Project description:To identify Nanos2-associated mRNAs, we performed microarray analysis of mRNAs coprecipitated with FLAG-tagged NANOS2 with male gonad from Tg-Nanos2 enhancer-3xFLAG-Nanos2-3'UTR at E14.5.
Project description:To identify Nanos2-associated mRNAs, we performed microarray analysis of mRNAs coprecipitated with FLAG-tagged NANOS2 with male gonad from Tg-Nanos2 enhancer-3xFLAG-Nanos2-3'UTR at E14.5. Biological duplicates were examined at each sample.
Project description:To investigate the biochemical function of NANOS2, we performed expression microarray analysis of the embyornic male gonad of Nanos2 hetero, Nanos2 KO, and Nanos2 KO_Tg 3×FLAG-tagged Nanos2-ΔN10, which is truncated form of Nanos2 in the N-terminal region, transgenic mice.
Project description:To investigate the biochemical function of NANOS2, we performed expression microarray analysis of the embyornic male gonad of Nanos2 hetero, Nanos2 KO, and Nanos2 KO_Tg 3M-CM-^WFLAG-tagged Nanos2-M-NM-^TN10, which is truncated form of Nanos2 in the N-terminal region, transgenic mice. 3M-CM-^WFLAG-tagged Nanos2-M-NM-^TN10 protein function was validated by rescue experiment in the Nanos2-null male gonad of mouse embryo at E14.5. Biological duplicates were examined at each genotype, Nanos2 hetero, Nanos2 KO, and Nanos2 KO_Tg 3M-CM-^WFLAG-tagged Nanos2-M-NM-^TN10 for each experiment.
Project description:To identify Nanos2-associated mRNAs, we performed microarray analysis of mRNAs coprecipitated with FLAG-tagged NANOS2 with postnatal testis from Tg-Nanos2 enhancer-3xFLAG-Nanos2-3'UTR at P7.
Project description:We collected whole genome testis expression data from hybrid zone mice. We integrated GWAS mapping of testis expression traits and low testis weight to gain insight into the genetic basis of hybrid male sterility.
Project description:To characterize the genetic basis of hybrid male sterility in detail, we used a systems genetics approach, integrating mapping of gene expression traits with sterility phenotypes and QTL. We measured genome-wide testis expression in 305 male F2s from a cross between wild-derived inbred strains of M. musculus musculus and M. m. domesticus. We identified several thousand cis- and trans-acting QTL contributing to expression variation (eQTL). Many trans eQTL cluster into eleven ‘hotspots,’ seven of which co-localize with QTL for sterility phenotypes identified in the cross. The number and clustering of trans eQTL - but not cis eQTL - were substantially lower when mapping was restricted to a ‘fertile’ subset of mice, providing evidence that trans eQTL hotspots are related to sterility. Functional annotation of transcripts with eQTL provides insights into the biological processes disrupted by sterility loci and guides prioritization of candidate genes. Using a conditional mapping approach, we identified eQTL dependent on interactions between loci, revealing a complex system of epistasis. Our results illuminate established patterns, including the role of the X chromosome in hybrid sterility.