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排序方式: 共有199条查询结果,搜索用时 46 毫秒
81.
Organospecific responses of lupin seedlings to lead I. localization of lead ions and stress proteins
Roman Przymusiński Agnieszka Banaszak Edward A. Gwóźdź 《Acta Physiologiae Plantarum》2001,23(1):109-116
A tissue-printing technique was used to follow distribution of lead ions in different organs of lupin seedling with the histological
localization of pathogenesis-related proteins designated as PR-L1 to PR-L6, which were found to be induced in lupin roots
by heavy metals (Przymusiński and Gwóźdź 1999). Lead nitrate solution was supplied to the root tips and the histological distribution
of the metal in lupin organs was visualized by staining with 0.6 % (w/v) of sodium rhodizonate. As the distance from the site
of lead application increased, the amount of free lead ions decreased and in the petioles the metal was not detected at all.
Lead ions were localized mostly in vascular bundles, which suggests that it was transported into the upper parts of seedlings
with the transpiration stream.
Immunohistochemical analysis of the tissue prints showed that as compared to the control lead visibly increased the accumulation
of the PR proteins in roots, hypocotyls, stems and leaf petioles of the lupin seedling.
The histological distribution of the PR protein differs from that of lead, and was localized in parenchymatic cells of root
cortex, hypocotyl and stem. It is worth noticing that the stress protein was also observed in the leaf petioles where lead
was not detected. This fact as well as marked enhancement of PR (L1–L6) proteins accumulation in lead treated seedlings and
our earlier studies (Przymusiński and Gwóźdź 1994, 1999, Przymusiński et al. 1995) suggests that these proteins could be elements of plant’s defence system against both biotic and abiotic stressing
factors. 相似文献
82.
Jessica K Bell Paul J Pease J Ellis Bell Gregory A Grant Leonard J Banaszak 《European journal of biochemistry》2002,269(17):4176-4184
Escherichia coli 3-phosphoglycerate dehydrogenase (PGDH) catalyzes the first step in serine biosynthesis, and is allosterically inhibited by serine. Structural studies revealed a homotetramer in which the quaternary arrangement of subunits formed an elongated ellipsoid. Each subunit consisted of three domains: nucleotide, substrate and regulatory. In PGDH, extensive interactions are formed between nucleotide binding domains. A second subunit-subunit interaction occurs between regulatory domains creating an extended beta sheet. The serine-binding sites overlap this interface. In these studies, the nucleotide and substrate domains (NSDs) were subcloned to identify changes in both catalytic and physical properties upon removal of a subunit-subunit interface. The NSDs did not vary significantly from PGDH with respect to kinetic parameters with the exception that serine no longer had an effect on catalysis. Temperature dependent dynamic light scattering (DLS) revealed the NSDs aggregated > 5 degrees C before PGDH, indicating decreased stability. DLS and gel filtration studies showed that the truncated enzyme formed a tetramer. This result negated the hypothesis that the removal of the regulatory domain would create an enzyme mimic of the unregulated, closely related dimeric enzymes. Expression of the regulatory domain, to study conformational changes induced by serine binding, yielded a product that by CD spectra contained stable secondary structure. DLS and pulsed field gradient NMR studies of the regulatory domain showed the presence of higher oligomers instead of the predicted dimer. We have concluded that the removal of the regulatory domain is sufficient to eliminate serine inhibition but does not have the expected effect on the quaternary structure. 相似文献
83.
W J Sharrock T A Rosenwasser J Gould J Knott D Hussey J I Gordon L Banaszak 《Journal of molecular biology》1992,226(3):903-907
The amino acid sequence of lamprey vitellogenin has been predicted from the nucleotide sequence of cloned cDNA. The sites of proteolytic cleavage that produce the lipovitellin complex from the vitellogenin have been located by comparing the N-terminal sequences of two lamprey lipovitellin polypeptides with the predicted sequence. These results also confirm that the vitellogenin sequence derived here corresponds to the lipovitellin complex for which the crystal structure has been solved previously. Predictions of secondary structure indicate that the region most likely to correspond to the large alpha-helical domain of the crystallographic model consists of vitellogenin residues 300 to 600. Similar to the lipovitellins of Xenopus laevis, lamprey lipovitellin appears to lack approximately 200 C-terminal residues that are present in vitellogenin. However, the lamprey lipovitellin differs from those of Xenopus and chicken in two respects. First, most of the serine-rich domain that is present as the phosvitin polypeptide in the lipovitellins of the higher vertebrates appears to be lost in the maturation of lamprey vitellogenin to lipovitellin. Second, the domains that constitute the large lipovitellin-1 polypeptide in Xenopus and chicken are present in two polypeptides in lamprey, owing to an additional proteolytic processing event. 相似文献
84.
Crystals of l-3-hydroxyacyl coenzyme A dehydrogenase from pig heart that are suitable for X-ray analysis have been prepared and characterized. The enzyme is a mitochondrial protein important in the beta oxidation of fatty acids. It is of special interest because it requires coenzyme A-related molecules for its catalytic activity. For one of the crystalline forms of the enzyme, the X-ray data tend to confirm chemical observations that the molecule is a dimer of identical subunits. 相似文献
85.
Various sites of ferricyanide reduction were studied in spinach chloroplasts. It was found that in the presence of dibromothymoquinone a fraction of ferricyanide reduction was dibromothymoquinone sensitive, implying that ferricyanide can be reduced by photosystem I as well as photosystem II. To separate ferricyanide reduction sites in photosystem II, orthophenanthroline and dichlorophenyl dimethylurea inhibitions were compared at various pHs. It was noted that at low pH ferricyanide reduction was not completely inhibited by orothophenanthroline. At high pH's, however, inhibition of ferricyanide reduction by orthophenanthroline was complete. It was found that varying concentration of orthophenanthroline at a constant pH showed different degrees of inhibition. In the study of ferricyanide reduction by photosystem II various treatments affecting plastocyanin were performed. It was found that Tween-20 or KCN treatments which inactivated plastocyanin did not completely inactivate ferricyanide reduction. These data support the conclusion that ferricyanide accepts electrons both before and after plastoquinone in photosystem II. 相似文献
86.
87.
Electrical and adaptive properties of rod photoreceptors in bufo marinus. I. Effects of altered extracellular Ca(2+) levels
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The effects of altering extracellular Ca(2+) levels on the electrical and adaptive properties of toad rods have been examined. The retina was continually superfused in control (1.6 mM Ca(2+)) or test ringer’s solutions, and rod electrical activity was recorded intracellularly. Low-calcium ringer’s (10(-9)M Ca(2+)) superfused for up to 6 min caused a substantial depolarization of the resting membrane potential, an increase in light-evoked response amplitudes, and a change in the waveform of the light-evoked responses. High Ca(2+) ringer’s (3.2 mM) hyperpolarized the cell membrane and decreased response amplitudes. However, under conditions of either low or high Ca(2+) superfusion for up to 6 min, in both dark-adapted and partially light-adapted states, receptor sensitivity was virtually unaffected; i.e., the V-log I curve for the receptor potential was always located on the intensity scale at a position predicted by the prevailing light level, not by Ca(2+) concentration. Thus, we speculate that cytosol Ca(2+) concentration is capable of regulating membrane potential levels and light-evoked response amplitudes, but not the major component of rod sensitivity. Low Ca(2+) ringer’s also shortened the period of receptor response saturation after a bright but nonbleaching light flash, hence accelerating the onset of both membrane potential and sensitivity recovery during dark adaptation.
Exposure of the retina to low Ca(2+) (10(-9)M) ringer’s for long periods (7-15 min) caused dark-adapted rods to lose responsiveness. Response amplitudes gradually decreased, and the rods became desensitized. These severe conditions of low Ca(2+) caused changes in the dark-adapted rod that mimic those observed in rods during light adaptation. We suggest that loss of receptor sensitivity during prolonged exposure to low Ca(2+) ringer’s results from a decrease of intracellular (intradisk) stores of Ca(2+); i.e., less Ca(2+) is thereby released per quantum catch.
相似文献88.
Dudkiewicz M Mackiewicz P Mackiewicz D Kowalczuk M Nowicka A Polak N Smolarczyk K Banaszak J Dudek MR Cebrat S 《Bio Systems》2005,80(2):193-199
Directional mutation pressure associated with replication processes is the main cause of the asymmetry between the leading and lagging DNA strands in bacterial genomes. On the other hand, the asymmetry between sense and antisense strands of protein coding sequences is a result of both mutation and selection pressures. Thus, there are two different ways of superposition of the sense strand, on the leading or lagging strand. Besides many other implications of these two possible situations, one seems to be very important - because of the asymmetric replication-associated mutation pressure, the mutation rate of genes depends on their location. Using Monte Carlo methods, we have simulated, under experimentally determined directional mutation pressure, the divergence rate and the elimination rate of genes depending on their location in respect to the leading/lagging DNA strands in the asymmetric prokaryotic genome. We have found that the best survival strategy for the majority of genes is to sometimes switch between DNA strands. Paradoxically, this strategy results in higher substitution rates but remains in agreement with observations in bacterial genomes that such inversions are very frequent and divergence rate between homologs lying on different DNA strands is very high. 相似文献
89.
Mark?A?HerbertEmail author Catriona?JE?Beveridge David?McCormick Emmelien?Aten Nicola?Jones Lori?AS?Snyder Nigel?J?Saunders 《BMC microbiology》2005,5(1):31
Background
Streptococcus agalactiae (Group B Streptococcus; GBS) is a major contributor to obstetric and neonatal bacterial sepsis. Serotype III strains cause the majority of late-onset sepsis and meningitis in babies, and thus appear to have an enhanced invasive capacity compared with the other serotypes that cause disease predominantly in immunocompromised pregnant women. We compared the serotype III and V whole genome sequences, strains NEM316 and 2603VR respectively, in an attempt to identify genetic attributes of strain NEM316 that might explain the propensity of strain NEM316 to cause late-onset disease in babies. Fourteen putative pathogenicity islands were described in the strain NEM316 whole genome sequence. Using PCR- and targeted microarray- strategies, the presence of these islands were assessed in a diverse strain collection including 18 colonizing isolates from healthy pregnant women, and 13 and 8 invasive isolates from infants with early- and late-onset sepsis, respectively. 相似文献90.
Phosphoglycerate dehydrogenase (PGDH) catalyzes the first step in the serine biosynthetic pathway. In lower plants and bacteria, the PGDH reaction is regulated by the end-product of the pathway, serine. The regulation occurs through a V(max) mechanism with serine binding and inhibition occurring in a cooperative manner. The three-dimensional structure of the serine inhibited enzyme, determined by previous work, showed a tetrameric enzyme with 222 symmetry and an unusual overall toroidal appearance. To characterize the allosteric, cooperative effects of serine, we identified W139G PGDH as an enzymatically active mutant responsive to serine but not in a cooperative manner. The position of W139 near a subunit interface and the active site cleft suggested that this residue is a key player in relaying allosteric effects. The 2.09 A crystal structure of W139G-PGDH, determined in the absence of serine, revealed major quaternary and tertiary structural changes. Contrary to the wildtype enzyme where residues encompassing residue 139 formed extensive intersubunit contacts, the corresponding residues in the mutant were conformationally flexible. Within each of the three-domain subunits, one domain has rotated approximately 42 degrees relative to the other two. The resulting quaternary structure is now in a novel conformation creating new subunit-to-subunit contacts and illustrates the unusual flexibility in this V(max) regulated enzyme. Although changes at the regulatory domain interface have implications in other enzymes containing a similar regulatory or ACT domain, the serine binding site in W139G PGDH is essentially unchanged from the wildtype enzyme. The structural and previous biochemical characterization of W139G PGDH suggests that the allosteric regulation of PGDH is mediated not only by changes occurring at the ACT domain interface but also by conformational changes at the interface encompassing residue W139. 相似文献