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Molecular cloning and characterization of an ECTO-NOX3 (ENOX3) of <i>Saccharomyces cerevisiae</i>
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Advances in Biological Chemistry 2013年 第5期3卷 505-511页
作者: sara dick Connie Phung Dorothy M. Morré D. James Morré Department of Biology Valparaiso University Valparaiso USA MorNuCo Inc. Purdue Research Park West Lafayette USA
Exfoliated ECTO-NOX3 (ENOX3) proteins, are members of the human TM9 superfamily of transmembrane proteins that generate superoxide, are present in blood and other body fluids, and increase activity with age beginning ... 详细信息
来源: 维普期刊数据库 维普期刊数据库 评论
Ultradian oscillators of the circadian clock in <i>Saccharomyces</i><i>cerevisiae</i>
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Advances in Biological Chemistry 2013年 第1期3卷 59-69页
作者: sara S. dick Aya Ryuzoji Dorothy M. Morré D. James Morré Department of Foods and Nutrition Purdue University West Lafayette USA Department of Medicinal Chemistry Purdue University West Lafayette USA
The yeast, Saccharomyces cerevisiae, has an ENOX1 activity with a period length of 24 min similar to that of other eukaryotes. In contrast to other eukaryotes, however, Saccharomyces cerevisiae has a second ENOX1-like... 详细信息
来源: 维普期刊数据库 维普期刊数据库 评论
Identification of the constitutive ultradian oscillator of the circadian clock (ENOX1) in <i>Saccharomyces cerevisiae</i>
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Advances in Biological Chemistry 2013年 第3期3卷 320-328页
作者: sara S. dick Aya Ryuzoji Dorothy M. Morré D. James Morré Department of Foods and Nutrition Purdue University West Lafayette USA Mor-Nu Co. LLC Purdue Research Park West Lafayette USA
A yeast (Saccharomyces cerevisiae) deletion library was screened based on NADH fluorescence using a 384 well plate assay and robotics to identify a yeast isolate lacking the 24 min periodic cell surface oxidase. The o... 详细信息
来源: 维普期刊数据库 维普期刊数据库 评论
Molecular Cloning and Characterization of a Candidate ENOX Protein of <i>Saccharomyces cerevisiae</i>with a 25 Min Period Insensitive to Simalikalactone D Inhibition and Melatonin
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Advances in Biological Chemistry 2014年 第5期4卷 339-350页
作者: Aya F. Ryuzoji Debby H. Parisi sara dick James Kim Dorothy M. Morré D. James Morré Department of Biology Valparaiso University Valparaiso USA Mor-NuCo Inc. Purdue Research Park West Lafayette USA
A yeast deletion library was screened based on NADH fluorescence using a 384-well plate assay to identify a yeast isolate lacking a previously identified cell surface oxidase exhibiting an oscillatory pattern with a p... 详细信息
来源: 维普期刊数据库 维普期刊数据库 评论
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