Resonance Raman studies on the flavohemoglobin of the protist Giardia intestinalis: evidence of a type I/II-peroxidase-like heme environment and roles of the active …
B Lukaszewicz, E McColl, J Yee, S Rafferty… - JBIC Journal of …, 2017 - Springer
Flavohemoglobins are microbial enzymes that counter nitrosative stress, but the details of
their underlying enzymatic activities and structure–function relationships are not completely …
their underlying enzymatic activities and structure–function relationships are not completely …
Resonance Raman studies on the flavohemoglobin of the protist Giardia intestinalis: evidence of a type I/II-peroxidase-like heme environment and roles of the active …
B Lukaszewicz, E McColl, J Yee, S Rafferty… - Journal of Biological …, 2017 - europepmc.org
Flavohemoglobins are microbial enzymes that counter nitrosative stress, but the details of
their underlying enzymatic activities and structure-function relationships are not completely …
their underlying enzymatic activities and structure-function relationships are not completely …
Resonance Raman studies on the flavohemoglobin of the protist Giardia intestinalis: evidence of a type I/II-peroxidase-like heme environment and roles of the active …
B Lukaszewicz, E McColl, J Yee… - … chemistry: JBIC: a …, 2017 - pubmed.ncbi.nlm.nih.gov
Flavohemoglobins are microbial enzymes that counter nitrosative stress, but the details of
their underlying enzymatic activities and structure-function relationships are not completely …
their underlying enzymatic activities and structure-function relationships are not completely …
Resonance Raman studies on the flavohemoglobin of the protist Giardia intestinalis: evidence of a type I/II-peroxidase-like heme environment and roles of the active …
B Lukaszewicz, E McColl, J Yee… - Journal of …, 2017 - search.ebscohost.com
Flavohemoglobins are microbial enzymes that counter nitrosative stress, but the details of
their underlying enzymatic activities and structure-function relationships are not completely …
their underlying enzymatic activities and structure-function relationships are not completely …