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41.
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An Erwinia amylovora yjeK mutant exhibits reduced virulence,increased chemical sensitivity and numerous environmentally dependent proteomic alterations
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Sara M. Klee Islam Mostafa Sixue Chen Craig Dufresne brian L. Lehman Judith P. Sinn Kari A. Peter Timothy W. McNellis 《Molecular Plant Pathology》2018,19(7):1667-1678
The Gram‐negative bacterium Erwinia amylovora causes fire blight, an economically important disease of apples and pears. Elongation factor P (EF‐P) is a highly conserved protein that stimulates the formation of the first peptide bond of certain proteins and facilitates the translation of certain proteins, including those with polyproline motifs. YjeK and YjeA are two enzymes involved in the essential post‐translational β‐lysylation of EF‐P at a conserved lysine residue, K34. EF‐P, YjeA and YjeK have been shown to be essential for the full virulence of Escherichia coli, Salmonella species and Agrobacterium tumefaciens, with efp, yjeA and yjeK mutants having highly similar phenotypes. Here, we identified an E. amylovora yjeK::Tn5 transposon mutant with decreased virulence in apple fruit and trees. The yjeK::Tn5 mutant also showed pleiotropic phenotypes, including reduced growth in rich medium, lower extracellular polysaccharide production, reduced swimming motility and increased chemical sensitivity compared with the wild‐type, whilst maintaining wild‐type level growth in minimal medium. All yjeK::Tn5 mutant phenotypes were complemented in trans with a plasmid bearing a wild‐type copy of yjeK. Comprehensive, quantitative proteomics analyses revealed numerous, environmentally dependent changes in the prevalence of a wide range of proteins, in higher abundance and lower abundance, in yjeK::Tn5 compared with the wild‐type, and many of these alterations could be linked to yjeK::Tn5 mutant phenotypes. The environmental dependence of the yjeK::Tn5 mutant proteomic alterations suggests that YjeK could be required for aspects of the environmentally dependent regulation of protein translation. YjeK activity may be critical to overcoming stress, including the challenging host environment faced by invading pathogenic bacteria. 相似文献
43.
The labile cations [Cu(F-BF3)(PCy3)2] and [Cu(OTf)(PCy3)2] are versatile precursors for the formation of [Cu(X)(PCy3)2] (X = Br, I, SCN, N3) complexes by metathesis with NaX. The azide [Cu(N3)(PCy3)2] is triclinic, space group
, a = 9.755(4), B = 22.78(1), C = 9.284(6) Å, = 96.76(3), β = 115.36(3), γ = 94.20(5)°, Z = 2. 相似文献
44.
We analyse LDL oxidation in vitro in the presence of copper (II) ions and differentiate a lag phase and a rapid peroxidation phase. We demonstrate that a physiological concentration of albumin does not alter the kinetics of the dienes in the oxidizing LDL but reduces the fluorescence of the oxidizing LDL and alters the biological properties of oxidized LDL. We find in rats after intravenous administration of oxidized LDL, that it is rapidly cleared from the circulating blood. The presence of albumin during the peroxidation phase, however, reduces the fraction of oxidized LDL with rapid blood clearance. We propose that some lipid peroxidation products formed in oxidizing LDL are hydrophilic enough to diffuse into the aqueous buffer from where they react either with the s-amino-groups of apolipoprotein B or albumin. Effective scavengers for these hydrophilic endproducts of the LDL oxidation pathways such as albumin might reduce modification of the LDL and might be useful to reduce its atherogenicity. 相似文献
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E Friedrich R Süss H Sinn R Kühnlein N Paweletz 《Virchows Archiv. B, Cell pathology including molecular pathology》1978,29(3):191-200
Heat altered erythrocytes are taken up by spleen macrophages without any signs of mechanical strain as revealed by light and scanning electron microscopy. There was no scintigraphic evidence for changed flow rates within the spleen after sequestration of erythrocytes. 相似文献
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Laura S. Ramos Brian L. Lehman Judith P. Sinn Emily E. Pfeufer Noemi O. Halbrendt Timothy W. McNellis 《Molecular Plant Pathology》2013,14(8):838-843
RpoN is a σ54 factor regulating essential virulence gene expression in several plant pathogenic bacteria, including Pseudomonas syringae and Pectobacterium carotovorum. In this study, we found that mutation of rpoN in the fire blight pathogen Erwinia amylovora caused a nonpathogenic phenotype. The E. amylovora rpoN Tn5 transposon mutant rpoN1250::Tn5 did not cause fire blight disease symptoms on shoots of mature apple trees. In detached immature apple fruits, the rpoN1250::Tn5 mutant failed to cause fire blight disease symptoms and grew to population levels 12 orders of magnitude lower than the wild‐type. In addition, the rpoN1250::Tn5 mutant failed to elicit a hypersensitive response when infiltrated into nonhost tobacco plant leaves, and rpoN1250::Tn5 cells failed to express HrpN protein when grown in hrp (hypersensitive response and pathogenicity)‐inducing liquid medium. A plasmid‐borne copy of the wild‐type rpoN gene complemented all the rpoN1250::Tn5 mutant phenotypes tested. The rpoN1250::Tn5 mutant was prototrophic on minimal solid and liquid media, indicating that the rpoN1250::Tn5 nonpathogenic phenotype was not caused by a defect in basic metabolism or growth. This study provides clear genetic evidence that rpoN is an essential virulence gene of E. amylovora, suggesting that rpoN has the same function in E. amylovora as in P. syringae and Pe. carotovorum. 相似文献
50.
Kinnunen P Sinn I McNaughton BH Newton DW Burns MA Kopelman R 《Biosensors & bioelectronics》2011,26(5):2751-2755
Continuous growth of individual bacteria has been previously studied by direct observation using optical imaging. However, optical microscopy studies are inherently diffraction limited and limited in the number of individual cells that can be continuously monitored. Here we report on the use of the asynchronous magnetic bead rotation (AMBR) sensor, which is not diffraction limited. The AMBR sensor allows for the measurement of nanoscale growth dynamics of individual bacterial cells, over multiple generations. This torque-based magnetic bead sensor monitors variations in drag caused by the attachment and growth of a single bacterial cell. In this manner, we observed the growth and division of individual Escherichia coli, with 80-nm sensitivity to the cell length. Over the life cycle of a cell, we observed up to a 300% increase in the rotational period of the biosensor due to increased cell volume. In addition, we observed single bacterial cell growth response to antibiotics. This work demonstrates the non-microscopy limited AMBR biosensor for monitoring individual cell growth dynamics, including cell elongation, generation time, lag time, and division, as well as their sensitivity to antibiotics. 相似文献