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Zeitschriftenartikel zum Thema „Leptothrix“

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Veröffentlicht am 26. Juli 2024

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1

Vieira-Baptista, Pedro, Joana Lima-Silva, Mario Preti, Carlos Sousa, Fernanda Caiano, Colleen K. Stockdale und Jacob Bornstein. „Vaginal Leptothrix: An Innocent Bystander?“ Microorganisms 10, Nr. 8 (15.08.2022): 1645. http://dx.doi.org/10.3390/microorganisms10081645.

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Leptothrix are long bacteria of rare occurrence; although these bacteria have been implicated in causing vaginal symptoms identical to candidiasis, studies on prevalence and effect on overall vaginal health are lacking. In this study, we evaluated data of women referred to a private clinic for treating vulvovaginal symptoms (n = 1847) and reassessed data of our previous and ongoing studies (n = 1773). The overall rate of leptothrix was 2.8% (102/3620), and the mean age of affected women was 38.8 ± 10.65 years (range 18−76). The majority of the women with leptothrix had normal vaginal flora (63.7% [65/102]). Leptothrix was associated with a higher risk of candidiasis (relative risk (RR) 1.90, 95% confidence interval (CI) 1.1600–3.1013; p = 0.010) and a lower risk of bacterial vaginosis (RR 0.55, 95% CI, 0.3221–0.9398; p = 0.029) and cytolytic vaginosis (RR 0.11, 95% CI, 0.0294–0.4643; p = 0.002). No cases of trichomoniasis were observed. Human immunodeficiency virus infection increased the risk of leptothrix (RR 3.0, 95% CI, 1.6335–5.7245; p = 0.000). Among the women evaluated for vulvovaginal symptoms, 2.4% (45/1847) had leptothrix, and in 26.7% (12/45), leptothrix was considered the causative entity. This study suggests that leptothrix occurrence is rare; it remains unresolved if it can be a cause of vulvar symptoms.
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2

Spring, Stefan, Peter Kampfer, Wolfgang Ludwig und Karl-Heinz Schleifer. „Polyphasic Characterization of the Genus Leptothrix: New Descriptions of Leptothrix mobilis sp. nov. and Leptothrix discophora sp. nov. nom. rev. and Emended Description of Leptothrix cholodnii emend.“ Systematic and Applied Microbiology 19, Nr. 4 (Dezember 1996): 634–43. http://dx.doi.org/10.1016/s0723-2020(96)80036-1.

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3

Mirzayeva, D. M., und S. A. Aghayeva. „Mechanism of formation water molecules and chemical bonds in Leptothrix materials“. Advanced Physical Research 6, Nr. 1 (19.02.2024): 5–14. http://dx.doi.org/10.62476/apr61514.

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The provided study involves investigating chemical interactions in Leptothrix biomaterial through infrared spectroscopy. The analysis explores variations in chemical relationships based on the nature of chemical bonds and biomaterial coordinates. The primary chemical bonds identified in the biomaterial are associated with Fe-O vibrations and resonances of [OH] functional groups. Additionally, the study presents model representations detailing the formation mechanism of water molecules within the Leptothrix matrix. Model calculations for a two-vacancy cluster defect structure in Fe2O3 and Fe3O4 reveal lifetimes of 180 ps and 174 ps, respectively.
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4

Boogerd, F. C., und J. P. de Vrind. „Manganese oxidation by Leptothrix discophora.“ Journal of Bacteriology 169, Nr. 2 (1987): 489–94. http://dx.doi.org/10.1128/jb.169.2.489-494.1987.

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5

Nakatsu, Cindy H., Krassimira Hristova, Satoshi Hanada, Xian-Ying Meng, Jessica R. Hanson, Kate M. Scow und Yoichi Kamagata. „Methylibium petroleiphilum gen. nov., sp. nov., a novel methyl tert-butyl ether-degrading methylotroph of the Betaproteobacteria“. International Journal of Systematic and Evolutionary Microbiology 56, Nr. 5 (01.05.2006): 983–89. http://dx.doi.org/10.1099/ijs.0.63524-0.

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A Gram-negative, rod-shaped, motile, non-pigmented, facultative aerobe that grew optimally at pH 6.5 and 30 °C (strain PM1T) was isolated for its ability to completely degrade the gasoline additive methyl tert-butyl ether. Analysis of the 16S rRNA gene sequence indicated that this bacterium was a member of the class Betaproteobacteria in the Sphaerotilus–Leptothrix group. The 16S rRNA gene sequence identity to other genera in this group, Leptothrix, Aquabacterium, Roseateles, Sphaerotilus, Ideonella and Rubrivivax, ranged from 93 to 96 %. The chemotaxonomic data including Q-8 as the major quinone, C16 : 1ω7c and C16 : 0 as the major fatty acids and a DNA G+C content of 69 mol%, support the inclusion of strain PM1T in the class Betaproteobacteria. It differed from other members of the Sphaerotilus–Leptothrix group by being a facultative methylotroph that used methanol as a sole carbon source, and by also being able to grow heterotrophically in defined media containing ethanol, toluene, benzene, ethylbenzene and dihydroxybenzoates as sole carbon sources. On the basis of the morphological, physiological, biochemical and genetic information, a new genus and species, Methylibium petroleiphilum gen. nov., sp. nov., is proposed, with PM1T (=ATCC BAA-1232T=LMG 22953T) as the type strain.
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6

Kunoh, Tatsuki, Hideki Hashimoto, Ian McFarlane, Naoaki Hayashi, Tomoko Suzuki, Eisuke Taketa, Katsunori Tamura et al. „Abiotic Deposition of Fe Complexes onto Leptothrix Sheaths“. Biology 5, Nr. 2 (03.06.2016): 26. http://dx.doi.org/10.3390/biology5020026.

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7

Adams, Lee F., und William C. Ghiorse. „Physiology and ultrastructure of Leptothrix discophora SS-1“. Archives of Microbiology 145, Nr. 2 (Juli 1986): 126–35. http://dx.doi.org/10.1007/bf00446769.

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8

Yurt, N., J. Sears und Z. Lewandowski. „Multiple Substrate Growth Kinetics of Leptothrix discophora SP-6“. Biotechnology Progress 18, Nr. 5 (04.10.2002): 994–1002. http://dx.doi.org/10.1021/bp0255098.

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9

Zhang, Jinghao, Leonard W. Lion, Yarrow M. Nelson, Michael L. Shuler und William C. Ghiorse. „Kinetics of Mn(II) oxidation by Leptothrix discophora SS1“. Geochimica et Cosmochimica Acta 66, Nr. 5 (März 2002): 773–81. http://dx.doi.org/10.1016/s0016-7037(01)00808-0.

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10

Carlile, Michael J., und A. William L. Dudeney. „The discs of Leptothrix discophora: lost for 89 years?“ Microbiology 147, Nr. 6 (01.06.2001): 1393–94. http://dx.doi.org/10.1099/00221287-147-6-1393.

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11

Zumbroich, Thomas. „Manganbakterium Leptothrix echinata und der Eintrag von Mangan (II, IV) in die Wiehltalsperre“. Decheniana : Verhandlungen des Naturhistorischen Vereins der Rheinlande und Westfalens 140 (01.01.1987): 184–89. http://dx.doi.org/10.21248/decheniana.v140.4275.

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Im Zeitraum vom Juni 1984 bis zum Juni 1985 wurde das Wasser der Wiehltalsperre/Oberbergisches Land chemisch und biologisch analysiert. Dabei ergaben sich wichtige Aspekte bezüglich des Manganeintrages und seiner Wirkung auf die Biozönose des Sees (Erscheinen von Leptothrix echinata). Durch mehrfache Analyse des Zulaufwassers (zuletzt im Juni 1986) ließ sich nachweisen, daß die hohe Manganfracht einiger Bäche aus hydrothermal vererzten Stellen bzw. aus Abraumhalden des Erzbergbaues im Wassereinzugsgebiet stammt.
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12

Sung, Eun-Hae, Ji-Sun Han, Chang-Min Ahn, Hyung Joon Seo und Chang-Gyun Kim. „Biological metal corrosion in saline systems by sulfur-reducing and iron-oxidizing bacteria“. Water Quality Research Journal 46, Nr. 4 (01.11.2011): 321–31. http://dx.doi.org/10.2166/wqrjc.2011.009.

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This study investigated whether any possible bio-corrosion of pumps could occur when operating underground pumping stations in coastal regions. Groundwater in the stations was found to contain Leptothrix sp. (iron-oxidizing bacteria, IOB) and Desulfovibrio sp. (sulfur-reducing bacteria, SRB). Four different metal specimens were exposed to saline water media, where Leptothrix sp. or Desulfovibrio sp. were inoculated solely or together. The result showed that IOB not only provoke the corrosion of galvanized and stainless steels but also accelerate (by 5–10 times) the formation of zinc/iron precipitates. The SRB specifically mediated the corrosion of zinc steel to a greater extent than the IOB. In a single medium, STS 304, galvanized steel, iron and zinc steel resisted corrosion in that order. However, in the mixed culture, the metals were corroded by a factor of 2–7 more than in the single medium. On disinfection, a higher NaOCl concentration surprisingly caused increased chemical corrosion, and UV light scattering due to corrosion precipitates enhanced microbial corrosion. Consequently, the metals showed more biochemical corrosion than the control, especially in a mixed culture. In particular, the level of STS 304 corrosion was significantly higher in the presence of microbes than the control.
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13

Evdokimova, N. V., und T. V. Chernenkaya. „Leptotrichia and leptothrix: linguistic incident, or difficulties of microbiological diagnostics?“ Medical alphabet, Nr. 13 (29.06.2021): 47–50. http://dx.doi.org/10.33667/2078-5631-2021-13-47-50.

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In medical literature bacteria of the genera Leptotrix and Leptotrichia are often considered as identical. Actually, they are antipodes, standing very far apart from each other in evolutionary terms. The confusion arose due to morphological similarity (filamentous forms). Leptotrix is a type of iron bacteria that live in neutral and slightly acidic fresh waters with a very low concentration of organic matter. The energy metabolism of leptotrix is strictly aerobic, oxidative, and chemoorganoheterotrophic (they oxidize divalent iron ions into trivalent iron to produce energy). Its clinical role has not yet been proven. Bacteria of the genus Leptotrichia are normal inhabitants of the oral cavity, urogenital tract and intestine of humans, they are strict anaerobes (some strains are microaerophiles). They cause inflammatory diseases in patients with immunosuppression of different genesis. However, assessment of their clinical role, when they are isolated from non-sterile habitats, requires the use of a skilled ecological approach, including knowledge of the dynamics of cell numbers, the dominance of a particular species, etc. It is absolutely unacceptable to diagnose the diseases caused by leptotrichia on the base of smear microscopy results (for example, smears of discharge from urogenital tract).
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14

Hope, C. K., und T. R. Bott. „Laboratory modelling of manganese biofiltration using biofilms of Leptothrix discophora“. Water Research 38, Nr. 7 (April 2004): 1853–61. http://dx.doi.org/10.1016/j.watres.2003.12.031.

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15

Barahona, Sergio, Johanna Cortés, Martha Hengst, Cristina Dorador und Francisco Remonsellez. „Diversity of Thermophilic Iron-Pyrite-Oxidizing Enrichments from Solfataric Hot Springs in the Chilean Altiplano“. Solid State Phenomena 262 (August 2017): 526–30. http://dx.doi.org/10.4028/www.scientific.net/ssp.262.526.

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Relatively little is known about the microbial communities present in natural environments that meet physico-chemical conditions for the development of potential leaching microorganisms such as thermal ecosystems from the Chilean Altiplano. Thermophilic leaching enrichments were obtained and identified from a high altitude solfataric pound in Lirima hot springs in the Chilean Altiplano. This ecosystem is characterized by hot underground freshwaters, enriched in sulfur compounds showing pH from neutral to acidic. Microbial diversity has been scarcely explored here, and preliminary results demonstrate that hydrothermal pounds are represented by thermophilic anaerobic and acidophilic taxa. Thermophilic leaching cultures in shake flasks were obtained using ferrous iron and pyrite as energy source. The presence of Bacteria and Archaea in oxidizing enrichments was determined by PCR amplification of 16S rRNA genes. A preliminary analysis of microbial diversity using massive sequencing revealed that Bacteria were more abundant than Archaea in both enrichments. Specifically for the iron-oxidizing culture, the majority of the sequences clustered within the Proteobacteria phylum (79%). Among Proteobacteria, the proportion of Betaproteobacteria (42.2%) and Gammaproteobacteria (21.27%) was much higher than that of Alphaproteobacteria (15.5%). Within the Betaproteobacteria class, the most frequent genus was Leptothrix-like. Similar results were obtained for the pyrite oxidizing culture. Interestingly, this study shows the presence of microorganisms close to the Leptothrix genus under low pH conditions (1.7-2.8) and their capacity to grow at high temperatures with ferrous iron or pyrite as sole energy source
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16

Lechner, Ute, Danny Brodkorb, Roland Geyer, Gerd Hause, Claus Härtig, Georg Auling, Françoise Fayolle-Guichard, Pascal Piveteau, Roland H. Müller und Thore Rohwerder. „Aquincola tertiaricarbonis gen. nov., sp. nov., a tertiary butyl moiety-degrading bacterium“. International Journal of Systematic and Evolutionary Microbiology 57, Nr. 6 (01.06.2007): 1295–303. http://dx.doi.org/10.1099/ijs.0.64663-0.

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Strains L10T, L108 and CIP I-2052 were originally obtained from methyl tert-butyl ether (MTBE)-contaminated groundwater and from a wastewater treatment plant, respectively. All share the ability to grow on tert-butanol, an intermediate of MTBE degradation. Cells are strictly aerobic, motile by a polar flagellum and exhibit strong pili formation. Poly β-hydroxybutyrate (PHB) granules are formed. The DNA G+C content is 69–70.5 mol% and the main ubiquinone is Q-8. The major cellular fatty acids are 16 : 1 cis-9 and 16 : 0 and the only hydroxy fatty acid is 10 : 0 3-OH. The major phospholipids are phosphatidylethanolamine (PE) 16 : 1/16 : 1 and phosphatidylglycerol 16 : 0/16 : 1. A significant amount of PE 17 : 0/16 : 1 is present. The 16S rRNA gene sequences of these strains are almost identical and form a separate line of descent in the Rubrivivax–Roseateles–Leptothrix–Ideonella–Aquabacterium branch of the Betaproteobacteria with 97 % similarity to 16S rRNA genes of the type strains of Rubrivivax gelatinosus, Leptothrix mobilis and Ideonella dechloratans. However, physiological properties, DNA–DNA relatedness values and the phospholipid and cellular fatty acid profiles distinguish the novel isolates from the three closely related genera. Therefore, it is concluded that strains L10T, L108 and CIP I-2052 represent a new genus and novel species for which the name Aquincola tertiaricarbonis gen. nov., sp. nov., is proposed. The type strain is strain L10T (=DSM 18512T=CIP 109243T).
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17

Tang, Kit Lam, und Benoit Guénard. „Further additions to the knowledge of Strumigenys (Formicidae: Myrmicinae) within South East Asia, with the descriptions of 20 new species“. European Journal of Taxonomy 907 (14.11.2023): 1–144. http://dx.doi.org/10.5852/ejt.2023.907.2327.

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The species of the ant genus Strumigenys Smith, 1860 from Southeast Asia are reviewed based on recent sampling efforts as well as unreported historical material from southern mainland China, Japan, Taiwan, Thailand and Vietnam. We report 42 new species records for these regions. A total of 20 species new to science are described: S. anhdaoae sp. nov., S. claviseta sp. nov., S. crinigera sp. nov., S. decumbens sp. nov., S. delicata sp. nov., S. densissima sp. nov., S. doydeei sp. nov., S. fellowesi sp. nov., S. intermedia sp. nov., S. jaitrongi sp. nov., S. liuweii sp. nov., S. longidens sp. nov., S. mediocris sp. nov., S. rongi sp. nov., S. scutica sp. nov., S. strummeri sp. nov., S. xenopilus sp. nov., S. yamanei sp. nov., S. zanderi sp. nov. and S. zhenghuii sp. nov. The descriptions of the existing species S. elegantula (Terayama & Kubota, 1989) and S. nathistorisoc Tang et al., 2019 are revised. Strumigenys formosensis Forel, 1912 syn. nov. is synonymized with S. feae Emery 1895 in the light of recently collected specimens. Three species complexes are created within the S. leptothrix-group: elegantula-complex, leptothrix-complex and zanderi-complex, based on differences in dentition. A new species group, S. nathistorisoc-group, is introduced. The key to Strumigenys of East Asia (as Pyramica) by Bolton is partially revised to accommodate species from these species groups that were described since the publication of the key. Finally, the implication of our results to the region and the current limitation of species groups and complexes of the genus is discussed.
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18

SATOU, Kazuhiro, und Kazue TAZAKI. „Accumulation of Biogenic Iron Hydroxides by Leptothrix ochracea at Neutral pH“. Journal of Environmental Conservation Engineering 33, Nr. 6 (2004): 467–75. http://dx.doi.org/10.5956/jriet.33.467.

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19

Vesenka, James, James Havu, Kate Hruby und David Emerson. „A Model for Sheath Formation Coupled to Motility in Leptothrix ochracea“. Geomicrobiology Journal 35, Nr. 5 (15.02.2018): 366–74. http://dx.doi.org/10.1080/01490451.2017.1370516.

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20

El Gheriany, Iman A., Daniela Bocioaga, Anthony G. Hay, William C. Ghiorse, Michael L. Shuler und Leonard W. Lion. „Iron Requirement for Mn(II) Oxidation by Leptothrix discophora SS-1“. Applied and Environmental Microbiology 75, Nr. 5 (29.12.2008): 1229–35. http://dx.doi.org/10.1128/aem.02291-08.

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ABSTRACT A common form of biocatalysis of Mn(II) oxidation results in the formation of biogenic Mn(III, IV) oxides and is a key reaction in the geochemical cycling of Mn. In this study, we grew the model Mn(II)-oxidizing bacterium Leptothrix discophora SS-1 in media with limited iron (0.1 μM iron/5.8 mM pyruvate) and sufficient iron (0.2 μM iron/5.8 mM pyruvate). The influence of iron on the rate of extracellular Mn(II) oxidation was evaluated. Cultures in which cell growth was limited by iron exhibited reduced abilities to oxidize Mn(II) compared to cultures in medium with sufficient iron. While the extracellular Mn(II)-oxidizing factor (MOF) is thought to be a putative multicopper oxidase, Mn(II) oxidation in the presence of zero added Cu(II) was detected and the decrease in the observed Mn(II) oxidation rate in iron-limited cultures was not relieved when the medium was supplemented with Cu(II). The decline of Mn(II) oxidation under iron-limited conditions was not accompanied by siderophore production and is unlikely to be an artifact of siderophore complex formation with Mn(III). The temporal variations in mofA gene transcript levels under conditions of limited and abundant iron were similar, indicating that iron limitation did not interfere with the transcription of the mofA gene. Our quantitative PCR results provide a step forward in understanding the regulation of Mn(II) oxidation. The mechanistic role of iron in Mn(II) oxidation is uncertain; the data are consistent with a direct requirement for iron as a component of the MOF or an indirect effect of iron resulting from the limitation of one of many cellular functions requiring iron.
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Kunoh, Tatsuki, Makoto Nakanishi, Yoshihiro Kusano, Atsushi Itadani, Kota Ando, Syuji Matsumoto, Katsunori Tamura, Hitoshi Kunoh und Jun Takada. „Biosorption of metal elements by exopolymer nanofibrils excreted from Leptothrix cells“. Water Research 122 (Oktober 2017): 139–47. http://dx.doi.org/10.1016/j.watres.2017.05.003.

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22

Nell, Ryan M., Jennifer E. S. Szymanowski und Jeremy B. Fein. „Divalent metal cation adsorption onto Leptothrix cholodnii SP-6SL bacterial cells“. Chemical Geology 439 (November 2016): 132–38. http://dx.doi.org/10.1016/j.chemgeo.2016.06.021.

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23

Dickinson, W. H., F. Caccavo, B. Olesen und Z. Lewandowski. „Ennoblement of Stainless Steel by the Manganese-Depositing Bacterium Leptothrix discophora.“ Applied and environmental microbiology 63, Nr. 7 (1997): 2502–6. http://dx.doi.org/10.1128/aem.63.7.2502-2506.1997.

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24

Takeda, Minoru, Hiroko Makita, Katsutoshi Ohno, Yuichi Nakahara und Jun-ichi Koizumi. „Structural analysis of the sheath of a sheathed bacterium, Leptothrix cholodnii“. International Journal of Biological Macromolecules 37, Nr. 1-2 (Oktober 2005): 92–98. http://dx.doi.org/10.1016/j.ijbiomac.2005.09.002.

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25

Carpén, L., L. Raaska, K. Kujanpää und T. Hakkarainen. „Effects of Leptothrix discophora on the potential behavior of stainless steel“. Materials and Corrosion 54, Nr. 7 (Juli 2003): 515–19. http://dx.doi.org/10.1002/maco.200390114.

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26

Sawayama, Michinori, Tomoko Suzuki, Hideki Hashimoto, Tomonari Kasai, Mitsuaki Furutani, Naoyuki Miyata, Hitoshi Kunoh und Jun Takada. „Isolation of a Leptothrix Strain, OUMS1, from Ocherous Deposits in Groundwater“. Current Microbiology 63, Nr. 2 (04.06.2011): 173–80. http://dx.doi.org/10.1007/s00284-011-9957-6.

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27

Cepák, Vladislav, und Jaromír Lukavský. „Cryoseston of the Pirin Mountains, Bulgaria“. Acta Botanica Croatica 72, Nr. 2 (01.10.2013): 257–68. http://dx.doi.org/10.2478/botcro-2013-0012.

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Abstract - In the cryoseston community of the Pirin Mountains, 18 species were determined. Chlorophyta: Chlamydomonas nivalis (predominant), Chloromonas brevispina, Chloromonas rostafinski, Chlainomonas rubra (new genus and species for Bulgaria, documented in Europe for only the second time), Cystococcus nivicolus and Stichococcus nivalis. Bacillariophyceae: Aulacoseira granulata var. angustissima, Hantzchia amphioxys, cf. Surirella. Fungi: cf. Chytridium chlamydococcii. Deuteromycetes: Selenotila nivalis, Chionaster nivalis, and saprophytic fungae cf. Myzocytium, Rhodosporidium toruloides, Alternaria sp. and cf. Cladosporium, in pollen grains. Bacteria: Leptothrix ochracea. Ciliata: Vorticella campanula. The composition of cryoseston in the Pirin Mountains is characteristic for high mountains where Chlamydomonas nivalis predominates.
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Thyssen, Christian, David Holuscha, Jens Kuhn, Friederike Walter, Wolfram Fürbeth und Wolfgang Sand. „Biofilm Formation and Stainless Steel Corrosion Analysis of Leptothrix discophora “. Advanced Materials Research 1130 (November 2015): 79–82. http://dx.doi.org/10.4028/www.scientific.net/amr.1130.79.

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Bioleaching and biocorrosion are based on similar biochemical processes. Microbe-surface interaction, biofilm formation and concomitant extracellular polymeric substance (EPS) production gained increasing interest in the past decades. Nowadays it is generally accepted that biofilm formation and an accompanying formation of manganese oxides by manganese oxidizing bacteria such as Leptothrix spp. account for one type of pitting corrosion of stainless steel (SS). However, little is known about biofilm formation, EPS composition of manganese oxidizing microorganisms and their influence on microbiologically influenced corrosion. Consequently, we studied biofilm formation of Leptothrixdiscophora, the biooxidation of manganese in biofilms on floating filters as well as biofilm formation on stainless steel and the involved corrosion processes. Cells were visualized by epifluorescence (EFM) or confocal laser scanning –microscopy (CLSM). Additionally, the influence of biofilm formation and biooxidation of manganese by L. discophora on the open circuit potential (OCP) and pitting potential (Epit) of stainless steel was measured using a 3 electrode setup. L. discophora grew well in biofilms on floating filters and on SS coupons and incorporated in both conditions Mn2+ in the form of MnO2 from the bulk phase into the biofilm. OCP measurements of actively manganese-oxidizing biofilms on stainless steel showed a significant ennoblement of ≥200 mV.
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Corstjens, P. L., J. P. de Vrind, P. Westbroek und E. W. de Vrind-de Jong. „Enzymatic iron oxidation by Leptothrix discophora: identification of an iron-oxidizing protein.“ Applied and Environmental Microbiology 58, Nr. 2 (1992): 450–54. http://dx.doi.org/10.1128/aem.58.2.450-454.1992.

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30

Adams, Lee F., und William C. Ghiorse. „Influence of Manganese on Growth of a Sheathless Strain of Leptothrix discophora“. Applied and Environmental Microbiology 49, Nr. 3 (1985): 556–62. http://dx.doi.org/10.1128/aem.49.3.556-562.1985.

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31

Kunoh, Tatsuki, Kana Morinaga, Shinya Sugimoto, Shun Miyazaki, Masanori Toyofuku, Kenji Iwasaki, Nobuhiko Nomura und Andrew S. Utada. „Polyfunctional Nanofibril Appendages Mediate Attachment, Filamentation, and Filament Adaptability in Leptothrix cholodnii“. ACS Nano 14, Nr. 5 (05.12.2019): 5288–97. http://dx.doi.org/10.1021/acsnano.9b04663.

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Emerson, D., und W. C. Ghiorse. „Ultrastructure and chemical composition of the sheath of Leptothrix discophora SP-6.“ Journal of Bacteriology 175, Nr. 24 (1993): 7808–18. http://dx.doi.org/10.1128/jb.175.24.7808-7818.1993.

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33

Nakajima-Kambe, Toshiaki, Kieko Toyoshima, Chika Saito, Hitoshi Takaguchi, Yukie Akutsu-Shigeno, Megumi Sato, Kazuyuki Miyama, Nobuhiko Nomura und Hiroo Uchiyama. „Rapid monomerization of poly(butylene succinate)-co-(butylene adipate) by Leptothrix sp.“ Journal of Bioscience and Bioengineering 108, Nr. 6 (Dezember 2009): 513–16. http://dx.doi.org/10.1016/j.jbiosc.2009.05.018.

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34

Grynyk, E., und E. Singayevskiy. „The spiders (Arachnida, Aranei) in the landscape reserve "Yakhnivsky" (Kyiv region)“. Bulletin of Taras Shevchenko National University of Kyiv. Series: Biology 83, Nr. 4 (2020): 33–37. http://dx.doi.org/10.17721/1728_2748.2020.83.33-37.

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For the first time, the species composition and relative abundance of spiders in pine and alder forests within the Yakhnovsky reserve have been studied; 46 species of spiders which represent 17 families were found. It was found that quantitatively in the pine forest spiders of the families Linyphiidae (43,4 %) and Araneidae (42,9 %) prevail, and in the alder forest – Tetragnathidae (37 %) and Linyphiidae (34 %). In the herbaceous layer of the pine forest, spiders of Araneidae family dominated quantitatively, and in the litter dominated Linyphiidae spiders – 91 %. In the herbaceous layer of the alder forest Tetragnathidae spiders quantitatively dominated – 34 %, and in the litter layer Linyphiidae and Tetragnathidae, are dominants – respectively, 32 % and 43 %. The dominant species for the grass and litter layers were revealed (according to the Tischler scale): in the pine forest, these are Mangora acalypha (48,6 %), Linyphia triangularis (18,85 %) and Leptothrix hardyi (89 %); in the alder forest – Linyphia triangularis (24,1 %), Metellina segmentata (23 %), Tetragnatha pinicola (18,8 %) and Piratula hygrophila (38,5 %) with Pachygnatha listeri (19,2 %), in accordance with indicated tiers. Nine species of spiders were identified, of which five species – Agroeca cuprea (family Liocranidae), Bathyphantes nigrinus, Dicymbium nigrum, Floronia bucculenta and Neriene montana (family Linyphiidae), are indicated for the first time for the territory of Kiev Polesie, and four species, for the first time for Ukrainian Polesie: Cheiracanthuim elegans (family Cheiracanthiidae), Leptothrix hardyi, Sintula spiniger and Walckenaeria alticeps (family Linyphiidae). For these species is given the data on faunal material, places and methods of collection, distribution and ecological features. According to our own research and literary sources, the territory of Kiev Polesie currently includes 150 species of spiders. The indices of faunistic similarity and species diversity of the surveyed biotopes were calculated, an arealogical analysis was performed.
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Govorova, Zhanna, Ekaterina Muraveva, Vadim Govorov und Vasiliy Semenovykh. „Technology of groundwater biological deferrization“. MATEC Web of Conferences 251 (2018): 03036. http://dx.doi.org/10.1051/matecconf/201825103036.

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Applicability of development of technology using bioreactor and floating media filter is shown. The technology is based on the biological oxidation of iron and manganese by a group of iron oxidizing bacteria (IOB). The description, the operating principle and the results of technology testing are given. If the content of iron is 4,9-5,71 mg/L, manganese - 0,12-0,2 mg/L and carbon dioxide and hydrogen sulphide are present, the quality of treated water meets all normative requirements. A microscopic analysis of the backwash water from bioreactor and filter was carried out. It has been established that Leptothrix type iron oxidizing bacteria are involved in the oxidation of compounds of dissolved forms of iron and manganese.
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Angelova, R., L. Slavov, B. Blagoev, Ch Ghelev, M. Iliev, V. Groudeva und I. Nedkov. „Biogenic ferroxides derived from Leptothrix bacteria for applications in electronics, biomedicine and biotechnology“. IOP Conference Series: Materials Science and Engineering 1056, Nr. 1 (01.01.2021): 012009. http://dx.doi.org/10.1088/1757-899x/1056/1/012009.

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37

Suzuki, Tomoko, Hiromichi Ishihara, Mitsuaki Furutani, Tomonori Shiraishi, Hitoshi Kunoh und Jun Takada. „A Novel Method for Culturing of Leptothrix sp. Strain OUMS1 in Natural Conditions“. Minerals 2, Nr. 2 (23.05.2012): 118–28. http://dx.doi.org/10.3390/min2020118.

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38

Suzuki, Tomoko, Hiromichi Ishihara, Kazuhiro Toyoda, Tomonori Shiraishi, Hitoshi Kunoh und Jun Takada. „Autolysis of Bacterial Cells Leads to Formation of Empty Sheaths by Leptothrix spp.“ Minerals 3, Nr. 2 (20.06.2013): 247–57. http://dx.doi.org/10.3390/min3020247.

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39

Suzuki, Tomoko, Tatsuki Kunoh, Daisuke Nakatsuka, Hideki Hashimoto, Katsunori Tamura, Hitoshi Kunoh und Jun Takada. „Use of Iron Powder to Obtain High Yields of Leptothrix Sheaths in Culture“. Minerals 5, Nr. 2 (04.06.2015): 335–45. http://dx.doi.org/10.3390/min5020335.

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40

Kunoh, Tatsuki, Tomoko Suzuki, Tomonori Shiraishi, Hitoshi Kunoh und Jun Takada. „Treatment of Leptothrix Cells with Ultrapure Water Poses a Threat to Their Viability“. Biology 4, Nr. 1 (27.01.2015): 50–66. http://dx.doi.org/10.3390/biology4010050.

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41

Hashimoto, Hideki, Atsushi Itadani, Takayuki Kudoh, Satoshi Fukui, Yasushige Kuroda, Masaharu Seno, Yoshihiro Kusano et al. „Nano–Micrometer-Architectural Acidic Silica Prepared from Iron Oxide of Leptothrix ochracea Origin“. ACS Applied Materials & Interfaces 5, Nr. 11 (23.05.2013): 5194–200. http://dx.doi.org/10.1021/am401029r.

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42

Angelova, R., V. Groudeva, L. Slavov, M. Iliev, I. Nedkov, I. Sziklai-László und K. Krezhov. „Investigation of iron-containing products from natural and laboratory cultivated Sphaerotilus-Leptothrix bacteria“. Journal of Biological Physics 41, Nr. 4 (28.02.2015): 367–75. http://dx.doi.org/10.1007/s10867-015-9384-1.

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43

Takeda, Minoru, Yuta Kawasaki, Takuto Umezu, Shoichi Shimura, Makoto Hasegawa und Jun-ichi Koizumi. „Patterns of sheath elongation, cell proliferation, and manganese(II) oxidation in Leptothrix cholodnii“. Archives of Microbiology 194, Nr. 8 (04.03.2012): 667–73. http://dx.doi.org/10.1007/s00203-012-0801-6.

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44

Kumar, Uma, Udita Singhal, Pooja Jain und Shalini Trivedi. „Cytomorphological spectrum of cervicovaginal infections and their prevalence with clinical correlation on pap smears: A three-year retrospective study“. Panacea Journal of Medical Sciences 12, Nr. 1 (15.04.2022): 97–101. http://dx.doi.org/10.18231/j.pjms.2022.019.

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Cervical-vaginal infections are one of the most common infections seen in women of the reproductive age group. The important infectious agents in Gardnerella vaginalis, Candida, and Trichomonas vaginalis. Pap smear cytology is used as an important screening test for various epithelial cell abnormalities and cervical cancer. It is also useful in the diagnosis of various pathogenic microorganisms causing cervicovaginal infections. To determine the prevalence of cervicovaginal infections on Pap smears, and study their cytomorphology and clinical correlation. : This is a three-year retrospective study from June 2018 to May 2021 performed on conventional Pap smears in the Pathology laboratory of a Government hospital in North India. The prevalence of various cervicovaginal infections was determined and their cytomorphological spectrum was studied. The Bethesda System of classification was followed for reporting Pap smears. All the females attending Gynaecology OPD of the hospital with various complaints were included. Females with a history of cervical cancer and unsatisfactory samples were excluded from the study. Out of the total number1344 pap smears examined during the three years, 1291 (96.058%) were reported as NILM, remaining 53(3.044%) were diagnosed as epithelial cell abnormalities and cervical cancer. Among the 1291 cases of NILM, 421(32.61%) smears were positive for specific pathogenic microorganisms. Out of, 421 smears, examined,254(60.33%) were BV followed by136 (32.30%) of candida infection. Trichomonas contributed to 22(5.22%) cases, whereas in one case (0.23%) each of Actinomyces and HSV was seen. Mixed infection by Trichomonas and leptothrix was seen in 4(0.950%) cases and Candida and leptothrix contributed to 3(0.712%) cases. Cervico-vaginal infections are an important cause of morbidity in the reproductive age group. Cervical cytology is an invaluable method to diagnose these infections. About 90% of infections are caused by Bacterial Vaginosis and Candida. All women of the reproductive age group should undergo a Pap smear examination for timely diagnosis and proper management of cervicovaginal infections.
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45

Matýsek, Dalibor, und Jakub Jirásek. „Nepodceňujme mikrobiální precipitaci oxihydroxidů železa a manganu v životním prostředí“. Bulletin Mineralogie Petrologie 29, Nr. 1 (2021): 115–23. http://dx.doi.org/10.46861/bmp.29.115.

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Dolníček (2020) described several occurrences of bog iron (limonite), which according to his article originates in recent streams by chemical precipitation, without the important role of microorganisms on this process. However, similar occurrences of reddish or orange slime, frequently accompanied by oil-like films floating on the water, are according to many papers ascribed to the biogenic iron oxidation by bacteria. To solve the origin of such precipitates, we have sampled similar materials in four places near Ostrava - Hrabová, two close to Řepiště and Staříč, and also two sites in the vicinity of Hulín investigated by Dolníček (2020). In all cases, scanning electron microscopy of dried samples at the low vacuum (ca 50 Pa) revealed a dominant share of tubular sheaths of the Leptothrix-Sphaerotilus group of bacteria. The prevailing diameter of 1.5 to 1 μm should point to genus Leptothrix, while those with a diameter up to 2.5 μm (genus Sphaerotilus) are far less common. Spiral chains of Gallionella were recognized in all samples, as well as rare pennate diatoms. Space between bacterial filaments is predominantly filled with densely stacked particles micrometer to submicrometer in size, sometimes with oval, fibrous, or tabular shape. It might be both decomposed material of previously mentioned genera and some other small-sized bacteria. Energy-dispersive spectroscopy shows dominant content of iron and oxygen, with a minor admixture of Si, Ca, Al, and P. Powder X-ray diffraction of such microbial mats is showing clastic admixtures (quartz, feldspar group minerals, illite-muscovite, and kaolinite) and two broad low-intensity peaks of ferrihydrite. Only sample D from Řepiště locality shows an absence of ferrihydrite and the presence of hematite and magnetite and/or maghemite. Therefore, we demonstrated that bacterially-induced precipitation plays a major role in the genesis of such recent bog iron occurrences and there are ways how to characterize such material by both biological and mineralogical procedures.
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46

Seppänen, Harri. „Biological Treatment of Groundwater in Basins with Floating Filters–II. The Role of Microorganisms in Floating Filters“. Water Science and Technology 20, Nr. 3 (01.03.1988): 185–87. http://dx.doi.org/10.2166/wst.1988.0097.

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The role of certain types of bacteria is quite decisive in the formation of iron and manganese precipitates. Bacteria and other organisms participate in the precipitation of soluble iron and manganese in many different ways. The production of hydrogen peroxide seems to be an important phase in the formation of the precipitates. Bacteria produce hydrogen peroxide as an intermediate or an end product of metabolic processes (Gorlenko etal., 1983). Iron and manganese bacteria are typical gradient organisms, growing in a sharp gradient between oxidized and reduced environments. Iron precipitating types are oligotrophic and manganese precipitating types need higher concentrations of organic compounds. Manganese precipitating bacteria are eutrophic. Iron bacteria are sessile, and grow attached to the solid surfaces of filter media. Typical iron and manganese precipitating bacteria in groundwaters are Gallionella, Leptothrix, and Metallogenium.
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47

Bocioaga, Daniela, Iman A. El Gheriany, Leonard W. Lion, William C. Ghiorse, Michael L. Shuler und Anthony G. Hay. „Development of a genetic system for a model manganese-oxidizing proteobacterium, Leptothrix discophora SS1“. Microbiology 160, Nr. 11 (01.11.2014): 2396–405. http://dx.doi.org/10.1099/mic.0.079459-0.

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Understanding the molecular underpinnings of manganese oxidation in Leptothrix discophora SS1 has been hampered by the lack of a genetic system. In this report, we describe the development of a genetic system for L. discophora SS1. The antibiotic sensitivity was characterized, and a procedure for transformation with exogenous DNA via conjugation was developed and optimized, resulting in a maximum transfer frequency of 5.2×10−1 and a typical transfer frequency of the order of 1×10−3 transconjugants per donor. Genetic manipulation of L. discophora SS1 was demonstrated by disrupting pyrF via chromosomal integration with a plasmid containing a R6Kγ origin of replication through homologous recombination. This resulted in resistance to 5-fluoroorotidine, which was abolished by complementation with an ectopically expressed copy of pyrF cloned into pBBR1MCS. This system is expected to be amenable to a systematic genetic analysis of L. discophora SS1, including those genes responsible for manganese oxidation.
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48

Angelova, Ralitsa, Eva Baldikova, Kristyna Pospiskova, Mirka Safarikova und Ivo Safarik. „Magnetically modified sheaths of Leptothrix sp. as an adsorbent for Amido black 10B removal“. Journal of Magnetism and Magnetic Materials 427 (April 2017): 314–19. http://dx.doi.org/10.1016/j.jmmm.2016.10.094.

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49

Adams, Lee F., und William C. Ghiorse. „Oxidation state of Mn in the Mn oxide produced by Leptothrix discophora SS-1“. Geochimica et Cosmochimica Acta 52, Nr. 8 (August 1988): 2073–76. http://dx.doi.org/10.1016/0016-7037(88)90186-x.

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50

Nedkov, I., L. Slavov, R. Angelova, B. Blagoev, D. Kovacheva, M. V. Abrashev, M. Iliev und V. Groudeva. „Biogenic nanosized iron oxides obtained from cultivation of iron bacteria from the genus Leptothrix“. Journal of Biological Physics 42, Nr. 4 (30.08.2016): 587–600. http://dx.doi.org/10.1007/s10867-016-9426-3.

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