The costs of sex in seaweeds

The brown seaweeds (Fucales) include dioecious and hermaphrodite species and genera with one, two, tour or eight eggs per oogonium. The costs of gamete production, measured as biomass, are very small. Eggs represent only 0.1–0.4% of body weight. Females of dioecious species do not produce more eggs per gramme of tissue than hermaphrodites. Hermaphrodites occupy upper shore zones and dioecious species the biotically richer submerged zones. Neither egg size nor number correlate with habitat or sexuality. Some of these observations are hard to reconcile with theoretical concepts of the costs of sex.     

The costs of sex: facing real-world complexities

Understanding the maintenance of sexual reproduction constitutes a difficult problem for evolutionary biologists because of the immediate costs that sex seems to incur. Typically, general benefits to sex and recombination are investigated that might outweigh these costs. However, several factors can strongly influence the complex balance between costs and benefits of sex; these include constraints on the evolution of asexuality, ecological differentiation, and certain lif-history traits. We review these factors and their empirical support for the first time in a unified framework and find that they can reduce the costs of sex, circumvent them, or make them inapplicable. These factors can even tip the scales to a net benefit for sex. The reviewed factors affect species and species groups differently, and we conclude consequently that understanding the maintenance of sex could turn out to be more species-specific than commonly assumed. Interestingly, our study suggests that, in some species, no general benefits to sex and recombination might be needed to understand the maintenance of sex, as in our case study of dandelions.     

The costs of sex due to deleterious intracellular parasites

A major problem in evolutionary theory is to explain the widespread occurrence of sexual recombination. This is particularly difficult in anisogamous species where the familiar ‘two-fold cost of sex’ is encountered. Another cost has recently been identified: that fusion of gametes allows intracellular parasites or deleterious ‘selfish’ genomes to invade a population. These costs of anisogamy and the ability of cytoplasmic agents to invade a sexual population are quantified, allowing the costs and consequences of different modes of reproduction to be compared. It is found that the costs of selfish elements are likely to be very high and, in particular, that isogamous sexual reproduction (the putative ‘primitive’ form) is not cost-free, but incurs a fitness reduction of the order of 90%; thus a large selective disadvantage occurs in the initial evolution of sex which is ignored in standard analysis. Even once anisogamy has evolved, the low levels of ‘paternal leakage’ observed in many extant organisms may allow selfish cytoplasmic elements to spread, resulting in moderate to large decreases in host population fitness. However, much of the cost of selfish elements is avoided in sexual lifecycles with a large number of asexual cellular divisions between sexual reproduction: this greatly impedes the spread of selfish agents and reduces the fitness loss attributable to selfish elements.     

The evolution of condition-dependent sex in the face of high costs

Facultatively sexual organisms often engage in sex more often when in poor condition. We show that such condition-dependent sex carries evolutionary advantages and can explain the evolution of sexual reproduction even when sex entails high costs. Specifically, we show that alleles promoting individuals of low fitness to have sex more often than individuals of high fitness spread through a population. Such alleles are more likely to segregate out of bad genetic backgrounds and onto good genetic backgrounds, where they tend to remain. This "abandon-ship" mechanism provides a plausible model for the evolution and maintenance of facultative sex.     

Evolution of sex: The costs and benefits of sex: new insights from old asexual lineages

Discussions that are aimed at understanding the maintenance of sexual reproduction are in a bit of a quagmire owing to the many competing theories that have been proposed. Also, one of the central observations that asexual lineages are typically short lived still needs to be properly quantified. Exciting new results on ancient asexual organisms show that lineages can persist for many millions of generations without recombination. Understanding how they do so might well provide crucial new insights into the problem of sex.     

Effects of brood manipulation costs on optimal sex allocation in social hymenoptera

In eusocial Hymenoptera, queens and workers are in conflict over optimal sex allocation. Sex ratio theory, while generating predictions on the extent of this conflict under a wide range of conditions, has largely neglected the fact that worker control of investment almost certainly requires the manipulation of brood sex ratio. This manipulation is likely to incur costs, for example, if workers eliminate male larvae or rear more females as sexuals rather than workers. In this article, we present a model of sex ratio evolution under worker control that incorporates costs of brood manipulation. We assume cost to be a continuous, increasing function of the magnitude of sex ratio manipulation. We demonstrate that costs counterselect sex ratio biasing, which leads to less female-biased population sex ratios than expected on the basis of relatedness asymmetry. Furthermore, differently shaped cost functions lead to different equilibria of manipulation at the colony level. While linear and accelerating cost functions generate monomorphic equilibria, decelerating costs lead to a process of evolutionary branching and hence split sex ratios.     

Relative costs of offspring sex and offspring survival in a polygynous mammal

Costs of reproduction are expected to be ubiquitous in wild animal populations and understanding the drivers of variation in these costs is an important aspect of life-history evolution theory. We use a 43 year dataset from a wild population of red deer to examine the relative importance of two factors that influence the costs of reproduction to mothers, and to test whether these costs vary with changing ecological conditions. Like previous studies, our analyses indicate fitness costs of lactation: mothers whose calves survived the summer subsequently showed lower survival and fecundity than those whose calves died soon after birth, accounting for 5% and 14% of the variation in mothers'' survival and fecundity, respectively. The production of a male calf depressed maternal survival and fecundity more than production of a female, but accounted for less than 1% of the variation in either fitness component. There was no evidence for any change in the effect of calf survival or sex with increasing population density.     

The many faces of c-MYC

The proto-oncogene c-MYC is implicated in various physiological processes-cell growth, proliferation, loss of differentiation, and cell death (apoptosis). Oncogenic c-MYC implies constitutive or deregulated expression of c-MYC and is associated with many human cancers often with poor prognosis. Recently, c-MYC has been implicated in the loss and dysfunction of insulin-producing beta cells in diabetes. Intriguingly, this raises the possibility that c-Myc may be a key contributor to disease, not only by deregulating cell proliferation, which is well established, but also by virtue of its opposing role in engendering apoptosis. However, given the fact that human diseases at diagnosis are generally advanced and pathologically complex, it is generally difficult to attribute a specific pathogenic role to c-MYC, or indeed any given single factor, or to assess the potential of therapies targeting individual such factors. Regulatable transgenic mouse models have shed light on these issues, have influenced our thinking about cancer, and have provided encouragement for the future development of cancer therapies based on targeting individual oncogenes such as c-MYC. Although still in its infancy, encouraging results have been reported for several approaches using gene targeting to interfere with c-MYC expression or activity both in vitro and in vivo.     

The many faces of tau

While the microtubule-binding capacity of the protein tau has been known for many years, new functions of tau in signaling and cytoskeletal organization have recently emerged. In this review, we highlight these functions and the potential roles of tau in neurodegenerative disease. We also discuss the therapeutic potential of drugs targeting various aspects of tau biology.     

The many layers of immunity

A report on the Cologne Spring Meeting 'Immunity', Cologne, Germany, 13-15 March 2002.     

The many worlds of Ida

The early primate fossil that forms the type specimen of Darwinius masillae, known informally as Ida, was first announced in a spectacular media blitz in May 2009, including a publication in the journal PLoS ONE, a public unveiling at the American Museum of Natural History, massive coverage by television and newspapers, a documentary program on the History Channel, and a book. However, reaction to the fossil by other scientists was largely critical of its purported significance, and later publications have reached very different conclusions than those promoted in the original announcements. Moreover, there are inconsistencies in the information provided by the scientific paper, the book, and the public announcements. What is the source of these discrepancies, and what is the relationship between scientific progress and media coverage?     

The many faces of mitophagy

Failure to maintain mitochondrial integrity is linked to age‐related conditions, such as neurodegeneration. Two genes linked to Parkinson's disease, PINK1 and Parkin, play a key role in targeting the degradation of dysfunctional mitochondria (mitophagy). However, the mechanisms regulating the PINK1/Parkin pathway and other processes that impinge on mitochondrial turnover are poorly understood. Two articles in EMBO reports, by the Przedborski and Ganley groups 1 2 , shed light on a new role for processed, cytoplasmic PINK1, and show that depletion of cellular iron levels stimulates PINK1/Parkin‐independent mitophagy.     

The many uses of autophagosomes

Autophagy has emerged as a significant innate immune response to pathogens. Typically, autophagosomes deliver their contents to lysosomes for degradation. Some pathogens such as Salmonella enterica serovar Typhimurium succumb to autophagy and are transported to lysosomes for degradation. Yet, many professional pathogens, including Legionella pneumophila and Burkholderia cenocepacia, subvert this pathway exploiting autophagy to their advantage.     

The many faces of RNAi

Small non-coding RNAs, through association with Argonaute protein family members, have a variety of functions during the development of an organism. Although there is increased mechanistic understanding of the RNA interference (RNAi) pathways surrounding these small RNAs, how their effects are modulated by subcellular compartmentalization and cross-pathway functional interactions is only beginning to be explored. This review examines the current understanding of these aspects of RNAi pathways and the biological functions of these pathways.