Identifying and counting protein modifications triggered by nitrosative stress |
Prabodh K. Sehajpal, Harry M. Lander |
Determination of carbonyl groups in oxidized proteins |
Rodney L. Levine, Nancy Wehr, Joy A. Williams, Earl R. Stadtman, Emily Shacter |
Quantitation of 4-hydroxynonenal protein adducts |
Koji Uchida, Earl R. Stadtman |
Detection of oxidative stress in lymphocytes using dichlorodihydrofluorescein diacetate |
Cecile M. Krejsa, Gary L. Schieven |
The measurement of protein degradation in response to oxidative stress |
Thomas Reinheckel, Tilman Grune, Kelvin J. Davies |
Analysis of the role of the AMP-activated protein kinase in the response to cellular stress |
D. Grahame Hardie, Ian P. Salt, Stephen P. Davies |
Detection and activation of stress-responsive tyrosine kinases |
Gary L. Schieven |
Detection of DNA-dependent protein kinase in extracts from human and rodent cells |
Yamini Achari, Susan P. Lees-Miller |
Expression and assay of recombinant ATM |
Yael Ziv, Sharon Banin, Dae-Sik Lim, Christine E. Canman, Michael B. Kastan, Yosef Shiloh |
Detection and purification of a multiprotein kinase complex from mammalian cells : IKK Signalsome |
Frank Mercurio, David B. Young, Anthony M. Manning |
Methods to assay stress-activated protein kinases |
Ana Cuenda |
Monitoring the activation of stress-activated protein kinases using GAL4 fusion transactivators |
Chao-Feng Zheng, Li Xu |
Use of kinase inhibitors to dissect signaling pathways |
Ana Cuenda, Dario R. Alessi |
The development and use of phospho-specific antibodies to study protein phosphorylation |
Jeremy P. Blaydes, Borek Vojtesek, Graham B. Bloomberg, Ted R. Hupp |
Peptide assay of protein kinases and use of variant peptides to determine recognition motifs |
D. Grahame Hardie |
Assaying NF-KB and AP-1 DNA-binding and transcriptional activity |
Judith M. Mueller, Heike L. Pahl |
Analysis of the mammalian heat-shock response : inducible gene expression and heat-shock factor activity |
Anu Mathew, Yanhong Shi, Caroline Jolly, Richard I. Morimoto |
Approaches to define the involvement of reactive oxygen species and iron in ultraviolet-A inducible gene expression |
Charareh Pourzand, Olivier Reelfs, Rex M. Tyrrell |
The human immunodeficiency virus LTR-promoter region as a reporter of stress-induced gene expression |
Michael W. Bate, Sushma R. Jassal, David W. Brighty |
SAGE : the serial analysis of gene expression |
Jill Powell |
Analysis of differential gene expression using the SABRE enrichment protocol |
Daniel J. Lavery, Philippe Fonjallaz, Fabienne Fleury-Olela, Ueli Schibler |
UVB-regulated gene expression in human keratinocytes: analysis by differential display |
Harry Frank Abts, Thomas Welss, Kai Breuhahn, Thomas Ruzicka |
Heme oxygenase activity current methods and applications |
Stefan W. Ryter, Egil Kvam, Rex M. Tyrrell |
Analysis of molecular chaperone activities using in vitro and in vivo approaches |
Brian C. Freeman, Annamieke Michels, Jaewhan Song, Harm H. Kampinga, Richard I. Morimoto |
Analysis of chaperone properties of small Hsp's |
Monika Ehrnsperger, Matthias Gaestel, Johannes Buchner |
Analysis of small Hsp phosphorylation |
Rainer Benndorf, Katrin Engel, Matthias Gaestel |
Analysis of multisite phosphorylation of the p53 tumor-suppressor protein bytryptic phosphopeptide mappin |
David W. Meek, Diane M. Milne |
Development of physiological models to study stress protein responses |
Ted R. Hupp. |
Identifying and counting protein modifications triggered by nitrosative stress |
Prabodh K. Sehajpal, Harry M. Lander |
Determination of carbonyl groups in oxidized proteins |
Rodney L. Levine, Nancy Wehr, Joy A. Williams, Earl R. Stadtman, Emily Shacter |
Quantitation of 4-hydroxynonenal protein adducts |
Koji Uchida, Earl R. Stadtman |
Detection of oxidative stress in lymphocytes using dichlorodihydrofluorescein diacetate |
Cecile M. Krejsa, Gary L. Schieven |
The measurement of protein degradation in response to oxidative stress |
Thomas Reinheckel, Tilman Grune, Kelvin J. Davies |
Analysis of the role of the AMP-activated protein kinase in the response to cellular stress |
D. Grahame Hardie, Ian P. Salt, Stephen P. Davies |