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Nucleic Acids Research
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June 30, 2011
Recycling of protein subunits during DNA translocation and cleavage by Type I restriction-modification enzymes
Michelle Simons, Mark D Szczelkun
Nucleic Acids Research
|
September 28, 2014
ClpXP protease targets long-lived DNA translocation states of a helicase-like motor to cause restriction alleviation
Michelle Simons, Fiona M Diffin, Mark D Szczelkun
DNA Repair
|
May 14, 2014
Single molecule techniques in DNA repair: a primer
Craig D Hughes, Michelle Simons, Cassidy E Mackenzie, et al.
Nucleic Acids Research
|
December 15, 2017
Recruitment of UvrBC complexes to UV-induced damage in the absence of UvrA increases cell survival
Luke Springall, Craig D Hughes, Michelle Simons, et al.
Nucleic Acids Research
|
March 21, 2013
Real-time single-molecule imaging reveals a direct interaction between UvrC and UvrB on DNA tightropes
Craig D Hughes, Hong Wang, Harshad Ghodke, et al.
Scientific Reports
|
December 23, 2015
Directly interrogating single quantum dot labelled UvrA2 molecules on DNA tightropes using an optically trapped nanoprobe
Michelle Simons, Mark R Pollard, Craig D Hughes, et al.
The Biochemical Journal
|
July 30, 2016
Engineering tyrosine electron transfer pathways decreases oxidative toxicity in hemoglobin: implications for blood substitute design
Gary G A Silkstone, Rebecca S Silkstone, Michael T Wilson, et al.
Experimental & Molecular Medicine
|
September 30, 2024
Taming hemoglobin chemistry-a new hemoglobin-based oxygen carrier engineered with both decreased rates of nitric oxide scavenging and lipid oxidation
Chris E Cooper, Michelle Simons, Alex Dyson, et al.
Frontiers in Chemistry
|
August 12, 2021
Stability of Maleimide-PEG and Mono-Sulfone-PEG Conjugation to a Novel Engineered Cysteine in the Human Hemoglobin Alpha Subunit
Chris E Cooper, Matthew Bird, XiaoBo Sheng, et al.
Free Radical Biology & Medicine
|
December 31, 2018
Engineering tyrosine residues into hemoglobin enhances heme reduction, decreases oxidative stress and increases vascular retention of a hemoglobin based blood substitute
Chris E Cooper, Gary G A Silkstone, Michelle Simons, et al.
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of 2
Search research articles
Search
Showing results (1-10 of 12) with videos related to
Sort By:
Page
of 2
Nucleic Acids Research
|
June 30, 2011
Recycling of protein subunits during DNA translocation and cleavage by Type I restriction-modification enzymes
Michelle Simons, Mark D Szczelkun
Nucleic Acids Research
|
September 28, 2014
ClpXP protease targets long-lived DNA translocation states of a helicase-like motor to cause restriction alleviation
Michelle Simons, Fiona M Diffin, Mark D Szczelkun
DNA Repair
|
May 14, 2014
Single molecule techniques in DNA repair: a primer
Craig D Hughes, Michelle Simons, Cassidy E Mackenzie, et al.
Nucleic Acids Research
|
December 15, 2017
Recruitment of UvrBC complexes to UV-induced damage in the absence of UvrA increases cell survival
Luke Springall, Craig D Hughes, Michelle Simons, et al.
Nucleic Acids Research
|
March 21, 2013
Real-time single-molecule imaging reveals a direct interaction between UvrC and UvrB on DNA tightropes
Craig D Hughes, Hong Wang, Harshad Ghodke, et al.
Scientific Reports
|
December 23, 2015
Directly interrogating single quantum dot labelled UvrA2 molecules on DNA tightropes using an optically trapped nanoprobe
Michelle Simons, Mark R Pollard, Craig D Hughes, et al.
The Biochemical Journal
|
July 30, 2016
Engineering tyrosine electron transfer pathways decreases oxidative toxicity in hemoglobin: implications for blood substitute design
Gary G A Silkstone, Rebecca S Silkstone, Michael T Wilson, et al.
Experimental & Molecular Medicine
|
September 30, 2024
Taming hemoglobin chemistry-a new hemoglobin-based oxygen carrier engineered with both decreased rates of nitric oxide scavenging and lipid oxidation
Chris E Cooper, Michelle Simons, Alex Dyson, et al.
Frontiers in Chemistry
|
August 12, 2021
Stability of Maleimide-PEG and Mono-Sulfone-PEG Conjugation to a Novel Engineered Cysteine in the Human Hemoglobin Alpha Subunit
Chris E Cooper, Matthew Bird, XiaoBo Sheng, et al.
Free Radical Biology & Medicine
|
December 31, 2018
Engineering tyrosine residues into hemoglobin enhances heme reduction, decreases oxidative stress and increases vascular retention of a hemoglobin based blood substitute
Chris E Cooper, Gary G A Silkstone, Michelle Simons, et al.
Page
of 2