The technique of two-dimensional (2-D) gel electrophoresis was sued to identify five human X-linked gene products in crude cell extracts of mouse-human and Chinese hamster-human somatic cell hybrids. The human origin of these five polypeptides was demonstrated by their comigration with human fibroblast proteins and their failure to comigrate with polypeptides in extracts from the mouse or hamster parental cells. All five polypeptides were present in extracts of rodent-human hybrids that contained a human X chromosome, but were not found in extracts of cells that lacked a human X chromosome. Chromosome analysis of the hybrid clones revealed that the human X chromosome is both necessary and sufficient for the expression of the five polypeptides, designated pX-24, pX-27, pX-37, pX-40, and pX-56. pX-56 can be identified as the human X-linked enzyme glucose-6-phosphate dehydrogenase (G6PD) (E.C.1.1.1.49), while polypeptides pX-24, pX-27, pX-37 and pX-40 have molecular properties unlike those of known human X-linked gene products. pX-24 appears to be a membrane-bound protein that maps to the distal portion of the long arm of the human X chromosome, while pX-27, pX-37, and pX-40 are soluble proteins that map to the proximal long arm or to the short arm of the human X chromosome. 2-D gel electrophoretic analysis of extracts from somatic cell hybrids provides a general method for identifying polypeptides in crude cell extracts coded for by any specific chromosome and can be used to study primary gene products not previously amenable to genetic analysis.