Gas sensor protein

A gas sensor protein is a type of protein that detects and responds to specific gaseous signaling molecules, playing a role in various biological processes and environmental sensing mechanisms.

Protein-based gasoreceptors are generally found in the cytoplasm of cells. They act in cell signaling by receiving (binding to) gaseous signaling molecules or gasotransmitters. They are specialized proteins that allow communication within and between cells. Gas-sensing gasoreceptors has been identified for ethylene in plants, nitric oxide in mammals, carbon monoxide, and oxygen in microorganisms. In the process of signal transduction, gaseous solute binding affects a cascading chemical change through the cell. Whether gasoreceptors exist for gases such as hydrogen sulfide and methane is still under investigation. All gasoreceptors seem to require either metal cofactor or ions to bind to gas. Example includes the requirement of copper ion in ethylene gasoreceptor and heme cofactor in NO gasoreceptor soluble guanylyl cyclase.[1][2]

  1. ^ Chang C (January 2016). "Q&A: How do plants respond to ethylene and what is its importance?". BMC Biology. 14: 7. doi:10.1186/s12915-016-0230-0. PMC 4730734. PMID 26819080.
  2. ^ Farhana A, Saini V, Kumar A, Lancaster JR, Steyn AJ (November 2012). "Environmental heme-based sensor proteins: implications for understanding bacterial pathogenesis". Antioxidants & Redox Signaling. 17 (9): 1232–1245. doi:10.1089/ars.2012.4613. PMC 3430476. PMID 22494151.