[Genetic analysis of inheritance of mei8, sy1 and sy10 mutations, disrupting the correct meiosis in the rye Secale cereale L]. / Geneticheskii analiz nasledovaniia mutatsii mei8, sy1 i sy10, narushaiushchikh pravil'nyi khod meioza u rzhi Secale cereale L.

It is shown that mutations mei8 (irregular condensation and fragmentation of meiotic chromosomes), sy1 (asynapsis), and sy10 (heterologous synapsis) of rye Secale cereal are nonallelic. In double mutants mei8 sy1 and mei8 sy10 both mutations are expressed simultaneously and independently of each other. A study of joint inheritance of mutations sy1 and sy10 revealed their interaction by means of recessive epistasis: the double mutants has the sy10 phenotype. This means that the sy10 gene controls an earlier stage of synapsis in meiotic prophase than the sy1 gene. Mutation mei8 is inherited independently of sy1 but it is linked to sy10 (recombination frequency 26.8 +/- 3.58%).

[The study of joint inheritance of mutations impairing the structure of meiotic chromosomes in rye Secale cereale L]. / Izuchenie sovmestnogo nasledovaniia mutatsii, narushaiushchikh strukturu meioticheskikh khromosom u rzhi Secale cereale L.

Genetic analysis has demonstrated that meiotic mutations mei8 (irregular condensation and fragmentation of meiotic chromosomes) and mei10 (chromosome overcompaction) are nonallelic. Mutation mei10 exhibits digenic inheritance (with a segregation ratio of 13:3) in the combinations of crosses studied. It is assumed that the phenotypic expression of mutation mei10 is suppressed by the effect of recessive gene lch1 or lch2 (long chromosomes), both of which have been revealed in one of the parental lines (Mc10). These genes determine weak condensation of meiotic chromosomes. In double mutants mei8 mei10, the mutations are expressed independently of each other. Gene mei10 is linked with gene mei8 (r = 36.8 +/- 5.38%); genes lch1 and lch2 are not linked either with them or with each other. Taking into account the data on the linkage between genes mei10 and sy10 and between mei8 and sy10, the order of genes in the linkage group is shown to the following: mei8-sy10-mei10.

[Abnormal condensation of meiotic chromosomes caused by the mei8 mutation in rye Secale cereale L]. / Narushenie kondensatsii meioticheskikh khromosom, vyzyvaemoe mutatsiei mei8 u rzhi Secale cereale L.

Inheritance of two spontaneous meiosis-specific mutations with similar cytologic phenotype was studied. Both mutations were independently obtained from two rye populations (Vyatka variety and weedy rye). Both mutations are recessive, allelic, and monogenically inherited; the corresponding gene is designated mei8. The mutant alleles of the gene cause abnormal meiotic chromosome structure expressed as irregular compaction along the chromosome length, chromatin stickiness at all stages of meiosis, and chromosome fragmentation in anaphase I.

[Genetic analysis of mutation sy2 which causes nonhomologous meiotic synapsis in chromosomes of diploid rye Secale cereale L]. / Geneticheskii analiz mutatsii sy2, vyzyvaiushchei negomologichnyi sinapsis khromosom v meioze u diploidnoi rzhi Secale cereale L..

Partially nonhomologous (heterologous) synapsis of meiotic chromosomes in a spontaneous desynaptic mutant form of rye is determined by two recessive genes, sy2a and sy2b, that have independent expression and inheritance. The third gene, dominant inhibitor suppressing the mutant phenotype, has been revealed in hybrid combinations between sy2 mutants and lines segregating other meiotic mutants: sy10 (heterologous synapsis), sy1, and sy9 (asynapsis). All three genes determining desynapsis (sy2a, sy2b, and I) were shown to be nonallelic to monogenic mutations sy10, sy1, and sy9, inherited independently of them and expressed at later stages of prophase I than the sy10 gene. The possibility of modifying monogenic segregation of mutation sy2 by gametophyte selection for a locus linked to the gene expressed as sy2 at particular frequencies of recombination between this gene and selected locus is discussed.

[The expression of mutation sy2 causing nonhomologous synapsis in meiosis of diploid rye Secale cereale L]. / Proiavlenie mutatsii sy2, vyzyvaiushchei negomologichnyi sinapsis v meioze diploidnoi rzhi Secale cereale L.

The cytological expression of spontaneous mutation sy2 isolated from a population of weedy rye was examined. It was demonstrated that the primary defect of meiosis in the mutant plants is nonhomologous synapsis, which occurs simultaneously with the homologous one. An electron microscope study of the synaptonemal complex (SC) at prophase I showed synaptic abnormalities that manifested as "switches" of synapting axial elements to the nonhomologous partner and the formation of foldbacks of lateral SC elements. The sy2 mutants are characterized by one to two such events per meiosis. Nonhomologous synapsis leads to the appearance of univalents at metaphase I (on average 4.16 +/- 0.022 per meiocyte) and multivalents (on average 0.12 +/- 0.007 per meiocyte). The presence of multivalents in 12.0% of meiocytes at metaphase I may result from recombination in ectopic regions of homology. It is suggested that the sy2 mutation impairs a component of the system that limits synapsis in meiocytes to only homologous chromosome pairs.

Nuclear dispositions of subtelomeric and pericentromeric chromosomal domains during meiosis in asynaptic mutants of rye (Secale cereale L.).

The nuclear dispositions of subtelomeric and pericentromeric domains in pollen mother cells (PMCs) were tracked during meiosis in wildtype and two asynaptic mutants of rye (Secale cereale L.) by means of fluorescence in situ hybridization (FISH). Homozygotes for sy1 and sy9 non-allelic mutations form axial elements during leptotene of male meiosis, but fail to form synaptonemal complexes. Consequently, recombination is severely impaired, and high univalency is observed at metaphase I. Simultaneous FISH with pSc200 subtelomeric tandem repeat and CCS1 centromeric sequence revealed that at pre-meiotic interphase the two domains are in a bipolar Rabl orientation in both the PMCs and tapetal cells. At the onset of meiotic prophase, the subtelomeric regions in PMCs of wildtype and sy9 cluster into a typical bouquet conformation. The timing of this event in rye is comparable with that in wheat, and is earlier than that observed in other organisms, such as maize, yeast and mammals. This arrangement is retained until later in leptotene and zygotene when the pericentromeric domains disperse and the subtelomeric clusters fragment. The mutant phenotype of sy9 manifests itself during leptotene to zygotene, when the pericentromeric regions become distinctly more distended than in wildtype, and largely fail to pair during zygotene. This indicates that difference in the nature or timing of chromosome condensation in this region is the cause or consequence of asynapsis. By contrast, sy1 fails to form comparable aggregates of subtelomeric regions at leptotene in only half of the nuclei studied. Instead, two to five aggregates are formed that fail to disperse at later stages of meiotic prophase. In addition, the pericentromeric regions disperse prematurely at leptotene and do not associate in pairs at any subsequent stage. It is supposed that the sy1 mutation could disrupt the nuclear disposition of centromeres and telomeres at the end of pre-meiotic interphase, which could cause, or contribute to, its asynaptic phenotype.

[Genetic control of chromosomal synapsis in Secale cereale L. rye meiosis: sy19 gene, causing heterologous synapsis]. / Geneticheskii kontrol' sinapsisa khromosom v meioze u rzhi Secale cerale L.: gen sy19, vyzyvaiushchii geterologichnyi sinapsis.

Analysis of manifestation and inheritance of a new mutation inducing irregular synapsis in rye showed that abnormal phenotype is determined by a recessive allele of the sy19 gene. In the homozygotes for this mutation, even at the light microscopic level, abnormal formation of bivalents is already observed at pachytene-diakinesis. At metaphase I, the univalent frequency varies from 0 to 14; in a few cells, multivalent associations of chromosomes, which are not clearly oriented in the spindle, are detected. Electron microscopy of synaptonemal complexes revealed both homologous and heterologous synapsis in homozygotes for sy19, namely partial loss of the ability to stringent homology search. Analysis of joint inheritance of sy19 and asynaptic sy1 mutations showed that they are nonallelic, inherited independently, and interact by recessive epistasis. The phenotype of double sy1sy19 mutants indicates that the sy19 gene conditioning heterologous synapsis operates at meiosis later than the synaptic gene sy1. The epistatic group of mutations, sy9 > sy1 > sy19 and sy3, was determined.

[The expression of Bordetella pertussis protective antigens during bacterial multiplication on a medium with a fixed chemical composition]. / Ekspressiia protektivnykh antigenov Bordetella pertussis v protsesse razmnozheniia bakterii v srede opredelennogo khimicheskogo sostava.

The possibility of obtaining native pertussis preparations with high immunobiological activity has been shown. To obtain such preparations, the use of B. pertussis selected strain, its growth under the conditions of static cultivation in a synthetic culture medium and the use of supernatants with the maximum content of protective antigens with the aim of obtaining protective complexes are necessary.