AbstractThe helical hydrophobic moment is a measure of the amphiphilicity of a segment of protein secondary structure. Such measure yields information of potential relevance for issues relating to cell surface binding and secondary structure function. The present article describes a global analog of the helical hydrophobic moment. The global moment provides a concise measure of the degree and direction of the amphiphilicity or hydrophobic imbalance across the entire protein tertiary structure. Therefore, this measure is a succinct representation of the spatial organization of residue hydrophobicity for each protein. With this measure, a simple comparison of the hydrophobic imbalance or segregation of different protein structures can be made. For example, two structures having the same fold and close in root‐mean‐square deviation may exhibit very different overall hydrophobic organization. Such difference is classified simply by the global moment. Furthermore, the direction of the global moment may point to regions of functional interest. Certain formal issues in the development of such moment are described, and a number of applications to particular protein structures are discussed. Proteins 2003. © 2003 Wiley‐Liss, Inc.