Sections were then incubated in the dark for 3–36 h at RT in buff

Sections were then incubated in the dark for 3–36 h at RT in buffer 3 (buffer 2 containing 3.4 μL/mL nitroblue tetrazolium and 3.5 μL/mL 5-bromo-4-chloro-3-indolyl phosphate, and filtered sterilized through a 0.45 μm filter). Sections were then washed three times with PBS containing 0.1% Tween 20 to stop the reaction, and coverslips mounted onto slides

with a gelatin–glycerol solution. Images of sections were captured using a Leica SCN400 microscope with a 10× objective lens. Brightness levels of entire images were adjusted using Adobe Photoshop CS5 software to enhance the contrast. click here “The Marmoset Brain in Stereotaxic Coordinates” (Paxinos, Watson, Petrides, Rosa, & Tokuno, 2012) was used for accurate anatomical terminology. In situ hybridization was performed to investigate expression patterns of human speech- and reading-related genes in the common marmoset brain. Expression patterns of speech disorder- (FoxP1, FoxP2, CNTNAP2, and CMIP) and dyslexia- (ROBO1, KIAA0319, and DCDC2) related genes were analyzed. To compare expression patterns between these genes, we focused on the visual, auditory, Akt targets and motor pathways. The results are summarized in Table 2. We used ClustalW to compare the probe sequences of marmoset FoxP1

and FoxP2. Aligned scores between the FoxP1 probe vs FoxP2 mRNA, and FoxP2 probe vs FoxP1 mRNA, were 63% and 64%, respectively. In addition, aligned scores of the FoxP1 probe vs FoxP3 and FoxP4 mRNAs were 38% and 51%, respectively, and those for the FoxP2 probe vs FoxP3 and FoxP4 mRNAs were 34% and 64%, respectively. Both probes included the leucine zipper and forkhead box regions, but our in situ hybridization

conditions were of high stringency, e.g. used long probes and high temperatures for hybridization and wash steps. Moreover, there were brain regions that only showed hybridization signals for either FoxP2 or FoxP1, suggesting the probes were not cross hybridizing against the opposite endogenous mRNA. Furthermore, the FoxP2 expression pattern in our study was very similar to ADP ribosylation factor the results of Mashiko et al. (2012). Specificity of the hybridization signals was confirmed through specific signal localization in the brain using anti-sense probes, and no signal using sense probes ( Supplementary Fig. S6). We used the male and female marmoset brain, and allowed the marmoset to freely express calls before anesthesia. We compared gene expression patterns between male and female, although our data did not show sex differences. We did not find individual differences in expression patterns. The superior colliculus (SC) is important for generation of saccadic eye movements and eye-head coordination (Sparks, 1986 and Wickelgren, 1971). Superficial layers of the SC receive visual information, while deep layers receive multisensory inputs that include auditory information (Sparks, 1986 and Wickelgren, 1971).

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