RESUMEN

A gram-negative, facultatively anaerobic bacterium with appendages was isolated from continuous cultures with a seawater-sediment suspension containing hexadecane as the sole carbon source. Although this organism was isolated from a hexadecane-degrading bacterial community, it was not able to degrade hexadecane. However, this bacterium was able to use different sugars and amino acids for growth, indicating that it probably profits from the lysis or from products like surfactants of other cells in the community. 16S rDNA analysis demonstrated that the isolated strain is phylogenetically related to the family Flavobacteriaceae of the phylum 'Cytophaga-Flavobacterium-Bacteroides'. Evidence based on phenotypic characteristics and 16S rDNA analysis supports the conclusion that this bacterium is distinct from its nearest relative, Zobellia uliginosa (90.72% similarity in 16S rRNA gene sequence), and from the other genera of the Flavobacteriaceae. It is therefore proposed that the isolated marine bacterium represents a novel taxon, designated Muricauda ruestringensis gen. nov., sp. nov. The type strain is strain B1T (= DSM 13258T = LMG 19739T).

Asunto(s)

RESUMEN

Phenol is a man-made as well as a naturally occurring aromatic compound and an important intermediate in the biodegradation of natural and industrial aromatic compounds. Whereas many microorganisms that are capable of aerobic phenol degradation have been isolated, only a few phenol-degrading anaerobic organisms have been described to date. In this study, three novel nitrate-reducing microorganisms that are capable of using phenol as a sole source of carbon were isolated and characterized. Phenol-degrading denitrifying pure cultures were obtained by enrichment culture from anaerobic sediments obtained from three different geographic locations, the East River in New York, N.Y., a Florida orange grove, and a rain forest in Costa Rica. The three strains were shown to be different from each other based on physiologic and metabolic properties. Even though analysis of membrane fatty acids did not result in identification of the organisms, the fatty acid profiles were found to be similar to those of Azoarcus species. Sequence analysis of 16S ribosomal DNA also indicated that the phenol-degrading isolates were closely related to members of the genus Azoarcus. The results of this study add three new members to the genus Azoarcus, which previously comprised only nitrogen-fixing species associated with plant roots and denitrifying toluene degraders.

Asunto(s)

RESUMEN

Thirty-four strains of nonfermentative, respiratory, luminous bacteria were isolated from samples of squid ink and seawater from depths of 200 to 300 m in the Alboran Sea. Although these strains had a few properties similar to properties of Shewanella (Alteromonas) hanedai, they did not cluster phenotypically with any previously described bacterium. The nucleotide sequence of a 740-bp segment of luxA was not homologous with other known luxA sequences but clustered with the luxA sequences of Shewanella hanedai, Vibrio logei, Vibrio fischeri, and Photobacterium species. The 16S RNA gene from two strains was sequenced and was found to be most closely related to the S. hanedai 16S RNA gene. Based on the differences observed, we describe the new isolates as members of new species, Shewanella woodyi sp. nov. Strain ATCC 51908 (= MS32) is the type strain of this new species.

Asunto(s)

RESUMEN

The strictly respiratory, diazotrophic bacterium Azoarcus sp. strain BH72 fixes nitrogen under microaerobic conditions. In empirically optimized batch cultures at nanomolar O2 concentrations in the presence of proline, cells can shift into a state of higher activity and respiratory efficiency of N2 fixation in which intracytoplasmic membrane stacks (diazosomes) related to N2 fixation are formed. Induction of intracytoplasmic membranes is most pronounced in coculture of Azoarcus sp. strain BH72 with an ascomycete originating from the same host plant, Kallar grass. To initiate studies on function of diazosomes and regulation of their formation, diazosome-containing bacteria were compared with respect to composition or total cellular and membrane proteins with diazosome-free cells fixing nitrogen under standard conditions. In two-dimensional protein gels, we detected striking differences in protein patterns upon diazosome formation: (i) 7.3% of major proteins disappeared, and only 73% of the total proteins of control cells were detectable, indicating that diazosome-containing cells have a more specialized metabolism; (ii) nine new proteins appeared and five proteins increased in concentration, designated DP1 to DP 15; and (iii) five new major membrane proteins (MP1 to MP6) were detected, indicating that membranes might have specialized functions. N-terminal amino acid sequence analysis of DP1 to DP4 allowed us to preliminarily identify DP4 as the glnB gene product P(II), an intracellular signal transmitter known to be involved in the regulation of nitrogen metabolism. According to its electrophoretic mobility, it might be uridylylated in diazosome-free cells but not in diazosome-containing cells, or it may represent a second, not identical P(II) protein. Oligonucleotides deduced from N-terminal sequences of DP1 and DP4 specifically hybridized to chromosomal DNA of Azoarcus sp. strain BH72 in Southern hybridizations.

Asunto(s)

RESUMEN

Cytoplasmic inclusions surrounded by a bilayer membrane were seen in thin sections. negatively stained and freeze-fractured preparations of Shewanella putrefaciens. Cells harvested from the late exponential and early stationary phase showed a higher number of these vesicles than bacteria isolated from early exponential or late stationary phase. Chemical dyes for polyphosphate or poly-beta-hydroxybutyrate did not stain the material enclosed within these vesicles. Elemental analysis of the material indicated that the content was organic in nature and might be a protein. HPLC analysis of the material showed that it was probably not a carbon source, nor an electron acceptor used by S. putrefaciens.

Asunto(s)

RESUMEN

Protamine, which is an antibacterial basic peptide, was shown to alter the cell morphology of Listeria monocytogenes and Shewanella putrefaciens. Atomic force microscopy revealed that protamine smoothed the surface of cells, formed holes in the cell envelope, and caused fusion of S. putrefaciens cells. Immunoelectron microscopy of protamine-treated cells of both L. monocytogenes and S. putrefaciens showed great damage to the cell wall and condensation of the cytoplasm. Respiration of the cells was decreased due to treatment with sublethal concentrations of protamine, probably due to leakage or loss of cell envelope potential. It was concluded that protamine disrupted the outer surface structure and condensed the cytoplasm of sensitive cells and, in sublethal concentrations, altered membrane structures, thereby eliminating respiration.

Asunto(s)

RESUMEN

We report the discovery of novel subcellular structures related to bacterial nitrogen fixation in the strictly respiratory diazotrophic bacterium Azoarcus sp. BH72, which was isolated as an endophyte from Kallar grass. Nitrogenase is derepressed under microaerobic conditions at O2 concentrations in the micromolar range. With increasing O2 deprivation, bacteria can develop into a hyperinduced state, which is characterized by high specific rates of respiration and efficient nitrogen fixation at approximately 30 nM O2. Ultrastructural analysis of cells in the course of hyperinduction revealed that complex intracytoplasmic membrane systems are formed, which consist of stacks of membranes and which are absent under standard nitrogen-fixing conditions. The iron protein of nitrogenase was highly enriched on these membranes, as evidenced by immunohistochemical studies. Membrane deficiency in NifH/K- mutants, a deletion mutant in the nifK gene and the character of NH+4-grown cells suggested, in concert with the membrane localization of nitrogenase, that these structures are specialized membranes related to nitrogen fixation. We propose the term 'diazosomes' for them. Development of intracytoplasmic membranes coincides with the appearance of a high-molecular-mass form of the iron protein of nitrogenase, which was detectable in membrane fractions. Mutational analysis, and determination of the N-terminal amino acid sequence indicate that the nifH gene product is covalently modified by a mechanism probably different from adenosine diphosphoribosylation. Development of diazosomes in nitrogen-fixing cells can be induced in pure cultures and in co-culture with a fungus isolated from the rhizosphere of Kallar grass.

Asunto(s)

RESUMEN

The invasive properties of Azoarcus sp. strain BH72, an endorhizospheric isolate of Kallar grass, on gnotobiotically grown seedlings of Oryza sativa IR36 and Leptochloa fusca (L.) Kunth were studied. Additionally, Azoarcus spp. were localized in roots of field-grown Kallar grass. To facilitate localization and to assure identity of bacteria, genetically engineered microorganisms expressing beta-glucuronidase were also used as inocula. beta-Glucuronidase staining indicated that the apical region of the root behind the meristem was the most intensively colonized. Light and electron microscopy showed that strain BH72 penetrated the rhizoplane preferentially in the zones of elongation and differentiation and colonized the root interior inter- and intracellularly. In addition to the root cortex, stelar tissue was also colonized; bacteria were found in the xylem. No evidence was obtained that Azoarcus spp. could reside in living plant cells; rather, plant cells were apparently destroyed after bacteria had penetrated the cell wall. A common pathogenicity test on tobacco leaves provided no evidence that representative strains of Azoarcus spp. are phytopathogenic. Compared with the control, inoculation with strain BH72 significantly promoted growth of rice seedlings. This effect was reversed when the plant medium was supplemented with malate (0.2 g/liter). N2 fixation was apparently not involved, because the same response was obtained with a nifK mutant of strain BH72, which has a Nif- phenotype. Also, Western blot (immunoblot) analysis of protein extracts from rice seedlings gave no indication that nitrogenase was present. PCR and Western immunoblotting, using primers specific for eubacteria and antibodies recognizing type-specific antigens, respectively, indicated that strain BH72 could colonize rice plants systemically, probably mediated by longitudinal spreading through vessels.

Asunto(s)

RESUMEN

Ultrastructural study of C. granulomatis, the causative organism of donovanosis (granuloma inguinale), in human tissue revealed the presence of a complex cell envelope. The cytoplasm of these organisms showed presence of electron dense polar material, in addition to regular bacterial structures like mesosome, ribosomes, and nuclear material. Surface appendages i.e., fimbriae and blebs were studied in detail. Origin of these structures was clearly endogenous to the cell wall. Morphology of fimbrium at the site of its attachment to the cell membrane has been described. A distinct layer of homogenous material of varying density surrounding the organism indicated the possibility of it being a capsule.

PIP: The morphological structure of Calymmatobacterium granulomatis, the organism responsible for donovanosis, was investigated in biopsy material from 15 patients. The use of human material was necessary because this organism is difficult to grow in artificial culture media. 1-10 organisms per cell from 1.5-2.5 mcm in size were observed singly or in clusters, most frequently in the vacuolated cytoplasm of macrophages in the upper portion of the dermis. Most notable was the limitation of these organisms by a complex cell envelope comprised of at least 2 layers--the corrugated cell wall and the cytoplasmic membrane. In most cases, the protoplasm was enclosed by more than 2 trilaminar membranes. Cytoplasm at the periphery contained ribosomes and fine membranes, while the nuclear materials tended to be located in the cell's center. The organism's surface was covered with multiple filamentous processes (fimbriae) and round vesicles (blebs). Unique to this study was the finding of electron dense polar bodies at poles. The basal portion of the fimbriae was more electron dense than the remaining portion. Also notable was the observation that fimbriae are attached to the inner membrane and do not arise from the cell wall. The blebs also appeared to be endogenous to the cell wall and could be seen detaching and moving away from the parent organism. Finally, a distinct layer of homogenous material was observed on light microscopy to surround the organism and is postulated to represent capsular material.

Asunto(s)