https://www.selleckchem.com/products/bezafibrate.html Objective This study aimed to to perform genotyping of Toxoplasma gondii strain or variant causing atypical toxoplasmic uveitis in Indonesia patients. Methods Ocular fluid samples originated from 46 uveitis patients with non-specific ocular manifestation were analyzed forToxoplasma infection by PCR of the B1 locus. The clonal type was determined by amplification, sequencing and phylogenetic analysis of SAG2 and GRA6 loci in B1-positive samples. Clinical data was obtained from the medical records. Results Pan uveitis was the most frequent manifestation (65.2%) and mostly unilateral (76.1%). PCR of the B1 locus identified 8 positive subjects (12.5%), majorly with panuveitis (n = 6); two of these individuals had diabetes mellitus. Phylogenetic analysis with maximum likelihood, of the SAG2 locus in the B1-positive samples resulted T. gondii SAG2 type III allele. No positive result was obtained from PCR of GRA6 locus. Conclusion Toxoplasma gondii SAG2-type III allele was identified in atypical presentation of toxoplasmic uveitis in Indonesia.Mitotic progression is orchestrated by the microtubule-based motor dynein, which sustains all mitotic spindle functions. During cell division, cytoplasmic dynein acts with the high-molecular-weight complex dynactin and nuclear mitotic apparatus (NuMA) to organize and position the spindle. Here, we analyze the interaction interface between NuMA and the light intermediate chain (LIC) of eukaryotic dynein. Structural studies show that NuMA contains a hook domain contacting directly LIC1 and LIC2 chains through a conserved hydrophobic patch shared among other Hook adaptors. In addition, we identify a LIC-binding motif within the coiled-coil region of NuMA that is homologous to CC1-boxes. Analysis of mitotic cells revealed that both LIC-binding sites of NuMA are essential for correct spindle placement and cell division. Collectively, our evidence depicts NuMA as the dynein-activating a