Effect of turbulent-flow pasteurization on survival of Mycobacterium avium subsp. paratuberculosis added to raw milk.

A pilot-scale pasteurizer operating under validated turbulent flow (Reynolds number, 11,050) was used to study the heat sensitivity of Mycobacterium avium subsp. paratuberculosis added to raw milk. The ATCC 19698 type strain, ATCC 43015 (Linda, human isolate), and three bovine isolates were heated in raw whole milk for 15 s at 63, 66, 69, and 72 degrees C in duplicate trials. No strains survived at 72 degrees C for 15 s; and only one strain survived at 69 degrees C. Means of pooled D values (decimal reduction times) at 63 and 66 degrees C were 15.0 +/- 2.8 s (95% confidence interval) and 5.9 +/- 0.7 s (95% confidence interval), respectively. The mean extrapolated D72 degrees C was <2.03 s. This was equivalent to a >7 log10 kill at 72 degrees C for 15 s (95% confidence interval). The mean Z value (degrees required for the decimal reduction time to traverse one log cycle) was 8.6 degrees C. These five strains showed similar survival whether recovery was on Herrold's egg yolk medium containing mycobactin or by a radiometric culture method (BACTEC). Milk was inoculated with fresh fecal material from a high-level fecal shedder with clinical Johne's disease. After heating at 72 degrees C for 15 s, the minimum M. avium subsp. paratuberculosis kill was >4 log10. Properly maintained and operated equipment should ensure the absence of viable M. avium subsp. paratuberculosis in retail milk and other pasteurized dairy products. An additional safeguard is the widespread commercial practice of pasteurizing 1.5 to 2 degrees above 72 degrees C.

Construction and screening of Mycobacterium paratuberculosis insertional mutant libraries.

Mycobacterium paratuberculosis causes Johne's disease, a common wasting disease in ruminants. As a first step in studying virulence mechanisms, libraries of random mutants were produced in two M. paratuberculosis strains by using the conditionally replicating shuttle phasmid phAE94 which contains the transposon Tn5367. Two thousand mutants were screened for auxotrophy, carbon source preference, and altered cell wall. Genes interrupted by insertion were identified for seven mutants isolated from the screening process. Two mutants had insertions in putative genes involved in synthesis of the cell wall.

Use of four DNA insertion sequences to characterize strains of the Mycobacterium avium complex isolated from animals.

The Mycobacterium avium complex (MAC) includes the closely related species M. avium, M. intracellulare and M. paratuberculosis. The insertion elements IS900, IS901, IS1245 and IS1311 were used as DNA probes to characterize by restriction fragment polymorphisms (RFLPs) eight reference strains, three animal isolates of M. paratuberculosis from outside New Zealand and 61 selected New Zealand MAC isolates from cattle, deer, pigs, sheep and humans. IS900 was found only in strains of M. paratuberculosis. All MAC strains contained IS1311 and the RFLPs associated with this insertion element divided M. paratuberculosis strains into the same groups as IS900 RFLPs. Except for M. paratuberculosis, all MAC strains contained IS1245 and the majority of those from lesions in cattle, deer and pigs also contained IS901. All animal strains containing IS901 had the same RFLPs with IS901, IS1245 and IS1311. In three cases, these apparently identical strains could be differentiated by restriction fragment analysis with BstEII. IS901 was not present in four human isolates or in isolates from deer without lesions. These results indicate that a very closely related group of strains causes the majority of non-paratuberculosis MAC lesions in animals in New Zealand.

Endogenous mutagenesis by an insertion sequence element identifies Aeromonas salmonicida AbcA as an ATP-binding cassette transport protein required for biogenesis of smooth lipopolysaccharide.

Analysis of an Aeromonas salmonicida A layer-deficient/O polysaccharide-deficient mutant carrying a Tn5 insertion in the structural gene for A protein (vapA) showed that the abcA gene immediately downstream of vapA had been interrupted by the endogenous insertion sequence element ISAS1. Immunoelectron microscopy showed that O polysaccharides did not accumulate at the inner membrane-cytoplasm interface of this mutant. abcA encodes an unusual protein; it carries both an amino-terminal ATP-binding cassette (ABC) domain showing high sequence similarity to ABC proteins implicated in the transport of certain capsular and O polysaccharides and a carboxyl-terminal potential DNA-binding domain, which distinguishes AbcA from other polysaccharide transport proteins in structural and evolutionary terms. The smooth lipopolysaccharide phenotype was restored by complementation with abcA but not by abcA carrying site-directed mutations in the sequence encoding the ATP-binding site of the protein. The genetic organization of the A. salmonicida ABC polysaccharide system differs from other bacteria. abcA also differs in apparently being required for both O-polysaccharide synthesis and in energizing the transport of O polysaccharides to the cell surface.

Transcriptional analysis of the Aeromonas salmonicida S-layer protein gene vapA.

The vapA gene of Aeromonas salmonicida encodes the subunit of the surface protein array known as A-layer. Nucleotide sequence analysis of the 374 bp of DNA immediately upstream of vapA revealed two potential promoter sequences and other possible regulatory sequences. Sequencing and polymerase chain reaction analysis showed that the region was conserved in wild-type A. salmonicida. Primer extension and Northern (RNA) blot analysis showed that vapA transcription in A. salmonicida was directed predominantly by a distal promoter, P1, resulting in a 1.7-kb unit-length mRNA with an untranslated 181-nucleotide leader sequence which contained two predicted low-free-energy stem-loop structures. Northern analysis of cells grown at 15 degrees C showed that vapA transcript production peaked during the mid-log phase of growth (A600 = 0.25). At 15 degrees C, the half-life of the vapA mRNA was 22 min, while at 20 degrees C, the half-life was significantly shorter, 11 min. The amount of vapA transcript produced was reduced by growth in the presence of the DNA gyrase inhibitors nalidixic acid and novobiocin. Environmental factors such as growth temperature and atmospheric oxygen tension also affected the quantity of vapA mRNA. vapA transcript could not be detected in mutants which produced either low levels of full-length or truncated A protein or no detectable A protein.

Structure of the tetragonal surface virulence array protein and gene of Aeromonas salmonicida.

The paracrystalline surface protein array of the pathogenic bacterium Aeromonas salmonicida is a primary virulence factor with novel binding capabilities. The species-specific structural gene (vapA) for this array protein (A-protein) was cloned into lambda gt11 but was unstable when expressed in Escherichia coli, undergoing an 816-base pair deletion due to a 21-base pair direct repeat within the gene. However, the gene was stable in cosmid pLA2917 as long as expression was poor. A-protein was located in the cytoplasmic, inner membrane and periplasmic fractions in E. coli. The DNA sequence revealed a 1,506-base pair open reading frame encoding a protein consisting of a 21-amino acid signal peptide, and a 481-residue 50,778 molecular weight protein containing considerable secondary structure. When assembled into a paracrystalline protein array on Aeromonas the cell surface A-protein was totally refractile to cleavage by trypsin, but became trypsin sensitive when disassembled. Trypsin cleavage of the isolated protein provided evidence that both the NH2- and COOH-terminal regions form distinct structural domains, consistent with three-dimensional ultrastructural evidence. The NH2-terminal 274-residue domain remained refractile to trypsin activity. This segment connects by a trypsin and CNBr-sensitive 78-residue linker region to a COOH-terminal 129-residue fragment which could apparently refold into a partially trypsin-resistant structure after cleavage at residue 323.

Osmotic regulation of beta(1-2) glucan synthesis in members of the family Rhizobiaceae.

High osmolarity in the culture medium of growing Agrobacterium tumefaciens strongly inhibited the accumulation of cellular beta(1-2) glucan. However, the enzymatic system required for the synthesis of this polysaccharide from UDP-glucose was not repressed by high osmolarity. Mutants of A. tumefaciens and Rhizobium meliloti affected in beta(1-2) glucan synthesis were unable to grow normally in low-osmolarity media.

Identification of the product of an Agrobacterium tumefaciens chromosomal virulence gene.

The chvB operon of Agrobacterium tumefaciens is required for bacterial attachment to plant cells and for efficient crown gall tumor formation. As defined by the virulence phenotypes of mutants with transposon insertions mapping in the region, the operon was previously mapped to a 5-kilobase (kb) stretch of chromosomal DNA. We report here that the operon is actually about 8.5 kb long and that it contains a 7-kb gene coding for a large membrane protein involved in the synthesis of cyclic beta-1,2-glucan. Mutants with transposon insertions within the 5-kb phenotypically defined operon do not synthesize this functional protein, do not synthesize beta-1,2-glucan, and do not form tumors. However, mutants with insertions that map up to 3.5 kb downstream of the phenotypically defined operon synthesize truncated proteins that are active in beta-1,2-glucan synthesis. These mutants form tumors. The truncated proteins correspond closely in size with the map positions of the insertions, suggesting that the insertions truncate the proteins by translational termination. A plasmid that contains only the phenotypically defined chvB operon also codes for a truncated protein. A fusion product between the protein and beta-galactosidase carried on a Tn3-HoHo1 insertion was observed in one mutant. Partial trypsin digestion of wild-type inner membranes generated truncated proteins that were active in beta-1,2-glucan synthesis, demonstrating that a large portion of the protein is not required for beta-1,2-glucan synthesis. The correlation between beta-1,2-glucan synthesis by the truncated proteins and tumorigenesis strongly implicates the polysaccharide product of this protein in tumor formation.

Structure of a polysaccharide containing galactose and galacturonic acid from Rhizobium meliloti. Characterization and partial purification of a 2-O-methyltransferase.

The teichuronic acid type polysaccharide found in Rhizobium meliloti which is associated with sensitivity to phage 16B and is formed in the inner membranes from UDP-galactose and UDP-galacturonic acid (Ugalde, R. A., Coira, J. A., and Brill, W. J. (1986) J. Bacteriol. 168, 270-275) has been studied further. Results of acid hydrolysis, periodate oxidation, and borohydride reduction show that this polysaccharide contains the repetitive unit -galacturonosyl(1-3)galactosyl(1-4-). A soluble enzyme was found to catalyze the transfer of methyl groups from S-adenosylmethionine to position 2 of the galacturonosyl residue. The enzyme requires Mn2+ or Mg2+, its pH optimum is 8.2, and the apparent Km for S-adenosylmethionine is 2.7 microM. The teichuronic acid type polysaccharide bound to a trichloroacetic acid-insoluble cell residue is a substrate for the methyltransferase; however, the polysaccharide released from the trichloroacetic acid-insoluble portion by mild acid treatment is no longer methylated. Other soluble galacturonic acid-containing polysaccharides were not used as substrates. The methyltransferase and the polysaccharide acceptor are both found in R. meliloti strain 102F51. Spontaneously arising mutants resistant to phage 16B do not form teichuronic acid but are transferase-positive. Other strains of R. meliloti as well as Agrobacterium tumefaciens and Escherichia coli cells do not form teichuronate and have no transferase.

A Rhizobium meliloti mutant that forms ineffective pseudonodules in alfalfa produces exopolysaccharide but fails to form beta-(1----2) glucan.

A mutant of Rhizobium meliloti that elicited the formation of inactive nodules in alfalfa was found not to form beta-(1----2) glucan in vivo or in vitro. It was nonmotile because it lacks flagella. The 235-kilodalton protein which acts as an intermediate in beta-(1----2) glucan synthesis was undetectable in the mutant. These properties of the mutant are common to those of chvB mutants of Agrobacterium tumefaciens. Exopolysaccharide formation by the R. meliloti mutant was about double that by the wild type.