Project description:In(1)BM2(reinverted) males: reared at room temperature vs. Cold shock treatment

Project description:In our study, differential male nucleus events and development behaviors were revealed from the fertilized eggs in response to the sperm from males of genotypic sex determination (GSD) and temperature-dependent sex determination (TSD) in gibel carp. When the eggs of maternal fish were fertilized by the sperm from males of GSD, the fertilized egg encountered similar sexual reproduction events and behaviors. However, when the eggs of maternal fish were fertilized by the sperm from males of TSD, a typical process of gynogenesis was observed. To reveal the underlying molecular mechanism of differential sperm nucleus development behaviors in the fertilized eggs, iTRAQ-based quantitative semen proteomics were performed on three semen samples from three males of GSD and three semen samples from three males of TSD respectively.

Project description:The life cycle of schistosomes is complex, being characterised by a series of distinct parasitic and free-living phases involving an invertebrate snail host, water and a mammalian host. A custom designed oligonucleotide microarray was utilized to profile developmental gene expression in the Asian blood fluke, Schistosoma japonicum during these parasitic and free-living transitions. Total RNAs were isolated from lung schistosomula, juvenile females and males (paired but little or no egg production), adult males and females (paired with full scale egg production), eggs, miracidia, sporocysts and cercariae. We focused on the three distinct environmental phases of the lifecycle - aquatic/snail (eggs, miracidia, sporocysts, cercariae), juvenile (lung schistosomula and paired pre-egg laying adults) and adult (paired males and females, both examined separately) stages.

Project description:Four separate biological collections of unfertilized eggs laid by wildtype females mated with sterile males, eggs dechorionated and snap-forzen in liquid nitrogen 0-1 hour after egg lay. Set of arrays organized by shared biological context, such as organism, tumors types, processes, etc. Keywords: Logical Set

Project description:We sequenced mRNA of adult males and females of Daphnia galeata from two clonal lineages (9 days old). Females had no eggs in their brood pouches to minimize expression from embryos and males were naturally produced without the addition of hormones or stressors.

Project description:2C embryos were generated from Kdm1a FL/Fl Zp3Cre females mated to wild type males for RNA-seq analysis using the Nugen Ovation RNA-seq system V2. Ovulated eggs from Kdm1a FL/Fl Zp3Cre females were isolated for RNA-seq analysis using the Nugen Ovation RNA-seq system V2.

Project description:The life cycle of schistosomes is complex, being characterised by a series of distinct parasitic and free-living phases involving an invertebrate snail host, water and a mammalian host. A custom designed oligonucleotide microarray was utilized to profile developmental gene expression in the Asian blood fluke, Schistosoma japonicum during these parasitic and free-living transitions. Total RNAs were isolated from lung schistosomula, juvenile females and males (paired but little or no egg production), adult males and females (paired with full scale egg production), eggs, miracidia, sporocysts and cercariae. We focused on the three distinct environmental phases of the lifecycle - aquatic/snail (eggs, miracidia, sporocysts, cercariae), juvenile (lung schistosomula and paired pre-egg laying adults) and adult (paired males and females, both examined separately) stages. Single colour schistosome life cycle with technical replicates in triplicate: Separate adult female and male worms at 4, 6, 6.5 and 7 weeks; cercariae; eggs; miracidia; schistosomula; and sporocysts. This study includes 6 adult male biological replicates.

Project description:Identifying sex differences in gene expression within the brain is critical for determining why multiple neurological and behavioural disorders differentially affect males and females. Several are more common or severe in males (e.g., autism and schizophrenia) or females (e.g., Alzheimer’s disease and depression). We analyzed transcriptomic data from the mouse hippocampus of six inbred strains (129S1/SvImJ, A/J, C57BL/6J, DBA/1J, DBA/2J and PWD/Ph), to provide a perspective on differences between male and female gene expression. Our data show that: 1) significant gene expression differences in males versus females varies substantially across the strains, 2) 12 genes exist that are differentially expressed across the inbred strains (termed core genes), and 3) there are >2,600 significantly differentially expressed genes (DEGs) among the strains (termed non-core genes). We found that DBA/2J uniquely has a substantial majority (89%) of DEGs that are more highly expressed in females than males; 129/SvImJ is the most strongly male-biased with a majority (69%) of DEGs that are more highly expressed in males. To gain insight into the sex-biased DEGs, we examined gene ontology, pathway and phenotype enrichment and found significant enrichment in phenotypes related to abnormal nervous system morphology and physiology, among others. In addition, several pathways are enriched significantly, including Alzheimer’s disease (AD), with 32 genes implicated in AD, 8 of which are male-biased. Three of the male-biased genes have been implicated in a neuroprotective role in AD. Our transcriptomic data provide new insight into understanding the possible genetic bases for sex-specific susceptibility and severity of brain disorders. Hippocampal mRNA from adult males and females of six inbred strains of mice were analyzed by RNA sequencing of 3 biological replicates using an Illumina HiSeq 2500

Project description:A key feature of Nasonia are their form of sex determination, called haplodiploidy. Females are diploid and develop from fertilized eggs, whereas males are haploid and develop parthenogenetically from unfertilized eggs. This form of sex determination is exploited by this experiment, by knowing the sex of the organisms from the earliest stages of development, so to trace the transcriptomes of sexual development of an insect. We conducted three replicates each using RNA from independent biological extractions of male and female early embryo (0-10 hrs), late embryo (18-30 hrs), 1st instar larvae, and pupae. Additional experiments were performed comparing transcription in adult males, adult females, testis and the female reproductive tract.

Project description:A key feature of Nasonia are their form of sex determination, called haplodiploidy. Females are diploid and develop from fertilized eggs, whereas males are haploid and develop parthenogenetically from unfertilized eggs. This form of sex determination is exploited by this experiment, by knowing the sex of the organisms from the earliest stages of development, so to trace the transcriptomes of sexual development of an insect. We conducted three replicates each using RNA from independent biological extractions of male and female early embryo (0-10 hrs), late embryo (18-30 hrs), 1st instar larvae, and pupae. Additional experiments were performed comparing transcription in adult males, adult females, testis and the female reproductive tract.