Your search keyword '"DROSOPHILA simulans"' showing total 7 results

1. Neighboring genes for DNA-binding proteins rescue male sterility in Drosophila hybrids.

Author

Liénard, Marjorie A., Araripe, Luciana O., and Hartl, Daniel L.

Subjects

*DROSOPHILA genetics, *DNA-binding proteins, *INSECT fertility, *TRANSCRIPTION factors, *DROSOPHILA simulans, *TRANSGENES

Abstract

Crosses between closely related animal species often result in male hybrids that are sterile, and the molecular and functional basis of genetic factors for hybrid male sterility is of great interest. Here, we report a molecular and functional analysis of HMS1, a region of 9.2 kb in chromosome 3 of Drosophila mauritiana, which results in virtually complete hybrid male sterility when homozygous in the genetic background of sibling species Drosophila simulans. The HMS1 region contains two strong candidate genes for the genetic incompatibility, agt and Taf1. Both encode unrelated DNA-binding proteins, agt for an alkyl-cysteine-S-alkyltransferase and Taf1 for a subunit of transcription factor TFIID that serves as a multifunctional transcriptional regulator. The contribution of each gene to hybrid male sterility was assessed by means of germ-line transformation, with constructs containing complete agt and Taf1 genomic sequences as well as various chimeric constructs. Both agt and Taf1 contribute about equally to HMS1 hybrid male sterility. Transgenes containing either locus rescue sterility in about one-half of the males, and among fertile males the number of offspring is in the normal range. This finding suggests compensatory proliferation of the rescued, nondysfunctional germ cells. Results with chimeric transgenes imply that the hybrid incompatibilities result from interactions among nucleotide differences residing along both agt and Taf1. Our results challenge a number of preliminary generalizations about the molecular and functional basis of hybrid male sterility, and strongly reinforce the role of DNA-binding proteins as a class of genes contributing to the maintenance of postzygotic reproductive isolation. [ABSTRACT FROM AUTHOR]

Published

2016

2. Rapid evolution of a Y-chromosome heterochromatin protein underlies sex chromosome meiotic drive.

Author

Helleu, Quentin, Gérard, Pierre R., Dubruille, Raphaëlle, Ogereau, David, Prud'homme, Benjamin, Loppin, Benjamin, and Montchamp-Moreau, Catherine

Subjects

*HETEROCHROMATIC genes, *Y chromosome, *DROSOPHILA simulans, *MEIOSIS, *EVOLUTION research

Abstract

Sex chromosome meiotic drive, the non-Mendelian transmission of sex chromosomes, is the expression of an intragenomic conflict that can have extreme evolutionary consequences. However, the molecular bases of such conflicts remain poorly understood. Here, we show that a young and rapidly evolving X-linked heterochromatin protein 1 (HP1) gene, HP1D2, plays a key role in the classical Paris sex-ratio (SR) meiotic drive occurring in Drosophila simulans. Driver HP1D2 alleles prevent the segregation of the Y chromatids during meiosis II, causing female-biased sex ratio in progeny. HP1D2 accumulates on the heterochromatic Y chromosome in male germ cells, strongly suggesting that it controls the segregation of sister chromatids through heterochromatin modification. We show that Paris SR drive is a consequence of dysfunctional HP1D2 alleles that fail to prepare the Y chromosome for meiosis, thus providing evidence that the rapid evolution of genes controlling the heterochromatin structure can be a significant source of intragenomic conflicts. [ABSTRACT FROM AUTHOR]

Published

2016

3. The recent invasion of natural Drosophila simulans populations by the P-element.

Author

Kofler, Robert, Hill, Tom, Nolte, Viola, Betancourt, Andrea J., and Schlötterer, Christian

Subjects

*BIOLOGICAL invasions, *DROSOPHILA simulans, *P element, *DROSOPHILA melanogaster, *PIWI genes, *RNA, *DEFENSE reaction (Physiology)

Abstract

The P-element is one of the best understood eukaryotic transposable elements. It invaded Drosophila melanogaster populations within a few decades but was thought to be absent from close relatives, including Drosophila simulans. Five decades after the spread in D. melanogaster, we provide evidence that the P-element has also invaded D. simulans. P-elements in D. simulans appear to have been acquired recently from D. melanogaster probably via a single horizontal transfer event. Expression data indicate that the P-element is processed in the germ line of D. simulans, and genomic data show an enrichment of P-element insertions in putative origins of replication, similar to that seen in D. melanogaster. This ongoing spread of the P-element in natural populations provides a unique opportunity to understand the dynamics of transposable element spread and the associated piwi-interacting RNAs defense mechanisms. [ABSTRACT FROM AUTHOR]

Published

2015

4. Functional evidence that a recently evolved Drosophila sperm-specific gene boosts sperm competition.

Author

Shu-Dan Yeh, Tiffanie Do, Carolus Chan, Cordova, Adriana, Carranza, Francisco, Yamamoto, Eugene A., Abbassi, Mashya, Gandasetiawan, Kania A., Librado, Pablo, Damia, Elisabetta, Dimitri, Patrizio, Rozas, Julio, Daniel L. Hartl, Roote, John, and Ranz, José M.

Subjects

*SPERM competition, *ANIMAL genetics, *GENES, *DROSOPHILA melanogaster, *DROSOPHILA simulans, *X chromosome

Abstract

In many species, both morphological and molecular traits related to sex and reproduction evolve faster in males than in females. Ultimately, rapid male evolution relies on the acquisition of genetic variation associated with differential reproductive success. Many newly evolved genes are associated with novel functions that might enhance male fitness. However, functional evidence of the adaptive role of recently originated genes in males is still lacking. The Sperm dynein intermediate chain multigene family, which encodes a Sperm dynein intermediate chain presumably involved in sperm motility, originated from complex genetic rearrangements in the lineage that leads to Drosophila melanogaster within the last 5.4 million years since its split from Drosophila simulans. We deleted all the members of this multigene family resident on the X chromosome of D. melanogaster by chromosome engineering and found that, although the deletion does not result in a reduction of progeny number, it impairs the competence of the sperm in the presence of sperm from wild-type males. Therefore, the Sperm dynein intermediate chain multigene family contributes to the differential reproductive success among males and illustrates precisely how quickly a new gene function can be incorporated into the genetic network of a species. [ABSTRACT FROM AUTHOR]

Published

2012

5. Heterochromatin and genetic conflict.

Author

Meiklejohn, Colin D.

Subjects

*INSECT sex ratio, *DROSOPHILA simulans, *HETEROCHROMATIC genes, *CHROMOSOMES, *CHROMATIN

Abstract

The article comments on a study by Q. Helleu and colleagues about the gene needed for sex-ratio (SR) distortion in Drosophila simulans. Topics discussed include the identification of HP1D2 heterochromatin protein gene as the second Paris SR locus, the role of chromosome segregation and chromatin structure in the SR distortion, and the evolution of selfish genes.

Published

2016

6. The mosaic genome structure of the Wolbachia wRi strain infecting Drosophila simulans.

Author

Klasson, Lisa, Westberg, Joakim, Sapountzis, Panagiotis, Näslund, Kristina, Lutnaes, Ylva, Darby, Alistair C., Veneti, Zoe, Lanming Chen, Braig, Henk R., Garrett, Roger, Bourtzis, Kostas, and Andersson, Siv G. E.

Subjects

*DROSOPHILA simulans, *DROSOPHILA, *GENOMES, *WOLBACHIA, *GENOMICS, *NEISSERIA meningitidis

Abstract

The obligate intracellular bacterium Wolbachia pipientis infects around 20% of all insect species. It is maternally inherited and induces reproductive alterations of insect populations by male killing, feminization, parthenogenesis, or cytoplasmic incompatibility. Here, we present the 1,445,873-bp genome of W. pipientis strain wRi that induces very strong cytoplasmic incompatibility in its natural host Drosophila simulans. A comparison with the previously sequenced genome of W. pipientis strain wMel from Drosophila melanogaster identified 35 breakpoints associated with mobile elements and repeated sequences that are stable in Drosophila lines transinfected with wRi. Additionally, 450 genes with orthologs in wRi and wMel were sequenced from the W. pipientis strain wUni, responsible for the induction of parthenogenesis in the parasitoid wasp Muscidifurax uniraptor. The comparison of these A-group Wolbachia strains uncovered the most highly recombining intracellular bacterial genomes known to date. This was manifested in a 500-fold variation in sequence divergences at synonymous sites, with different genes and gene segments supporting different strain relationships. The substitution-frequency profile resembled that of Neisseria meningitidis, which is characterized by rampant intraspecies recombination, rather than that of Rickettsia, where genes mostly diverge by nucleotide substitutions. The data further revealed diversification of ankyrin repeat genes by short tandem duplications and provided examples of horizontal gene transfer across A- and B-group strains that infect D. simulans. These results suggest that the transmission dynamics of Wolbachia and the opportunity for coinfections have created a freely recombining intracellular bacterial community with mosaic genomes. [ABSTRACT FROM AUTHOR]

Published

2009

7. Prevalence of positive selection among nearly neutral amino acid replacements in Drosophila.

Author

Sawyer, Stanley A., Parsch, John, Zhi Zhang, and Hartl, Daniel L.

Subjects

*AMINO acids, *GENETIC polymorphisms, *GENE expression, *DROSOPHILA simulans, *DROSOPHILA melanogaster

Abstract

We have estimated the selective effects of amino acid replacements in natural populations by comparing levels of polymorphism in 91 genes in African populations of Drosophila melanogaster with their divergence from Drosophila simulans. The genes include about equal numbers whose level of expression in adults is greater in males, greater in females, or approximately equal in the sexes. Markov chain Monte Carlo methods were used to sample key parameters in the stationary distribution of polymorphism and divergence in a model in which the selective effect of each nonsynonymous mutation is regarded as a random sample from some underlying normal distribution whose mean may differ from one gene to the next. Our analysis suggests that ≈95% of all nonsynonymous mutations that could contribute to polymorphism or divergence are deleterious, and that the average proportion of deleterious amino acid polymorphisms in samples is ≈70%. On the other hand, ≈95% of fixed differences between species are positively selected, although the scaled selection coefficient (NeS) is very small. We estimate that ≈46% of amino acid replacements have Nes < 2, ≈84% have NeS < 4, and ≈99% have NeS < 7. Although positive selection among amino acid differences between species seems pervasive, most of the selective effects could be regarded as nearly neutral. There are significant differences in selection between sex-biased and unbiased genes, which relate primarily to the mean of the distributions of mutational effects and the fraction of slightly deleterious and weakly beneficial mutations that are fixed. [ABSTRACT FROM AUTHOR]

Published

2007