The emerging concept of the sugar code attributes functional significance to oligosaccharides of cellular glycoconjugates by protein (lectin)-carbohydrate interactions. Hence it follows that monitoring of glycan expression (glycomic profiling) is not only valuable to delineate characteristic (phenomenological) changes in the cell's glycosylation but will also come up with the localization of epitopes with potential in biorecognition. It is for this purpose that we have set up a panel of 16 markers (plant lectins and a carbohydrate-specific antibody). The selection met two criteria: a) to be able to detect the common constituents of natural glycans; and b) to place emphasis on detection of neutral carbohydrate units at the spatially accessible branch ends of glycan chains, which are known to be active as ligands for endogenous lectins in situ. Next, we incorporated recent insights into the importance of epitope clustering to turn less abundant oligosaccharides into potent ligands into our study design. To be able to focus on such high-affinity sites, we performed systematic titration studies aimed at defining the probe concentration at which carbohydrate-independent background staining is minimal while still yielding a clear signal. These requirements were met by marker concentrations of 1.25-2.5 microg/ml. Under these conditions, we defined cell-type- and differentiation-dependent changes in bovine testis. Sertoli cells lacked reactivity, whereas gonocytes were differentially reactive with the tested markers. The extent of staining intensity was subject to developmental changes, preferentially for Gal/GalNAc presentation and in this group most prominently with the galactoside-specific lectin from Viscum album L. (mistletoe). Of interest in this context, this lectin is known as a potent mitogen and signal inductor as well as haemagglutinin. The Gal/GalNAc-dependent signals decreased markedly in the course of development and staining was completely lost in the case of mistletoe lectin 12 weeks after gestation. Spermatids of adult testis presented respective glycan epitopes. In contrast to this developmental course of staining, endothelial cells either maintained a constant signal intensity or revealed a signal increase during development for Gal/GalNAc-specific lectins. Their binding of concanavalin A and the two phyto-haemagglutinins (PHA-E/L), which were not or only weakly reactive for gonocytes, served as inherent activity control. Based on lectin blot analysis with the mistletoe lectin as the marker which detected the most prominent change, the glycoprotein patterns from fetal and adult tissue specimens were qualitatively different, rendering changes in expression of the protein part of glycoproteins more likely than remodeling a glycoprotein's glycan chains. Methodologically, results of this procedure were compared to data obtained with lectin affinity chromatography and the combination of the two procedures. Differences in the profiles were discovered that can be assigned to the disparate ways to process the detergent extracts. When access to sample quantity is limited, as is possible in the case of fetal tissue, direct lectin blotting is recommended.