Transformation competence and type-4 pilus biogenesis in Neisseria gonorrhoeae – a review

In Neisseria gonorrhoea (Ngo), the processes of type-4 pilus biogenesis and DNA transformation are functionally linked and play a pivotal role in the life style of this strictly human pathogen. The assembly of pili from its main subunit pilin (PilE) is a prerequisite for gonococcal infection since it allows the first contact to epithelial cells in conjunction with the pilus tip-associated PilC protein. While the components of the pilus and its assembly machinery are either directly or indirectly involved in the transport of DNA across the outer membrane, other factors unrelated to pilus biogenesis appear to facilitate further DNA transfer across the murein layer (ComL, Tpc) and the inner membrane (ComA) before the transforming DNA is rescued in the recipient bacterial chromosome in a RecA-dependent manner. Interestingly, PilE is essential for the first step of transformation, i.e., DNA uptake, and is itself also subject to transformation-mediated phase and antigenic variation. This short-term adaptive mechanism allows Ngo to cope with changing micro-environments in the host as well as to escape the immune response during the course of infection. Given the fact that Ngo has no ecological niche other than man, horizontal genetic exchange is essential for a successful co-evolution with the host. Horizontal exchange gives rise to heterogeneous populations harboring clones which better withstand selective forces within the host. Such extended horizontal exchange is reflected by a high genome plasticity, the existence of mosaic genes and a low linkage disequilibrium of genetic loci within the neisserial population. This led to the concept that rather than regarding individual Neisseria species as independent traits, they comprise a collective of species interconnected via horizontal exchange and relying on a common gene pool.     

The type-4 pilus is the major virulence-associated adhesin of Pseudomonas aeruginosa – a review

Pseudomonas aeruginosa (Pa) produces several surface-associated adherence factors or adhesins which promote attachment to epithelial cells and contribute to the virulence of this pathogen. Among them, the type-4 pilus accounts for about 90% of the adherence capability of Pa to human lung pneumocyte A549 cells. Furthermore, it is responsible for more than 90% of the virulence in AB.Y/SnJ mice. Pa type-4 pili display a tip-base differentiation with the adherence function located at the tip of the pilus. All Pa pili prototypes characterized so far contain an intrachain disulfide loop (DSL) of 12 to 17 semi-conserved amino acid residues at the C-terminus of pilin. In Pa, this DSL comprises the epithelial cell-binding domain. Despite little sequence homology, DSL-containing peptides of different pilin prototypes seemingly reveal striking structural similarities. Two β-turns within the loop and the disulfide bridge impose significant structural rigidity on the DSL pilin peptide, suggesting a conformationally conserved binding domain. Insertions of C-terminal pilin peptides with disrupted DSL displayed on the surface of bacterial S-layer mediate the same receptor binding characteristics as pili, indicating that a DSL is not essential in maintaining the functionality of the binding domain. Pa pili bind specifically to the carbohydrate moiety of the glycosphingolipids (GSL) asialo-G_M1 and asialo-G_M2 and, to a much weaker extent, to lactosyl ceramide and ceramide trihexoside. The disaccharide sequence GalNAcβ(1-4)Gal, common in both asialo-G_M1 and asialo-G_M2, likely represents the minimal structural receptor motif recognized by the pili. Pa pili also bind to surface-localized proteins of human epithelial cells and other cell types, suggesting that non-sialylated GSL and (glyco)proteins function as receptors of pili. In addition to the major pilus adhesin, exoenzyme S and, as recent studies indicate, flagella, are further protein adhesins of Pa with GSL receptor binding specificities similar to those of pili.     

The pilus colonization factor of pathogenic neisserial species: organelle biogenesis and structure/function relationships – a review

Type-IV pilus expression plays a critical role in the interactions between Neisseria gonorrhoeae, Neisseria meningitidis and their human host. We have focused on experiments designed to elucidate the mechanisms of organelle biogenesis as one means of understanding the complexities of pilus biology in these species. Employing a variety of approaches, genes and gene products essential to pilus biogenesis have been identified and characterized. The findings indicate that the neisserial type-IV pilus biogenesis machinery is most closely related to that operating in Pseudomonas aeruginosa and other pseudomonad species. This interrelatedness is documented at the levels of gene organization, DNA homologies and identities between the primary structures of the components. Despite these similarities, the biological correlates of pilus expression in the pathogenic Neisseria are quite unique. The current status of our embryonic understanding of the factors influencing organelle biogenesis is presented. In the context of this workshop, emphasis has been placed on specific contributions made through studies of gonococci and meningococci to the field as a whole.     

Structure-function relationship of type-IV prepilin peptidase of Pseudomonas aeruginosa – a review

The bifunctional enzyme prepilin peptidase (PilD) from Pseudomonas aeruginosa is a key determinant in both type-IV pilus biogenesis and extracellular protein secretion, in its roles as a leader peptidase and MTase. It is responsible for endopeptidic cleavage of the unique leader peptides that characterize type-IV pilin precursors, as well as proteins with homologous leader sequences that are essential components of the general secretion pathway found in a variety of Gram-negative pathogens. Following removal of the leader peptides, the same enzyme is responsible for the second posttranslational modification that characterizes the type-IV pilins and their homologues, namely N-methylation of the newly exposed N-terminal amino acid residue. This review discusses some of the work begun in order to answer questions regarding the structure-function relationships of the active sites of this unique enzyme.     

Uptake and processing of DNA by Acinetobacter calcoaceticus – a review

In natural transformation, DNA in the form of macromolecular fragments can be translocated across the cell envelope of prokaryotic microorganisms. During the past two decades, several, largely mutually contradictory, hypotheses have been forwarded to explain the molecular mechanism and bioenergetics of this translocation process. Other biomacromolecules are translocated across the bacterial cell envelope as well, such as polysaccharides and proteins, the latter for instance in the process of the assembly of type-IV pili. This brings up the question whether or not common components are involved.Here, we review analyses of DNA translocation in Acinetobacter calcoaceticus, a Gram-negative eubacterium that is able to migrate through twitching motility, and also shows a high frequency of natural transformation. DNA uptake in this organism is an energy-dependent process. Upon entry into the cells, the DNA fragments are integrated into the resident chromosome when a sufficiently large region of mutual homology is available (200 to 400 bp). However, this process is rather inefficient, and on the average 500 bp of each incoming fragment is degraded through exonuclease activity. Upon covalent attachment of a bulky protein molecule to the transforming DNA, the DNA-translocation machinery becomes blocked in further translocation activity.Since A. calcoaceticus is not well suited for transposon mutagenesis, a random mutagenesis procedure has been developed, based on the ligation of an antibiotic-resistance marker to random fragments of chromosomal DNA. This method was used to generate several mutants impaired in the natural transformation process. Three of these have been characterized in detail. No components, common to the translocation of macromolecules through the cell envelope of Acinetobacter, have been detected in this screen.     

Microevolution and epidemic spread of serogroup A Neisseria meningitidis – a review

An extensive and representative strain collection of serogroup A Neisseria meningitidis was established. These bacteria were obtained from different endemic and epidemic/pandemic sources and include strains from diseased patients and healthy carriers. The genetic relationships of the bacteria were defined by multi-locus enzyme electrophoresis and sequence polymorphisms of genetically variable antigens have been analyzed in closely-related groupings. The results are interpreted as reflecting a balance of recombination events, which disrupt clonal relationships, and sequential bottlenecks, which purify the bacterial population of genetic variants during epidemic spread.     

Purification and functional analysis of protein kinase G-1α using a bacterial expression system

3',5' Cyclic guanosine monophosphate (cGMP)-dependent protein kinase G-1α (PKG-1α) is an enzyme that is a target of several anti-hypertensive and erectile dysfunction drugs. Binding of cGMP to PKG-1α produces a conformational change that leads to enzyme activation. Activated PKG-1α performs important roles both in blood vessel vasodilation and in maintaining the smooth muscle cell in a differentiated contractile state. Recombinant PKG-1α has been expressed and purified using Sf9-insect cells. However, attempts at purifying full length protein in a soluble and active form in prokaryotes have thus far been unsuccessful. These attempts have been hampered by the lack of proper eukaryotic protein folding machinery in bacteria. In this study, we report the successful expression and purification of PKG-1α using a genetically engineered Escherichia coli strain, Rosetta-gami 2(DE3), transduced with full-length human PKG-1α cDNA containing a C-terminal histidine tag. PKG-1α was purified to homogeneity using sequential nickel affinity chromatography, gel filtration and ion exchange MonoQ columns. Protein identity was confirmed by immunoblot analysis. N-terminal sequencing using Edman degradation demonstrated that the purified protein was full length. Analysis of enzyme kinetics, using a nonlinear regression curve, identified that, at constant cGMP levels (10μM) and varying ATP concentrations, PKG-1α had a maximal velocity (V(max)) of 5.02±0.25pmol/min/μg and a Michaelis-Menten constant (K(m)) of 11.78±2.68μM ATP. Recent studies have suggested that endothelial function can be attenuated by oxidative and/or nitrosative stress but the role of PKG-1α under these conditions is unclear. We found that PKG-1α enzyme activity was attenuated by exposure to the NO donor, spermine NONOate, hydrogen peroxide, and peroxynitrite but not by superoxide, suggesting that the attenuation of PKG-1α activity may be an under-appreciated mechanism underlying the development of endothelial dysfunction in a number of cardiovascular diseases.     

Mapping a forest mosaic – A comparison of vegetation and bird distributions using geographic boundary analysis

Many areas of ecological inquiry require the ability to detect and characterize change in ecological variables across both space and time. The purpose of this study was to investigate ways in which geographic boundary analysis techniques could be used to characterize the pattern of change over space in plant distributions in a forested wetland mosaic. With vegetation maps created using spatially constrained clustering and difference boundary delineation, we examined similarities between the identified boundaries in plant distributions and the occurrence of six species of songbirds. We found that vegetation boundaries were significantly cohesive, suggesting one or more crisp vegetation transition zones exist in the study site. Smaller, less cohesive boundary areas also provided important information about patterns of treefall gaps and dense patches of understory within the study area. Boundaries for songbird abundance were not cohesive, and bird and vegetation difference boundaries did not show significant overlap. However, bird boundaries did overlap significantly with vegetation cluster boundaries. Vegetation clusters delineated using constrained clustering techniques have the potential to be very useful for stratifying bird abundance data collected in different sections of the study site, which could be used to improve the efficiency of monitoring efforts for rare bird species.     

Modeling and dynamic assessment of urban economy–resource–environment system with a coupled system dynamics – geographic information system model

At present, environmental issues associated with rapid economic development are becoming critical concerns that arouse government's and people's particular attention. A large amount of influencing factors and especially their complicated interactions have always thrown confused insights into assessing the dynamic evolvement and sustainable development of urban economy–resource–environment (ERE) system and programming the developing strategies. A combination of system dynamics (SD) and geographic information system (GIS) is expected to explicitly understand the synergic interaction and feedback among a variety of influencing factors in time and space, since SD model can extend the spatial analysis functions of GIS to realize both dynamic simulation and trend prediction of an ERE system development. According to connotation and framework of sustainable development, this study proposes a dynamic combination method of SD–GIS to model and evaluate the urban development in Chongqing city of China suffering from depletion of resource and degradation of environment. To compare different policy inclinations with regard to potential ERE effects, typical scenarios (current, resource, technology and environment scenarios) are designed by adjusting the parameters in the model and changing the specification of some variables. Integrated assessment results indicate that the current ERE system of Chongqing is not sustainable; environment scenario is more effective to sustainable development of urban ERE system in a long run. Under the considerations of development features and regional differences, as well as regular discipline on urbanization, a coordinated combination of environmental, resource and technology scenarios is anticipated to realize sustainable development of urban ERE system.     

A study of staining for electron microscopy using collagen as a model system—VII. The effect of formaldehyde fixation

Exposure to formaldehyde brings about small but readily detectable changes in the staining behaviour of collagen fibrils. These changes can be interpreted in chemical terms by comparing fibril staining patterns with artificial patterns computer-generated from sequence data. Positive staining with phosphotung-state (where heavy metal is confined to anions), shows that most of the lysyl and hydroxylysyl side-chains lose their charge character as a result of formaldehyde treatment and cease to take up staining ions. The charge character of arginyl (and probably histidyl) residues is unaltered and these residues continue to react with stain. Acidic residues are also unaffected. These results accord with biochemical evidence that the initial reaction between proteins and formaldehyde leading to subsequent cross-linking involves modification of ε-amino (and α-amino) groups. They show too that the secondary condensation producing the actual cross-link does not alter the charge character of the second group, at least when it is on an arginyl (or histidyl) side-chain.Formaldehyde-induced changes in stain deposition can also be detected after negative staining, although they are slight compared with those brought about by glutaraldehyde. Unlike glutaraldehyde, formaldehyde introduces no bulky polymeric adducts into the fibril structure, and the conspicuous stain-excluding bands seen in negative staining patterns following glutaraldehyde fixation are absent after exposure to formaldehyde. For this reason, where chemical fixation is used to stabilize macromolecules and supramolecular aggregates prior to negative staining and high resolution electron optical imaging, formaldehyde would seem to be preferable to glutaraldehyde. Data from fibril staining patterns and from thermal stability measurements (made on collagen gels) show that formaldehyde fixation does not preclude a subsequent reaction with glutaraldehyde.As with other fixatives, there is reduced accessibility to stain after formaldehyde treatment. Accessibility is least in the overlap zone where the denser packing of collagen molecules provides greater opportunities for intermolecular cross-linking. Gel electrophoresis confirms that formaldehyde-induced cross-links in fibrils are predominantly intermolecular.     

Molecular mapping and genetic analysis of a rice brown planthopper (Nilaparvata lugens Stål) resistance gene

The brown planthopper (BPH), Nilaparvata lugens St?l, is a serious insect pest of rice (Oryza saliva L.). We have determined the chromosomal location of a BPH resistance gene in rice using SSR and RFLP techniques. A rice line 'B14', derived from the wild rice Oryza latifolia, showed high resistance to BPH. For tagging the resistance gene in 'B14X', an F2 population and a recombinant inbred (RI) population from a cross between Taichung Native 1 and 'B14' were developed and evaluated for BPH resistance. The results showed that a single dominant gene controlled the resistance of 'B14' to BPH. Bulked segregant SSR analysis was employed for identification of DNA markers linked to the resistance gene. From the survey of 302 SSR primer pairs, three SSR (RM335, RM261, RM185) markers linked to the resistance gene were identified. The closest SSR marker RM261 was linked to the resistance gene at a distance of 1.8 cM. Regions surrounding the resistance gene and the SSR markers were examined with additional RFLP markers on chromosome 4 to define the location of the resistance gene. Linkage of RFLP markers C820, R288, C946 with the resistance gene further confirmed its location on the short arm of chromosome 4. Closely linked DNA markers will facilitate selection for resistant lines in breeding programs and provide the basis for map-based cloning of this resistance gene.     

Lung epithelium as a sentinel and effector system in pneumonia – molecular mechanisms of pathogen recognition and signal transduction

Background

Acute alveolar hypoxia causes pulmonary vasoconstriction (HPV) which serves to match lung perfusion to ventilation. The underlying mechanisms are not fully resolved yet. The major vascular segment contributing to HPV, the intra-acinar artery, is mostly located in that part of the lung that cannot be selectively reached by the presently available techniques, e.g. hemodynamic studies of isolated perfused lungs, recordings from dissected proximal arterial segments or analysis of subpleural vessels. The aim of the present study was to establish a model which allows the investigation of HPV and its underlying mechanisms in small intra-acinar arteries.

Methods

Intra-acinar arteries of the mouse lung were studied in 200 μm thick precision-cut lung slices (PCLS). The organisation of the muscle coat of these vessels was characterized by α-smooth muscle actin immunohistochemistry. Basic features of intra-acinar HPV were characterized, and then the impact of reactive oxygen species (ROS) scavengers, inhibitors of the respiratory chain and Krebs cycle metabolites was analysed.

Results

Intra-acinar arteries are equipped with a discontinuous spiral of α-smooth muscle actin-immunoreactive cells. They exhibit a monophasic HPV (medium gassed with 1% O₂) that started to fade after 40 min and was lost after 80 min. This HPV, but not vasoconstriction induced by the thromboxane analogue U46619, was effectively blocked by nitro blue tetrazolium and diphenyleniodonium, indicating the involvement of ROS and flavoproteins. Inhibition of mitochondrial complexes II (3-nitropropionic acid, thenoyltrifluoroacetone) and III (antimycin A) specifically interfered with HPV, whereas blockade of complex IV (sodium azide) unspecifically inhibited both HPV and U46619-induced constriction. Succinate blocked HPV whereas fumarate had minor effects on vasoconstriction.

Conclusion

This study establishes the first model for investigation of basic characteristics of HPV directly in intra-acinar murine pulmonary vessels. The data are consistent with a critical involvement of ROS, flavoproteins, and of mitochondrial complexes II and III in intra-acinar HPV. In view of the lack of specificity of any of the classical inhibitors used in such types of experiments, validation awaits the use of appropriate knockout strains and siRNA interference, for which the present model represents a well-suited approach.     

Application of essential oils as preservatives in food systems: challenges and future prospectives – a review

Phytochemistry Reviews - The production of safe foods with little or no artificial preservatives is one of the foremost leading challenges for food manufacturing industries because synthetic...     

A study of staining for electron microscopy using collagen as a model system—VIII. Simulation of the negative staining pattern

Simulated negative staining patterns of collagen fibrils were prepared for visual display by a graphical procedure in which amino acid side-chains along the staggered molecules were weighted according to their stain-excluding capacity. The simulated patterns were then compared directly with electron-optical images of collagen fibrils negatively stained with sodium phosphotungstate or lithium tungstate. These visual comparisons confirm previous observations that satisfactory matching occurs when side-chains are weighted according to their ‘bulkiness’ (average cross-sectional area or ‘plumpness’). Optimal matching at the edges of the overlap zones occurred when a hairpin-like conformation was assumed for the N-terminal telopeptides and a condensed conformation for the hydrophobic part of the C-terminal telopeptides. The negative staining pattern is known to include some element of positive staining; visual matching suggests that this additional uptake of positive staining ions occurs predominantly in the more accessible gap zone in a fibril D-period. A slight mismatching between observed and simulated patterns can be understood if the gap zone suffers greater axial shrinkage than the overlap zone when specimens are prepared for electron microscopy.     

A study of positive staining for electron microscopy using collagen as a model system—III. The effect of suberimidate fixation

Collagen is used as a model system to study the structural effects of the fixative dimethylsuberimidate (DMS) on a protein. Using reconstituted fibrils of type I calf skin collagen(of known amino acid sequence), electron-optical data from positive staining patterns were compared with chemical data by a computer-aided correlation procedure. The results show that, under the conditions used, the reaction between DMS and collagen is specific for the ϵ-amino groups of lysyl and hydroxylysyl residues and that no reaction takes place between DMS and arginyl residues. Other evidence suggests that (unlike glutaraldehyde) no polymerization of the DMS occurs and that a cross-link between the two ϵ-amino groups can only form when they are sufficiently close to be bridged by the DMS monomer.     

Evaluation of different protocols for the analysis of lipophilic plant metabolites by gas chromatography–mass spectrometry using potato as a model

In the analysis of lipophilic plant metabolites by gas chromatography?Cmass spectrometry a step is required to release fatty acids and other analytes from complex molecules. Seven alternative methods were compared to the standard method of 1% H₂SO₄/50°C/16?h using Desirée and Phureja potato tubers as models. With two sodium methoxide alkali-catalysed methods (0.5?M NaOCH₃/50°C/1 and 16?h) recoveries of ferulic acids increased, long chain fatty acids and sterols decreased, 2-hydroxy acids were negligible, solanidine was absent and ??5-avenasterol isomerisation was minimal. Using a harsh alkali hydrolysis (1.0?M KOH/120°C/24?h) followed by a mild methylation (1% H₂SO₄/50°C/1.5?h), recoveries of polyunsaturated fatty acids were poor, sterols decreased but ??5-avenasterol isomerisation was minimal. With a mild alkali hydrolysis (0.5?M NaOH/100°C/5?min) followed by methylation with boron trifluoride (14%BF₃/100°C/30?min) recoveries of sterols and 2-hydroxy fatty acids were similar to the standard method and ??5-avenasterol isomerisation was high. Lower ferulic acid recoveries, absence of solanidine and overestimation of fatty alcohols were evident in both methods involving alkali hydrolysis. Three different methods using hydrochloric acid (1.00?M HCl/70°C/5?h, 0.63?M HCl/110°C/2?h and 2.00?M HCl/50°C/24?h) all gave increased recoveries of 2-hydroxy acids, ferulic acids, solanidine and sterols, although ??5-avenasterol isomerisation increased. Hydrochloric acid methods are recommended for studies requiring quantitative determinations (i.e. concentration of metabolite in sample). Either the hydrochloric acid methods or the standard sulphuric acid method are suggested for determining relative concentrations between samples, although there is a requirement for further studies.     

A study of staining for electron microscopy using collagen as a model system—V. The effect of suberimidate fixation on negative staining patterns

The effects of the fixative dimethylsuberimidate (DMS) on negative staining patterns were studied using reconstituted fibrils of type I calf skin collagen (of known amino acid sequence) as a model system and comparing electron-optical data and chemical data by a computer-aided correlation procedure. The results show that the ‘bulkiness’ (average cross-sectional area or ‘plumpness’) of amino acid side chains is the dominant factor in determining the stain-excluding property of a DMS-fixed negatively stained collagen fibril as it is in unfixed collagen. Some contribution of positive staining can also be demonstrated after DMS-fixation by partial correlation analysis. Other evidence suggests that (unlike glutaraldehyde) DMS does not produce any morphological alterations to the negative staining pattern.     

New methods to analyse auxin-induced growth II: The swelling reaction of protoplasts – a model system for the analysis of auxin signal transduction?

A method for monitoring the time course of auxin-induced volume changesby protoplasts at a high temporal resolution was developed for Zeamays coleoptile protoplasts. Auxins, like indole-3-acetic acid(IAA), induce a rapid change in volume. Immediately after addition ofthis auxin, a transient shrinkage was observed, followed by a long-termswelling response. This reaction occurred in the same time window as thetypical auxin growth response of intact coleoptiles. Active auxins, like1-naphthalene acetic acid (1-NAA) and 4-chloroindole-3-acetic acid(4-Cl-IAA), caused similar volume changes, whereas the inactive analogue2-naphthalene acetic acid (2-NAA) had no effect. The phytotoxinfusicoccin (FC) induced a rapid swelling response. We conclude that thissingle cell system is very adequate to analyse mechanisms of auxinsignal transduction.