Pigment configuration in the light-harvesting protein of the xanthophyte alga <Emphasis Type="Italic">Xanthonema debile</Emphasis>

Proper biogenesis and maintenance of photosynthetic thylakoid membrane complexes are essential for the photosynthetic light reactions. A thylakoid lumenal protein, Psb27, plays a vital role in assembly or/and maintenance of photosystem II (PSII). In cyanobacteria, it is a small lipoprotein docked to the lumenal side of PSII, and functions in the assembly of the Mn₄Ca cluster and in the PSII repair cycle. However, Psb27 from Arabidopsis thaliana is not a lipoprotein, and it is involved in PSII repair and acclimation to fluctuating light stress, suggesting a functional divergence between Arabidopsis Psb27 and cyanobacterial Psb27s. To gain a better understanding of Psb27 from higher plants, we determined the crystal structure of Arabidopsis Psb27 by X-ray crystallography at a resolution of 1.85 Å. The structure of Arabidopsis Psb27 is a four-helix bundle, similar to its orthologues from cyanobacteria. However, there are several structural differences between Arabidopsis Psb27 and cyanobacterial Psb27s concerning the overall molecular shape, the N- and C-terminal structures, and the surface charge. These differences suggest that Psb27 from higher plants and cyanobacteria may function differently.     

Light and electron microscopic study of the bacterial adhesion to termite flagellates applying lectin cytochemistry

Summary Many of the flagellates inhabiting the hindgut of lower termites are associated with ectobiotic, rod-like bacteria or spirochetes. Different types of attachment sites are present. Electron dense material underlies, e.g., the plasma membrane ofJoenia annectens at the contact site, whereas other attachment sites do not show any visible specializations. The host cell's glycocalyx may, however, be reduced at the attachment sites as it is the case inDevescovina glabra. The thick glycocalyx ofStephanonympha nelumbium is not changed at the sites where bacterial rods attach, but spirochetes penetrate to a certain extent. Bacteria which colonize the extracellular surface structures ofMicrorhopalodina multinucleata express their own glycocalyx to mediate a contact. In this study we focussed on the examination of one common mode of interaction between bacteria and their host cells, i.e., adhesion via lectins and sugars. The sugar composition was analysed by light and electron microscopic labelling experiments using the lectins Con A, WGA and SBA. In general, only the posterior body surface ofJoenia which is colonized with bacteria is labelled. The demonstrated sugars are found in fibrous glycocalyx portions surrounding the attachment sites of the bacteria. Such glycocalyx fibres in combination with the electron dense material supporting the attachment sites seem to be the prerequisites for bacterial attachment. InD. glabra, however, a role for sugars in mediating the attachment could not be demonstrated. Removal of the ectobiotes using antibiotics revealed that the specialized contact sites ofJoenia are present in the absence of bacteria and thus possibly serve to attract bacteria. Nothing, however, remains of the former attachment sites in bacteria-freeDevescovina cells. Attachment sites in this case could be induced by bacterial contact. There is not one general mechanism for bacterial attachment to termite flagellates; rather, adhesion seems to follow different strategies.Abbreviations Con A concanavalin A - DAB 3,3-diaminobenzidine tetrahydrochloride - DAPI 4,6-diamidino-2-phenylindole - DIC differential interference contrast - FA formaldehyde - FITC fluorescein isothiocyanate - GA glutaraldehyde - PB Soerensen's phosphate buffer - PC phase contrast - pen/strep penicillin and streptomycin - SBA soybean agglutinin - SEM scanning electron microscope - TBS Tris buffer saline - TEM transmission electron microscope - WGA wheat germ agglutinin Dedicated to Prof. Dr. Dr. h.c. Eberhard Schnepf on the occasion of his retirement     

Antimicrobial nodule-specific cysteine-rich peptides disturb the integrity of bacterial outer and inner membranes and cause loss of membrane potential

Background

Certain legume plants produce a plethora of AMP-like peptides in their symbiotic cells. The cationic subgroup of the nodule-specific cysteine-rich (NCR) peptides has potent antimicrobial activity against gram-negative and gram-positive bacteria as well as unicellular and filamentous fungi.

Findings

It was shown by scanning and atomic force microscopies that the cationic peptides NCR335, NCR247 and Polymyxin B (PMB) affect differentially on the surfaces of Sinorhizobium meliloti bacteria. Similarly to PMB, both NCR peptides caused damages of the outer and inner membranes but at different extent and resulted in the loss of membrane potential that could be the primary reason of their antimicrobial activity.

Conclusions

The primary reason for bacterial cell death upon treatment with cationic NCR peptides is the loss of membrane potential.

     

Bats as prey of diurnal birds: a global perspective

相似文献   

Translational system of the hydrogen-oxidizing bacterium Alcaligenes eutrophus

Some structural and functional properties of ribosomes from the hydrogen-oxidizing bacterium Alcaligenes eutrophus were studied in order to investigate the background of expression of genetic information at the translational level. Ribosomal proteins from 30S subunits of A. eutrophus H16 were separated by two-dimensional gel electrophoresis into 21 spots, those from 50S subunits into 32 spots. While electrophoretic mobilities of several ribosomal proteins differed markedly from those of Escherichia coli, proteins sharing common immunological determinants with E. coli ribosomal proteins S1 and L7/L12 were found in A. eutrophus. Shifting from heterotrophic to autotrophic conditions of growth had no influence on the ribosomal protein pattern. Ribosomes of A. eutrophus had similar requirements for Mg²⁺ and poly(U) concentrations for optimum polyphenylalanine synthesis as those of E. coli. Protein synthesis elongation factors Tu from A. eutrophus and E. coli were immunologically similar. Efficiency of the A. eutrophus polyphenylalanine-synthesizing system was comparable to that of an analogous system derived from E. coli. This suggests that A. eutrophus could be employed for efficient expression of recombinant DNA.     

Conformational properties of streptokinase

The conformational properties of streptokinase (SK) have been assessed by the techniques of differential scanning calorimetry, circular dichroism (CD), and through a combinational approach employing several algorithms which are predictive of secondary structural characteristics. In low ionic strength buffers, SK undergoes a reversible two-state thermal transition with a temperature of maximum heat capacity (Tm) of 46.1 +/- 0.9, a delta Hcal of 98 +/- 11 kcal/mol and a delta Hcal/delta HvH of approximately 1. In high ionic strength buffers, similar calorimetric properties were obtained with the exception that the delta Hcal/delta HvH values were considerably less than 1, indicating the existence of an additional irreversible thermally induced alteration in the molecule, most likely resulting in its aggregation. The effect of pH on the thermal unfolding properties of SK was determined. The results demonstrated that single two-state thermal transitions were obtained, with progressively decreasing Tm values, as the pH was reduced from 6.4 to 3.4, indicating a destabilization of the entire molecule at reduced pH. In the alkaline region, between pH 8.4 and 9.4, stabilization of a separate region of the molecule was obtained, as evidenced by an increase in the delta Hcal/delta HvH to values approximating 2. CD analysis was performed in order to estimate secondary structural characteristics of SK. The best fit of secondary structural parameters to the experimental CD spectrum provided estimates of 17% helices, 28% beta-sheet, 21% beta-turns, and 34% disordered structures. Both the intensity of the spectral band at 208 nm and the level of antiparallel beta-sheet strongly suggest that SK is an alpha + beta protein.     

Kinetics of in vivo bacteriochlorophyll fluorescence yield and the state of photosynthetic apparatus of purple bacteria

The light-induced electron transport in purple bacterium Rhodobacter sphaeroides was studied in vivo by means of kinetic difference absorption spectroscopy and kinetics of bacteriochlorophyll fluorescence yield. Measurements of redox state of the oxidised primary donor and cytochrome c and the membrane potential revealed a complex pattern of changes of the electron flow. Effects of the membrane potential on the fluorescence yield were also analysed, and a model for the fluorescence induction curve is presented. The data indicate substantial positive effect of the membrane potential on the fluorescence emission in vivo. Moreover, light-induced changes in light scattering were observed, which suggests occurrence of structural changes on the level of the photosynthetic membrane.     

Mobility of photosynthetic proteins

The mobility of photosynthetic proteins represents an important factor that affects light-energy conversion in photosynthesis. The specific feature of photosynthetic proteins mobility can be currently measured in vivo using advanced microscopic methods, such as fluorescence recovery after photobleaching which allows the direct observation of photosynthetic proteins mobility on a single cell level. The heterogeneous organization of thylakoid membrane proteins results in heterogeneity in protein mobility. The thylakoid membrane contains both, protein-crowded compartments with immobile proteins and fluid areas (less crowded by proteins), allowing restricted diffusion of proteins. This heterogeneity represents an optimal balance as protein crowding is necessary for efficient light-energy conversion, and protein mobility plays an important role in the regulation of photosynthesis. The mobility is required for an optimal light-harvesting process (e.g., during state transitions), and also for transport of proteins during their synthesis or repair. Protein crowding is then a key limiting factor of thylakoid membrane protein mobility; the less thylakoid membranes are crowded by proteins, the higher protein mobility is observed. Mobility of photosynthetic proteins outside the thylakoid membrane (lumen and stroma/cytosol) is less understood. Cyanobacterial phycobilisomes attached to the stromal side of the thylakoid can move relatively fast. Therefore, it seems that stroma with their active enzymes of the Calvin–Benson cycle, are a more fluid compartment in comparison to the rather rigid thylakoid lumen. In conclusion, photosynthetic protein diffusion is generally slower in comparison to similarly sized proteins from other eukaryotic membranes or organelles. Mobility of photosynthetic proteins resembles restricted protein diffusion in bacteria, and has been rationalized by high protein crowding similar to that of thylakoids.     

Revision of Gangesia (Cestoda: Proteocephalidea) in the Indomalayan Region: Morphology,Molecules and Surface Ultrastructure

Tapeworms of Gangesia Woodland, 1924 (Cestoda: Proteocephalidea) parasitic in freshwater fishes in the Indomalayan Region were critically reviewed. Evaluation of type specimens and newly collected materials from Bangladesh, Cambodia and India, as well as critical examination of extensive literature have shown that only the following four species, instead of 48 nominal species of Gangesia and Silurotaenia Nybelin, 1942 reported from this region (36 new synonymies proposed), are valid: Gangesia bengalensis (Southwell, 1913), type-species of the genus and most common parasite of Wallago attu (Siluridae), G. macrones Woodland, 1924 typical of Sperata seenghala (Bagridae), both species characterized by the possession of two circles of hooks on the rostellum-like organ and several rows of hooklets on the anterior margins of suckers; G. agraensis Verma, 1928 from W. attu (typical host), which has the scolex with only one circle of hooks and 1–3 incomplete rows of tiny hooklets on the suckers; and G. vachai (Gupta and Parmar, 1988) n. comb. from several catfishes, which possesses 4–6 circles of hooks and 5–11 rows of hooklets on the anterior half of suckers. Scolex morphology, including surface ultrastructure (microtriches), of all but one species (G. vachai) is described for the first time using scanning electron microscopy. A phylogenetic analysis based on the partial sequences encoding the large nuclear ribosomal subunit RNA gene has shown that three Indomalayan species, namely G. bengalensis, G. macrones and G. vachai, form a monophyletic group within Gangesia, whereas G. agraensis tends to form a clade with the Palaearctic species of the genus. A table with differential characters of all species from the Indomalayan Region is also provided together with a key to identification of genera of the subfamily Gangesiinae. The present study demonstrates that species of Silurotaenia do not occur in the Indomalayan region.