Heating properties of morphs of the mangrove snail Littoraria pallescens

The rate of heating and the temperature attained after 10 and 20 min have been examined for shells of the yellow, dark and orange morphs of the mangrove leaf snail Littoraria pallescens. Under the experimental conditions used, heating from 20 to 40C took 5–10 min and thereafter the temperature remained roughly constant for up to 20 min. This represents temperature conditions which the animals are likely to experience in the wild. Large shells heat more slowly than small ones and reach lower temperatures. At around 40C yellows are on average 1.5C cooler than the dark morph, and orange individuals lie between. This difference could account for the observed difference between morphs in their choice of preferred leaf surface. Besides differing in colour, yellows are thinner and less heavy than dark shells, which probably contributes to the fact that they arc less robust.     

The role of major histocompatibility complex diversity in vigour of fish males (Abramis brama L.) and parasite selection

The major histocompatibility complex (MHC) presents a group of genes with highly polymorphic loci involved in specific immune responses. The factors maintaining extensive MHC polymorphism have been questioned, considering three possible hypotheses of parasite‐mediated selection driving an extensive MHC diversity (i.e. heterozygote advantage, rare‐allele advantage, and favouring optimal MHC diversity). The patterns of MHC diversity of class IIB genes were investigated following two noncontradicting hypotheses, parasite‐driven selection and MHC‐based mating preferences, using males of common bream collected in the spawning period. Two allelic groups DAB1 and DAB3 were recognized from the phylogenetic analyses. Individuals expressed one or two alleles of the same or different allelic groups. Several individuals shared identical alleles; however, the presence of parasite species was not associated with the occurrence of a particular allele. The presence of different allelic groups (only DAB1, only DAB3, or both DAB1 and DAB3) in individuals was not associated with parasite presence or diversity. The expression of two DAB1 alleles was associated with higher endoparasite abundance. Moreover, nucleotide diversity in individuals expressing a single type of alleles (DAB1 or DAB3) increased with the abundance of ectoparasitic Dactylogyrus spp. (Monogenea) and Ergasilus sp. (Crustacea). This suggests that the expression of two alleles of a single allelic type is related to high metazoan parasite infection whereas no significant influence of parasitism on the combined allelic form (the presence of both DAB1 and DAB3 alleles) was found. Moreover, the expression of two alleles of a single allelic type was related to decreased immunocompetence measured by spleen size. The condition factor was higher in fish expressing the combined allelic type. Thus, the presence of alleles of different lineages in individuals appears to be advantageous for individual male fitness. The expression of a single allelic type was related to higher sexual ornamentation, which could support the role of MHC in the hypothesis of the sexual selection of ‘good genes’. © 2007 The Linnean Society of London, Biological Journal of the Linnean Society, 2007, 90 , 525–538.     

Limited mitochondrial DNA introgression in a Bombina hybrid zone

We analysed the variation at mitochondrial DNA (mtDNA) and six allozyme loci in two transects across a hybrid zone between the fire-bellied toads Bombina bombina and Bombina variegata in southern Poland. The mtDNA cline was narrower than allozyme clines in one transect (Przemyśl, β = 0.435, w  = 3.42 km) and shifted to the B .  bombina side in both (near Kraków by 1.32 km, α = 0.437, and near Przemyśl by 0.97 km, α = 0.319). Cytonuclear associations were weak. Narrowed mtDNA clines could be a by-product of female demography and lowered effective population size of mtDNA. Alternatively, restricted mtDNA introgression is a likely result of negative epistasis in recombinants augmented by environment-dependent selection because divergence of Bombina mitochondrial and nuclear genomes is large. The shift of the mtDNA cline, contrary to expectations from initial mating preferences and fecundity differences between the species, suggests that on the B .  bombina side of the zone hybrid females with B .  variegata mtDNA have a higher chance of leaving progeny.  © 2007 The Linnean Society of London, Biological Journal of the Linnean Society , 2007, 91 , 295–306.     

A tangled history: patterns of major histocompatibility complex evolution in the African mole-rats (Family: Bathyergidae)

Phylogenetic trees based upon major histocompatibility complex (MHC) gene sequences, particularly those encompassing sites encoding the antigen recognition site, are often discordant with the species tree. It has been argued that the principal cause of such discordance is the presence of ancestrally derived polymorphisms persisting through speciation events as a consequence of selection. In the present study, we examine the evolution of the MHC class II DQα1 gene in an unusual family of hystricomorph rodents, the African mole-rats (Family: Bathyergidae). We show that there is a high level of trans-species polymorphism and that this is a result of positive selection. Furthermore, the major lineages of the gene tree are characterized by allelic motifs occurring in regions that coincide with the pocket domains of the putative antigen recognition site, a region that has been shown to be under positive selection in a number of MHC genes from a range of species. Finally, these alleles may have been retained for at least 48 million years. This is significantly older than the estimate for the equivalent primate locus and appears to be one of the oldest documented sets of MHC alleles. We suggest that these allelic motifs possess polymorphisms that have been immunologically important to African mole-rats over long periods of evolutionary history.  © 2007 The Linnean Society of London, Biological Journal of the Linnean Society , 2007, 91 , 493–503.     

Euschistus conspersus female morphology and attraction to methyl (2E,4Z)-decadienoate pheromone–baited traps in processing tomatoes

Previous work documented seasonal field response dynamics of Euschistus conspersus Uhler (Heteroptera: Pentatomidae) to Euschistus spp. pheromone [methyl (2E,4Z)‐decadienoate]‐baited traps in California processing tomatoes, Lycopersicon esculentum (Miller) (Solanaceae). A laboratory phenology model has been reported for E. conspersus egg incubation to adult emergence. In the present work, reproductive and thoracic dissections were performed on female E. conspersus collected year‐round from seasonal habitats in California's Central Valley. We used these dissection data to establish relationships between the morphology of E. conspersus and time of year, habitat, sample recovery method, and female attraction to pheromone traps in commercial tomato fields. All ovariole categories, sexually immature through postreproductive, were recorded for females collected from tomatoes by plant‐beating sample throughout the growing season. Conversely, pheromone trap captures in tomatoes over the same period revealed that females entering the traps were exclusively reproductively active with matured eggs. We conclude that early season female‐biased E. conspersus pheromone trap catch can be used to establish a ‘biofix’ from which to accumulate degree days and forecast nymphal development in the field. Focusing control efforts on the more susceptible nymph stages may improve efficacy of reduced‐risk insecticides such as the neonicotinoids. Thoracic dissection results, with no significant difference in flight muscle size or color by ovariole condition, failed to support our hypothesis of a life history trade‐off between female reproductive activity and flight capability to explain a decline in female pheromone trap response during the mid‐summer tomato‐fruiting stages. The adaptive value of the observed retention of E. conspersus flight capability over the calendar year, and across reproductive stages, is discussed.     

New microsatellite markers in turbot (Scophthalmus maximus) derived from an enriched genomic library and sequence databases

Scophthalmus maximus is an important commercially aquaculture fish species. We tackle the search for new microsatellites using two different approaches: an enriched partial genomic library and a screening of all turbot DNA sequences deposited in GenBank. Out of 15 genomic library derived loci, five gave working primer pairs, with expected heterozygosities (H_E) ranging from 0.13 to 0.91. Out of seven loci derived from database sequences, two amplified successfully with an H_E ranging from 0.56 to 0.63. The average allele number of these microsatellites was 5.7 per locus with a range between two and 15.     

Sex‐specific allelic transmission bias suggests sexual conflict at MC1R

Sexual conflict arises when selection in one sex causes the displacement of the other sex from its phenotypic optimum, leading to an inevitable tension within the genome – called intralocus sexual conflict. Although the autosomal melanocortin‐1‐receptor gene (MC1R) can generate colour variation in sexually dichromatic species, most previous studies have not considered the possibility that MC1R may be subject to sexual conflict. In the barn owl (Tyto alba), the allele MC1R_WHITE is associated with whitish plumage coloration, typical of males, and the allele MC1R_RUFOUS is associated with dark rufous coloration, typical of females, although each sex can express any phenotype. Because each colour variant is adapted to specific environmental conditions, the allele MC1R_WHITE may be more strongly selected in males and the allele MC1R_RUFOUS in females. We therefore investigated whether MC1R genotypes are in excess or deficit in male and female fledglings compared with the expected Hardy–Weinberg proportions. Our results show an overall deficit of 7.5% in the proportion of heterozygotes in males and of 12.9% in females. In males, interannual variation in assortative pairing with respect to MC1R explained the year‐specific deviations from Hardy–Weinberg proportions, whereas in females, the deficit was better explained by the interannual variation in the probability of inheriting the MC1R_WHITE or MC1R_RUFOUS allele. Additionally, we observed that sons inherit the MC1R_RUFOUS allele from their fathers on average slightly less often than expected under the first Mendelian law. Transmission ratio distortion may be adaptive in this sexually dichromatic species if males and females are, respectively, selected to display white and rufous plumages.     

Polymorphisms of 20 regulatory proteins between Mycobacterium tuberculosis and Mycobacterium bovis

Mycobacterium tuberculosis and Mycobacterium bovis are responsible for tuberculosis in humans and animals, respectively. Both species are closely related and belong to the Mycobacterium tuberculosis complex (MTC). M. tuberculosis is the most ancient species from which M. bovis and other members of the MTC evolved. The genome of M. bovis is over >99.95% identical to that of M. tuberculosis but with seven deletions ranging in size from 1 to 12.7 kb. In addition, 1200 single nucleotide mutations in coding regions distinguish M. bovis from M. tuberculosis. In the present study, we assessed 75 M. tuberculosis genomes and 23 M. bovis genomes to identify non‐synonymous mutations in 202 coding sequences of regulatory genes between both species. We identified species‐specific variants in 20 regulatory proteins and confirmed differential expression of hypoxia‐related genes between M. bovis and M. tuberculosis.     

Functional molecular markers for crop improvement

A tremendous decline in cultivable land and resources and a huge increase in food demand calls for immediate attention to crop improvement. Though molecular plant breeding serves as a viable solution and is considered as “foundation for twenty-first century crop improvement”, a major stumbling block for crop improvement is the availability of a limited functional gene pool for cereal crops. Advancement in the next generation sequencing (NGS) technologies integrated with tools like metabolomics, proteomics and association mapping studies have facilitated the identification of candidate genes, their allelic variants and opened new avenues to accelerate crop improvement through development and use of functional molecular markers (FMMs). The FMMs are developed from the sequence polymorphisms present within functional gene(s) which are associated with phenotypic trait variations. Since FMMs obviate the problems associated with random DNA markers, these are considered as “the holy grail” of plant breeders who employ targeted marker assisted selections (MAS) for crop improvement. This review article attempts to consider the current resources and novel methods such as metabolomics, proteomics and association studies for the identification of candidate genes and their validation through virus-induced gene silencing (VIGS) for the development of FMMs. A number of examples where the FMMs have been developed and used for the improvement of cereal crops for agronomic, food quality, disease resistance and abiotic stress tolerance traits have been considered.