Comparative analysis of prototype two‐component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular microbiology, 2003 - Wiley Online Library
Signal transduction by a traditional two‐component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular microbiology, 2003 - pubmed.ncbi.nlm.nih.gov
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
[PDF][PDF] Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and …
R Alves, MA Savageau - Molecular Microbiology, 2003 - intranet.lcg.unam.mx
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
[PDF][PDF] Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and …
R Alves, MA Savageau - Molecular Microbiology, 2003 - academia.edu
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular Microbiology, 2003 - elibrary.ru
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - 2003 - deepblue.lib.umich.edu
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
Comparative analysis of prototype two‐component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular Microbiology, 2003 - cir.nii.ac.jp
抄録< jats: title> Summary</jats: title>< jats: p> Signal transduction by a traditional two‐
component system involves a sensor protein that recognizes a physiological signal …
component system involves a sensor protein that recognizes a physiological signal …
Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular Microbiology, 2003 - search.ebscohost.com
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
Comparative analysis of prototype two-component systems with either bifunctional or monofunctional sensors: differences in molecular structure and physiological …
R Alves, MA Savageau - Molecular Microbiology, 2003 - europepmc.org
Signal transduction by a traditional two-component system involves a sensor protein that
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …
recognizes a physiological signal, autophosphorylates and transfers its phosphate, and a …