Project description:In cucurbits, CmWIP1 is a master gene controlling sex determination. To bring new insight in the function of CmWIP1, we investigated two Arabidopsis WIP proteins, AtWIP1 and AtWIP2. Using an inducible system we showed that WIPs. are powerful inhibitor of growth and inducer of cell death. Bioproject :

Project description:For identifying genes for sex determination in papaya, digital gene expression analysis by Ht-SuperSAGE (Matsumura et al., 2010) was carried out in flowers from male, female and hermaphrodite plants of papaya. Total more than 9,273,744 26bp-tags were obtained by sequence analysis using SOLiD3 and mapped on papaya primitive sex chromosome sequences. 6 samples examined: male young flowerbud, male mature flower bud, female young flower bud, female mature flower bud, hermaphrodite young flower bud, hermaphrodite mature flower bud

Project description:Flower development and sex determination in Vernicia fordii

Project description:The control of carpel determinacy pathway leads to sex determination in cucurbits

Project description:To further elucidate the molecular mechanism underling sex determination at the divergence stage of male and female flowers, the comparative transcriptome analysis was performed. In total, 56,065 unigenes were generated 24,567 transcripts were identified. Among 608 differential expression genes (DEGs), 310 DEGs showed significant expression in males and 298 DEGs in females. The data showed that the sexual dimorphism of female flowers was affected by jasmonic acid, transcription factors and some genes related with activity of floral meristem, which were considered as the candidate sex determination genes. In this study, interesting information will be provided in understanding the development of unisexual flower and the regulatory networks hidden the sex determination in V. fordii, which is useful for the practice of improving its yield.

Project description:Transcriptome data for gene networking in flower sex determination in persimmon

Project description:Purpose: Determine whether sex-determining genes are bivalent at the bipotential stage, poised between the testis and ovary fate, and whether H3K4me3 and H3K27me3 resolve into sex-specific patterns after sex determination, contributing to the canalization and stabilization of either the testis or ovary fate. Methods: XX and XY supporting cells of the gonad were FACS-purified before sex determination (at E10.5) and after sex determination (at E13.5), and submitted to ChIP-seq for H3K4me3, H3K27me3 and H3 as a means to normalize across cell populations. Results: We found that key sex-determining genes are bivalent at the bipotential stage. Genes that are upregulated affter sex determination are stripped of their repressive H3K27me3 mark, whereas repressed genes that promote the alternate pathway remain bivalent even after sex determination.

Project description:Cryptobranchid sex determination

Project description:Purpose: In this study we employed unbiased, genome-wide techniques to identify regulatory elements during murine sex determination. Methods: We performed ATAC-seq on 60K FACS-purified XX and XY gonadal cells before and after sex determination to map nucleosome depleted regions (NDRs) indicative of regulatory elements. To determine whether these are active enhancers, we performed ChIP-seq for H3K27ac, a histone modification that marks active enhancers in both sexes and time points. Transient transgenics was performed on select enhancers to determine whether they are functional in gonads during the sex determination stage. Results: We have produced a genome wide map of potential regulatory elements and active enhancers during the process of murine sex determination. Furthermore, we validated the power of our dataset by identifying a novel enhancer downstream of Bmp2, a female-specific gene. Conclusions: This work supplies a powerful resource for identifying chromatin regulatory elements active during mammalian sex determination.

Project description:Sex determination is the process by which and original bipotential gonad differentiate into either a testis or ovaries. While mammals and birds determine their sex solely by genetic clues (genetic sex determination, GSD), other vertebrates like the turtle Trachemys scripta are influenced by environmental factors, like temperature (environmental sex determination, ESD). In both cases an initially bipotential gonad develops into either testes or ovaries in response to GSD or ESD cues. In order to shed light into the differences and similarities between sex determination systems we performed single-cell RNA-seq on Trachemys scripta developing gonads during the sex determination window.