-3 position of the trichothecenes T-2 and T-2 tetraol affected their ability to inhibit protein synthesis in African green monkey kidney (Vero) and mouse erythroleukemia cells. Replacement of the 3-hydroxyl of T-2 with hydrogen caused a 24-fold decrease in activity, whereas acetylation resulted in a 500-to 1,000-fold decrease. Protection of the 3-hydroxyl with a tetrahydropyranyl moiety gave an analog that was 37-fold more inhibitory to Vero than to mouse erythroleukemia cells; with the other analogs a similar effect on protein synthesis was found for both types of cells.

Biosynthetic relationship among aflatoxins B1, B2, M1, and M2.

Aflatoxins are a family of toxic, acetate-derived decaketides that arise biosynthetically through polyhydroxyanthraquinone intermediates. Most studies have assumed that aflatoxin B1 is the biosynthetic precursor of the other aflatoxins. We used a strain of Aspergillus flavus which accumulates aflatoxin B2 to investigate the later stages of aflatoxin biosynthesis.

Simple method for isolation of 4-deoxynivalenol from rice inoculated with Fusarium graminearum.

A new method for preparative isolation of 4-deoxynivalenol (DON) is presented. This method avoids the loss of material during purification on silica gel by column chromatography. DON and 3-acetyldeoxynivalenol in crude extracts of rice inoculated with Fusarium graminearum were converted to triacetyldeoxynivalenol; the acetylated product was easier to purify by silica gel chromatography than DON is.

Mycotoxins in grain dust: method for analysis of aflatoxins, ochratoxin A, zearalenone, vomitoxin, and secalonic acid D.

A multimycotoxin method is presented to quantitate aflatoxins, ochratoxin A, zearalenone, secalonic acid D, and vomitoxin in grain dust. Dust spiked with these mycotoxins was extracted sequentially with methylene chloride followed by acetonitrile-water (86 + 14). Vomitoxin was recovered in the latter extract and all other mycotoxins were recovered in the methylene chloride.