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Journal articles on the topic 'Active oxygen'

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Published: 4 June 2021
Last updated: 31 July 2024

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1

Yoshikawa, Toshikazu, Toru Tanigawa, and Motoharu Kondo. "Active oxygen species." Ensho 8, no. 6 (1988): 511–16. http://dx.doi.org/10.2492/jsir1981.8.511.

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2

SANAKA, TSUTOMU. "Active oxygen hypothesis." Journal of Japanese Society for Dialysis Therapy 24, no. 3 (1991): 283–87. http://dx.doi.org/10.4009/jsdt1985.24.283.

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3

OHNO, Hideki, Shuji OH-ISHI, and Takako KIZAKI. "Exercise and Active Oxygen." Kagaku To Seibutsu 33, no. 8 (1995): 520–27. http://dx.doi.org/10.1271/kagakutoseibutsu1962.33.520.

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4

Pryor, W. A. "Active oxygen in biochemistry." Free Radical Biology and Medicine 21, no. 7 (January 1996): 1011. http://dx.doi.org/10.1016/s0891-5849(96)00287-0.

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5

KANEGASAKI, Shiro. "Leukocytes and active oxygen." Nippon Saikingaku Zasshi 47, no. 5 (1992): 671–78. http://dx.doi.org/10.3412/jsb.47.671.

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6

MIYAZAWA, TERUO. "Generation, elimination and effects of active oxygen.1.Active oxygen and lipid." Kagaku To Seibutsu 29, no. 12 (1991): 798–806. http://dx.doi.org/10.1271/kagakutoseibutsu1962.29.798.

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7

KAWAGISHI, TOSHIAKI. "Generation, erasure and effects of active oxygen.(3).Active oxygen and protein." Kagaku To Seibutsu 30, no. 2 (1992): 122–29. http://dx.doi.org/10.1271/kagakutoseibutsu1962.30.122.

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8

INOUE, MASAYASU. "Generation, disappearance, and effect of active oxygen.4.Active oxygen and diseases." Kagaku To Seibutsu 30, no. 3 (1992): 184–90. http://dx.doi.org/10.1271/kagakutoseibutsu1962.30.184.

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9

KASHIMURA, NAOKI. "Generation, elimination and effects of active oxygen.2.Active oxygen and carbohydrate." Kagaku To Seibutsu 30, no. 1 (1992): 40–49. http://dx.doi.org/10.1271/kagakutoseibutsu1962.30.40.

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10

KUNINORI, Toyo. "Damage of protein by active oxygen. Interaction of food proteins with active oxygen." Journal of the agricultural chemical society of Japan 62, no. 7 (1988): 1120–23. http://dx.doi.org/10.1271/nogeikagaku1924.62.1120.

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11

Kashimura, Naoki. "Glycated protein generates active oxygen." Trends in Glycoscience and Glycotechnology 1, no. 2 (1989): E20—E26. http://dx.doi.org/10.4052/tigg.1.2_e20.

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12

YOSHIKAWA, TOSHIKAZU, SHUNICHIRO NISHIMURA, and MOTOHARU KONDO. "EXERCISE AND ACTIVE OXYGEN SPECIES." Japanese Journal of Physical Fitness and Sports Medicine 43, no. 4 (1994): 241–46. http://dx.doi.org/10.7600/jspfsm1949.43.241.

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13

Nagase, Sohji, Kazumasa Aoyagi, Mitsuharu Narita, and Shizuo Tojo. "Active Oxygen in Methylguanidine Synthesis." Nephron 44, no. 4 (1986): 299–303. http://dx.doi.org/10.1159/000184010.

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14

Itoh, Shinobu. "Mononuclear copper active-oxygen complexes." Current Opinion in Chemical Biology 10, no. 2 (April 2006): 115–22. http://dx.doi.org/10.1016/j.cbpa.2006.02.012.

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15

Baker, C. J., and E. W. Orlandi. "Active Oxygen in Plant Pathogenesis." Annual Review of Phytopathology 33, no. 1 (September 1995): 299–321. http://dx.doi.org/10.1146/annurev.py.33.090195.001503.

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16

Cerutti, P., R. Larsson, G. Krupitza, D. Muehlematter, D. Crawford, and P. Amstad. "Pathophysiological mechanismsa of active oxygen." Mutation Research/Fundamental and Molecular Mechanisms of Mutagenesis 214, no. 1 (September 1989): 81–88. http://dx.doi.org/10.1016/0027-5107(89)90200-5.

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17

Davison, Allan, Glen Tibbits, Zhonggiao Shi, and Jim Moon. "Active oxygen in neuromuscular disorders." Molecular and Cellular Biochemistry 84, no. 2 (December 1988): 199–216. http://dx.doi.org/10.1007/bf00421055.

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18

Castelló, Ana, Francesc Francès, Dolores Corella, and Fernando Verdú. "Active oxygen doctors the evidence." Naturwissenschaften 96, no. 2 (October 21, 2008): 303–7. http://dx.doi.org/10.1007/s00114-008-0466-9.

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19

Doke, Noriyuki. "Active Defence Responses and Active Oxygen in Infected Plants." Journal of the agricultural chemical society of Japan 69, no. 2 (1995): 189–92. http://dx.doi.org/10.1271/nogeikagaku1924.69.189.

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20

Yokoyama, Tomoya, Yuji Matsumoto, and Gyosuke Meshitsuka. "Reaction Selectivity of Active Oxygen Species in Oxygen-Alkali Bleaching." Journal of Wood Chemistry and Technology 19, no. 3 (August 1999): 187–202. http://dx.doi.org/10.1080/02773819909349607.

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21

Yokoyama, Tomoya, Yuji Matsumoto, and Gyosuke Meshitsuka. "Characterization of active oxygen species under oxygen-alkali bleaching conditions." Holzforschung 59, no. 3 (May 1, 2005): 269–75. http://dx.doi.org/10.1515/hf.2005.044.

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Abstract The reactivities of active oxygen species toward a non-phenolic lignin model compound, 1-(3,4-dimethoxyphenyl)-1,2-ethanediol (veratryl glycol, VG), and a carbo-hydrate model compound, methyl β-D-glucopyranoside (MGP), were examined and compared under practical oxygen bleaching conditions. In this study, active oxygen species were generated in situ by subjecting a phenolic compound, 2,4,6-trimethylphenol, to oxygen oxidation to faithfully simulate practical oxygen bleaching. The results indicated that the time-dependent reaction selectivity of active oxygen species between VG and MGP, k VG(t)/k MGP(t), in the early stage of the reaction is 2.1 and 0.3–0.7 at initial pH values of 11.8 and 13.1, respectively. By comparing this value with the of hydroxyl radical obtained by Ek et al. [Holzforschung 43 (1989) 391] we conclude that the active oxygen species in the early stage of the reaction are hydroxyl radicals. The reaction selectivity at higher pH was much lower, which is explained by the fact that an oxyl anion radical, the conjugate base of the hydroxyl radical, predominantly abstracts hydrogen from aliphatic substructures. Chain-type reactions could be mainly responsible for degradation of the model compounds after the middle stage of the reaction. We suggest that the operation of chain-type reactions is not greatly dependent on the pH of the medium, but on the structure of the substrate.
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22

Alt, H. C. "Electrically Active Oxygen in Gallium Arsenide." Materials Science Forum 83-87 (January 1992): 369–76. http://dx.doi.org/10.4028/www.scientific.net/msf.83-87.369.

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23

KAGAMIMORI, Sadanobu, and Yutaka HOSODA. "Active oxygen species and asbestos toxicity." Sangyo Igaku 32, no. 6 (1990): 439–47. http://dx.doi.org/10.1539/joh1959.32.439.

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24

Komiya, Setsuro, Katsuyuki Tsuzuki, and Akio Inoue. "Active Oxygen Scavengers in Osteosarcoma Cells." Orthopedics & Traumatology 42, no. 3 (1993): 1251–54. http://dx.doi.org/10.5035/nishiseisai.42.1251.

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25

SHIGEOKA, Shigeru. "Molecular Function of Active Oxygen Metabolism." Journal of the agricultural chemical society of Japan 66, no. 12 (1992): 1739–47. http://dx.doi.org/10.1271/nogeikagaku1924.66.1739.

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26

AOYAGI, Kazumasa, and Mitsuharu NARITA. "Active oxygen toxicity in renal diseases." Japanese Journal of Medicine 29, no. 6 (1990): 681–82. http://dx.doi.org/10.2169/internalmedicine1962.29.681.

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27

PANOV, G., K. DUBKOV, and E. STAROKON. "Active oxygen in selective oxidation catalysis." Catalysis Today 117, no. 1-3 (September 30, 2006): 148–55. http://dx.doi.org/10.1016/j.cattod.2006.05.019.

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28

Shimogawara, Kousuke, and Shoshi Muto. "Active oxygen induced protein ubiquitination inChlamydomonas." FEBS Letters 278, no. 2 (January 28, 1991): 261–62. http://dx.doi.org/10.1016/0014-5793(91)80130-u.

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29

Lewis, D. F. V. "Cytochrome P-450 and active oxygen." FEBS Letters 284, no. 1 (June 17, 1991): 134. http://dx.doi.org/10.1016/0014-5793(91)80782-x.

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30

C.R W. and D.S. "Cytochrome P-450 and active oxygen." Trends in Biochemical Sciences 16 (January 1991): 276. http://dx.doi.org/10.1016/0968-0004(91)90109-9.

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31

NAKAYAMA, Tsutomu, and Masahiko KODAMA. "Carcinogenesis and carcinostasis, and active oxygen." Kagaku To Seibutsu 23, no. 12 (1985): 771–78. http://dx.doi.org/10.1271/kagakutoseibutsu1962.23.771.

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32

ASADA, Kozi. "Damage of protein by active oxygen." Journal of the agricultural chemical society of Japan 62, no. 7 (1988): 1100–1104. http://dx.doi.org/10.1271/nogeikagaku1924.62.1100.

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33

Castelló, Ana, Francesc Francés, and Fernando Verdú. "DNA Evidence Uncompromised by Active Oxygen." Scientific World JOURNAL 10 (2010): 387–92. http://dx.doi.org/10.1100/tsw.2010.47.

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Currently, forensic sciences can make use of the potential of instrumental analysis techniques to obtain information from the smallest, even invisible, samples. However, as laboratory techniques improve, so too should the procedures applied in the search for and initial testing of clues in order to be equally effective. This requires continuous revision so that those procedures may resolve the problems that samples present. As far as bloodstains are concerned, there are methods available that are recognized as being both highly sensitive and effective. Nevertheless, the marketing of new cleaning products, those that contain active oxygen, has raised doubts about the ability of those procedures to detect blood. It has been shown that stains washed with these detergents (and still visible) invalidated both the presumptive test (reduced phenolphthalein, luminol, and Bluestar®) and that applied for determining human hemoglobin. These findings have caused considerable concern both within the forensic and scientific community, and among the general public, so obliging us to seek solutions. In this work, the effect of these new cleaning products on DNA analyses is studied. The results, encouraging ones, show that these detergents, despite invalidating all other tests, do not hinder the extraction, or the subsequent analysis, of DNA.
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34

Penttilä, Anu, Carolyn R. Boyle, and Marvin L. Salin. "Active Oxygen Intermediates and Chlorophyllin Bleaching." Biochemical and Biophysical Research Communications 226, no. 1 (September 1996): 135–39. http://dx.doi.org/10.1006/bbrc.1996.1322.

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35

Flury, Sophia R., and Edward C. Moran. "Chemical abundances in active galaxies." Monthly Notices of the Royal Astronomical Society 496, no. 2 (June 6, 2020): 2191–203. http://dx.doi.org/10.1093/mnras/staa1563.

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ABSTRACT The Sloan Digital Sky Survey (SDSS) has proved to be a powerful resource for understanding the physical properties and chemical composition of star-forming galaxies in the local Universe. The SDSS population of active galactic nuclei (AGNs) remains as of yet less explored in this capacity. To extend the rigorous study of H ii regions in the SDSS to AGNs, we adapt methods for computing direct-method chemical abundances for application to the narrow-line regions (NLR) of AGNs. By accounting for triply ionized oxygen, we are able to more completely estimate the total oxygen abundance. We find a strong correlation between electron temperature and oxygen abundance due to collisional cooling by metals. Furthermore, we find that nitrogen and oxygen abundances in AGNs are strongly correlated. From the metal–temperature relation and the coupling of nitrogen and oxygen abundances, we develop a new, empirically and physically motivated method for determining chemical abundances from the strong emission lines commonly employed in flux-ratio diagnostic diagrams (BPT diagrams). Our approach, which for AGNs reduces to a single equation based on the BPT line ratios, consistently recovers direct-method abundances over a 1.5 dex range in oxygen abundance with an rms uncertainty of 0.18 dex. We have determined metallicities for thousands of AGNs in the SDSS, and in the process have discovered an ionization-related discriminator for Seyfert and LINER galaxies.
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36

Müller, Klaus, Wolfgang Wiegrebe, and Maged Younes. "Formation of Active Oxygen Species by Dithranol, III Dithranol, Active Oxygen Species and Lipid Peroxidation in vivo." Archiv der Pharmazie 320, no. 1 (1987): 59–66. http://dx.doi.org/10.1002/ardp.19873200110.

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37

Hirai, Shigeto, Kazuki Morita, Kenji Yasuoka, Taizo Shibuya, Yujiro Tojo, Yoichi Kamihara, Akira Miura, et al. "Oxygen vacancy-originated highly active electrocatalysts for the oxygen evolution reaction." Journal of Materials Chemistry A 6, no. 31 (2018): 15102–9. http://dx.doi.org/10.1039/c8ta04697b.

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38

Somkid, Kanokwan, and Pailin Ngaotrakanwiwat. "Photocatalytic Reactions of Titanium Dioxide for Active Packaging Application." Applied Mechanics and Materials 313-314 (March 2013): 131–34. http://dx.doi.org/10.4028/www.scientific.net/amm.313-314.131.

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The adsorption and photocatalytic reactions of ethylene and oxygen were investigated by sol-gel routed TiO2 particles. The dependence of ethylene –free oxygen concentrations, oxygen-free ethylene concentrations and the molar ratio of C2H4:O2 in the gas mixture on adsorption and photocatalytic reaction rates were examined. The increase of ethylene –free oxygen concentrations or oxygen-free ethylene concentrations can enhance the adsorption rates while decreasing photoreaction rates. The presence of ethylene and oxygen can increase adsorption rates leading to enhance photocatalytic rates. The photocatalytic rates of ethylene oxidation and oxygen reduction were 10-8 mol. s-1.g-1 evenly at C2H4:O2 molar ratio equal to 3:1.
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39

Aver'yanov, A. A., and V. P. Lapikova. "ACTIVE OXYGEN AND FUNGITOXICITY OF PLANT PHENOLS." Acta Horticulturae, no. 381 (December 1994): 336–39. http://dx.doi.org/10.17660/actahortic.1994.381.40.

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40

Oyanagui, Yoshihiko. "Progress of active oxygen research in inflammation." Ensho 12, no. 1 (1992): 9–18. http://dx.doi.org/10.2492/jsir1981.12.9.

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41

YOSHIKAWA, TOSHIKAZU. "Fundamental and clinical aspects of active oxygen." Nihon Naika Gakkai Zasshi 84, no. 7 (1995): 1186–91. http://dx.doi.org/10.2169/naika.84.1186.

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42

MURAKAMI, Hiroshi, Kazumi WATAHIKI, Akira IWASAKI, and Isao KUDO. "Product of Active Oxygen by Plasma Source." SHINKU 38, no. 3 (1995): 281–83. http://dx.doi.org/10.3131/jvsj.38.281.

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43

MURAKAMI, Hiroshi, Hug J. KAN, Akira KUROKAWA, Ken NAKAMURA, and Shingo ICHIMURA. "Production of Active Oxygen by Ion Source." SHINKU 40, no. 3 (1997): 333–35. http://dx.doi.org/10.3131/jvsj.40.333.

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44

OYANAGUI, Yoshihiko. ""Active Oxygen Research of Today and Future."." Journal of Toxicological Sciences 16, SupplementII (1991): 65–69. http://dx.doi.org/10.2131/jts.16.supplementii_65.

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45

Meakin, Casey A., and David Arnett. "Active Carbon and Oxygen Shell Burning Hydrodynamics." Astrophysical Journal 637, no. 1 (January 17, 2006): L53—L56. http://dx.doi.org/10.1086/500544.

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46

MASAKI, Hitoshi, Sachiko SAKAKI, Takamasa ATSUMI, and Hiromu SAKURAI. "Active-Oxygen Scavenging Activity of Plant Extracts." Biological & Pharmaceutical Bulletin 18, no. 1 (1995): 162–66. http://dx.doi.org/10.1248/bpb.18.162.

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47

Reiter, R. J. "Melatonin, active oxygen species and neurological damage." Drug News & Perspectives 11, no. 5 (1998): 291. http://dx.doi.org/10.1358/dnp.1998.11.5.863675.

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48

Coutinho, J., R. Jones, M. J. Shaw, P. R. Briddon, and S. Öberg. "Optically active erbium–oxygen complexes in GaAs." Applied Physics Letters 84, no. 10 (March 8, 2004): 1683–85. http://dx.doi.org/10.1063/1.1668323.

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49

Gibson, G. Gordon. "Book Review: Cytochrome P450 and Active Oxygen." Annals of Clinical Biochemistry: International Journal of Laboratory Medicine 28, no. 4 (July 1991): 425. http://dx.doi.org/10.1177/000456329102800428.

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50

Buczek, B., S. Biniak, and A. Świątkowski. "Oxygen distribution within oxidised active carbon granules." Fuel 78, no. 12 (October 1999): 1443–48. http://dx.doi.org/10.1016/s0016-2361(99)00063-0.

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