Mitochondrial genome transmission in Chlamydomonas diploids obtained by sexual crosses and artificial fusions: Role of the mating type and of a 1 kb intron

Summary The linear mitochondrial DNAs of the two infertile algal species Chlamydomonas smithii and C. reinhardtii are co-linear with the exception of a 1 kb intron ( intron) located in the cytochrome b gene of C. smithii. C. smithii also possesses an additional HpaI restriction site (H marker) located in the COXI gene, about 5 kb from the intron. In reciprocal crosses, C. smithii (H ⁺⁺) × C. reinhardtii (H ^––), the intron is transmitted to all diploid progeny, whereas the H marker is frequently transmitted either biparentally or paternally depending on whether the C. smithii parent is maternal (mt ⁺) or paternal (mt ^–). In diploids resulting from artificial fusion between vegetative cells, the absolute transmission of a is accompanied by the frequent transmission of the H ⁺ marker, irrespective of the mating type of the parental strains. Finally, in reciprocal crosses between C. smithii (H ⁺⁺) and recombinant H ^–+ clones, the transmission of the H marker is predominantly paternal or biparental. These results allow us to conclude that (1) the a intron behaves as a group I intron whose unidirectional conversion influences the transmission of the H marker; and (2) the mt ^– paternal mitochondrial genome is transmitted more often than the mt ⁺. The mating type has no effect in diploids obtained by artificial fusion.     

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     

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     

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.)     

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.     

Genetics of CHLAMYDOMONAS REINHARDTII Diploids I. Isolation and Characterization and Meiotic Segregation Pattern of a Homozygous Diploid

A strain of Chlamydomonas reinhardtii has been investigated which, when mated with known wild-types, produces very few viable germination products and transmits its Mendelian markers to more than half of those products. Cytogenetic observations, fluorometric measurements of DNA and genetic data all suggest that the strain, d mt^-ery-M3a sr-u-1 is a stable homozygous diploid. This strain has twice as many nuclear chromatin bodies at metaphase and twice as much DNA as its haploid progenitor, and the phenotypes of its meiotic progeny are consistent with predictions based on triploid meiosis. Data from crosses involving d mt^-ery-M3a sr-u-1 and from crosses involving hybrid diploids indicate that the frequency of second division segregation increases in triploid zygotes and that mitotic segregation following triploid meiosis is a frequent event which may more often result from mitotic recombination than from chromosome loss.     

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     

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     

Genetics of CHLAMYDOMONAS REINHARDTII Diploids. II. the Effects of Diploidy and Aneuploidy on the Transmission of Non-Mendelian Markers

The transmission of two non-Mendelian drug resistance markers has been studied in crosses of Chlamydomonas reinhardtii involving diploids and aneuploids with different mating type genotypes. Under normal laboratory conditions for gametogenesis, mating and zygote maturation, the transmission pattern of the non-Mendelian markers sr-u-1 (resistance to streptomycin) and spr-u-1-27-3 (resistance to spectinomycin) is primarily determined by the mating type genotypes of the parental cells. Our results confirm and expand an earlier observation suggesting that an apparent codominant function of the female (mt⁺) allele in regulating chloroplast gene transmission in meiosis appears to be distinct and separate from its recessive function in regulating mating behavior. The chloroplast DNA complement (as indexed by the number of extranuclear DNA-containing bodies) may exert a secondary effect on the transmission of these markers. Within a mating type group (mt⁺/mt^- or mt^-/mt^-) a cell line with more chloroplast DNA tended to transmit its non-Mendelian markers more frequently than a cell line with less chloroplast DNA.     

Genetic mapping of mitochondrial markers by recombinational analysis in Chlamydomonas reinhardtii

The mitochondrial genome of Chlamydomonas reinhardtii is a 15.8 kb linear DNA molecule present in multiple copies. In crosses, the meiotic products only inherit the mitochondrial genome of the mating type minus (paternal) parent. In contrast mitotic zygotes transmit maternal and paternal mitochondrial DNA copies to their diploid progeny and recombinational events between molecules of both origins frequently occur. Six mitochondrial mutants unable to grow in the dark (dk^– mutants) were crossed in various combinations and the percentages of wild-type dk⁺ recombinants were determined in mitotic zygotes when all progeny cells had become homoplasmic for the mitochondrial genome. In crosses between strains mutated in the COB (apocytochrome ) gene and strains mutated in the COX1 (subunit 1 of cytochrome oxidase) gene, the frequency of recombination was 13.7% (± 3.2%). The corresponding physical distance between the mutation sites was 4.3 kb. In crosses between strains carrying mutations separated by about 20 bp, a recombinational frequency of 0.04% (± 0.02%) was found. Two other mutants not yet characterized at the molecular level were also used for recombinational studies. From these data, a linear genetic map of the mitochondrial genome could be drawn. This map is consistent with the positions of the mutation sites on the mitochondrial DNA molecule and thereby validates the method used to generate the map. The frequency of recombination per physical distance unit (3.2% ± 0.7% per kilobase) is compared with those obtained for other organellar genomes in yeasts and Chlamydomonas.     

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     

Concanavalin A binding to Chlamydomonas eugametos flagellar proteins and its effect on sexual reproduction

The relative amounts of Concanavalin A (Con A) bound by gamete and vegetative flagella of both mating types (mt ⁺ and mt ^-) of Chlamydomonas eugametos were determined using ¹²⁵I-Con A. Con A agglutinated all cell types by cross-linking their flagella in a random manner. No correlation was found between the extent of Con A-binding and Con A-mediated isoagglutination. Con A inhibited the sexual interaction between gametes at various levels. In mt ⁺ gametes it blocked sexual agglutination, whereas in mt ^- gametes it prevented papillar fusion. By SDS-gel electrophoresis nine Con A-binding components were found to be present in flagella. However, it was not possible to allocate a role in sexual agglutination to any of these components since they were present in all cell types, including vegetative cells which are not able to sexually agglutinate.Abbreviations Con A concanavalin A - SDS sodium dodecyl sulphate - TB Tris buffer - PBS phosphate buffered saline - HRP horse radish peroxidase - SEM scanning electron microscope - PAS periodic acid Schiff     

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)     

High transmission of paternal plastid DNA in alfalfa plants demonstrated by restriction fragment polymorphic analysis

Summary A high frequency of paternal plastid transmission occurred in progeny from crosses among normal green alfalfa plants. Plastid transmission was analyzed by hybridization of radiolabeled alfalfa plastid DNA (cpDNA) probes to Southern blots of restriction digests of the progeny DNA. Each probe revealed a specific polymorphism differentiating the parental plastid genomes. Of 212 progeny, 34 were heteroplastidic, with their cpDNAs ranging from predominantly paternal to predominantly maternal. Regrowth of shoots from heteroplasmic plants following removal of top growth revealed the persistence of mixed plastids in a given plant. However, different shoots within a green heteroplasmic plant exhibited paternal, maternal, or mixed cpDNAs. Evidence of maternal nuclear genomic influence on the frequency of paternal plastid transmission was observed in some reciprocal crosses. A few tetraploid F₁ progeny were obtained from tetraploid (2n=4x=32) Medicago sativa ssp. sativa x diploid (2n=2x=16) M. sativa ssp. falcata crosses, and resulted from unreduced gametes. Here more than the maternal genome alone apparently functioned in controlling plastid transmission. Considering all crosses, only 5 of 212 progeny cpDNAs lacked evidence of a definitive paternal plastid fragment.Contribution No. 89-524-J from the Kansas Agricultural Experiment Station, Kansas State University, Manhattan     

Sexual agglutination factor from Chlamydomonas eugametos

Chlamydomonas eugametos gametes can sexually agglutinate via their flagellar surfaces whereas vegetative cells cannot. Therefore, flagellar glycoproteins, present in gamete cells but absent from vegetative cells, were investigated as prospective mt ^-agglutination factors. They were identified as periodic acid Schiff (PAS) stained bands separated in sodium dodecyl sulphate-polyacrylamide electrophoresis gels. Gamete-specific bands were determined by comparison with equivalent gels of vegetative flagella and by immunological techniques using antisera raised against isolated mt ^- gamete flagella. Four high molecular weight flagellar glycoproteins proved to be gamete specific (PAS-1.2, PAS-1.3, PAS-3 and PAS-4). They were extracted from flagella by 3 M guanidine thiocyanate, separated in a column of Sepharose 2B, and tested for in vitro agglutination activity on mt ⁺ gametes. A single peak of activity was found to be correlated with the presence of the PAS-1.2 band. It is shown that mt ^- agglutination activity is related to the concentration of this glycoprotein in flagellar membranes.Abbreviations SDS sodium dodecyl sulphate - PAS periodic acid Schiff - GTC guanidine thiocyanate - mt ^-/+ mating type plus or minus     

An interpretation of genomic balance in seed formation in interspecific hybrids of Solanum

Summary To investigate the mechanisms of seed failure in intraspecific and interspecific crosses of Solanum two diploid, S. commersonii and Group Phureja, and one tetraploid species, S. acaule, species were crossed and the seeds were analyzed for embryo and endosperm development. Many seeds of certain crosses observed seven days after pollinations were found to contain abnormal embryos and degenerating endosperms. In some cases seeds contained an embryo with no endosperm, or an endosperm with no embryo. Other interspecific crosses which were predicted to fail actually produced seeds with normally developed embryos and endosperms. To further characterize the intra- and interspecific embryos and endosperms the nuclear DNA was measured. There are several ways to explain the ploidy levels of embryos and endosperms among the crosses, the occurrence of unreduced gametes in some cases and genomic instability in other cases. The latter resulted in chromosome loss at meiotic and mitotic divisions. Genomic balance in interspecific seeds is critical to both embryo and endosperm development.Scientific Journal Series Article No. 14636 of the Minnesota Experiment Station     

An inhibitor of cell fusion in Chlamydomonas eugametos

By a short treatment with acid of mt ^- gametes of Chlamydomonas eugametos, a factor is released which prevents gametic cell fusion, without affecting the viability of the cells. It has a very rapid action. By means of scanning electron microscopy it is shown that the factor has no influence on flagellar adhesion nor on the formation of a plasma papilla by cells of either mating type, but that it specifically inhibits the fusion of these papillae. Evidence is presented suggesting that this inhibitor has a predominant effect on mt ⁺ gametes. In cell pairs which are blocked with respect to papillar fusion, no flagellar disengagement occurs, which indicates that loss of agglutinability is a direct consequence of cell fusion.     

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.     

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.     

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.