Influence of chirality on catalytic generation of nitric oxide and platelet behavior on selenocystine immobilized TiO2 films
Journal Article
Overview
publication date
- September 1, 2016
has subject area
- Acute-Phase Proteins - Fibrinogen
- Albumins - Serum Albumin, Bovine
- Amino Acids - Cystine
- Amino Acids, Diamino - Cystine
- Amino Acids, Dicarboxylic - Cystine
- Animals
- Anions - Cystine
- Biological Factors - Fibrinogen
- Blood Proteins - Fibrinogen
- Blood Proteins - Serum Albumin, Bovine
- Catalysis
- Cattle
- Cell Line - A549 Cells
- Cells - Blood Platelets
- Elements - Titanium
- Epithelial Cells - A549 Cells
- Hemic and Immune Systems - Blood Platelets
- Inorganic Chemicals - Cystine
- Inorganic Chemicals - Nitric Oxide
- Metals - Titanium
- Nitrogen Compounds - Nitric Oxide
- Nitrogen Compounds - Nitric Oxide
- Organic Chemicals - Cystine
- Organic Chemicals - Cystine
- Organoselenium Compounds
- Oxygen Compounds - Nitric Oxide
- Platelet Activation
- Protein Precursors - Fibrinogen
- Transition Elements - Titanium
- Tumor Cells, Cultured - A549 Cells
Full Author List
- Fan Y; Pan X; Wang K; Wu S; Han H; Yang P; Luo R; Wang H; Huang N; Tan W
published in
Other Profiles
Digital Object Identifier (DOI)
Additional Document Info
start page
- 122
end page
- 129
volume
- 145