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 male gonad from Tg-Nanos2 enhancer-3xFLAG-Nanos2-3'UTR at E14.5.
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 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 elucidate the function of NANOS2 to regulate the transcriptome in embryonic male germ cells, we performed expression microarray analysis of the embyornic gonads of the Nanos2+/-, Nanos2-/- male and wild type female from E12.5 to E15.5. The Nanos2+/- and Nanos2-/- female gonads at E15.5 were analyzed as a negative control.
Project description:To elucidate the function of NANOS2 to regulate the transcriptome in embryonic male germ cells, we performed expression microarray analysis of the embyornic gonads of the Nanos2+/-, Nanos2-/- male and wild type female from E12.5 to E15.5. The Nanos2+/- and Nanos2-/- female gonads at E15.5 were analyzed as a negative control. Biological duplicates were examined at each stage, genotype, and sex for each experiment.
Project description:To examine whether the meiosis was solo factor responsible for the disruption of the male gonocyte differenitiation in the Nanos2-/- male germ cells, we deleted Stra8 function from Nanos2-null background and performed expression microarray analysis of the Nanos2+/-/Stra8+/- , Nanos2-/-/Stra8+/-, and Nanos2-/-/Stra8-/- male emnbryonic gonads at E14.5.
