Although the sex-determining gene Sry has been identified in mammals, no comparable genes have been found in non-mammalian vertebrates. Here, we used recombinant breakpoint analysis to restrict the sex-determining region in medaka fish (Oryzias latipes) to a 530-kilobase (kb) stretch of the Y chromosome. Deletion analysis of the Y chromosome of a congenic XY female further shortened the region to 250 kb. Shotgun sequencing of this region predicted 27 genes. Three of these genes were expressed during sexual differentiation. However, only the DM-related PG17 was Y specific; we thus named it DMY. Two naturally occurring mutations establish DMY's critical role in male development. The first heritable mutant--a single insertion in exon 3 and the subsequent truncation of DMY--resulted in all XY female offspring. Similarly, the second XY mutant female showed reduced DMY expression with a high proportion of XY female offspring. During normal development, DMY is expressed only in somatic cells of XY gonads. These findings strongly suggest that the sex-specific DMY is required for testicular development and is a prime candidate for the medaka sex-determining gene.
Plasma-liquid interactions represent a growing interdisciplinary area of research involving plasma science, fluid dynamics, heat and mass transfer, photolysis, multiphase chemistry and aerosol science. This review provides an assessment of the state-of-the-art of this multidisciplinary area and identifies the key research challenges. The developments in diagnostics, modeling and further extensions of cross section and reaction rate databases that are necessary to address these challenges are discussed. The review focusses on nonequilibrium plasmas.
The molecular dynamics simulations of Yukawa~i.e., screened-Coulomb! systems that were applied to the regime of weak screening in an earlier study @S. Hamaguchi, R. T. Farouki, and D. H. E. Dubin, J. Chem. Phys. 105, 7641~1996!# are extended to the strong screening regime. Transition temperatures at the fluid-solid phase boundary and the solid-solid phase boundary are obtained as functions of the screening parameter k5a/l D i.e., the ratio of the Wigner-Seitz radius a to the Debye length l D !. The resulting phase diagram also covers the triple point-the intersection of the fluid-solid and solid-solid phase boundaries-at k54.28 and G55.6 310 3 , where G is the ratio of the Coulomb potential energy to the kinetic energy per particle~i.e., G 5Q 2 /4pe 0 akT, where Q is the charge of each Yukawa particle and T is the system temperature!. Yukawa systems serve as models for plasmas and colloidal suspensions of charged particulates.
Low‐temperature atmospheric pressure plasmas applied to the surface of an aqueous solution have been shown to be efficient bactericides for bacteria suspended in the solution, if the solution is sufficiently acidic. Especially of interest is the finding that there is a critical pH value of about 4.7 for the bactericidal effects, below which the bacteria are efficiently inactivated and above which the bacteria are hardly affected by the plasma application. It has been also found that the presence of superoxide anion radicals O 2−• in the solution is essential for bacterial inactivation by the plasma application. Therefore, the critical pH value may arise from the pKa of the equilibrium reaction between O 2−• and hydroperoxy radicals HOO•, which is known to be approximately 4.8. The present experiments, where plasmas are not directly applied to bacterium surfaces and it has been confirmed that neither UV light nor heat from the plasma is the cause of bacterial inactivation, suggest the importance of highly reactive species generated in the solution via plasma–liquid interaction for the bactericidal effects.
Three sex-determining (SD) genes, SRY (mammals), Dmy (medaka), and DM-W (Xenopus laevis), have been identified to date in vertebrates. However, how and why a new sex-determining gene appears remains unknown, as do the switching mechanisms of the master sex-determining gene. Here, we used positional cloning to search for the sex-determining gene in Oryzias luzonensis and found that Gsdf Y (gonadal soma derived growth factor on the Y chromosome) has replaced Dmy as the master sex-determining gene in this species. We found that Gsdf Y showed high expression specifically in males during sex differentiation. Furthermore, the presence of a genomic fragment that included Gsdf Y converts XX individuals into fertile XX males. Luciferase assays demonstrated that the upstream sequence of Gsdf Y contributes to the male-specific high expression. Gsdf is downstream of Dmy in the sex-determining cascade of O. latipes, suggesting that emergence of the Dmy-independent Gsdf allele led to the appearance of this novel sexdetermining gene in O. luzonensis. IN most vertebrates, sex is determined genetically. Mammals and birds with cytogenetically well-differentiated sex chromosomes have sex determination systems that differ between the taxonomic classes but not within them (Solari 1994). In mammals, for example, the sex-determining (SD) gene SRY/Sry on the Y chromosome has a universal role in sex determination (Gubbay et al. 1990;Sinclair et al. 1990;Koopman et al. 1991;Foster et al. 1992). By contrast, some fish groups, such as salmonids, sticklebacks, and Oryzias fishes, have sex chromosomes that differ among closely related species (Devlin and Nagahama 2002;Woram et al. 2003;Takehana et al. 2007a;Ross et al. 2009).A DM-domain gene, Dmy, was the first SD gene identified in a nonmammalian vertebrate, the fish medaka Oryzias latipes (Matsuda et al. 2002(Matsuda et al. , 2007. In this species, the term Y chromosome is employed to refer to a recombining chromosome that carries the male-determining gene Dmy, and X is used for the homologous chromosome; these are not a heteromorphic pair. This gene is conserved among all wild populations of O. latipes examined to date . The closely related species O. curvinotus also has Dmy on its Y chromosome, which is orthologous to the O. latipes Y chromosome (Matsuda et al. 2003). However, Dmy has not been detected in any other type of fish, including other Oryzias fishes (Kondo et al. 2003). Analysis of the Y-specific region of the O. latipes sex chromosome has demonstrated that Dmy arose from duplication of the autosomal Dmrt1 gene (Nanda et al. 2002;Kondo et al. 2006). This Dmrt1 duplication is estimated to have occurred within the last 10 million years in a common ancestor of O. latipes, O. curvinotus, and O. luzonensis. In O. luzonensis, however, no functional duplicated copy of Dmrt1 has been detected (Kondo et al. 2003) (Figure 5A).O. luzonensis possesses an XX-XY system, which is homologous to an autosomal linkage group (LG 12) and Uwa 1985). In the d-rR strain, the wild-type alle...
Although the molecular mechanisms underlying many developmental events are conserved across vertebrate taxa, the lability at the top of the sex-determining (SD) cascade has been evident from the fact that four master SD genes have been identified: mammalian Sry; chicken DMRT1; medaka Dmy; and Xenopus laevis DM-W. This diversity is thought to be associated with the turnover of sex chromosomes, which is likely to be more frequent in fishes and other poikilotherms than in therian mammals and birds. Recently, four novel candidates for vertebrate SD genes were reported, all of them in fishes. These include amhy in the Patagonian pejerrey, Gsdf in Oryzias luzonensis, Amhr2 in fugu and sdY in rainbow trout. These studies provide a good opportunity to infer patterns from the seemingly chaotic picture of sex determination systems. Here, we review recent advances in our understanding of the master SD genes in fishes.
Sex chromosomes harbour a primary sex-determining signal that triggers sexual development of the organism. However, diverse sex chromosome systems have been evolved in vertebrates. Here we use positional cloning to identify the sex-determining locus of a medaka-related fish, Oryzias dancena, and find that the locus on the Y chromosome contains a cis-regulatory element that upregulates neighbouring Sox3 expression in developing gonad. Sex-reversed phenotypes in Sox3 Y transgenic fish, and Sox3 Y loss-of-function mutants all point to its critical role in sex determination. Furthermore, we demonstrate that Sox3 initiates testicular differentiation by upregulating expression of downstream Gsdf, which is highly conserved in fish sex differentiation pathways. Our results not only provide strong evidence for the independent recruitment of Sox3 to male determination in distantly related vertebrates, but also provide direct evidence that a novel sex determination pathway has evolved through co-option of a transcriptional regulator potentially interacted with a conserved downstream component.
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