The Effect of Gametogenesis Regimes on the Chloroplast Genetic System of CHLAMYDOMONAS REINHARDTII

In Chlamydomonas reinhardtii, gamete differentiation is induced by nitrogen deprivation. While cellular nitrogen content and amount of chloroplast DNA in cells of both mating types are reduced during gametogenesis, the spontaneous transmission of paternal (mt^-) chloroplast alleles in crosses is specifically affected by the stringency of the nitrogen starvation regime used for pregrowth and gametogenesis of the mt^- parent. In all cases, reciprocal crosses yielded biparental zygospores whose clones contain predominantly cells expressing only the chloroplast alleles from the maternal (mt⁺) parent. No differences attributable to strain divergence were seen in chloroplast gene inheritance pattern, DNA content, or the relative frequency of transmission of paternal chloroplast alleles to progeny of biparental zygospores.     

Transmission of mitochondrial DNA in crosses involving diploid gametes homozygous or heterozygous for the mating-type locus in Chlamydomonas

Summary The two interfertile algal species Chlamydomonas reinhardtii and C. smithii possess physically distinct mitochondrial (mit) genomes. Recently, use was made of this difference to demonstrate that sexual zygotes transmit the mit DNA from the mating-type minus (mt ^-, or paternal) parent exclusively. Diploid clones homozygous or heterozygous for the mt locus and carrying the mit genome of either of the two species were constructed by sexual crosses or artificially induced fusions. Haploid x diploid and diploid x diploid crosses were performed in order to analyze the role of both the mt locus and ploidy on the mode of transmission of mit DNA to the meiotic progeny. The inheritance of the mit DNA was determined by use of two molecular probes which hybridize to different regions of the organelle genomes. The mt ^u+/mt ^- gametes, which behave as mt ^- in the mating reaction, usually transmit their mit genome to the meiotic progeny, as do mt ^- or mt ^-/mt ^- gametes, regardless of the ploidy of the mt ⁺ gametes. In the cross mt ⁺ x mt ⁺/mt ^- however, 2 zygospore clones (out of 14) transmitted recombinant DNA molecules containing a large segment of the C. reinhardtii mit genome and a 1 kb fragment typical of C. smithii. It can thus be concluded that, contrary to what was observed earlier for chloroplast gene transmission: (1) mt ^- is dominant to mt ⁺with regard to mit DNA transmission, and (2) nuclear ploidy has little, if any, effect on mit DNA transmission.     

The Search for Mating-Type-Limited Genes in the Homothallic Alga CHLAMYDOMONAS MONOICA

The non-Mendelian erythromycin resistance mutation ery-u1 shows bidirectional uniparental inheritance in crosses between homothallic ery-u1 and ery-u1⁺ strains of Chlamydomonas monoica . This inheritance pattern supports a general model for homothallism invoking intrastrain differentiation into opposite compatible mating types and, further, suggests that non-Mendelian inheritance is under mating-type (mt) control in C. monoica as in heterothallic species. However, the identification of genes expressed or required by one gametic cell type, but not the other, is essential to verify the existence of a regulatory mating-type locus in C. monoica and to understand its role in cell differentiation and sexual development. By screening for a shift from bidirectional to unidirectional transmission of the non-Mendelian ery-u1 marker, a mutant with an apparent mating-type-limited sexual cycle defect was obtained. The responsible mutation, mtl-1, causes a 1000-fold reduction in zygospore germination in populations homozygous for the mutant allele and, approximately, a 50% reduction in germination for heterozygous (mtl-1/mtl-1 ⁺) zygospores. By next screening for strains unable to yield any viable zygospores in a cross to mtl-1, a second putative mating-type-limited mutant, mtl-2, was obtained. The mtl-2 strain, although self-sterile, mates efficiently with mtl-2⁺ strains and shows a unidirectional uniparental pattern of inheritance for the ery-u1 cytoplasmic marker, similar to that observed for crosses involving mtl-1. Genetic analysis indicates that mtl-1 and mtl-2 define unique unlinked Mendelian loci and that the sexual cycle defects of reduced germination (mtl-1) or self-sterility (mtl-2) cosegregate with the effect on ery-u1 cytoplasmic gene transmission. By analogy to C. reinhardtii, the mtl-1 and mtl-2 phenotypes can be explained if the expression of these gene loci is limited to the mt⁺ gametic cell type, or if the wild-type alleles at these loci are required for the normal formation and/or functioning of mt ⁺ gametes only.     

Sex-specific binding and inactivation of agglutination factor in Chlamydomonas eugametos

Gametes of opposite mating type (mt ⁺ and mt ^-) of the green alga Chlamydomonas eugametos agglutinate via their flagella as a prelude to sexual fusion. To quantitate sexual agglutination, an in vitro assay has been developed using ³⁵S-labeled flagella and the isolated mt ^-agglutination factor. It is shown that not only isolated flagella, but also the mt ^-agglutination factor rapidly bind to the flagella of intact gametes of the opposite mating type. This confirms the role of the mt ^-agglutination factor in determining the sexual agglutinability of mt ^-gametes. As a function of binding, the agglutinative power of the flagella of both mating types is destroyed by a temperature-sensitive process. Likewise, the mt ^-agglutination factor can be completely inactivated.Abbreviations Mt ^+/- mating type plus or minus - PAS periodic-acid Schiff-reagent - Hepes 4-(2-hydroxyethyl)-1-piperazineethansulfonic acid - HMC buffer Hepes buffer (10 mM. pH 7.2, containing 1 mM MgCl₂ and 1 mM CaCl₂)     

Disappearance of the heteroplasmic state for chloroplast markers in zygospores of Chlamydomonas reinhardtii

In the investigations reported here, the length of zygospore incubation or “maturation” prior to the induction of meiosis was found to affect the inheritance pattern of chloroplast genes. The frequency of zygospores transmitting chloroplast alleles from both parents drops with increasing zygospore age following mating, while the frequencies of zygospores homoplasmic for maternal or paternal chloroplast alleles increase correspondingly. Since there is a negligible reduction in viability, zygospores which are initially biparental appear to become pure for the chloroplast genes from one or the other parent prior to the occurrence of cell division. These results are amplified in crosses of mt⁺ cells which have been irradiated with ultraviolet (uv) light or grown in the presence of the base analog, 5-fluorodeoxyuridine, which also perturbs maternal inheritance. Low doses of uv irradiation, applied to zygospores derived from crosses in which the maternal parent was also irradiated prior to mating, increase the biparental zygospore frequency while reducing the proportion of maternal zygospores. This indicates that at least some maternal zygospore clones are actually derived from zygospores which still contain both parental chloroplast genomes prior to the induction of germination. Thus, a subclass of zygospores must contain paternal chloroplast genomes which are either eliminated upon germination or are not expressed in the resulting zygospore clone. Tetrad analysis of biparental zygospores derived from uv-irradiated mt⁺ gametes demonstrates that the frequency of maternal chloroplast alleles in biparental zygospores decreases as they age. One result is an increase in the proportion of meiotic products homoplasmic for all paternal markers. The increased segregation of homoplasmic daughter cells during the meiotic divisions may result from a reduction in chloroplast ploidy by elimination of maternal genomes. Alternatively, it may reflect an altered ratio of maternal:paternal genomes due to continuous rounds of pairing and gene conversion between heterologous chloroplast DNAs leading to genetic drift within the DNA population of the organelle.     

Synthesis and turnover of cell body-agglutinin as a pool of flagellar surface-agglutinin inChlamydomonas reinhardii gamete

Chlamydomonas reinhardii cells were broken in a French press and the soluble fraction was tested for agglutination activity. Deflagellated cell bodies ofmt ⁺ andmt ^- gametes yielded soluble fractions that were able to isoagglutinate gametes of the opposite mating type. When the wild-type gametes of opposite mating types were mixed, the cell body-agglutinins were used up during flagellar agglutination and subsequent cell fusion. When thefus mt ⁺ andmt ^- gametes agglutinated without successive fusion, the amount of cell body-agglutinins sharply decreased, then increased and reached the premixing level: the recovery was blocked by cycloheximide. When cells were treated with EDTA or trypsin, the cell body-agglutinins as well as flagellar surface-agglutinins were completely lost without apparent loss of motility. The EDTA extract contained the same amount of agglutinins as observed in the cell bodies before extraction, and this amount was about 100 times higher than that in the EDTA extract of isolated flagella. By the addition of trypsin inhibitor, the trypsinized gametes resynthesized the cell body-agglutinins. The process was sensitive to cycloheximide in both mating type gametes and to tunicamycin inmt ⁺ gametes.Abbreviations mt ^+/- mating type plus or minus - CHI cycloheximide - TI trypsin inhibitor - TM tunicamycin     

Genetic Analysis of Mating Locus Linked Mutations in CHLAMYDOMONAS REINHARDII

The mating-type (mt) locus of Chlamydomonas reinhardii has been analyzed using four mutant strains (imp-1, imp-10, imp-11 and imp-12). All have been shown, or are shown here, to carry mutations linked to either the plus (mt⁺) or the minus (mt^-) locus, and their behavior in complementation tests has allowed us to define several distinct functions for each locus. Specifically, we propose that the mt⁺ locus contains the following genes or regulatory elements: a locus designated sfu, which is necessary for sexual fusion between gametes; a locus designated upp (uniparental plus), which controls aspects of chloroplast gene inheritance and perhaps also zygote maturation; and a locus designated sad, which functions in sexual adhesion. The mt^- locus also contains a sad locus as well as a gene or regulatory element designated mid, which is necessary for the minus dominance in mt⁺/mt^- diploids.     

ANALYSIS OF GAMETIC PROTOPLAST RELEASE IN THE CLOSTERIUM PERACEROSUM-STRIGOSUM-LITTORALE COMPLEX (CHLOROPHYTA)1

A biologically active glycoprotein (protoplast-release-inducing protein; PR-IP), which induces the release of gametic protoplasts from mating type minus (mt^-) cells of the Closterium peracerosum-strigosum-littorale complex, was prepared from a medium in which mt^- and mt⁺ cells had been previously incubated together. The process of PR-IP-inducing protoplast release was analyzed. Induction of protoplast release was dependent upon the duration of both PR-IP treatment and preincubation in nitrogen-deficient mating medium before PR-IP treatment. Low cell density in the preculture stage had a significant stimulative effect upon the induction of protoplast release. Light was necessary for protoplast release, especially just before PR-IP treatment. Chloramphenicol and 3-(4-chlorophenyl)-1,1-dimethylurea (CMU) exerted inhibitory effects on protoplast release, especially when they were applied to the preculture stage but not when they were applied to the protoplast-releasing stage after the PR-IP treatment. We suggest that preculture at a low cell density under continuous light conditions that may cause metabolic changes in the chloroplast is a very important stage for gametic protoplast release in this Closterium.     

An antiserum against a glycoprotein functional in flagellar adhesion between Chlamydomonas eugametos gametes

Chlamydomonas eugametos gametes agglutinate sexually by their flagellar surfaces. The agglutination factor on mating type minus (mt^-) gametes is thought to be a glycoprotein named PAS-1.2. To test this idea, an antiserum was raised against purified PAS-1.2., which reacted with isolated PAS-1.2 (immunoprecipitation tests) and blocked the ability of isolated PAS-1.2 to induce sexual twitching in mt ⁺ gametes. When tested with living cells, the antiserum specifically agglutinated mt ^- gametes and induced a reaction resembling twitching. Mt ⁺ flagella were shown to bind the antiserum (indirect immunofluorescence) but much less than mt ^- gametes. Mt ^- gametes pretreated with Fab fragments of the antiserum were unable to reproduce sexually, while treated mt ⁺ gametes were unaffected. This effect presumably results from the ability of the serum to block mt ^- sexual agglutination, for mt ^- isoagglutinin was completely inactivated by the serum, while mt ⁺ isoagglutinin was unaffected. It is therefore argued that PAS-1.2 is the in vivo mt ^- agglutination factor. However it is shown that the antiserum was able to react in vitro not only with PAS-1.2 but with several other proteins in both mt ^- and mt ⁺ flagella.Abbreviations SDS sodium dodecyl sulphate - PAS periodic acid-Schiff - GTC guanidine thiocyanate - mt ^+/- mating type plus or minus - PBS phosphate buffer-saline - Fab univalent antibody fragment The investigations were supported by the Foundation for Fundamental Biological Research (BION), which is subsidized by the Netherlands Organization for the Advancement of Pure Research (Z.W.O.)     

Two tunicamycin-sensitive components involved in agglutination and fusion ofChlamydomonas reinhardtii gametes

To find out glycoproteins involved in the mating reaction ofChlamydomonas reinhardtii, the effect of tunicamycin (TM), a potent inhibitor of glycosylation of proteins, was studied. TM, when present during gametogenesis, blocked the acquisition of agglutinability ofmt ⁺ cells. TM also inhibited the recovery of agglutinability ofmt ⁺ gamete after trypsin treatment. On the contrary, TM blocked neither the acquisition of agglutination during gametogenesis ofmt ^- cells nor the recovery of their agglutinability after trypsinization. It was found, however, that the TM-treatedmt ^- gametes can agglutinate but do not fuse with non treatedmt ⁺ gametes at all. When gametes of gam-1mt ^-, a conditional mutant strain for cell fusion, were induced at non permissive temperature of 35°C and then transferred to 25°C, the ability of cell fusion was acquired after about 5 h incubation. Presence of TM completely blocked this acquisition. Based on these evidence, we conclude that at least two TM-sensitive glycoproteins are included in the mating reaction. The first component is located on the flagellar surface ofmt ⁺ gamete and responsible for agglutination withmt ^- flagella. The second component occurs on the surface ofmt ^- gamete and plays a role in the fusion withmt ⁺ gamete.Abbreviations CHI cycloheximide - mt mating type - TM tunicamycin     

LOSS OF HYBRID LETHALITY DURING BACKCROSS PROGRAMS INVOLVING CHLAMYDOMONAS EUGAMETOS AND CHLAMYDOMONAS MOEWUSII (CHLOROPHYCEAE)1

Wild-type strains of the interfertile species Chlamydomonas eugametos (UTEX 9 and 10) and Chlamydomonas moewusii (UTEX 96 and 97) male readily and reciprocally; however, considerable lethality occurs among F₁ hybrid meiotic products. We prepared two hybrid backcross lineages using C. eugametos and C. moewusii. One lineage began with the cross C. eugametos mating-type-plus (mt⁺) × C. moewusii mating-type-minus (mt^?). An F₁ mt⁺ hybrid from this cross was back-crossed to C. moewusii mt^?, and a B₁ mt⁺ hybrid was recovered. The B₁ hybrid was again backcrossed to C. moewusii mt^?, and this process was repeated through the fifth backcross. The other backcross lineage began with the reciprocal cross C. moewusii mt⁺× C. eugametos mt^? and employed C. eugametos as the recurring mt^? parent. This lineage also was continued through the fifth backcross. Meiotic product survival in the reciprocal interspecific crosses was less than 10%. In successive back-cross generations associated with both lineages, this value increased progressively to a maximum of 85–90%, the level observed for the intraspecific crosses. These results are consistent with the hypothesis that multiple genetic differences exist between C. eugametos and C. moewusii and that these are the major source of meiotic product lethality associated with the interspecific crosses. The inheritance of chloroplast genetic markers for resistance to streptomycin (sr-2) and for resistance to erythromycin (er-nM1) was also scored w the interspecific crosses and in the backcrosses. Most hybrid zygospores transmitted the resistance markers of the mt⁺ parent only, or of both parents, with the former zygospore type being more common. Although the intraspecific C. eugametos and C. moewusii crosses differ conspicuously with respect to the fraction of zygospores which transmit chloroplast genetic markers of both parents, the inheritance of chloroplast genetic markers in the interspecific crosses and backcrosses at' scribed here failed to clarify the genetic basis for this difference.     

Study of the release of cell wall degrading enzymes during adhesion of Chlamydomonas gametes

A quantitative assay for cell wall release in Chlamydomonas has been used to study the timing of release of cell wall degrading enzyme (lysin) during adhesion. Lysin activity, which shows a broad pH range and requires divalent cations, is released as a pulse within 1–2 min after mixing of mt^? and mt⁺ gametes. Thereafter, there is no further lysin release. Gametes of both mating types release the activity during aggregation with isolated gametic flagella of the opposite mating type, although mt⁺ gametes appear to release more lysin activity than mt^? gametes. Electrophoretic analysis of cell wall proteins before and after lysin degradation indicate that the major wall proteins are unchanged after wall breakdown.     

Reconstitution of biological activity in isoagglutinins fromChlamydomonas eugametos

Gametes ofChlamydomonas eugametos produce membrane vesicles, called isoagglutinins, which are shed into the culture fluid. It is assumed that they originate from the flagellar membrane for, like flagella, they can bind to the flagellar surface of gametes of the opposite mating type (mt). The composition ofmt ^- isoagglutinin was investigated with respect to this agglutinability. When the agglutination factor present on the surface ofmt ^- isoagglutinins (PAS-1.2) was removed, together with other membrane bound glycoproteins, the membrane vesicles were rendered inactive. They could be reactivated however by incubation with the extracted glycoproteins in a time-and concentration-dependent manner. The agglutination factor proved to be necessary yet sufficient in itself for the reactivation process to occur. Experiments with CsCl density gradients showed that the agglutination factor truly bound to the vesicles during reactivation. Inactivated vesicles derived frommt ⁺ gametes could be reactivated to gainmt ^- properties. Reactivation was inhibited by prior treatment with trypsin. The results indicate that the agglutination factor inmt ^- isoagglutinins is an extrinsic membrane protein bound to an intrinsic proteinaceous receptor.Abbreviations GTC guanidine thiocyanate - mt ^+/- mating type plus or minus - PAS periodic acid Schiff     

SEXUALITY AND UNIPARENTAL INHERITANCE OF CHLOROPLAST DNA IN THE ISOGAMOUS GREEN ALGA ULVA COMPRESSA (ULVOPHYCEAE)1

Ulva compressa L. is a heterothallic macroalga considered to be in the early evolutionary stage between isogamy and anisogamy. Two genetic lines of this species, each consisting of gametophytes with opposite mating types, were collected on the coasts of Ehime and Iwate prefectures: MGEC‐1 (mt⁺) and MGEC‐2 (mt^?) from Ehime, and MGEC‐5 (mt⁺) and MGEC‐6 (mt^?) from Iwate. Their relative gamete sizes (i.e., cell volumes) do not correspond to their mating types: MGEC‐6 (19.8 μm³) > MGEC‐1 (18.6 μm³) > MGEC‐5 (17.0 μm³) > MGEC‐2 (10.1 μm³). The pattern of organelle inheritance is an important sexual characteristic in many eukaryotes. We therefore investigated the relationship between gamete size and the inheritance of chloroplast DNA (cpDNA). Polymorphisms between the cpDNA of the two lines were used as markers. We found a 24 bp insertion between psbF and psbL, and the substitution of a StyI site (from C CAAGG to T CAAGG) in the intergenic region between petD and accD. Two interline crosses (MGEC‐1 × MGEC‐6 and MGEC‐2 × MGEC‐5) produced 42 and 38 zygotes, respectively. PCR and PCR–RFLP analyses showed that the cpDNA of the mt⁺ gametes was consistently inherited in both crosses. The cpDNA is inherited from one parent only, and it depends not on gamete size but on being mt⁺. The cpDNA was observed during crossing and in the zygotes 6 h after mating. In 6% of the zygotes, the cpDNA derived from the mt^? gametes disappeared 3–4 h after mating. Preferential digestion of the cpDNA in the zygote’s mt^? gamete may form the basis for uniparental inheritance of cpDNA.     

Sexual agglutination in Chlamydomonas eugametos before and after cell fusion

A new study of sexual agglutination between Chlamydomonas eugametos gametes and between vis-à-vis pairs has been made using techniques that allow one to distinguish between the flagella or cell bodies of individual mating types (mt⁺ or mt^-). It is shown that before mt⁺ and mt^- gametes fuse in pairs, their flagella, which adhere over their whole length, are maintained in a particular conformation around the mt^- cell body. In clumps of agglutinating gametes the cells are asymmetrically distributed with the mt⁺ gametes constituting the outer surface of the clumps with the mt^- gametes on the inside. The flagella are then all directed towards the middle of the clump. This orientation of the flagella is maintained for approx. 8 min after cell fusion before the vis-à-vis pair becomes motile. At this stage, all the flagellar tips are activated. The original mt⁺ flagellar tips then deactivate and swimming is resumed. The original mt^- flagella remain immotile and activated after cell fusion and eventually shorten by a third, but only 30 min or more after fusion. Motile vis-à-vis pairs eventually settle to the substrate when the gamete bodies fuse completely to form a zygote. Settling vis-à-vis pairs are attracted to those that have already settled, to glutaraldehyde-fixed pairs and to flagella isolated from mt^- gametes. They are not chemotactically attracted, rather they are weakly agglutinated. Living vis-à-vis pairs can be shown to aggregate in rows with the cell bodies lying side by side. It is argued that the flagellar agglutination sites involved in gamete recognition are also involved in vis-à-vis pair aggregationAbbreviations mt^+/- mating type plus or minus - FTA flagellar tip activation     

Purification and characterization of a pheromone that induces sexual cell division in the unicellular green alga Closterium ehrenbergii

Closterium ehrenbergii is a unicellular charophycean alga consisting of two sexes: mating type plus (mt⁺) and minus (mt^–). The sexual reproductive process consists of five steps: formation of sexual pairs, cell division of each member of a pair, formation of conjugation papillae, release of protoplasts from gametangial cells, and fusion of protoplasts to form a zygote. The second step, called sexual cell division (SCD), produces two gametangial cells from one vegetative mother cell. The SCD of mt⁺ cell is mediated by a diffusible sex pheromone, named SCD-inducing pheromone (SCD-IP). This pheromone is released from mt^– cells in the light, and the presence of mt⁺ cells stimulates its secretion from mt^– cells. SCD-IP was purified by sequential column-chromatographic fractionation from culture medium in which both mating type cells had been co-cultured. Purified SCD-IP is a glycoprotein with an apparent molecular mass of 20 kDa. The molecular mass of the SCD-IP was estimated to be 18 kDa by mass spectrometry. Amino-terminal and two internal amino acid sequences of the pheromone revealed significant similarity to another Closterium pheromone, protoplast release-inducing protein (PR-IP) inducer of Closterium peracerosum-strigosum-littorale complex (C. pslc). These two pheromones induced different morphological reactions in each Closterium species. Based on these results, the diversity of sex pheromones is discussed.     

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.     

Rearrangement of the flagellar apparatuses and eyespots of isogametes during the fertilization of the marine green alga,Monostroma nitidum (Ulvophyceae,Chlorophyta)

Behaviors of the flagellar apparatuses (flagella, basal bodies, microtubular roots, etc.), mating structures and eyespots of gametes during the fertilization of Monostroma nitidum were studied using field emission scanning electron microscopy and transmission electron microscopy. The biflagellate isogamete (mt⁺ and mt^?) mating structure has a position that is converse between mt⁺ and mt^? gametes relative to the flagellar beat plane and the eyespot. After the adhesion of mt⁺ and mt^? gametes, gamete fusion occurred between the two mating structures. The cell fusion plane expanded to the cell surface as circumscribed by 1s–2d roots in mt⁺ gamete and 1d–2s roots in the mt^? gamete. Two sets of flagellar apparatuses lay side by side in the planozygote and soon become mutually close. The no. 1 basal body of mt⁺ gamete and the no. 2 basal body of mt^? gamete rotated in a counterclockwise direction, as viewed from the cell anterior. Then, the no. 2 basal body of mt⁺ gamete and the no. 1 basal body of mt^? gamete slid into a face to face position. Finally, four flagella and basal bodies exhibited a cruciate arrangement. The basal bodies of the opposing pair (no. 1 and no. 2) were offset in a counterclockwise orientation by the basal body diameter. The 1s and 2d roots of the mt⁺ gamete lay nearly parallel to the 1d and 2s roots of the mt^? gamete, respectively, at the cell fusion plane. Because of the asymmetric localization of the mating structure, association, and subsequent rearrangement of basal bodies and microtubular roots, two eyespots lay on the same side of the planozygote. After the settlement of the planozygote, the flagellar apparatus started to disintegrate in the zygote cytoplasm.     

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.     

Biparental Inheritance of Non-Mendelian Gene Markers in CHLAMYDOMONAS MOEWUSII

The first two non-Mendelian gene mutations to be identified in Chlamydomonas moewusii are described. These putative chloroplast gene mutations include one for resistance to streptomycin (sr-nM1) and one for resistance to erythromycin (er-nM1). In one- and two-factor reciprocal crosses, usually over 90% of the germinating zygospores transmitted these mutations and their wild-type alternatives from both parents (biparental zygospores); the remaining zygospores transmitted exclusively the non-Mendelian markers of the mating-type "plus" parent. Among the biparental zygospores, a strong bias in the transmission of non-Mendelian alleles from the mating-type "plus" parent was indicated by an excess of meiotic and postmeiotic mitotic progeny that were homoplasmic for non-Mendelian alleles from this parent compared to those that were homoplasmic for the non-Mendelian alleles from the mating-type "minus" parent. At best, weak linkage was detected between the sr-nM1 and er-nM1 loci. Non-Mendelian, chloroplast gene markers in Chlamydomonas eugametos and Chlamydomonas reinhardtii showed a predominantly uniparental mode of transmission from the mating-type "plus" parent in crosses performed under the same conditions used for the C. moewusii crosses.