Allozyme divergence between different gene arrangements in Drosophila subobscura

Allozyme and chromosomal polymorphism were analysed simultaneously in three population samples of Drosophila subobscura from Scotland, Germany and Italy. The study revealed significant genic divergence between the various chromosomal gene arrangements for the loci Acph, Lap and Pep, which are located inside inversions. No difference was found with the loci Me and Odh, which are both on the same chromosome but proximal to the structurally polymorphic region. Samples of a given gene arrangement taken from the different localities are genetically uniform. The data indicate that the observed non-random associations between enzyme genes and chromosomal inversions are the result of inhibited recombination in heterokaryotypes and gradual differentiation of the separated gene pools, rather than selection and coadaptation.     

The Drosophila Serido Speciation Puzzle: Putting New Pieces Together

The D. seridosuperspecies is a complex mosaic of populations distributed over a vast part of South America and showing various degrees of genetical divergence. We have analyzed its chromosomal constitution in 16 new localities of southeastern and southern Brazil. Both the metaphase and salivary gland chromosomes show a sharp split of these populations in two groups. Four populations, fixed for inversion 2e ⁸and showing the type I karyotype, represent the southwestern limit of D. seridotype B, which inhabits the Cerrado in central-western Brazil. The remaining populations are homozygous for 2x ⁷, an inversion also fixed in the Caatinga populations of northeastern Brazil. However, their karyotype, in those populations analyzed, belong to a different type (V) from that of the Caatinga populations. Populations in this second group are polymorphic for five inversions on chromosome 2 plus another on chromosome 5 and show considerable interpopulation differentiation. The breakpoints of chromosome 2 inversions are described and the inversion loops of several heterokaryotypes are presented. Biogeographical information suggests that there are clear ecological differences between the two groups of populations as well as among the populations within the second group. The possible role of host plants in promoting the genetic divergence among the D. seridopopulations is discussed. This revised version was published online in July 2006 with corrections to the Cover Date.     

Identifying targets of selection in mosaic genomes with machine learning: applications in Anopheles gambiae for detecting sites within locally adapted chromosomal inversions

Chromosomal inversions are important structural changes that may facilitate divergent selection when they capture co‐adaptive loci in the face of gene flow. However, identifying selection targets within inversions can be challenging. The high degrees of differentiation between heterokaryotypes, as well as the differences in demographic histories of collinear regions compared with inverted ones, reduce the power of traditional outlier analyses for detecting selected loci. Here, we develop a new approach that uses discriminant functions informed from inversion‐specific expectations to classify loci that are under selection (or drift). Analysis of RAD sequencing data we collected in a classic dipteran species with polymorphic inversion clines—Anopheles gambiae, a malaria vector species from sub‐Saharan Africa—demonstrates the benefits of the approach compared with traditional outlier analyses. We focus specifically on two polymorphic inversions, the 2La and 2Rb arrangements that predominate in dry habitats and the 2L+^a and 2R+^b arrangements in wet habitats, which contrast with the minimal geographic structure of SNPs from collinear regions. With our approach, we identify two strongly selected regions within 2La associated with dry habitat. Moreover, we also show that the prevalence of selection is greater in the arrangement 2L+^a that is associated with wet habitat (unlike presumed importance of selective divergence associated with the shift of the mosquitoes into dry habitats). We discuss the implications of these results with respect to studies of rapid adaptation in these malaria vectors, and in particular, the insights our newly developed approach offers for identifying not only potential targets of selection, but also the population that has undergone adaptive change.     

Studies of chromosome structure polymorphism in Asia Minor and Persian populations of Drosophila subobscura Coll

Summary By means of the male sample method samples of D. subobscura from the north and south coast of Asia Minor and from the south coast of the Caspian Sea were examined with regard to the gene arrangements contained in them. The samples were judged by the following three criteria: (1) the number of different gene arrangements present, (2) the frequencies in which these gene arrangements occur, and (3) the rate of zygotic combinations.The samples from Asia Minor were found to be highly polymorphic. In this respect, they are comparable with other samples from the northern border of the Mediterranean region.The Persian populations are poor as regards number of gene arrangements. Commonly, some gene arrangements are highly frequent and, accordingly, high rates of homozygous combinations dominate. Presumably, these are marginal populations.Comparisons between samples from the north and south coast of Asia Minor confirm the findings from other parts of the species' range. As a rule, the frequencies of various gene arrangements vary according to the latitude in which they occur. Since climate and vegetation are also largely correlated with latitude, it is assumed that this is due to adaptive reaction to ecological factors.Comparing populations from the Western and Eastern Mediterranean region, similar differences were recorded. Some gene arrangements seem to be confined to either the western or eastern part of the area, and other gene arrangements differ in frequency. Since the ecological conditions in these areas appear to be comparable, such differences might be due to the history of the formation and dispersal of gene arrangements.In general, the frequencies of the gene arrangements in the chromosomes A, U, E and O are most equal along the northern margin of the Mediterranean area and, correspondingly, the frequencies of the heterokaryotypes are highest. It may be assumed that many heterokaryotypes reach their highest degree of heterotic supremacy in this area, and/or that the different homokaryotypes are uniform with respect to adaptive values. The reasoning rests on the additional assumption that in this area the biological conditions are the least extreme, or, in other words, that D. subobscura is best adapted to this environment. As it is, the region appears to lie geographically near the center of the species' range. In the I-chromosome the most equal frequencies of gene arrangements along with the highest frequency of the heterokaryotypes are to be found in Central Europe.On the other hand, in various populations lying supposedly at the borders of the species' range, the frequencies of gene arrangements of at least some chromosomes are strongly unequal and, accordingly, the frequencies of the homokaryotypes are high.In populations where the polymorphism is high, the character of the polymorphism varies slightly from chromosome to chromosome. In the O-chromosome usually one gene arrangement is abundant, while a large number of others are rare; two gene arrangements tend to dominate in the I- and U-chromosome, whereas in the E-chromosome several gene arrangements are apt to share similar frequencies.     

Production of intergeneric somatic hybrids between round kumquat (Fortunella japonica Swingle) and ‘Morita navel’ orange (Citrus sinensis Osbeck)

Intergeneric somatic hybrids between embryogenic callus-derived protoplasts of round kumquat (Fortunella japonica Swingle) and Morita navel orange (Citrus sinensis Osbeck) were produced by electrofusion. Among the eight different fusion strains obtained, six showed normal morphology, whereas the remaining two showed malformation. All the regenerated plants were intermediate in leaf morphology and had thick and round leaves, which are typical characteristics of polyploids. Ploidy analyses by flow cytometry and chromosome counting in root-tip cells revealed that these plants are amphidiploid (2n=4×=36). Hybridity of the fusion products was confirmed by random amplified polymorphic DNA and cleaved amplified polymorphic sequence (CAPS) analyses. Furthermore, analyses of chloroplast (cp) and mitochondrial (mt) DNA by CAPS showed that these somatic hybrids contained cp- and mt-DNA of round kumquat without recombination in the regions analyzed.Abbreviations BA 6-Benzylaminopurine - CAPS Cleaved amplified polymorphic sequence - RAPD Random amplified polymorphic DNACommunicated by H. Ebinuma     

ULTRASTRUCTURE OF A CHAIN-FORMING DIATOM PHAEODACTYLUM TRICORNUTUM1

The ultrastructure of a chain-forming clone of the polymorphic diatom Phaeodactylum tricornutum Bohlin has been studied by scanning and transmission electron microscopy. Both fusiform and tri-radiate cells are capable of forming chains. The cells, lacking any silica shell, are attached to each other at the central region of the theca, leaving the arms free. Neither homogenization nor sonication completely disrupts the chains. The attachment is due to fusion of the cell wall in the central region of the cell during cell wall deposition. This fusion results from failure of the cytoplasmic cleavage furrow to separate the plasma membranes of the two daughter cells sufficiently so that a single wall is deposited instead of two separate walls. Possible explanations for this are discussed.     

Chromosomal polymorphisms in the pitcher-plant mosquito,Wyeomyia smithii

A local population of the pitcher-plant mosquito, Wyeomyia smithii (Diptera: Culicidae, Culicini) in western New York State contains naturally polymorphic salivary gland chromosomes. Maps depicting the proposed standard sequence of bands along each of the three chromosomes are presented. Structural conformations of heterokaryotypes reveal ten paracentric inversions. Four inversions occur in chromosome 1, and three in each of chromosomes 2 and 3. All the inversions are small, occupying 3–17% of the length of their respective chromosomes, and all are located in the terminal 1/5 to 1/2 of a chromosome arm. Three inversions are almost adjacent on chromosome 1. On chromosome 2 one inversion lies completely within another. Three inversions on chromosome 3 partially overlap. The remaining two inversions occur alone, one on chromosome 1 and the other on chromosome 2. Another polymorphism, with no visible alteration of band sequence, produces asynapsis of all but the tip of the left arm of chromosome 1, and shows a significant change in frequency between two successive years. No inversion exhibits a significant seasonal change in frequency, though some fluctuation in frequency was noted in two cases. The rarest inversion in the population exists at a frequency below 0.01, and the two most common inversions at frequencies of 0.44 and 0.52. The average inversion heterozygosity of an individual is between 1.7 and 2.4 based on two different estimation procedures. Heterokaryotypes for several of the inversions were significantly more frequent than they should have been, given binomial expectations. Cytogenetic analysis of W. smithii was deemed particularly desirable because this species has been and continues to be the subject of extensive biometrical-genetic, ecological, and evolutionary investigation.This paper is the seventh in a series on the ecology and evolution of the pitcher-plant mosquito     

Biochemical and molecular characterization of wild-type and fused protoplasts of <Emphasis Type="Italic">Beauveria bassiana</Emphasis> and <Emphasis Type="Italic">Metarhizium anisopliae</Emphasis>

Protoplasts were isolated from two isolates each of Beauveria bassiana and Metarhizium anisopliae using lysing enzymes. Intra- and intergeneric protoplast fusion has been carried out using 40% polyethylene glycol. The fused protoplasts of B. bassiana and M. anisopliae have been regenerated on Czapek–Dox agar media, and a total of four fusants were selected for further studies. An increase in proteinase and chitinase enzyme activity was recorded with all fusants as compared to the wild-type isolates. To understand the nature of recombination process, random amplification of polymorphic DNA (RAPD) and restriction fragment length polymorphism (RFLP) were carried out on genomic DNA of fused and wild-type isolates. The present study demonstrates the scope and significance of the protoplast fusion technique as a rapid consistent method for identification of B. bassiana and M. anisopliae fused and wild-type isolates based on the banding pattern of RAPD and RFLP that can be reliably used ahead for further applications on these species.     

Microsatellite loci for euglossine bees (Hymenoptera: Apidae)

The Neotropical Euglossini (Hymenoptera: Apidae) are important pollinators of many flowering plants, particularly orchids. Lack of highly polymorphic genetic markers for euglossine species has limited the study of their social organization and inbreeding. We therefore developed microsatellite markers for two species, Eulaema nigrita (11 loci) and Euglossa cordata (nine loci), most of which were highly polymorphic in the source species and in a range of related euglossine bees.     

Polymorphic behavior of gram-negative bacteria membranes

Summary Freeze-fracture and ultrathin section electron microscopy as well as³¹P-NMR spectroscopy and light scattering ofEscherichia coli andPseudomonas putida cells under conditions promoting the ability of cells to take up exogenous DNA's (high concentrations of divalent cations and a specific temperature regime) reveal the extensive polymorphic changes and the formation of various structural defects in cellular membranes. Polymorphic changes occur during the heat shock at 42 to 44°C of the cells preincubated at 0°C in the presence of high concentration of Ca²⁺ or Ba²⁺ cations and include the formation of various vesicle- and tube-like structures, intermembrane and intercellular contacts followed by membrane fusion and sometimes even by cell fusion. The results obtained suggest the occurrence of phospholipid-enriched zones in the outer leaflet ofE. coli outer membrane. This suggestion is verified and confirmed with the help of phospholipase C, a specific phospholipid binding and digesting enzyme. The presented experimental evidence directly supports the suggestion of Ahkong et al. (Nature 253:194–195, 1975) on the identity of the mechanisms of membrane contact formation and membrane fusion in model and cellular membranes. The biological relevance of the polymorphic changes observed is shortly discussed.     

Effects of centric fusions on chiasma frequency and position in Leptysma argentina (Acrididae: Orthoptera) I. Spontaneous and stable polymorphic centric fusions

Leptysma argentina is a highly polymorphic South-American grasshopper from the cytological point of view; all populations so far studied carry a polymorphic fusion between pairs 3 and 6. In heterozygotes, the trivalent 3-3/6-6 shows alternate orientation in 97.17% of the cells. Trivalent chiasma frequency is significantly lower than in the combined 3 and 6 bivalents of the standard homozygote; besides, there is a marked displacement of chiasmata to a distal position. In structural homozygotes the same effects, but not so marked, were observed.One individual was a double heterozygote for both the polymorphic centric fusion and a spontaneous one between pairs 5 and 7. The presence of a fragment, sometimes associated with the centromeric region of the nonfused 5 chromosome, was detected in more than 50% of the cells. The orientation of trivalent 5-5/7-7 in metaphase I was highly irregular (36% linear orientation). Neither frequency nor position of chiasmata were altered in trivalent 5-5/7-7 when compared with bivalents 5+7 of normal individuals.The results suggest that proximal and interstitial chiasma reduction observed in trivalent 3-3/6-6 of L. argentina is due to a later adaptation to the polymorphic condition or a fortuitous genetic condition present in the original mutant, rather than to a direct effect of the fusion itself on chiasma distribution.Fellow of the Consejo Nacional de Investigaciones Cientificas y Técnicas (CONICET)     

DNA organization and polymorphism of a wild-type Drosophila telomere region

Telomeres at the ends of linear chromosomes of eukaryotes protect the chromosome termini from degradation and fusion. While telomeric replication/elongation mechanisms have been studied extensively, the functions of subterminal sequences are less well understood. In general, subterminal regions can be quite polymorphic, varying in size from organism to organism, and differing among chromosomes within an organism. The subterminal regions of Drosophila melanogaster are not well characterized today, and it is not known which and how many different components they contain. Here we present the molecular characterization of DNA components and their organization in the subterminal region of the left arm of chromosome 2 of the Oregon RC wildtype strain of D. melanogaster, including a minisatellite with a 457 bp repeat length. Two distinct polymorphic arrangements at 2L were found and analyzed, supporting the Drosophila telomere elongation model by retrotransposition. The high incidence of terminal chromosome deficiencies occurring in natural Drosophila populations is discussed in view of the telomere structure at 2L.     

Three polymorphic chromosome systems of centric fusion type in a population of Manchurian sika deer (Cervus nippon hortulorum Swinhoe)

Chromosome studies of cells from skin and lung cultured in vitro from eleven Manchurian sika deer (Cervus nippon hortulorum Swinhoe) sampled from the population in Woburn deer park, England, revealed variations in the number of chromosomes between individual animals as follows: 2n = 68, 67, 66, 65, and 64. No intraindividual variation was found. The presumably normal chromosome complement (2n = 68) consisted almost exclusively of one-armed or t chromosomes. Only two autosomes and the Y chromosome of the male were two-armed or m chromosomes. The variations in the number of chromosomes in the population were due to centric fusions of one-armed autosomes into two-armed ones, building up three coexisting and integrating polymorphic systems of centric fusion or Robertsonian type.The work was supported by the Swedish Natural Science Research Council.     

Mitochondrial fusion and inheritance of the mitochondrial genome

Although maternal or uniparental inheritance of mitochondrial genomes is a general rule, biparental inheritance is sometimes observed in protists and fungi, including yeasts. In yeast, recombination occurs between the mitochondrial genomes inherited from both parents. Mitochondrial fusion observed in yeast zygotes is thought to set up a space for DNA recombination. In the last decade, a universal mitochondrial fusion mechanism has been uncovered, using yeast as a model. On the other hand, an alternative mitochondrial fusion mechanism has been identified in the true slime mold Physarum polycephalum. A specific mitochondrial plasmid, mF, has been detected as the genetic material that causes mitochondrial fusion in P. polycephalum. Without mF, fusion of the mitochondria is not observed throughout the life cycle, suggesting that Physarum has no constitutive mitochondrial fusion mechanism. Conversely, mitochondria fuse in zygotes and during sporulation with mF. The complete mF sequence suggests that one gene, ORF640, encodes a fusogen for Physarum mitochondria. Although in general, mitochondria are inherited uniparentally, biparental inheritance occurs with specific sexual crossing in P. polycephalum. An analysis of the transmission of mitochondrial genomes has shown that recombinations between two parental mitochondrial genomes require mitochondrial fusion, mediated by mF. Physarum is a unique organism for studying mitochondrial fusion.     

Isolation and cross‐species amplification of microsatellite loci from the fucoid seaweeds Fucus vesiculosus,F. serratus and Ascophyllum nodosum (Heterokontophyta,Fucaceae)

The Fucaceae is a family of brown seaweeds that dominate and frequently co‐occur on North Atlantic rocky shores. We developed nine polymorphic microsatellite markers for the fucoid seaweeds Fucus vesiculosus, F. serratus and Ascophyllum nodosum using a combined, enriched library. Six of these loci were polymorphic in at least two species, showing from two to eight alleles with heterozygosities ranging from 0.41 to 0.85. Loci were also tested on F. spiralis, revealing five polymorphic microsatellite loci in this species.     

Chromosomal fusion and life history‐associated genomic variation contribute to within‐river local adaptation of Atlantic salmon

Chromosomal inversions have been implicated in facilitating adaptation in the face of high levels of gene flow, but whether chromosomal fusions also have similar potential remains poorly understood. Atlantic salmon are usually characterized by population structure at multiple spatial scales; however, this is not the case for tributaries of the Miramichi River in North America. To resolve genetic relationships between populations in this system and the potential for known chromosomal fusions to contribute to adaptation, we genotyped 728 juvenile salmon using a 50 K SNP array. Consistent with previous work, we report extremely weak overall population structuring (Global F_ST = 0.004) and failed to support hierarchical structure between the river's two main branches. We provide the first genomic characterization of a previously described polymorphic fusion between chromosomes 8 and 29. Fusion genomic characteristics included high LD, reduced heterozygosity in the fused homokaryotes, and strong divergence between the fused and the unfused rearrangement. Population structure based on fusion karyotype was five times stronger than neutral variation (F_ST = 0.019), and the frequency of the fusion was associated with summer precipitation supporting a hypothesis that this rearrangement may contribute local adaptation despite weak neutral differentiation. Additionally, both outlier variation among populations and a polygenic framework for characterizing adaptive variation in relation to climate identified a 250‐Kb region of chromosome 9, including the gene six6 that has previously been linked to age‐at‐maturity and run‐timing for this species. Overall, our results indicate that adaptive processes, independent of major river branching, are more important than neutral processes for structuring these populations.     

High Fitness of Heterokaryotypic Individuals Segregating Naturally within a Long-Standing Laboratory Population of Drosophila silvestris

Natural populations of Drosophila silvestris are polymorphic for inversions in one or more of four of the five major chromosome arms; laboratory stocks tend to retain this heterozygosity. A laboratory stock, U28T2, was started from a single naturally inseminated wild female caught at Kilauea Forest Reserve, Hawaii, in January 1977. Polytene analysis in 1980 showed the presence of three natural inversions in chromosome 4: k ² is distal, t is central and l² is proximal. The inversions are short but only short uncovered euchromatic sections exist at the distal and proximal ends. Periodic examinations through 1986 showed all three inversions to be persistent at moderately high frequencies. In 1984, a series of tests of mating performance of caged, mature males, taken at random as they eclosed from the stock, were followed by cytological testcrosses to females from a homokaryotypic stock. Only three of the eight possible haplotypes, k²/t/+ (A), +/+/l² ( a) and +/+/+ (a') were present. Tests of crossing over show none in males; in females, there is about 1% in each of the two regions between the inversions. Only one such apparent crossover haplotype was found among 1084 examined in samples from this stock. Thus, chromosome arrangements A, a and a' virtually behave as wholechromosome alleles in both sexes. Of 146 males marked and tested in cages, 61 produced progeny; the others failed to reproduce. Of 58 males and 80 females producing progeny and analyzed cytologically, there were, respectively, 49 and 59 heterokaryotypes. On the basis of frequencies calculated for fertilized eggs, 33.6 males and 46.3 females are expected. The facts suggest that individual males with the Aa karyotype are particularly successful in production of offspring. Adult females show an excess of Aa' as well as Aa. Such high fitness of heterokaryotypes in the effective breeding adults could be a major factor in the maintenance of stable chromosomal polymorphisms both in laboratory stocks and in nature. Although some of this heterosis is clearly ascribable to differential survival, the facts suggest that there is a substantial opportunity, indeed a likelihood, for a contribution from differential mating among surviving adults.     

Food preference experiments with captive ptarmigan

Summary

Athyrium distentifolium is found in scattered sites in the Central and Northern Highlands of Scotland. In a few localities in the Central Highlands there is also an endemic variety: A. distentifolium var. flexile. Both types are found together in polymorphic populations with the two distinct forms. A. distentifolium can only grow well with moderate nutrients and in the polymorphic populations A. distentifolium is smaller than elsewhere and frequently infertile. A. distentifolium var. flexile is a smaller plant which is more frequently fertile than A. distentifolium in polymorphic populations and appears particularly well adapted to grow in stressful environments with low nutrient status.     

Genetic variation and hybridization in SwedishSchoenus (Cyperaceae)

Schoenus ferrugineus andS. nigricans have restricted distributions in Sweden and are almost exclusively confined to calcareous fen habitats. AtS. nigricans sites,S. ferrugineus is usually also present, and hybrids are frequently found. In this report, I used allozymes to estimate the amount of gene flow between the two species, and to compare the partitioning of genetic diversity in each of them. Thirteen loci were analysed at eight different enzyme systems. Seven loci were variable between or within the species. The two species had completely different alleles at two of the seven variable loci, whereas there was overlap at five loci. In all, 22 different alleles were found. Six of these alleles were confined toS. nigricans, and five alleles were confined toS. ferrugineus. Nei's genetic identity was 0.55.—InS. ferrugineus, three loci (23%) were polymorphic, and the average number of alleles per polymorphic locus was 2.0 (each polymorphic locus had two alleles). InS. nigricans, three loci (23%) were polymorphic, and the average number of alleles per polymorphic locus was 2.3.—The proportion of genetic diversity due to variation among sites (G _ST) was fairly similar in the two species, mean over loci = 0.12 inS. ferrugineus and 0.15 inS. nigricans. However, the proportion of genetic diversity due to variation among individuals within sites (G _IS) differed markedly between the two species, mean over loci = 0.54 inS. ferrugineus and 0.17 inS. nigricans. Accordingly, there was a much higher individual heterozygosity inS. nigricans than inS. ferrugineus. — Most hybrids were interpreted as F₁ hybrids. However, a small proportion, 0.5–1.6 %, were F_n hybrids or back-crosses.—On the Swedish mainland, all former occurrences ofS. nigricans are extinct, but viable hybrids are still present at a few sites in southernmost Sweden.