Light Affects Flagellar Agglutinability in Chlamydomonas eugametos by Modification of the Agglutinin Molecules

The effect of light on the sexual competence of a light-sensitive mating type minus strain (mt⁻) of Chlamydomonas eugametos obtained by crossing a light-sensitive mating type plus strain (mt⁺) with a light-insensitive mt⁻ strain is described. As previously demonstrated for the mt⁺ parent, this study of one of the mt⁻ offspring shows that (a) a light-sensitive mechanism affects flagellar agglutinability in a rapid process that does not require protein synthesis; (b) only the activity of the flagellar agglutinins (glycoproteins responsible for agglutination) is susceptible to light while agglutinins on the cell body surface are not affected by light. We further demonstrate that (a) membrane vesicles naturally released from nonagglutinable dark gametes remain inactive. Extracts of these vesicles also remain inactive even though they contain agglutinin-like components; (b) inactive mt⁻ agglutinin is present in extracts of flagella from nonagglutinable dark gametes by comparison of its chromatographic, electrophoretic, and immunogenic properties with those of active agglutinin. When purified of all other flagellar proteins, it remains inactive; (c) a monoclonal antibody directed against the sexual agglutination site of the mt⁻ agglutintin discriminates between active and inactive agglutinins when present in a native state on the flagellar surface, but is unable to discriminate between them when they are denatured in sodium dodecyl sulfate-electrophoresis gels and blotted onto nitrocellulose. Taken collectively these observations suggest that light activation involves the chemical modification of the agglutinins in situ on the flagellar surface.     

TheChlamydomonas plus and minus agglutinin: difference in sensitivity to dithiothreitol

The effect of disulfide-reducing agent dithiothreitol (DTT) on the plus and minus agglutinins ofChlamydomonas reinhardtii gametes was studied. Live gametes of mating-type plus (mt ⁺) lost their flagellar agglutinability by DTT treatment without any loss of cell motility and concurrently released into the medium agglutinin in an inactive form. DTT treated cells also lost completely their cell body-agglutinin. By contrast, the mating-type minus (mt ^-) gametes neither lost their agglutinability nor released agglutinin into the medium by DTT even at very high concentrations. In vitro experiments showed that plus agglutinin in solution is just as sensitive as that in vivo to DTT, whereas minus agglutinin is totally insensitive, and the sulfhydryl-oxidizing agent diamide restores the plus agglutinin activity immediately and completely. Isolated flagella from themt ⁺ gametes were also inactivated by DTT, but they retained the inactivated agglutinin on the surfaces. The results indicate that plus agglutinin, but not minus agglutinin, possesses disulfide bonds which are essential for the recognition/adhesion activity.Abbreviations mt ^+/- mating-type plus or minus - DTT dithiothreitol     

Linkage of Mutations Affecting minus Flagellar Membrane Agglutinability to the mt Mating-Type Locus of Chlamydomonas

Two independently isolated mutant strains, imp-10 and imp-12, were obtained by UV irradiation of wild-type mating-type minus (wt^-). Each fails to agglutinate sexually with gametes of either mating type, but mating and zygote formation can be elicited by agglutinating either strain to wt⁺ gametes by means of anti-flagellar antiserum. Tetrad analysis of the resultant zygotes shows that both imp-10 and imp-12 are very closely linked to mt^-, with no recombinants observed. Diploid strains constructed between imp-10 or imp-12 and wt⁺ gametes are wt^-, that is, they agglutinate and fuse like normal minus cells. Tetrad analysis of triploids from imp-10 diploid x wt⁺ haploid crosses shows that only imp-10 and wt⁺ products are recovered. A model is proposed to account for these results.     

Evaluating the transferability of Hapmap SNPs to a Singapore Chinese population

Background

Sexual reproduction relies on two key events: formation of cells with a haploid genome (the gametes) and restoration of diploidy after fertilization. Therefore the underlying mechanisms must have been evolutionary linked and there is a need for evidence that could support such a model.

Results

We describe the identification and the characterization of yem ¹ , the first yem-alpha mutant allele (V478E), which to some extent affects diploidy reduction and its restoration. Yem-alpha is a member of the Ubinuclein/HPC2 family of proteins that have recently been implicated in playing roles in chromatin remodeling in concert with HIRA histone chaperone. The yem ¹ mutant females exhibited disrupted chromosome behavior in the first meiotic division and produced very low numbers of viable progeny. Unexpectedly these progeny did not display paternal chromosome markers, suggesting that they developed from diploid gametes that underwent gynogenesis, a form of parthenogenesis that requires fertilization.

Conclusions

We focus here on the analysis of the meiotic defects exhibited by yem ¹ oocytes that could account for the formation of diploid gametes. Our results suggest that yem ¹ affects chromosome segregation presumably by affecting kinetochores function in the first meiotic division. This work paves the way to further investigations on the evolution of the mechanisms that support sexual reproduction.     

Agglutination factor in the cell body of Chlamydomonas eugametos

Chlamydomonas eugametos gametes agglutinate via the surfaces of their flagella. The mating-type minus (mt ^-) agglutination factor is a high-molecular-weight glycoprotein called PAS-1.2, present on the exterior surface of the flagellar membrane. During flagellar regeneration, mt ^- gametes were able to agglutinate as soon as the flagella protruded as short stumps. This was also observed when protein synthesis was blocked, indicating that gametes possess a pool of PAS-1.2. When the exterior surface of flagella-less gametes was extracted and the proteins were subjected to gel electrophoresis, large quantities of PAS-1.2 were detected. Using anti-PAS-1.2 serum, the presence of PAS-1.2-like material was visualized on the plasma membrane of mt ^- gamete cell bodies. By assaying the biological activity of extracts of the cell bodies and of isolated flagella, it was calculated that the plasma membrane of the cell bodies contains 25 times the activity present in the flagella and could, therefore, represent a large pool of mt ^- agglutination factor.     

The CYCLIN-A CYCA1;2/TAM Is Required for the Meiosis I to Meiosis II Transition and Cooperates with OSD1 for the Prophase to First Meiotic Division Transition

Meiosis halves the chromosome number because its two divisions follow a single round of DNA replication. This process involves two cell transitions, the transition from prophase to the first meiotic division (meiosis I) and the unique meiosis I to meiosis II transition. We show here that the A-type cyclin CYCA1;2/TAM plays a major role in both transitions in Arabidopsis. A series of tam mutants failed to enter meiosis II and thus produced diploid spores and functional diploid gametes. These diploid gametes had a recombined genotype produced through the single meiosis I division. In addition, by combining the tam-2 mutation with AtSpo11-1 and Atrec8, we obtained plants producing diploid gametes through a mitotic-like division that were genetically identical to their parents. Thus tam alleles displayed phenotypes very similar to that of the previously described osd1 mutant. Combining tam and osd1 mutations leads to a failure in the prophase to meiosis I transition during male meiosis and to the production of tetraploid spores and gametes. This suggests that TAM and OSD1 are involved in the control of both meiotic transitions.     

Chlamydomonas agglutinin conjugated to agarose beads as an in vitro probe of adhesion

Flagellar sexual agglutinins are responsible for the primary recognition and adhesion events of mating in Chlamydomonas reinhardi which culminate in zygotic union of plus and minus gametes. Recent studies in this laboratory have shown the plus agglutinin to be an extremely large (>10⁶ D) and asymmetric glycoprotein containing a high proportion of hydroxyproline and serine residues [14, 27, 28]. This paper reports an improved method for in vitro investigations of the adhesive nature of this molecule. Purified agglutinin is covalently attached to an insoluble (Affi-gel 15 agarose bead) support and shown to retain potent agglutination activity when presented to living minus gametes, which rapidly and extensively adhere to the coated bead surface by their flagella. The specificity of the response is documented by the lack of interaction of plus gametes with the immobilized plus agglutinin (IA⁺). Using this simple yet sensitive bioassay, we have subjected IA⁺ beads to various enzymatic, chemical and physical treatments and assessed the effects on agglutinin activity. These studies reveal that Chlamydomonas plus agglutinin is sensitive to thermolysin or trypsin digestion, alkaline borohydride reduction, periodate oxidation, thiol reduction and heating at 65 °C, but unaffected by treatment with chymotrypsin, endo- or exoglycosidases, or incubation with isolated minus agglutinin. The implications of these results for agglutinin structure and possible functional interactions in initial recognition/adhesion events are discussed.     

O father where art thou? Paternity analyses in a natural population of the haploid–diploid seaweed Chondrus crispus

The link between life history traits and mating systems in diploid organisms has been extensively addressed in the literature, whereas the degree of selfing and/or inbreeding in natural populations of haploid–diploid organisms, in which haploid gametophytes alternate with diploid sporophytes, has been rarely measured. Dioecy has often been used as a proxy for the mating system in these organisms. Yet, dioecy does not prevent the fusion of gametes from male and female gametophytes originating from the same sporophyte. This is likely a common occurrence when spores from the same parent are dispersed in clumps and recruit together. This pattern of clumped spore dispersal has been hypothesized to explain significant heterozygote deficiency in the dioecious haploid–diploid seaweed Chondrus crispus. Fronds and cystocarps (structures in which zygotes are mitotically amplified) were sampled in two 25 m² plots located within a high and a low intertidal zone and genotyped at 5 polymorphic microsatellite loci in order to explore the mating system directly using paternity analyses. Multiple males sired cystocarps on each female, but only one of the 423 paternal genotypes corresponded to a field-sampled gametophyte. Nevertheless, larger kinship coefficients were detected between males siring cystocarps on the same female in comparison with males in the entire population, confirming restricted spermatial and clumped spore dispersal. Such dispersal mechanisms may be a mode of reproductive assurance due to nonmotile gametes associated with putatively reduced effects of inbreeding depression because of the free-living haploid stage in C. crispus.     

Sexual agglutinin of mating-type minus gametes inChlamydomonas reinhardtii

The sexual agglutinin from the mating-type minus gametes ofChlamydomonas reinhardtii was purified by gel filtration and hydroxyapatite chromotography. The minus agglutinin was identified as a single glycopolypeptide termed Agg(-) of very high molecular weight by SDS-poly-acrylamide gel electrophoresis. It was also observed as a glycoprotein with agglutinin activity on non-SDS polyacrylamide gels. The native agglutinin appeared to be composed of a complex of Agg(-) subunits. It consisted of about 60% protein and 40% carbohydrate and the activity was diminished by a mild periodate oxidation. When the plus agglutinin was also purified and compared with the minus agglutinin, it was found that both agglutinins migrate in the same position by SDS-polyacrylamide gel electrophoresis, whereas their behaviors on gel filtration and hydroxyapatite chromatography are different.Abbreviations mt ^+/– mating-tape plus or minus - SDS sodium dodecyl sulfate - V_e elution volume - V_o void volume - kDa kilodalton     

Microsatellite and flow cytometry analysis to help understand the origin of Dioscorea alata polyploids

Background and Aims Dioscorea alata

is a polyploid species with a ploidy level ranging from diploid (2n = 2x = 40) to tetraploid (2n = 4x = 80). Ploidy increase is correlated with better agronomic performance. The lack of knowledge about the origin of D. alata spontaneous polyploids (triploids and tetraploids) limits the efficiency of polyploid breeding. The objective of the present study was to use flow cytometry and microsatellite markers to understand the origin of D. alata polyploids.

Methods

Different progeny generated by intracytotype crosses (2x × 2x) and intercytotype crosses (2x × 4x and 3x × 2x) were analysed in order to understand endosperm incompatibility phenomena and gamete origins via the heterozygosity rate transmitted to progeny.

Results

This work shows that in a 2x × 2x cross, triploids with viable seeds are obtained only via a phenomenon of diploid female non-gametic reduction. The study of the transmission of heterozygosity made it possible to exclude polyspermy and polyembryony as the mechanisms at the origin of triploids. The fact that no seedlings were obtained by a 3x × 2x cross made it possible to confirm the sterility of triploid females. Flow cytometry analyses carried out on the endosperm of seeds resulting from 2x × 4x crosses revealed endosperm incompatibility phenomena.

Conclusions

The major conclusion is that the polyploids of D. alata would have appeared through the formation of unreduced gametes. The triploid pool would have been built and diversified through the formation of 2n gametes in diploid females as the result of the non-viability of seeds resulting from the formation of 2n sperm and of the non-viability of intercytotype crosses. The tetraploids would have appeared through bilateral sexual polyploidization via the union of two unreduced gametes due to the sterility of triploids.     

Cyclic AMP is one of the intracellular signals during the mating of Chlamydomonas eugametos

Chlamydomonas eugametos gametes of opposite mating type make cell-cell contact via their flagellar surfaces. This contact triggers an increase in the intracellular level of cyclic AMP (cAMP) and several cellular responses which are necessary for cell fusion. Here, we show that wheat-germ agglutinin, which binds to the flagellar surface and induces all mating responses, also increased the intracellular cAMP level. Dibutyryl-cAMP added to non-mating gametes induced flagellar twitching, cell-wall lysis, mating-structure activation, flagellartip activation and an increase in agglutinability. It did not induce agglutinin transport to the flagellar tip (tipping) and may not be the direct cause of flagellar twitching and flagellar-tip activation. In non-illuminated cells, dibutyryl-cAMP was far more effective in evoking mating reactions than in illuminated cells. Light induced a 50% decrease in the cAMP level within 1 min. Adenylate cyclase was found to be associated with cell membranes but only 8% of the total was present in the gamete flagella.Abbreviations db-cAMP dibutyryl-cAMP - FTA flagellar tip activation - Mab monoclonal antibody - mt ^–/mt⁺ mating-type minus/plus - WGA wheat-germ agglutinin We gratefully acknowledge the fruitful discussions with Dr. Rainer Gilles of the Department of Biochemistry at the University of Cologne (FRG), and the advice generously given by Dr. Roel van Driel of the Department of Biochemistry at the University of Amsterdam (The Netherlands).     

Cell surface differentiation of Chlamydomonas during gametogenesis. I. Mating and concanavalin A agglutinability

Sexual agglutination of opposite gametes and agglutination of like gametes by concanavalin A (Con A) were studied in Chlamydomonas moewusii and C. reinhardtii for the possibility that the surface sites involved in these agglutinating phenomena may be the same. Our data show that the two agglutinating phenomena appeared at different times after the beginning of gametogenesis. Sucrose and mannose block agglutination of the gametes by Con A but do not affect mating ability. Trypsin eliminates mating ability, except in (?) gametes of C. moewusii, while Con A agglutinability remains. Monovalent Con A can selectively bind to Con A-binding sites to block agglutination of gametes by multivalent Con A while mating ability is unaffected. The data indicate that the mating agglutinin and the Con A-binding sites are two different flagellar surface agglutinins that occur coincidentally during gametic differentiation of both mating types of C. moewusii and C. reinhardtii. The function of the Con A-binding site on Chlamydomonas gametes is not known.     

A screen for recessive speciation genes expressed in the gametes of F1 hybrid yeast

Diploid hybrids of Saccharomyces cerevisiae and its closest relative, Saccharomyces paradoxus, are viable, but the sexual gametes they produce are not. One of several possible causes of this gamete inviability is incompatibility between genes from different species—such incompatible genes are usually called “speciation genes.” In diploid F1 hybrids, which contain a complete haploid genome from each species, the presence of compatible alleles can mask the effects of (recessive) incompatible speciation genes. But in the haploid gametes produced by F1 hybrids, recessive speciation genes may be exposed, killing the gametes and thus preventing F1 hybrids from reproducing sexually. Here I present the results of an experiment to detect incompatibilities that kill hybrid gametes. I transferred nine of the 16 S. paradoxus chromosomes individually into S. cerevisiae gametes and tested the ability of each to replace its S. cerevisiae homeolog. All nine chromosomes were compatible, producing nine viable haploid strains, each with 15 S. cerevisiae chromosomes and one S. paradoxus chromosome. Thus, none of these chromosomes contain speciation genes that were capable of killing the hybrid gametes that received them. This is a surprising result that suggests that such speciation genes do not play a major role in yeast speciation.     

A New Bacterial Agglutinin from Soybean: I. ISOLATION, PARTIAL PURIFICATION, AND CHARACTERIZATION

A new bacterial agglutinin was isolated from seeds of the soybean cultivar Clark. Purification was carried out by ammonium sulfate precipitation and ion-exchange chromatography. The agglutinin is a heat-labile glycoprotein most active at pH 4.0. Addition of Ca²⁺, Mn²⁺ and Mg²⁺ did not enhance the agglutinating activity of this glycoprotein. Gel electrophoresis in the presence of sodium dodecyl sulfate showed that the agglutinin is composed of two subunits of approximately 50,000 daltons each. In the undissociated state, it agglutinates Xanthomonas phaseoli var. sojensis, the causal agent of bacterial pustule disease of soybean, at concentrations as low as 10 micrograms protein per milliliter but has no hemagglutinating activity. The agglutinin could be distinguished from previously reported soybean lectins on the basis of solubility in ammonium sulfate, lack of hemagglutinating activity, molecular weight, hapten specificity, and immunological determinants.     

Mutations in AtPS1 (Arabidopsis thaliana Parallel Spindle 1) Lead to the Production of Diploid Pollen Grains

Polyploidy has had a considerable impact on the evolution of many eukaryotes, especially angiosperms. Indeed, most—if not all—angiosperms have experienced at least one round of polyploidy during the course of their evolution, and many important crop plants are current polyploids. The occurrence of 2n gametes (diplogametes) in diploid populations is widely recognised as the major source of polyploid formation. However, limited information is available on the genetic control of diplogamete production. Here, we describe the isolation and characterisation of the first gene, AtPS1 (Arabidopsis thaliana Parallel Spindle 1), implicated in the formation of a high frequency of diplogametes in plants. Atps1 mutants produce diploid male spores, diploid pollen grains, and spontaneous triploid plants in the next generation. Female meiosis is not affected in the mutant. We demonstrated that abnormal spindle orientation at male meiosis II leads to diplogamete formation. Most of the parent''s heterozygosity is therefore conserved in the Atps1 diploid gametes, which is a key issue for plant breeding. The AtPS1 protein is conserved throughout the plant kingdom and carries domains suggestive of a regulatory function. The isolation of a gene involved in diplogamete production opens the way for new strategies in plant breeding programmes and progress in evolutionary studies.     

Binding of the chemical carcinogen N-hydroxy-acetyl-aminofluorene to ploidy classes of rat liver nuclei as separated by velocity sedimentation at unit gravity

A large sedimentation device was developed that allows separation of 5 × 10⁸ rat liver nuclei by velocity sedimentation at unit gravity. Using the apparatus isolated rat liver nuclei were separated into classes of diploid stromal (Von Kuppfer, sinusoidal lining) nuclei, diploid parenchymal nuclei and tetraploid parenchymal nuclei respectively. DNA content and volume of the nuclei were measured. Diploid nuclei were 100% pure; tetraploid nuclei 98%.The in vivo binding of the liver carcinogen [³H]-N-hydroxy-AAF to these classes of nuclei was determined (total binding to protein, DNA and RNA). Binding and the subsequent removal of the fluorene derivatives was registered as a function of time. At all stages diploid stromal nuclei bound 2.6–5 times less carcinogen than did diploid parenchymal nuclei. Tetraploid parenchymal nuclei bound more than twice (2.3–3.95) the amount, that was present in their diploid counterpart. This effect became more pronounced 11 days after application of N-hydroxy-N-acetyl-2-aminofluorene.DNA was enzymatically purified from pooled classes of the various nuclear types. For purified DNA also it was found that DNA derived from diploid stromal nuclei bound 2.6–2.8 times less carcinogen than did DNA derived from diploid parenchymal nuclei.     

Light dependence of sexual agglutinability in Chlamydomonas eugametos

The mating activity of mating-type plus gametes of Chlamydomonas eugametos depends on light. Cells lost their ability to agglutinate with mating-type minus gametes after a dark period of 30 min. They regained their agglutinability after 10 min exposure to light. Other mating reactions, such as tipping and flagellar tip activation, were not dependent upon light. Since cycloheximide and tunicamycin did not affect the light-induced activation of flagellar agglutinability, no protein synthesis or glycosylation is involved in this process. Equal amounts of biologically active agglutination factor could be extracted from cells placed either in light or in darkness. A minor portion of the active material was found to be located on the flagellar surface of illuminated cells. No active material was found on the flagellar surface of dark-exposed cells, whereas their cell bodies contained the same amount of active material as the cell bodies of illuminated cells. Since a light-induced flow of agglutination factors from the cell body to the flagella could not be detected and dark-exposed cells could be slightly activated by amputation or fixation by glutaraldehyde, we propose that light affects flagellar agglutinability by an in-situ modification of the agglutination factor on the flagella. When mt ⁺ and mt ^- strains were crossed and the progeny examined for light-sensitivity, it was apparent that this phenomenon is not mating type-linked.Abbreviations and symbols FTA flagellar tip activation - mt ^+/- mating type plus or minus - WGA wheat-germ agglutinin     

Inference of Chromosome-Length Haplotypes Using Genomic Data of Three or a Few More Single Gametes

Compared with genomic data of individual markers, haplotype data provide higher resolution for DNA variants, advancing our knowledge in genetics and evolution. Although many computational and experimental phasing methods have been developed for analyzing diploid genomes, it remains challenging to reconstruct chromosome-scale haplotypes at low cost, which constrains the utility of this valuable genetic resource. Gamete cells, the natural packaging of haploid complements, are ideal materials for phasing entire chromosomes because the majority of the haplotypic allele combinations has been preserved. Therefore, compared with the current diploid-based phasing methods, using haploid genomic data of single gametes may substantially reduce the complexity in inferring the donor’s chromosomal haplotypes. In this study, we developed the first easy-to-use R package, Hapi, for inferring chromosome-length haplotypes of individual diploid genomes with only a few gametes. Hapi outperformed other phasing methods when analyzing both simulated and real single gamete cell sequencing data sets. The results also suggested that chromosome-scale haplotypes may be inferred by using as few as three gametes, which has pushed the boundary to its possible limit. The single gamete cell sequencing technology allied with the cost-effective Hapi method will make large-scale haplotype-based genetic studies feasible and affordable, promoting the use of haplotype data in a wide range of research.     

Difference in Topology of Normal and Tumour Cell Membranes shown by Different Surface Distributions of Ferritin-conjugated Concanavalin A

THE observations of Burger and Goldberg¹ on the differential agglutinability of malignant cells by the saccharide-binding protein, wheat germ agglutinin (WGA), have prompted other investigators to study the nature of tumour cell surfaces using similar reagents. A variety of other plant agglutinins specifically agglutinate certain oncogenic virus-transformed cells at much lower concentrations than those required to agglutinate their normal parental lines. In addition to WGA^1,2 (specific for binding N-acetyl-D-glucosamine-like residues¹), these include concanavalin A (Con A)^3,4 (specific for binding α-D-glucose or α-D-mannose-like residues⁵), soy bean agglutinin (SBA)^6,7 (specific for binding N-acetyl-D-galactosamine and D-galactose-like residues⁶) and Ricinus communis agglutinin (specific for binding D-galactose and L-arabinose-like residues) (G. L. N. and J. Blaustein, in preparation). To explain this differential agglutinability phenomenon, Burger² proposed that the agglutinin-binding sites on normal cells could have undergone three possible types of change after transformation: (a) the normal parent cell may have no agglutinin sites and after transformation a complete de novo synthesis of agglutinin sites occurs; (b) the normal parent cell may have agglutinin sites, but not enough for agglutination and transformation results in an increase in the number of agglutinin sites; or (c) the normal parent cell agglutinin sites remain constant in number after transformation; but this process results in an exposure of “cryptic” agglutinin sites and the transformed cell is rendered agglutinable. Several workers^8,10,19 postulate a fourth type of change: (d) the normal parent cell agglutinin sites remain constant in number after transformation but the topological distribution of agglutinin sites changes to a distribution more favourable for agglutination. The first and second mechanisms have proved to be unlikely as originally suggested², because agglutinin surface receptors are present on normal cells² and they are present in the same amounts on normal or transformed cells. This latter finding has been demonstrated in saturation binding experiments using purified ¹²⁵I-labelled WGA⁸, Con A^8,9 and SBA¹⁰, with results contrary to earlier reports using ⁶³Ni-labelled Con A³.