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Shigella spp. have transport systems for both ferric and ferrous iron. The iron can be taken up as free iron or complexed to a variety
of carriers. All Shigella species have both the Feo and Sit systems for acquisition of ferrous iron, and all have at least one siderophore-mediated
system for transport of ferric iron. Several of the transport systems, including Sit, Iuc/IutA (aerobactin synthesis and transport),
Fec (ferric di-citrate uptake), and Shu (heme transport) are encoded within pathogenicity islands. The presence and the genomic
locations of these islands vary considerably among the Shigella species, and even between isolates of the same species. The expression of the iron transport systems is influenced by the
concentration of iron and by environmental conditions including the level of oxygen. ArcA and FNR regulate iron transport
gene expression as a function of oxygen tension, with the sit and iuc promoters being highly expressed in aerobic conditions, while the feo ferrous iron transporter promoter is most active under anaerobic conditions. The effects of oxygen are also seen in infection
of cultured cells by Shigella flexneri; the Sit and Iuc systems support plaque formation under aerobic conditions, whereas Feo allows plaque formation anaerobically. 相似文献
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Iron acquisition in Yersinia pestis is fundamental to the success of plague pathogenesis. We have previously identified an approximately 5.6 kb region (yfe) of Y. pestis genomic DNA, capable of restoring iron-deficient growth but not siderophore production to an Escherichia coli mutant (SAB11) incapable of synthesizing the siderophore, enterobactin. The yfe locus of Y. pestis, found in both pigmented (Pgm+) and nonpigmented (Pgm-) strains, comprises five genes arranged in two distinct operons (yfeA-D and yfeE ). The larger of these, yfeABCD, encodes an ABC transport system, whose expression is iron and Fur regulated and is repressed in cells grown in the presence of manganese. Cells from a Pgm-, Yfe- (DeltayfeAB ) mutant strain of Y. pestis exhibited reduced transport of both 55Fe and 54Mn. Furthermore, cells containing an intact yfe locus showed reduced 55Fe uptake when competing amounts of MnCl2 or ZnCl2 were present, whereas 54Mn uptake was inhibited by FeCl3 but not by ZnCl2. Similarly, yfe mutants of Y. pestis exhibited growth defects on media supplemented with the iron chelators 2,2'-dipyridyl or conalbumin. These growth defects were not relieved by supplementation with MnCl2. A ybt-, DeltayfeAB mutant of Y. pestis was completely avirulent in mice infected intravenously (LD50 > 1.7 x 107 cfu) compared with its parental ybt-, yfe+ strain, which had an LD50 of < 12. In addition, compared with its ybt+, yfe+ parent, a ybt+, DeltayfeAB mutant of Y. pestis had an approximately 100-fold increase in the LD50 from a subcutaneous route of infection. These data suggest that the Yfe and Ybt systems may function effectively to accumulate iron during different stages of the infectious process of bubonic plague. 相似文献
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Iron uptake and iron limited growth of Escherichia coli K-12 总被引:4,自引:0,他引:4
Cells of Escherichia coli K-12 could grow aerobically at an iron concentration as low as 0.05 M without any of the known iron ionophores present. The growth rate increased between 0.05 and 2 M iron. Supplementation with the iron ligands ferrichrome and citrate resulted in optimal growth already at 0.05 M iron. Under certain conditions iron uptake preceded growth of cells by more than an hour. During logarithmic growth the rate of iron uptake matched the growth rate. The radioactive tracer method revealed a cellular iron content of 4 nmol/mg dry weight.After consumption of the iron in the medium cells continued to grow with high rate for 1–2 generations. The iron uptake activity was increased during iron starvation. 相似文献
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The viability of iron(III/II) reduction as the initial step in the in vivo release of iron from its thermodynamically stable
siderophore complex is explored. 相似文献
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王婷 《微生物学免疫学进展》2012,40(2):58-65
鼠疫菌F1抗原是鼠疫亚单位新疫苗最重要的候选抗原,对其性质的充分认识,将有助于抗原制造工艺和新疫苗的开发。F1抗原的性质研究包括:微观结构,一级核苷酸、氨基酸序列,二级结构,高分子聚集形态,以及F1抗原的理化性质。 相似文献
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几乎所有细菌的生长都离不开铁元素。在有氧的环境中,三价铁离子几乎无法被细菌直接利用。但是在宿主胃肠道中,铁元素主要以可溶性的亚铁离子形式存在,它们可通过革兰氏阴性菌外膜直接进入胞周质,在周质通过亚铁离子转运系统,将铁离子转运至胞浆供细菌利用。绝大多数阴性菌主要是通过Feo转运系统利用亚铁离子,大肠杆菌的Feo转运系统由feoA、feoB和feoC3个基因组成。除Feo转运系统外,还发现Yfe转运系统、Efe转运系统、Sit转运系统等。本文重点介绍革兰氏阴性菌Feo转运系统的组成及作用机制,以期为进一步研究细菌亚铁离子的转运机制提供参考。 相似文献
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Bruce G. Goldner Ann L. Rinehart Harry M. Benshoff Daniel C. Harris 《Biochimica et Biophysica Acta (BBA)/General Subjects》1982,719(3):641-643
Fe2+ is oxidized and taken up by ferritin or ápoferritin in the presence of dioxygen. Iodate causes Fe2+ oxidation and uptake by ferritin, but not by apoferritin. Synthetic iron polymer facilitates Fe2+ oxidation by either dioxygen or iodate. Nitrilotriacetic acid or iminodiacetic acid facilitate oxidation of Fe2+ by oxygen but not by iodate. These results support the crystal growth model of ferritin iron uptake, with iron polymer serving as a model for the ferritin core and aminocarboxylic acids mimicking the metal-binding sites of apoferritin. 相似文献
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We have constructed a dam mutant of Yersinia pestis GB. In BALB/c mice inoculated subcutaneously, the median lethal dose of the mutant was at least 2000-fold higher than the wild type. Mice inoculated with sub-lethal doses of the mutant were protected against a subsequent challenge with virulent Y. pestis. The effect of dam inactivation on gene expression was examined using a DNA microarray, which revealed increased expression of a number of genes associated with the SOS response. These results confirm the key role of Dam in the regulation of virulence, and its potential role as a target for the generation of attenuated strains of pathogenic bacteria. 相似文献
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Yazhou Zhou Jiyuan Zhou Yuxin Ji Lu Li Yafang Tan Guang Tian Ruifu Yang Xiaoyi Wang 《Microbes and infection / Institut Pasteur》2018,20(3):166-175
Yersinia pestis has evolved from Yersinia pseudotuberculosis serotype O:1b. A typical Y. pestis contains three plasmids: pCD1, pMT1 and pPCP1. However, some isolates only harbor pCD1 (pCD1+-mutant). Y. pestis and Y. pseudotuberculosis share a common plasmid (pCD1 or pYV), but little is known about whether Y. pseudotuberculosis exhibited plague-inducing potential before it was evolved into Y. pestis. Here, the luxCDABE::Tn5::kan was integrated into the chromosome of the pCD1+-mutant, Y. pseudotuberculosis or Escherichia coli K12 to construct stable bioluminescent strains for investigation of their dissemination in mice by bioluminescence imaging technology. After subcutaneous infection, the pCD1+-mutant entered the lymph nodes, followed by the liver and spleen, and, subsequently, the lungs, causing pathological changes in these organs. Y. pseudotuberculosis entered the lymph nodes, but not the liver, spleen and lungs. It also resided in the lymph nodes for several days, but did not cause lymphadenitis or pathological lesions. By contrast, E. coli K12-lux was not isolatable from mouse lymph nodes, liver, spleen and lungs. These results indicate that the pCD1+-mutant can cause typical bubonic and pneumonic plague-like diseases, and Y. pestis has inherited lymphoid tissue tropism from its ancestor rather than acquiring these properties independently. 相似文献
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B.K. Semin A.A. Novakova A.Yu. Aleksandrov I.I. Ivanov A.B. Rubin R.N. Kuzmin 《Biochimica et Biophysica Acta (BBA)/General Subjects》1982,715(1):52-56
Mössbauer spectroscopy was used to investigate the distribution of iron in rat organs and its localisation in liver subcellular fractions. A 57Fe-sucrose complex solution was injected by 0.5 ml doses into tail veins of anmals every day, during a 6-day period. Mössbauer spectra were measured in spleen, blood, liver and liver subcellular fractions. The Mössbauer spectrum of a spleen sample has two symmetrical doublets, one with δ=0.6 mm/s and Δ=0.7 mm/s, and the other with δ=1.0 mm/s and Δ=2.35 mm/s. The Mössbauer spectrum of blood has parameters which are close to those for carboxyhemoglobin and oxyhemoglobin complexes. After the addition of sodium citrate, the proportion of the carboxyhemoglobin complexes increases. The Mössbauer spectrum of liver has a two-component pattern with two symmetrical doublets, the first with δ=0.6 mm/s and Δ=0.63 mm/s and the second with δ=1.4 mm/s and Δ=3.45 mm/s. The first component, which was identified as ferritin, is present in all subcellular fractions (800 × gav sediment fraction, mitochondrial/lysosomal, microsomal and supernatant fractions), with its content in microsomal fraction. After the addition of NaBH4 to mitochondrial/lysosomal fraction, about 20 % of the iron contained in ferritin was reduced. In the Mössbauer spectrum this is reflected by an appearance of a doublet with δ=0.85 mm/s and Δ=3.7 mm/s. 相似文献
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《Microbes and infection / Institut Pasteur》2014,16(3):214-224
Yersinia pestis 201 contains 4 plasmids pPCP1, pMT1, pCD1 and pCRY, but little is known about the effects of these plasmids on the dissemination of Y. pestis. We developed a plasmid-based luxCDABE bioreporter in Y. pestis 201, Y. pestis 201-pCD1+, Y. pestis 201-pMT1+, Y. pestis 201-pPCP1+, Y. pestis 201-pCRY+, Y. pestis 201-p− and Yersinia pseudotuberculosis Pa36060 strains, and investigated their dissemination by bioluminescence imaging during primary septicemic plague in a mouse model. These strains mainly colonized the livers and spleens shortly after intravenous inoculation. Y. pestis 201-pMT1+ appeared to have a stronger ability to survive in the livers, spleens and blood, and to be more virulent than other plasmid-deficient strains. Y. pestis 201-pPCP1+ appeared to have a stronger ability to colonize lungs than other plasmid-deficient strains. Pa36060 has the strongest ability to colonize intestines and lungs. Y. pestis 201 has the strongest ability to survive in blood, and the strongest virulence. These results indicated that the plasmid pMT1 was an important determinant in the colonization of livers, spleens and blood, whereas the plasmid pPCP1 appeared to correlate with the colonization in lungs. The resistance to killing in mouse blood seemed to be the critical factor causing animal death. 相似文献
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Abstract Growth of Staphylococcus aureus and Yersinia enterocolitica in human serum was enhanced by addition of excess iron or of the iron-chelating drug desferrioxamine, but neither had any effect on the growth of Streptococcus faecalis . Desferrioxamine could remove iron slowly from transferrin under physiological conditions, and desferrioxamine-bound iron was taken up by S. aureus and Y. enterocolitica but not by Strep. faecalis . The results suggest that patients with iron overload undergoing chelation therapy with desferrioxamine may have an increased risk of bacterial infection. 相似文献
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Growth and magnetite formation in Magnetospirillum gryphiswaldense MSR-1 were found close to the maximum at an extracellular iron concentration of 15–20 μM. Ferrous iron was incorporated by
a slow, diffusion-like process. Several iron chelators including various microbial siderophores were unable to promote transport
of iron into the cells. In contrast, spent culture fluids stimulated the uptake of ferric iron in iron-depleted cells at a
high rate, whereas fresh medium and transport buffer were unable to promote iron uptake. However, no siderophore-like compound
could be detected in spent culture fluids by the Chrome Azurol S assay. Ferric iron uptake followed Michaelis-Menten kinetics
with a K
m of 3 μM and a V
max of 0.86 nmol min–1 (mg dry weight)–1, suggesting a comparatively low-affinity, but high-velocity transport system. Iron incorporation was sensitive to 2,4-dinitrophenol
and carbonylcyanide-m-chlorophenylhydrazone, indicating an energy-dependent transport process.
Received: 21 May 1996 / Accepted: 7 August 1996 相似文献
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Mining iron: iron uptake and transport in plants 总被引:7,自引:0,他引:7
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Study of the intracellular ice formation (IIF) and growth is essential to the mechanistic understanding of cellular damage through freezing. In the aid of high speed and high resolution cryo-imaging technology, the transient intracellular ice formation and growth processes of the attached human umbilical vein endothelial cells (HUVEC) were successfully captured during freezing. It was found that the intracellular ice nucleation site was on the cell membrane closer to the nucleus. The ice growth was directional and toward the nucleus, which covered the whole nucleus before growing into the cytoplasm. The crystal growth rate in the nucleus was much larger than that in the cytoplasm, and its morphology was influenced by the cooling rate. During the thawing process, small crystals fused into larger ones inside the nucleus. Moreover, the cumulative fraction of the HUVEC with IIF was mainly dependent on the cooling rate not the confluence of the cells attached. 相似文献