Stromal membrane associated protein (smap-1) is a new murine cell surface molecule on the stromal cells. The murine smap-1 protein is induced in stromal cells by the contact with erythroid cells, which suggests that this protein may be involved in the haematopoietic progenitor cells to stromal cells interactions. Here we report the structure, map location and expression analysis of the human SMAP1 gene, which cover approximately 100 kb on chromosome 6 between D6S455 and D6S1673 markers. This gene is composed of 11 exons and encodes a 468-amino-acid protein, which shows an 86% of homology with the murine smap-1 protein. The expression of smap-1 in erythropoietic organs as well as the correlation with the erythropoietic activity of the haematopoietic organs suggest that smap-1 is induced in stromal cells by the contact with erythroid cells, defining smap-1 as a key molecule that induced an erythropoietic microenvironment in haematopoietic organs. The high sequence conservation between murine and human SMAP1, as well as its expression in bone marrow, strongly suggest conserved functions of this protein in both organisms. Recently, a constitutional translocation t(6;10)(q13;q22) has been described in a patient with severe aplastic anaemia. SMAP1 gene localizes to 6q13 and is probably implicated in erythropoiesis, therefore it remains as an interesting candidate gene.