Cytological diploidization and rapid genome changes of the newly synthesized allotetraploids <Emphasis Type="Italic">Cucumis × hytivus</Emphasis>

We used a newly synthesized allotetraploid between C. sativus (2n = 2x = 14, n gametic chromosome number, x haploid chromosome number) and C. hystrix (2n = 2x = 24) to study the genomic events in its early generations. Results from cytological characterization of the F₁ and the allotetraploid progenies showed that the rate of bivalents in meiotic metaphase I of the F₁ was greatly improved by chromosome doubling, and further improved during the selfing process of allopolyploid resulting into relatively diploid-like meiosis. Extensive genomic changes were detected by amplified fragment length polymorphism analysis. The changes mainly involved loss of parental restriction fragments and gaining of novel fragments. The total detectable changes were from 11.1 to 32.1%, and the frequency of losing parental fragments was much higher than that of gaining novel fragments. Some of the changes were initiated as early as in the F₁ hybrid, whereas others occurred after chromosome doubling (polyploid formation). No significant differences were detected in the reciprocal F₁ hybrids and S₀ generations. But the data showed that the frequency of sequence losing in C. sativus was about two times higher than in the C. hystrix. Our results demonstrated that the sequence elimination was the major event of genomic changes, and it might provide the physical basis for the diploid-like meiotic behavior in the diploidization of the newly formed allopolyploids. Moreover, the results suggest that the sequence elimination was not caused by cytoplasmic factors, and might relate to genomic recombination and to the numbers of parental chromosome.     

Evolution of rDNA in Nicotiana allopolyploids: a potential link between rDNA homogenization and epigenetics

Background: The evolution and biology of rDNA have interested biologistsfor many years, in part, because of two intriguing processes:(1) nucleolar dominance and (2) sequence homogenization. Wereview patterns of evolution in rDNA in the angiosperm genusNicotiana to determine consequences of allopolyploidy on theseprocesses. Scope: Allopolyploid species of Nicotiana are ideal for studying rDNAevolution because phylogenetic reconstruction of DNA sequenceshas revealed patterns of species divergence and their parents.From these studies we also know that polyploids formed overwidely different timeframes (thousands to millions of years),enabling comparative and temporal studies of rDNA structure,activity and chromosomal distribution. In addition studies onsynthetic polyploids enable the consequences of de novo polyploidyon rDNA activity to be determined. Conclusions: We propose that rDNA epigenetic expression patterns establishedeven in F₁ hybrids have a material influence on the likely patternsof divergence of rDNA. It is the active rDNA units that arevulnerable to homogenization, which probably acts to reducemutational load across the active array. Those rDNA units thatare epigenetically silenced may be less vulnerable to sequencehomogenization. Selection cannot act on these silenced genes,and they are likely to accumulate mutations and eventually beeliminated from the genome. It is likely that whole silencedarrays will be deleted in polyploids of 1 million years of ageand older.     

On the diploidization mechanism of the genus Aegilops: meiotic behaviour of interspecific hybrids

Chromosomal pairing of the three diploid hybrids Aegilops uniaristata × Ae. tauschii (ND), Ae. umbellulata × Ae. tauschii (UD) and Ae. comosa × Ae. uniaristata (MN), and a triploid hybrid Ae. cylindrica × Ae. caudata (DCC), was analyzed by electron microscopy in surface-spread-prophase-I nuclei and compared with light-microscopic observations of metaphase-I cells after C-banding and fluorescence in situhybridization. All hybrids showed extensive synapsis and complex multivalents in which up to 14 chromosomes were involved. In the diploid hybrids most metaphase-I chromosomal associations were between homoeologs, their frequencies being dependent on the relationship between the donor genomes. Despite the different overall bound-arm frequencies displayed by ND and MN hybrids at metaphase-I, chromosomes bearing rDNA sequences showed similar mean cell chromosomal association frequencies. In the triploid hybrid preferential associations involving C genomes were predominant. These observations are discussed in relation to the mechanism of diploidization showed by allotetraploid Aegilops species. Received: 13 January 1999 / Accepted: 12 March 1999     

Division-site selection, cell separation, and formation of anucleate minicells inSchizosaccharomyces pombe mutants resistant to cell-wall lytic enzymes

Summary In most eukaryotic organisms that have cell walls, cell separation or cytokinesis is a degradative enzymatic process. In the fission yeastSchizosaccharomyces pombe, it is a post-M-phase event that includes the degradation of part of the cell wall and the primary septum. We describe the isolation of mutants partially defective in cytokinesis by enrichment of clones resistant to cell-wall lytic enzymes. The mutations confer mycelial morphology (chains of non-separated cells) and define four genes.Sep2-SA2 was subjected to detailed genetic and cytological analysis. Its cells frequently form complex septa composed of multiple layers, which appear as twin septa separated by anucleate minicells if the cell length is extended. This suggests that a polar signal-like mechanism may also operate inS. pombe during division-site selection andsep2 ⁺ takes part in it.Sep2 ⁺ seems to be involved in several cell cycle functions because its mutation can transiently block cell-cycle progression after nuclear division and provoke a transition from haploidy to diploidy in the double mutantsep2-SA2 cexl-SA2. Cexl-SA2 is another novel mutation which causes cell-length extension.Abbreviations DAPI 4,6-diamidino-2-phenylindole - YEA yeast extract agar - YEL yeast extract liquid - SMA synthetic minimal agar - MEA malt extract agar     

Diploidization in megagametophyte-derived cultures of the gymnosperm Larix decidua

Tested haploid embryogenic lines (n=12) of Larix dedicua Mill, initiated from megagametophyte tissue were maintained on half-strength LM medium without growth regulators. The cultures were analyzed for ploidy level after 1–9 years. All lines tested were found to have doubled (2n=24) their chromosome number at the end of the experiment, though there were a few lines that still gave occasional haploid counts. Flow cytometric data of embryogenic tissue confirmed these results. Protoplasts were stained in ethidium bromide, and cultured human leucocytes and chicken erythrocytes were used as internal standards. Haploid megagametophytes from immature seeds of L. decidua and known diploid culture lines of a related hybrid (L. x eurolepis) were also analyzed by flow cytometry. Haploid reference material had 12.3–13.6 pg DNA per cell, whereas formerly haploid callus lines had an average of 25.0 pg DNA per cell. The one exception was a known, genetically unstable line of L. decidua (34.8 pg DNA per cell). The diploid cell line of L. x eurolepis had 27.6 pg DNA per cell. The results show that spontaneous diploidization of megagametophyte lines is relatively rapid and that both haploid and dihaploid lines are embryogenic in larch.     

硬粒小麦、提莫菲维小麦与四倍体长穗偃麦草属间杂种的形态和细胞遗传学研究

首次获得硬粒小麦（Triticum durum Desf),提莫菲维小麦（T.timopheevi Zhuk)与四倍体长穗偃麦草（tetraploid Elytrigia elongata)的属间杂种,杂交当代结实率分别为5．29％和1．41％,杂种均表现为多年生,具很强的生活力,形态上呈双亲中间类型,杂种F1自交不育,用普通小麦,硬粒小麦回交,以硬粒小麦为母本的F1均获得交种子,杂种F1花粉母细胞减数分裂中期I染色体配以构型分别为：13．78I＋6．87II＋0．147III,9．10I＋9．11 II＋0．20III,F1形成的二价体主要是四倍体长穗偃麦草染色体之间配对所致,并推测四倍体长穗偃麦草具促进小麦部分同源染色体配对或抑制小麦ph基因作用的特殊遗传系统。     

Molecular Phylogeny of Eupatorieae (Asteraceae) Estimated from cpDNA RFLP and its Implication for the Polyploid Origin Hypothesis of the Tribe

Neomirandea (x=17 and 25), Ageratina (x=17) and Sclerolepis (x=15) with the higher chromosome base numbers, and the other includes Mikania (x=17) and the remaining genera with lower chromosome base numbers (x=10–11). However, the monophyly of the former clade is supported with a low bootstrap value. In the latter clade, Mikania (x=17) diverged first, then Stevia (x=11), and finally eight genera with x=10 diverged in succession. This result supports the hypothesis that the genera in the tribe Eupatorieae with x =10 evolved from an ancestor with a higher base number, and the tribe is of polyploid origin. Received 13 September 1999/ Accepted in revised form 20 January 2000     

Genomic origin and organization of the allopolyploid Primula egaliksensis investigated by in situ hybridization

Background and Aims: Earlier studies have suggested that the tetraploid Primula egaliksensis(2n = 40) originated from hybridization between the diploidsP. mistassinica (2n = 18) and P. nutans (2n = 22), which werehypothesized to be the maternal and paternal parent, respectively.The present paper is aimed at verifying the hybrid nature ofP. egaliksensis using cytogenetic tools, and to investigatethe extent to which the parental genomes have undergone genomicreorganization. Methods: Genomic in situ hybridization (GISH) and fluorescent in situhybridization (FISH) with ribosomal DNA (rDNA) probes, togetherwith sequencing of the internal transcribed spacer (ITS) regionof the rDNA, were used to identify the origin of P. egaliksensisand to explore its genomic organization, particularly at rDNAloci. Key Results: GISH showed that P. egaliksensis inherited all chromosomes fromP. mistassinica and P. nutans and did not reveal major intergenomicrearrangements between the parental genomes (e.g. interchromosomaltranslocations). However, karyological comparisons and FISHexperiments suggested small-scale rearrangements, particularlyat rDNA sites. Primula egaliksensis lacked the ITS-bearing heterochromaticknobs characteristic of the maternal parent P. mistassinicaand maintained only the rDNA loci of P. nutans. These resultscorroborated sequence data indicating that most ITS sequencesof P. egaliksensis were of the paternal repeat type. Conclusions: The lack of major rearrangements may be a consequence of theconsiderable genetic divergence between the putative parents,while the rapid elimination of the ITS repeats from the maternalprogenitor may be explained by the subterminal location of ITSloci or a potential role of nucleolar dominance in chromosomestabilization. These small-scale rearrangements may be indicativeof genome diploidization, but further investigations are neededto confirm this assumption.     

Gene and genome duplication

Genomic sequencing projects have revealed the productivity of processes duplicating genes or entire chromosome segments. Substantial proportions of the yeast, Arabidopsis and human gene complements are made up of duplicates. This has prompted much interest in the processes of duplication, functional divergence and loss of genes, has renewed the debate on whether an early vertebrate genome was tetraploid, and has inspired mathematical models and algorithms in computational biology.     

三倍体和二倍体银鲫的精子发生

应用透射电子显微镜观察了行雌核发育生殖的三倍体(体细胞具有150±染色体)和二倍体 (2n=100)银鲫(Carassius auratus gibelio Bloch)的精子发生过程.两种倍性的雄性的精子发生过程中,染色体数和细胞核的体积均呈3∶2的关系;而精巢的结构、细胞的形态和细胞器的构成均无明显的区别.其精子发生经历了精原细胞、初级精母细胞、次级精母细胞和精子细胞几个阶段,精子细胞再经过精子形成过程成为精子;三倍体银鲫的精子发生与二倍体一样能正常完成减数分裂,形成形态和功能正常的雄性配子.正常的精子发生过程证明,体细胞具有150±条染色体的黑龙江银鲫是已经初步完成二倍化的三倍体,雄性个体在生殖群体中起着重要的作用;推测黑龙江银鲫的二倍体实际可能是四倍体,则三倍体的黑龙江银鲫为偶倍性的六倍体,因此其减数分裂可以正常进行,同时又经历了一定程度的二倍化,所以雄性可育,且参与繁殖后代 [动物学报 54(3):467-474,2008].