Application of methionine as a detector molecule for the assessment of oxygen radical generation by human neutrophils and endothelial cells

C Stevens; N Bucurenci; S Abbot; T Sahinoglu; D Blake; D Naughton; M Grootveld

doi:10.3109/10715769209082271

Application of methionine as a detector molecule for the assessment of oxygen radical generation by human neutrophils and endothelial cells

C Stevens
, N Bucurenci
, S Abbot
, T Sahinoglu
, D Blake
, D Naughton
, M Grootveld

Research output: Contribution to journal › Article › peer-review

Abstract

Diverse cell types can generate reactive oxygen species (ROS) which are implicated in many disease processes and are ascribed both beneficial and deleterious roles. In vitro studies of this phenomenon indicate that properties of the microenvironment in culture influence the cells' behaviour with regard to ROS generation in vivo. To date, however, the assessment of cellular ROS generation has been limited to techniques which are invasive of the culture environment, or require cells to be in suspension. This study describes the application of NMR spectroscopy to the detection of ROS generation, a technique which is non-invasive of the cell culturing environment.

Original language	English
Pages (from-to)	143-154
Journal	Free Radical Research Communications
Volume	17
Issue number	2
DOIs	https://doi.org/10.3109/10715769209082271
Publication status	Published - 1992

Keywords

Allied health professions and studies

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10.3109/10715769209082271

http://dx.doi.org/10.3109/10715769209082271

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title = "Application of methionine as a detector molecule for the assessment of oxygen radical generation by human neutrophils and endothelial cells",

abstract = "Diverse cell types can generate reactive oxygen species (ROS) which are implicated in many disease processes and are ascribed both beneficial and deleterious roles. In vitro studies of this phenomenon indicate that properties of the microenvironment in culture influence the cells' behaviour with regard to ROS generation in vivo. To date, however, the assessment of cellular ROS generation has been limited to techniques which are invasive of the culture environment, or require cells to be in suspension. This study describes the application of NMR spectroscopy to the detection of ROS generation, a technique which is non-invasive of the cell culturing environment.",

keywords = "Allied health professions and studies",

author = "C Stevens and N Bucurenci and S Abbot and T Sahinoglu and D Blake and D Naughton and M Grootveld",

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language = "English",

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T1 - Application of methionine as a detector molecule for the assessment of oxygen radical generation by human neutrophils and endothelial cells

AU - Stevens, C

AU - Bucurenci, N

AU - Abbot, S

AU - Sahinoglu, T

AU - Blake, D

AU - Naughton, D

AU - Grootveld, M

PY - 1992

Y1 - 1992

N2 - Diverse cell types can generate reactive oxygen species (ROS) which are implicated in many disease processes and are ascribed both beneficial and deleterious roles. In vitro studies of this phenomenon indicate that properties of the microenvironment in culture influence the cells' behaviour with regard to ROS generation in vivo. To date, however, the assessment of cellular ROS generation has been limited to techniques which are invasive of the culture environment, or require cells to be in suspension. This study describes the application of NMR spectroscopy to the detection of ROS generation, a technique which is non-invasive of the cell culturing environment.

AB - Diverse cell types can generate reactive oxygen species (ROS) which are implicated in many disease processes and are ascribed both beneficial and deleterious roles. In vitro studies of this phenomenon indicate that properties of the microenvironment in culture influence the cells' behaviour with regard to ROS generation in vivo. To date, however, the assessment of cellular ROS generation has been limited to techniques which are invasive of the culture environment, or require cells to be in suspension. This study describes the application of NMR spectroscopy to the detection of ROS generation, a technique which is non-invasive of the cell culturing environment.

KW - Allied health professions and studies

UR - http://www.ncbi.nlm.nih.gov/pubmed/1468686

U2 - 10.3109/10715769209082271

DO - 10.3109/10715769209082271

M3 - Article

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SN - 8755-0199

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SP - 143

EP - 154

JO - Free Radical Research Communications

JF - Free Radical Research Communications

IS - 2

ER -

Application of methionine as a detector molecule for the assessment of oxygen radical generation by human neutrophils and endothelial cells

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