Evidence of autoinducer activity in naturally occurring biofilms.

N-Acyl homoserine lactone (AHL) molecules have been shown to act as mediators of population density-dependent (quorum-sensing) gene expression in numerous Gram-negative bacteria. Functions associated with AHL include light production in Vibrio fischeri, expression of virulence factors in Pseudomonas aeruginosa, and conjugation in Agrobacterium tumefaciens. In nature, bacteria often grow as surface-adherent biofilm communities. As biofilms typically contain high concentrations of cells, AHL activity and quorum-sensing gene expression have been proposed as essential components of biofilm physiology. However, proof of AHL production within biofilms has heretofore been lacking. In this study we have employed a cross-feeding assay, using A, tumefaciens A136 (traI::lacZ) as an AHL-responsive reporter strain, to show the presence of naturally occurring AHL production in aquatic biofilms growing on submerged stones. AHL was detected in living biofilms and biofilm extracts, but was not present in rocks lacking a biofilm. This represents the first report of AHL activity in naturally occurring biofilms.

Homogentisic acid is the product of MelA, which mediates melanogenesis in the marine bacterium Shewanella colwelliana D.

Shewanella colwelliana D is a marine procaryote which produces a diffusible brown pigment that correlates with melA gene expression. Previously, melA had been cloned, sequenced, and expressed in Escherichia coli; however, the reaction product of MelA had not been identified. This report identifies that product as homogentisic acid, provides evidence that the pigment is homogentisic acid-melanin (pyomelanin), and suggests that MelA is p-hydroxyphenylpyruvate hydroxylase. This is the first report of pyomelanin in an obligate marine bacterium.

A LuxR-LuxI type regulatory system activates Agrobacterium Ti plasmid conjugal transfer in the presence of a plant tumor metabolite.

Conjugal transfer of Agrobacterium octopine-type Ti plasmids is activated by octopine, a metabolite released from plant tumors. Octopine causes conjugal donors to secrete a pheromone, Agrobacterium autoinducer (AAI), and exogenous AAI further stimulates conjugation. The putative AAI synthase and an AAI-responsive transcriptional regulator were found to be encoded by the Ti plasmid traI and traR genes, respectively, and the expression of traR was induced by octopine. The octopine-type traR gene product is highly homologous to the TraR protein recently characterized from a nopaline-type Ti plasmid. TraR and TraI are homologous to the LuxR and LuxI regulatory proteins of Vibrio fischeri, and AAI is similar in structure to the diffusable V. fischeri autoinducer, the inducing ligand of LuxR. TraR activated target genes in the presence of AAI and also activated traR and traI themselves, creating two positive-feedback loops. TraR-AAI-mediated activation in wild-type Agrobacterium strains was dramatically enhanced by culturing on solid media, suggesting a possible role in cell density sensing.

The melA gene is essential for melanin biosynthesis in the marine bacterium Shewanella colwelliana.

The surface-adhering, Gram-negative marine bacterium Shewanella colwelliana synthesizes a red-brow melanin in the late stage of exponential growth in laboratory culture. Previous studies identified a single gene, melA, from S. colwelliana that could impart the ability to produce melanin to an E. coli host. However, these studies did not demonstrate a requirement for melA during melanization in S. colwelliana. In this paper, genetic analyses, using a broad host range conjugation system to generate specific lesions, reveal that melA null mutants fail to synthesize pigment. The wild-type melA gene provided in trans on a low copy number plasmid complemented these null mutations, as well as a spontaneous pigment variant, to wild-type melanin synthesis. Polyclonal antibodies, raised against a MelA-LacZ fusion protein, were used to confirm the presence of the melA gene product in wild-type S. colwelliana and verify its absence in the non-pigmented mutants. In addition, detection of the MelA protein over the course of growth in batch culture revealed a constant steady-state level of MelA protein, suggesting that the timing of melanization and the quantity of melanin synthesized is not controlled at the level of melA expression.

Characterization of melA: a gene encoding melanin biosynthesis from the marine bacterium Shewanella colwelliana.

A recombinant plasmid with the ability to impart melanin synthesis to an Escherichia coli host was isolated from a Shewanella colwelliana genomic library. The genetic determinant of the Mel+ phenotype is carried on a 1.3-kb DNA fragment and sequence analysis of this revealed a single intact open reading frame that was sufficient for melanin synthesis (mel). This gene is expressed as a monocistronic transcript and a putative transcription start point is located 115 nucleotides upstream from the translational start codon. The mel gene encoded a protein of 39.5 kDa [346 amino acids (aa)] that showed no aa sequence homology with other proteins known to mediate melanin synthesis (e.g., tyrosinases).

Factors influencing bacterial production of inducers of settlement behavior of larvae of the oysterCrassostrea gigas.

Dissolved chemical inducers of settlement behavior of veliger larvae of the oysterCrassostrea gigas are found in supernatants of both pigmented species of bacteria (Alteromonas colwelliana, Vibrio cholerae strain HTX) as well as nonpigmented bacteria (Excherichia coli, Vibrio cholerae strain 596-B). Usually less than 10% of veligers exhibited settlement behavior in response to supernatants from the early bacterial growth phases, whereas 30-90% of larvae responded when exposed to supernatant from late-log and stationary phase cultures. Percentages of larvae exhibiting settlement behavior were inversely correlated with oxygen levels in the culture. Furthermore, the behavioral response decreased with pigment formation, suggesting that quantities of noxious compounds such as quinones may build up in the supernatants of cultures of pigmented bacteria. Tyrosinase, an enzyme that converts L-tyrosine to L-DOPA in the first step of melanogenesis, was detected both in the bacterial pellet and the supernatant during growth of the pigmented species. The enzyme is not required for the production of settlement inducer as the nonpigmented speciesE. coli andV. cholerae (596-B) also released inducer into the supernatant and had no detectable tyrosinase. The data suggest either that there is more than one inducer of settlement behavior found in bacterial supernatants or that the inducer is not L-DOPA or an L-DOPA-mimetic associated with the melanin biochemical pathway.

Effects of thioridazine (Mellaril) on titrating delayed matching-to-sample performance of mentally retarded adults.

The effects of thioridazine on the performance of a titrating delayed matching-to-sample discrimination by four retarded adults was investigated. Trials began with the center of three response panels illuminated by one of three colors. The delay between depression of the center response panel and presentation of the two comparison stimuli on the side response panels varied according to the accuracy of the subjects' performance. The primary dependent variable was the limit of delay, defined as the longest delay at which the subject emitted four consecutive correct responses in a 30-minute session. The subjects' chronic doses of thioridazine were reduced systematically in a multiple baseline across-subjects design. For all of the subjects, the limit of delay increased after, and only after, reductions in the daily thioridazine dose had been implemented. Results indicated that the withdrawal of chronically administered thioridazine resulted in increased accuracy in a delayed matching-to-sample task, suggesting strongly that the drug impairs performance of this discrimination.