Primers for nine microsatellite loci in the hermaphroditic snail Lymnaea stagnalis

Variation in and amplification conditions for nine polymorphic microsatellite loci identified from Lymnaea stagnalis, a hermaphroditic pulmonate snail, are described. Eight populations from central Finland were studied, which varied in terms of both observed polymorphism and heterozygosity. The number of alleles at each locus is moderate (two to seven), except for one exceptional locus having 16 alleles, and for which null alleles are possible. There is no evidence for genotypic disequilibrium in the populations for all pairs of loci. Heterozygosity levels are indicative of outcrossing in L. stagnalis, whose mating system will be characterized further using these markers.     

Mating System and Clonal Architecture: A Comparative Study in Two Marine Angiosperms

In the present study, we compared the clonal architecture between two seagrass species, the dioecious Cymodocea nodosa and the hermaphroditic, self-compatible Zostera noltii, in order to verify the hypothesis that clonal growth strategies and resulting genet architecture are associated with mating system in clonal plants. It is expected that self-incompatible species should be associated to a guerrilla growth form, because of pollen limitation due to obligate outbreeding, while the ecologically advantageous phalanx strategy can be adopted in self-compatible species. Genotypic diversity and heterozygosity were also assessed in the two species. Sampling has been conducted in mixed stands, collecting shoots of the two species at the same points of the sampling grid, in order to even out any effects of environmental heterogeneity. Species-specific microsatellite loci have been used as molecular markers to identify clones and assess their spatial distribution in both species. As expected, we found an intermingled configuration of genets in the dioecious C. nodosa while Z. noltii was characterized by a clumped, `phalanx-type' distribution of clones. C. nodosa was characterized by higher genotypic diversity with regard to Z. noltii, while heterozygosity levels were comparable in the two species. Coordinating Editor: Dr J. Tuomi     

Characterization of 15 polymorphic microsatellite loci in an endangered tropical tree Hopea bilitonensis (Dipterocarpaceae) in Peninsular Malaysia

This study reports the isolation and characterization of 15 polymorphic microsatellite loci in an endangered tropical tree Hopea bilitonensis (Dipterocarpaceae). The primers were designed from a genomic library enriched for dinucleotide (CT) repeats and screened on 24 adult trees from a natural population. The number of alleles ranged from two to eight, and the observed heterozygosity ranged from 0.042 to 1.000. These loci will allow mating system and population analyses to be carried out in this species.     

Intratetrad mating and its genetic and evolutionary consequences

Genetic characteristics of intratetrad mating, i.e., fusion of haploid products of one meiotic division, are considered. Upon intratetrad mating, the probability of homozygotization is lower than that upon self-fertilization, while heterozygosity at genes linked to the mating-type locus, which determines the possibility of cell fusion, is preserved. If the mating-type locus is linked to the centromere, the genome regions adjoining the centromeres of all chromosomes remain heterozygous. Intratetrad mating is characteristic of a number of fungi (Saccharomyces cerevisiae, Saccharomycodes ludwigii, Neurospora tetrasperma, Agaricus bisporus, Microbotryum violaceum, and others). Parthenogenetic reproduction in some insects also involves this type of fusion of nuclei. Intratetrad mating leads to the accumulation of haplolethals (i.e., lethals manifesting in haploid cells but not hindering their mating) in pericentric chromosome regions. Since heterozygosity increases viability of an organism, recombination has been suppressed during evolution in fungi characterized by intratetrad mating, which ensures heterozygosity of the most part of the genome.__________Translated from Genetika, Vol. 41, No. 4, 2005, pp. 508–519.Original Russian Text Copyright © 2005 by Zakharov.     

Characterization of microsatellite DNA markers in the Emei moustache toads (<Emphasis Type="Italic">Leptobrachium boringii</Emphasis>)

We report ten microsatellite loci in the Emei moustache toads, Leptobrachium boringii. Markers were obtained by screening a genomic library enriched for microsatellite motifs. Twenty-four individuals from one breeding site were examined and ten loci were polymorphic. The number of alleles per locus ranged from 3–9 with an average of 6.3/locus. The expected heterozygosity and observed heterozygosity ranged from 0.3874 to 0.8432, and from 0.4583 to 0.9167, respectively. Cross-species amplification was tested in a closely related species L. leishanensis. These markers will be useful in future studies on characterizing the mating system of the species.     

“Balancing” balancing selection? Assortative mating at the major histocompatibility complex despite molecular signatures of balancing selection

In vertebrate animals, genes of the major histocompatibility complex (MHC) determine the set of pathogens to which an individual's adaptive immune system can respond. MHC genes are extraordinarily polymorphic, often showing elevated nonsynonymous relative to synonymous sequence variation and sharing presumably ancient polymorphisms between lineages. These patterns likely reflect pathogen‐mediated balancing selection, for example, rare‐allele or heterozygote advantage. Such selection is often reinforced by disassortative mating at MHC. We characterized exon 2 of MHC class II, corresponding to the hypervariable peptide‐binding region, in song sparrows (Melospiza melodia). We compared nonsynonymous to synonymous sequence variation in order to identify positively selected sites; assessed evidence for trans‐species polymorphisms indicating ancient balancing selection; and compared MHC similarity of socially mated pairs to expectations under random mating. Six codons showed elevated ratios of nonsynonymous to synonymous variation, consistent with balancing selection, and we characterized several alleles similar to those occurring in at least four other avian families. Despite this evidence for historical balancing selection, mated pairs were significantly more similar at MHC than were randomly generated pairings. Nonrandom mating at MHC thus appears to partially counteract, not reinforce, pathogen‐mediated balancing selection in this system. We suggest that in systems where individual fitness does not increase monotonically with MHC diversity, assortative mating may help to avoid excessive offspring heterozygosity that could otherwise arise from long‐standing balancing selection.     

Microsatellite loci for population and behavioural studies of grey‐crowned babblers (Pomatostomus temporalis: Aves)

Sixteen polymorphic microsatellite loci were isolated in the cooperatively breeding grey‐crowned babbler (Pomatostomus temporalis). The number of alleles per locus ranged from two to eight, and observed heterozygosity from 0.07 to 0.88. Two loci showed a significant heterozygote deficiency, one of which appears to be sex‐linked. The exclusion probability for eight unlinked loci was 0.9996 with the other parent known. These loci will be used to analyse population genetic structure and the mating system of this vulnerable species.     

Evolutionary consequences of ecological factors: pollinator reliability predicts mating‐system traits of a perennial plant

The reproductive‐assurance hypothesis predicts that mating‐system traits will evolve towards increased autonomous self‐pollination in plant populations experiencing unreliable pollinator service. We tested this long‐standing hypothesis by assessing geographic covariation among pollinator reliability, outcrossing rates, heterozygosity and relevant floral traits across populations of Dalechampia scandens in Costa Rica. Mean outcrossing rates ranged from 0.16 to 0.49 across four populations, and covaried with the average rates of pollen arrival on stigmas, a measure of pollinator reliability. Across populations, genetically based differences in herkogamy (anther–stigma distance) were associated with variation in stigmatic pollen loads, outcrossing rates and heterozygosity. These observations are consistent with the hypothesis that, when pollinators are unreliable, floral traits promoting autonomous selfing evolve as a mechanism of reproductive assurance. Extensive covariation between floral traits and mating system among closely related populations further suggests that floral traits influencing mating systems track variation in adaptive optima generated by variation in pollinator reliability.     

Female choice for heterozygous mates changes along successive matings in a lizard

Female mate choice and female multiple mating are major focuses of studies on sexual selection. In a multiple mating context, the benefits of mate choice can change along successive matings, and female choice would be expected to change accordingly. We investigated sequential female mate choice in the moderately polyandrous common lizard (Zootoca vivipara, synonym Lacerta vivipara). Along successive mating opportunities, we found that females were relatively unselective for the first mate, but accepted males of higher heterozygosity for subsequent mating, consistent with the trade-up choice hypothesis. We discuss the evidence of trade-up mate choice in squamates and generally trade-up for mate heterozygosity in order to motivate new studies to fill gaps on these questions.     

Characterization of polymorphic microsatellite DNA markers in the ruff (Philomachus pugnax)

Nine polymorphic microsatellite markers were isolated and characterized from the lek‐breeding ruff (Philomachus pugnax) using an enrichment cloning procedure. The number of alleles resolved per locus ranged from five to 56, and observed heterozygosity ranged from 0.311 to 0.857 in a sample of 319 ruffs from Gotland, Sweden. Two loci were located on the Z chromosome, rendering all females hemizygotes. These markers are effective in the assignment of parentage and determining male mating success.     

Isolation and characterization of novel tetranucleotide microsatellite DNA markers for the spotted salamander,Ambystoma maculatum

Fifteen tetranucleotide microsatellite loci were identified and characterized for spotted salamanders (Ambystoma maculatum) collected from three vernal pools in the south‐eastern USA. These markers revealed a high degree of genetic diversity (7–32 alleles per locus), heterozygosity (31.6–86.3%) and allelic heterogeneity (91% of comparisons were statistically significant). Considerable differentiation among populations was observed as genetic distances (chord) ranged between 0.50 and 0.65, and all F_ST values (0.08–0.14) were statistically significant. Moreover, genotypic assignment tests correctly classified all individuals to their respective collection. These markers should prove useful for investigating fine‐scale population structure and mating system.     

Characterization of 13 polymorphic microsatellite loci for an evergreen tree,Myrica rubra

We developed 13 microsatellite markers from a genomic library enriched for dinucleotide (CT) repeats in a dioecious evergreen tree, Myrica rubra. We screened loci from 32 adult trees. The number of alleles ranged from two to 14, and the expected heterozygosity ranged from 0.324 to 0.884. The total paternity exclusionary power where the mother was known equalled 0.99965. These loci are of clear value in studying mating system and parentage analysis of this species.     

The effect of mating system on growth of Arabidopsis lyrata in response to inoculation with the biotrophic parasite Albugo candida

The effects of variation in host reproductive systems on response to pathogens are not well understood. We inoculated individuals from outcrossing and inbreeding populations of North American Arabidopsis lyrata with Albugo candida (white blister rust) to test the effect of mating system and heterozygosity on disease response. We observed three host infection phenotypes, classified as fully resistant, partially resistant and fully susceptible. Overall, inbreeding populations had more susceptible and fewer partially resistant individuals than outcrossing populations, but the highest proportion of resistant individuals was found in two of the inbreeding populations. Mating system did not affect relative growth rate of inoculated plants, but there were strong effects of population and infection phenotype. We conclude that mating system per se does not determine the resistance of natural A. lyrata populations to infection by Albugo, but that the increased variability in responses among inbreeding populations may be due to reduced effective population size.     

Extra‐group mating increases inbreeding risk in a cooperatively breeding bird

In many cooperatively breeding species, females mate extra‐group, the adaptive value of which remains poorly understood. One hypothesis posits that females employ extra‐group mating to access mates whose genotypes are more dissimilar to their own than their social mates, so as to increase offspring heterozygosity. We test this hypothesis using life history and genetic data from 36 cooperatively breeding white‐browed sparrow weaver (Plocepasser mahali) groups. Contrary to prediction, a dominant female's relatedness to her social mate did not drive extra‐group mating decisions and, moreover, extra‐group mating females were significantly more related to their extra‐group sires than their social mates. Instead, dominant females were substantially more likely to mate extra‐group when paired to a dominant male of low heterozygosity, and their extra‐group mates (typically dominants themselves) were significantly more heterozygous than the males they cuckolded. The combined effects of mating with extra‐group males of closer relatedness, but higher heterozygosity resulted in extra‐group‐sired offspring that were no more heterozygous than their within‐group‐sired half‐siblings. Our findings are consistent with a role for male–male competition in driving extra‐group mating and suggest that the local kin structure typical of cooperative breeders could counter potential benefits to females of mating extra‐group by exposing them to a risk of inbreeding.     

Characterization of 42 polymorphic microsatellite loci in Mimulus ringens (Phrymaceae) using Illumina sequencing

• Premise of the study: Microsatellite markers were isolated and characterized in Mimulus ringens (Phrymaceae), a herbaceous wetland perennial, to facilitate studies of mating patterns and population genetic structure. • Methods and Results: A total of 42 polymorphic loci were identified from a sample of 24 individuals from a single population in Ohio, USA. The number of alleles per locus ranged from two to nine, and median observed heterozygosity was 0.435. • Conclusions: This large number of polymorphic loci will enable researchers to quantify male fitness, patterns of multiple paternity, selfing, and biparental inbreeding in large natural populations of this species. These markers will also permit detailed study of fine-scale patterns of genetic structure.     

Microsatellite DNA markers for the ground beetle Carabus insulicola

Twelve microsatellite DNA loci were newly isolated from the ground beetle Carabus insulicola, endemic to Japan, for studying mating systems. Phage vector was used for establishing genomic DNA library, and positive clones were screened with ³²P‐labelled probes. Primer sequences and annealing temperature for PCR amplification were determined for each locus. Allelic polymorphism of each locus, number of alleles and observed and expected heterozygosities, were investigated based on 24 individuals. Similarity between observed and expected heterozygosities suggests random mating, and relatively low observed heterozygosity found in two loci may be due to the presence of null alleles.     

Genetic support for random mating between left and right‐mouth morphs in the dimorphic scale‐eating cichlid fish Perissodus microlepis from Lake Tanganyika

Population genetic analyses were conducted to investigate whether random mating occurs between left and right‐mouth morphs of the dimorphic scale‐eating cichlid fish Perissodus microlepis from two geographical sites in southern Lake Tanganyika. The mitochondrial and nuclear DNA markers (13 microsatellite loci) revealed no genetic differentiation between left and right morphs (i.e. widespread interbreeding). The observed lack of genetic divergence between the different morphs allowed for the exclusion of the possibility of assortative mating between same morph types. The microsatellite data showed no significant departures of heterozygosity from Hardy–Weinberg equilibrium, suggesting purely random mating between the morphs. Overall, this study indicated no genetic evidence for either assortative or disassortative mating, but it did provide support for the random mating hypothesis. Highly significant, albeit weak, spatial population structure was also found when samples of different morphs were pooled according to geographical sites. An additional analysis of two microsatellite loci that were recently suggested to be putatively linked to the genetic locus that determines the laterality of these mouth morphs did not show any such association.     

Eight microsatellite markers for sympatric alpine shrubs,Phyllodoce aleutica and P. caerulea (Ericaceae)

Phyllodoce aleutica and Phyllodoce caerulea are sympatric alpine‐snowbed plants in northern Japan. They compete for pollinators (bumblebees) each other and the competitive situation varies depending on snow conditions. We isolated and characterized eight microsatellite loci in these species. Additionally, one of 13 primers developed for Rhododendron metternichii was available in these species. The expected heterozygosity of these nine markers ranged from 0.06 to 0.93 in P. aleutica and from 0.09 to 0.96 in P. caerulea. These markers may be useful to reveal the mating system evolution, patterns of pollen flow and the process of natural hybridization in these Phyllodoce species.     

BREEDING SYSTEM OF THE FERN DRYOPTERIS EXPANSA: EVIDENCE FOR MIXED MATING

The levels and distribution of genetic variation within and among populations of the homosporous fern Dryopteris expansa were assessed using enzyme electrophoresis. Twelve loci representing six enzymes were examined in 502 sporophytes from nine populations. Values of P, H, and mean number of alleles per locus are much lower in D. expansa compared to values for other fern species. Values of F varied from –0.014 to 0.745 with an average F of 0.335. There was also considerable population to population variation in F. In three populations the observed heterozygosity closely approximated that expected at Hardy-Weinberg equilibrium, whereas in the remaining populations observed heterozygosity was significantly lower than the expected heterozygosity. In D. expansa the major component of F_IT is F_IS; the relatively high F_ST value suggests a high degree of interpopulational differentiation. Electrophoretic data suggest that this species possesses a mixed mating system. This study, in conjunction with other investigations, indicates that just as in angiosperms, a variety of breeding systems operates in homosporous ferns, ranging from extreme inbreeding, through mixed mating to outcrossing.