0000000000077374
AUTHOR
Nora B. Terwilliger
The integrative and evolutionary biology of gas-binding copper proteins: an introduction.
This article summarizes the contributions given at the symposium "The Benefits of Gas-binding Proteins. Integrative and Evolutionary Physiology of Copper Proteins: Molecules to Organisms and their Environment," presented at the First International Congress of Respiratory Biology, August 14-16, at Bad Honnef/Bonn, Germany.
From critters to cancers: bridging comparative and clinical research on oxygen sensing, HIF signaling, and adaptations towards hypoxia
The objective of this symposium at the First International Congress of Respiratory Biology (ICRB) was to enhance communication between comparative biologists and cancer researchers working on O(2) sensing via the HIF pathway. Representatives from both camps came together on August 13-16, 2006, in Bonn, Germany, to discuss molecular adaptations that occur after cells have been challenged by a reduced (hypoxia) or completely absent (anoxia) supply of oxygen. This brief "critters-to-cancer" survey discusses current projects and new directions aimed at improving understanding of hypoxic signaling and developing therapeutic interventions.
Cops and robbers: putative evolution of copper oxygen-binding proteins.
Two closely related copper proteins, phenoloxidase and haemocyanin, are known to be involved in different physiological functions such as the primary immune response and oxygen transport. Although the proteins differ structurally, they have the same active site by which dioxygen is bound. Recent results reveal that haemocyanin also exhibits phenoloxidase activity. A scenario is proposed for the evolutionary relationships among copper oxygen-binding proteins (COPs).