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161.
Bouhss A Crouvoisier M Blanot D Mengin-Lecreulx D 《The Journal of biological chemistry》2004,279(29):29974-29980
The MraY translocase catalyzes the first membrane step of bacterial cell wall peptidoglycan synthesis (i.e. the transfer of the phospho-N-acetylmuramoyl-pentapeptide motif onto the undecaprenyl phosphate carrier lipid), a reversible reaction yielding undecaprenylpyrophosphoryl-N-acetylmuramoyl-pentapeptide (lipid intermediate I). This essential integral membrane protein, which is considered as a very promising target for the search of new antibacterial compounds, has thus far been clearly underexploited due to its intrinsic refractory nature to overexpression and purification. We here report conditions for the high level overproduction and for the first time the purification to homogeneity of milligram quantities of MraY protein. The kinetic parameters and effects of pH, salts, cations, and detergents on enzyme activity are described, taking the Bacillus subtilis MraY translocase as a model. 相似文献
162.
The transglutaminase Factor XIII (FXIII) catalyzes the formation of covalent cross-links between adjacent noncovalently associated fibrin chains in blood coagulation. The resulting covalently cross-linked hard clot is much more mechanically stable and resistant to proteolytic degradation. FXIII is activated by the serine protease thrombin in the presence of calcium ions. Protein modification experiments involving the labeling of cysteine and lysine side chains of the enzyme were performed before and after activation of the enzyme in an effort to gain further insight into structural changes occurring during the activation of FXIII. The experiments revealed differences in the labeling patterns of nonactivated and activated FXIII. These differences result from the exposure or sequestration of specific cysteine or lysine residues when the enzyme is activated, either physiologically with thrombin or nonproteolytically by exposure to calcium. Of note is the acetylation of Lys 73 and Lys 221 upon activation. Both of these residues lie within possible substrate recognition regions of FXIII. The active site Cys 314 is consistently alkylated in the activated enzyme, as is Cys 409, located near the dimer interface. Within the beta-barrel 2 domain of FXIII, Cys 695 becomes alkylated in activated FXIII. Within the same domain, an acetylated Lys (677 or 678), which is observed in the zymogen, cannot be found in the activated enzyme. The results provide a more extensive view of FXIII activation than has been previously available. 相似文献
163.
Effect of electric field vectoriality on electrically mediated gene delivery in mammalian cells 总被引:1,自引:0,他引:1
Faurie C Phez E Golzio M Vossen C Lesbordes JC Delteil C Teissié J Rols MP 《Biochimica et biophysica acta》2004,1665(1-2):92-100
Electropermeabilization is a nonviral method used to transfer genes into living cells. Up to now, the mechanism is still to be elucidated. Since cell permeabilization, a prerequired for gene transfection, is triggerred by electric field, its characteristics should depend on its vectorial properties. The present investigation addresses the effect of pulse polarity and orientation on membrane permeabilization and gene delivery by electric pulses applied to cultured mammalian cells. This has been directly observed at the single-cell level by using digitized fluorescence microscopy. While cell permeabilization is only slightly affected by reversing the polarity of the electric pulses or by changing the orientation of pulses, transfection level increases are observed. These last effects are due to an increase in the cell membrane area where DNA interacts. Fluorescently labelled plasmids only interact with the electropermeabilized side of the cell facing the cathode. The plasmid interaction with the electropermeabilized cell surface is stable and is not affected by pulses of reversed polarities. Under such conditions, DNA interacts with the two sites of the cell facing the two electrodes. When changing both the pulse polarity and their direction, DNA interacts with the whole membrane cell surface. This is associated with a huge increase in gene expression. This present study demonstrates the relationship between the DNA/membrane surface interaction and the gene transfer efficiency, and it allows to define the experimental conditions to optimize the yield of transfection of mammalian cells. 相似文献
164.
Andrea Kunzmann Dan Liu Kathryn Annett Muriel Malaisé Bastian Thaa Paul Hyland Yvonne Barnett Alexander Bürkle 《Immunity & ageing : I & A》2006,3(1):8-9
Background
Poly(ADP-ribosyl)ation is a posttranslational modification of nuclear proteins catalysed by poly(ADP-ribose) polymerases (PARPs), using NAD+ as a substrate. Activation of PARP-1 is in immediate response to DNA damage generated by endogenous and exogenous damaging agents. It has been implicated in several crucial cellular processes including DNA repair and maintenance of genomic stability, which are both intimately linked with the ageing process. The measurement of cellular poly(ADP-ribosyl)ation capacity, defined as the amount of poly(ADP-ribose) produced under maximal stimulation, is therefore relevant for research on ageing, as well as for a variety of other scientific questions. 相似文献165.
The cyclooxygenase (COX) reaction can be monitored by measurement of oxygen consumption, peroxidase co-substrate oxidation or prostaglandin (PG) detection. This protocol describes a procedure measuring cyclooxygenase activity by quantifying PGE2 produced by enzymatic conversion of arachidonic acid, in the presence or absence of potential inhibitors. This high-throughput method has the advantage that it directly measures cyclooxygenase activity and requires little enzyme. The first part of the assay consists of incubating arachidonic acid, cyclooxygenase and the test samples to generate prostaglandins. The second part uses an ELISA method to quantify the amount of PGE2 produced by the enzymatic reaction. The isolation of COX-1 and COX-2 enzymes is also described. This protocol can be completed in approximately 23 h, including 16-h and 4-h incubation phases. This does not include enzyme preparation (3 h for COX-1 and 24 h for COX-2) or preparation of ELISA plates (23 h, including incubation). 相似文献
166.
Delphine Lecerclé Anthony Clouet Bayan Al-Dabbagh Muriel Crouvoisier Ahmed Bouhss Christine Gravier-Pelletier Yves Le Merrer 《Bioorganic & medicinal chemistry》2010,18(12):4560-4569
New inhibitors of the bacterial transferase MraY are described. Their structure is based on an aminoribosyl-O-uridine like scaffold, readily obtained in two key steps. The amino group can be coupled with proline or guanylated. Alternatively, these amino, prolinyl or guanidinyl groups can be introduced through a triazole linker. Biological evaluation of these compounds on MraY from Bacillus subtilis revealed interesting inhibitory activity for both amino compounds. 相似文献
167.
Cabrera M Langemeyer L Mari M Rethmeier R Orban I Perz A Bröcker C Griffith J Klose D Steinhoff HJ Reggiori F Engelbrecht-Vandré S Ungermann C 《The Journal of cell biology》2010,191(4):845-859
Tethering factors are organelle-specific multisubunit protein complexes that identify, along with Rab guanosine triphosphatases, transport vesicles and trigger their SNARE-mediated fusion of specific transport vesicles with the target membranes. Little is known about how tethering factors discriminate between different trafficking pathways, which may converge at the same organelle. In this paper, we describe a phosphorylation-based switch mechanism, which allows the homotypic vacuole fusion protein sorting effector subunit Vps41 to operate in two distinct fusion events, namely endosome-vacuole and AP-3 vesicle-vacuole fusion. Vps41 contains an amphipathic lipid-packing sensor (ALPS) motif, which recognizes highly curved membranes. At endosomes, this motif is inserted into the lipid bilayer and masks the binding motif for the δ subunit of the AP-3 complex, Apl5, without affecting the Vps41 function in endosome-vacuole fusion. At the much less curved vacuole, the ALPS motif becomes available for phosphorylation by the resident casein kinase Yck3. As a result, the Apl5-binding site is exposed and allows AP-3 vesicles to bind to Vps41, followed by specific fusion with the vacuolar membrane. This multifunctional tethering factor thus discriminates between trafficking routes by switching from a curvature-sensing to a coat recognition mode upon phosphorylation. 相似文献
168.
Lee HH Meyer EH Goya S Pichavant M Kim HY Bu X Umetsu SE Jones JC Savage PB Iwakura Y Casasnovas JM Kaplan G Freeman GJ DeKruyff RH Umetsu DT 《Journal of immunology (Baltimore, Md. : 1950)》2010,185(9):5225-5235
T cell Ig-like mucin-like-1 (TIM-1) is an important asthma susceptibility gene, but the immunological mechanisms by which TIM-1 functions remain uncertain. TIM-1 is also a receptor for phosphatidylserine (PtdSer), an important marker of cells undergoing programmed cell death, or apoptosis. We now demonstrate that NKT cells constitutively express TIM-1 and become activated by apoptotic cells expressing PtdSer. TIM-1 recognition of PtdSer induced NKT cell activation, proliferation, and cytokine production. Moreover, the induction of apoptosis in airway epithelial cells activated pulmonary NKT cells and unexpectedly resulted in airway hyperreactivity, a cardinal feature of asthma, in an NKT cell-dependent and TIM-1-dependent fashion. These results suggest that TIM-1 serves as a pattern recognition receptor on NKT cells that senses PtdSer on apoptotic cells as a damage-associated molecular pattern. Furthermore, these results provide evidence for a novel innate pathway that results in airway hyperreactivity and may help to explain how TIM-1 and NKT cells regulate asthma. 相似文献
169.
MRN and the race to the break 总被引:1,自引:0,他引:1
In all living cells, DNA is constantly threatened by both endogenous and exogenous agents. In order to protect genetic information,
all cells have developed a sophisticated network of proteins, which constantly monitor genomic integrity. This network, termed
the DNA damage response, senses and signals the presence of DNA damage to effect numerous biological responses, including
DNA repair, transient cell cycle arrests (“checkpoints”) and apoptosis. The MRN complex (MRX in yeast), composed of Mre11,
Rad50 and Nbs1 (Xrs2), is a key component of the immediate early response to DNA damage, involved in a cross-talk between
the repair and checkpoint machinery. Using its ability to bind DNA ends, it is ideally placed to sense and signal the presence
of double strand breaks and plays an important role in DNA repair and cellular survival. Here, we summarise recent observation
on MRN structure, function, regulation and emerging mechanisms by which the MRN nano-machinery protects genomic integrity.
Finally, we discuss the biological significance of the unique MRN structure and summarise the emerging sequence of early events
of the response to double strand breaks orchestrated by the MRN complex. 相似文献
170.