ady known from previous analysis/study. mi is regarded as the average measure of differential expression across all datasets/studies for this gene, which is the parameter of interest and may be estimated along with its a standard error as: J P wij yij, wij u~ i The claustrum is a subcortical nucleus present in all mammalian species examined so far. The human claustrum is a symmetrical, thin, and irregular sheet of grey matter. It lies between the inner surface of the insular cortex and the outer surface of the putamen, separated by them by the extreme and external capsule, respectively. Anatomically the claustrum may be subdivided into two parts: a) the dorsal part, or insular claustrum, located below the insular cortex; and b) the ventral part, or temporal claustrum, placed below the piriform cortex. In the mammalian brain, the claustrum is reciprocally and diffusely connected to the cerebral cortex. The presence of claustro-cortical connections has not been demonstrated in the human brain, but their presence is implicit. Although the functional significance of the human claustrum remains unknown, its position and neural connections suggest a possible role in the integration of the information that underlies conscious perception. The ontogenetic origin of this enigmatic structure has been a matter of debate. Some authors suggested that the claustrum shares a common origin with the putamen, others, in contrast, considered the claustrum analogous to the cortex, and possibly a part of it. A third faction speculate that it has both a pallial and subpallial origin. The search for a claustrum-specific protein has drawn considerable the attention and a few molecules were proposed as candidates. The G-protein gamma2 subunit belongs to the subfamily II of the c subunits. This protein plays a key role in signal transduction systems where receptors are coupled to heterotrimeric G proteins. In a recent study, Gng2 was identified as a specific rat claustrum marker, and thus used as a tool to better delineate its anatomical boundaries and connections. Netrin-G2 belongs to the UNC6/netrin family; the netrins are secreted molecules which regulate axon development. In a former study, by in situ hybridization, a strong expression of Netrin-G2 has been reported in the monkey claustrum. Furthermore, latexin, an endogenous inhibitor of the A/B subfamily of metallocarboxypeptidases has been RU 58841 site described as a specific marker of the claustrum and selected areas of the cortex in the cat. To the best of our knowledge, there are no reports on the Gng2, Netrin-G2 and latexin immunoreactivity distribution in the human claustrum. Therefore, the present study is aimed at evaluating the presence of these proteins in post-mortem samples of the human claustrum and adjacent structures, to assess whether they could be considered claustrum markers also in the human, and to evaluate the possible relationship with the putamen and/or the adjacent cortex. 1 Gng2 and NetrinG2 in the Human Claustrum Materials and Methods Tissue samples In this study we used archival samples obtained from seven patients of different sex and age, with no history of psychiatric or neurological disorder. The average age was 59.6 PubMed ID:http://www.ncbi.nlm.nih.gov/pubmed/22210737 years and the average post-mortem delay was 26 h. The samples consisted of blocks approx 5 cm thick, including both the insular and temporal subunits of the claustrum, surrounded by portions of the adjoining structures. The samples were carefully dissected during post-mortem p