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Tissue Processing of Nitrite in Hypoxia: AN INTRICATE INTERPLAY OF NITRIC OXIDE-GENERATING AND -SCAVENGING SYSTEMS*S⃞

机译：低氧环境中亚硝酸盐的组织加工：一个相互直接的相互作用一氧化氮的产生和消除系统*S⃞

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Although nitrite (\documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document}) and nitrate (\documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{3}^{-}\end{equation*}\end{document}) have been considered traditionally inert byproducts of nitric oxide (NO) metabolism, recent studies indicate that \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document} represents an important source of NO for processes ranging from angiogenesis through hypoxic vasodilation to ischemic organ protection. Despite intense investigation, the mechanisms through which \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document} exerts its physiological/pharmacological effects remain incompletely understood. We sought to systematically investigate the fate of \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document} in hypoxia from cellular uptake in vitro to tissue utilization in vivo using the Wistar rat as a mammalian model. We find that most tissues (except erythrocytes) produce free NO at rates that are maximal under hypoxia and that correlate robustly with each tissue's capacity for mitochondrial oxygen consumption. By comparing the kinetics of NO release before and after ferricyanide addition in tissue homogenates to mathematical models of \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document} reduction/NO scavenging, we show that the amount of nitrosylated products formed greatly exceeds what can be accounted for by NO trapping. This difference suggests that such products are formed directly from \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document}, without passing through the intermediacy of free NO. Inhibitor and subcellular fractionation studies indicate that \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document} reductase activity involves multiple redundant enzymatic systems (i.e. heme, iron-sulfur cluster, and molybdenum-based reductases) distributed throughout different cellular compartments and acting in concert to elicit NO signaling. These observations hint at conserved roles for the \documentclass[10pt]{article}\usepackage{amsmath}\usepackage{wasysym} \usepackage{amsfonts} \usepackage{amssymb} \usepackage{amsbsy}\usepackage{mathrsfs}\usepackage{pmc}\usepackage[Euler]{upgreek}\pagestyle{empty}\oddsidemargin -1.0in\begin{document}\begin{equation*}{\mathrm{NO}}_{2}^{-}\end{equation*}\end{document}-NO pool in cellular processes such as oxygen-sensing and oxygen-dependent modulation of intermediary metabolism.

机译：尽管亚硝酸盐（\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc} \ usepackage [Euler ] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation *} \ end {document }和硝酸盐（\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc} \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {3} ^ {-} \ end {equation *} \ end {document}）在传统上被认为是一氧化氮（NO）代谢的惰性副产品，最近的研究表明\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc} \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ odd sidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation *} \ end {document}代表过程范围内NO的重要来源从血管生成到缺氧血管舒张再到缺血性器官保护。尽管进行了深入研究，但\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc } \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation * } \ end {document}发挥其生理/药理作用仍未完全了解。我们试图系统地调查\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc } \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation * }结束{document}，以Wistar大鼠为哺乳动物模型，从体外细胞摄取到体内组织利用均处于缺氧状态。我们发现，大多数组织（除红细胞外）在缺氧条件下产生的游离NO速率最大，并且与每个组织的线粒体耗氧能力密切相关。通过比较组织匀浆中铁氰化物添加前后NO释放的动力学与\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage { amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc} \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} __ { 2} ^ {-} \ end {equation *} \ end {document}的还原/ NO清除，我们表明所形成的亚硝化产物的数量大大超过了NO捕获所能解释的数量。这种差异表明此类产品直接由\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage形成{pmc} \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {方程*} \ end {document}，而无需经过免费的NO中介。抑制剂和亚细胞分离研究表明\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc} \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation *} \ end {document}的还原酶活性涉及分布在不同细胞区室中的多个冗余酶系统（即血红素，铁-硫簇和基于钼的还原酶），并共同引发NO信号传导。这些观察结果暗示了\ documentclass [10pt] {article} \ usepackage {amsmath} \ usepackage {wasysym} \ usepackage {amsfonts} \ usepackage {amssymb} \ usepackage {amsbsy} \ usepackage {mathrsfs} \ usepackage {pmc } \ usepackage [Euler] {upgreek} \ pagestyle {empty} \ oddsidemargin -1.0in \ begin {document} \ begin {equation *} {\ mathrm {NO}} _ {2} ^ {-} \ end {equation * } \ end {document}-细胞过程中的NO池，例如氧感应和依赖氧的中间代谢调节。

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作者
Feelisch, Martin; Fernandez, Bernadette O.; Bryan, Nathan S.; Garcia-Saura, Maria Francisca; Bauer, Selena; Whitlock, David R.; Ford, Peter C.; Janero, David R.; Rodriguez, Juan; Ashrafian, Houman;
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4. Detection of hypoxia and inflammatory processes in tissues by fluorescence spectroscopy in vivo [C] . Petritskaya E., Abaeva L., Lapitan D., International Conference Laser Optics . 2014

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5. The interplay between estrogens and the nitric oxide system in cardiac function and structure [D] . Jessup, Jewell Annette 2011

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6. Tissue Processing of Nitrite in Hypoxia [O] . Martin Feelisch, Bernadette O. Fernandez, Nathan S. Bryan, 2008

机译：低氧环境中亚硝酸盐的组织加工
7. Tissue processing of nitrite in hypoxia: an intricate interplay of nitric oxide-generating and -scavenging systems. [O] . Feelisch, M, Fernandez, BO, Bryan, NS, 2008

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8. THE INTERACTIONS OF HYDRAZINE, FERROUS SULFAMATE, SODIUM NITRITE, AND NITRIC ACID IN NUCLEAR FUEL PROCESSING SOLUTIONS [R] . L. W. Gray 1977

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Tissue Processing of Nitrite in Hypoxia: AN INTRICATE INTERPLAY OF NITRIC OXIDE-GENERATING AND -SCAVENGING SYSTEMS*S⃞

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