Figure 5 from Dr. NO and Mr. Toxic – the versatile role of nitric oxide

Figure 5: Reactive nitrogen species (RNS) formation: interaction of NO, superoxide, peroxynitrite and nitrogen dioxide. When NO and superoxide are present, they can react to generate peroxynitrite that is highly reactive. On the other hand, NO, superoxide and nitrogen dioxide (NO2) form dinitrogen trioxide (N2O3) and peroxynitrate (NO4−). Peroxynitrate breaks down to give nitrite and oxygen. Altogether, they are powerful nitrative and oxidative agents that can act on proteins, lipids and nucleic acids. - "Dr. NO and Mr. Toxic – the versatile role of nitric oxide"

Nitric Oxide: Physiological Functions, Delivery, and Biomedical

Nitric Oxide: Physiological Functions, Delivery, and Biomedical

Sensing Nitric Oxide in Cells: Historical Technologies and Future

The oral microbiome and nitric oxide homoeostasis - Hezel - 2015

Figure 2 from Dr. NO and Mr. Toxic – the versatile role of nitric

Dr. NO and Mr. Toxic – the versatile role of nitric oxide

Cells, Free Full-Text

Physiological roles of hydrogen sulfide in mammalian cells

Nitric oxide and the immune response

PDF) Nitric Oxide Disrupts Zinc Homeostasis in Salmonella enterica

Strategies to increase nitric oxide signalling in cardiovascular

Nitric Oxide: Physiological Functions, Delivery, and Biomedical

Nitric Oxide: Physiological Functions, Delivery, and Biomedical

Dr. NO and Mr. Toxic – the versatile role of nitric oxide