Keyphrases
Neovascularization
100%
Soluble Fms-like Tyrosine kinase-1 (sFlt-1)
100%
Wnt5a
100%
S-glutathionylation
100%
Glutaredoxin
100%
Nuclear factor-B
42%
Blood Flow
14%
Reactive Oxygen Species
14%
Overexpression
14%
Endothelial Cells
14%
Pathological Conditions
14%
Thiols
14%
Diabetes
14%
Reactive Nitrogen Species
14%
Redox-sensitive
14%
Overexpressing
14%
Capillary Density
14%
Transgenic Mice
14%
Vascular Inflammation
14%
Actin Polymerization
14%
Endothelial Cell Migration
14%
Signal Functions
14%
Myeloid Cells
14%
Vascular Endothelial Growth Factor
14%
Network Formation
14%
Induced Endothelial Cells
14%
Blood Vessel Formation
14%
Flow Recovery
14%
Cytoplasmic Enzyme
14%
Hindlimb Ischemia
14%
Exercise Function
14%
Retinal Blood Vessels
14%
Limb muscles
14%
Vascular Hypertrophy
14%
Impaired Angiogenesis
14%
Cysteine Thiols
14%
Recovery Exercise
14%
Ischemic Limb
14%
Targets for Therapy
14%
Biochemistry, Genetics and Molecular Biology
Neovascularization (Pathology)
100%
Soluble Fms-Like Tyrosine Kinase-1
100%
Glutaredoxin
100%
S-Glutathionylation
100%
Complement Factor B
42%
Thiol
28%
Angiogenesis
28%
Enzyme
14%
Blood Plasma
14%
Cysteine
14%
Cell Migration
14%
Blood Flow
14%
Transgenic Mouse
14%
Actin Polymerization
14%
Vascular Endothelial Growth Factor
14%
Myeloid
14%
Exercise Recovery
14%
Medicine and Dentistry
Protein Tyrosine Kinase
100%
Glutaredoxin
100%
Nuclear Factor
42%
Alternative Complement Pathway C3 C5 Convertase
42%
Angiogenesis
28%
Endothelial Cell
28%
Thiol
28%
Capillary
14%
Reactive Oxygen Species
14%
Reactive Nitrogen Species
14%
Cysteine
14%
Diabetes
14%
Blood Flow
14%
Retinal Blood Vessel
14%
Transgenic Mouse
14%
Cell Migration
14%
Myeloid Cell
14%
Vasculotropin
14%
Hindlimb
14%
Limb
14%
Actin Polymerization
14%
Ischemia
14%
Exercise Recovery
14%