Chromatin organization and its interactions are essential for biological processes, such as DNA repair, transcription, and DNA replication. Detailed cytogenetics data on chromatin conformation, and the arrangement and mutual positioning of chromosome territories in interphase nuclei are still widely missing in plants. In this study, level of chromatin condensation in interphase nuclei of rice (Oryza sativa) and the distribution of chromosome territories (CTs) were analyzed. Super-resolution, stimulated emission depletion (STED) microscopy showed different levels of chromatin condensation in leaf and root interphase nuclei. 3D immuno-FISH experiments with painting probes specific to chromosomes 9 and 2 were conducted to investigate their spatial distribution in root and leaf nuclei. Six different configurations of chromosome territories, including their complete association, weak association, and complete separation, were observed in root meristematic nuclei, and four configurations were observed in leaf nuclei. The volume of CTs and frequency of their association varied between the tissue types. The frequency of association of CTs specific to chromosome 9, containing NOR region, is also affected by the activity of the 45S rDNA locus. Our data suggested that the arrangement of chromosomes in the nucleus is connected with the position and the size of the nucleolus.

• Klíčová slova
• 3D immuno-FISH, chromosome painting, chromosome territory, microscopy, rice, spatial organization,
• Publikační typ
• časopisecké články MeSH

Crested wheatgrass (Agropyron cristatum), a wild relative of wheat, is an attractive source of genes and alleles for their improvement. Its wider use is hampered by limited knowledge of its complex genome. In this work, individual chromosomes were purified by flow sorting, and DNA shotgun sequencing was performed. The annotation of chromosome-specific sequences characterized the DNA-repeat content and led to the identification of genic sequences. Among them, genic sequences homologous to genes conferring plant disease resistance and involved in plant tolerance to biotic and abiotic stress were identified. Genes belonging to the important groups for breeders involved in different functional categories were found. The analysis of the DNA-repeat content identified a new LTR element, Agrocen, which is enriched in centromeric regions. The colocalization of the element with the centromeric histone H3 variant CENH3 suggested its functional role in the grass centromere. Finally, 159 polymorphic simple-sequence-repeat (SSR) markers were identified, with 72 of them being chromosome- or chromosome-arm-specific, 16 mapping to more than one chromosome, and 71 mapping to all the Agropyron chromosomes. The markers were used to characterize orthologous relationships between A. cristatum and common wheat that will facilitate the introgression breeding of wheat using A. cristatum.

• Klíčová slova
• Agropyron cristatum, Illumina sequencing, SSR-marker development, annotation, chromosome sorting, chromosome-specific sequences,
• MeSH
• Agropyron * genetika   MeSH
• chromozomy rostlin genetika   MeSH
• odolnost vůči nemocem genetika   MeSH
• pšenice genetika   MeSH
• šlechtění rostlin MeSH
• Publikační typ
• časopisecké články MeSH

The plant nucleus plays an irreplaceable role in cellular control and regulation by auxin (indole-3-acetic acid, IAA) mainly because canonical auxin signaling takes place here. Auxin can enter the nucleus from either the endoplasmic reticulum or cytosol. Therefore, new information about the auxin metabolome (auxinome) in the nucleus can illuminate our understanding of subcellular auxin homeostasis. Different methods of nuclear isolation from various plant tissues have been described previously, but information about auxin metabolite levels in nuclei is still fragmented and insufficient. Herein, we tested several published nucleus isolation protocols based on differential centrifugation or flow cytometry. The optimized sorting protocol leading to promising yield, intactness, and purity was then combined with an ultra-sensitive mass spectrometry analysis. Using this approach, we can present the first complex report on the auxinome of isolated nuclei from cell cultures of Arabidopsis and tobacco. Moreover, our results show dynamic changes in auxin homeostasis at the intranuclear level after treatment of protoplasts with free IAA, or indole as a precursor of auxin biosynthesis. Finally, we can conclude that the methodological procedure combining flow cytometry and mass spectrometry offers new horizons for the study of auxin homeostasis at the subcellular level.

• Klíčová slova
• auxin, auxin metabolism, flow cytometry, nucleus, subcellular fractionation,
• MeSH
• Arabidopsis účinky léků   metabolismus   ultrastruktura   MeSH
• buněčné jádro účinky léků   metabolismus   ultrastruktura   MeSH
• buněčné kultury MeSH
• centrifugace metody   MeSH
• frakcionace buněk přístrojové vybavení   metody   MeSH
• hmotnostní spektrometrie MeSH
• homeostáza fyziologie   MeSH
• indoly metabolismus   farmakologie   MeSH
• kyseliny indoloctové metabolismus   MeSH
• protoplasty chemie   MeSH
• průtoková cytometrie MeSH
• regulátory růstu rostlin metabolismus   MeSH
• rostlinné buňky účinky léků   metabolismus   ultrastruktura   MeSH
• tabák účinky léků   metabolismus   ultrastruktura   MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• indole MeSH Prohlížeč
• indoly MeSH
• kyseliny indoloctové MeSH
• regulátory růstu rostlin MeSH

Interspecific hybridization represents one of the main mechanisms of plant speciation. Merging of two genomes from different subspecies, species, or even genera is frequently accompanied by whole-genome duplication (WGD). Besides its evolutionary role, interspecific hybridization has also been successfully implemented in multiple breeding programs. Interspecific hybrids combine agronomic traits of two crop species or can be used to introgress specific loci of interests, such as those for resistance against abiotic or biotic stresses. The genomes of newly established interspecific hybrids (both allopolyploids and homoploids) undergo dramatic changes, including chromosome rearrangements, amplifications of tandem repeats, activation of mobile repetitive elements, and gene expression modifications. To ensure genome stability and proper transmission of chromosomes from both parental genomes into subsequent generations, allopolyploids often evolve mechanisms regulating chromosome pairing. Such regulatory systems allow only pairing of homologous chromosomes and hamper pairing of homoeologs. Despite such regulatory systems, several hybrid examples with frequent homoeologous chromosome pairing have been reported. These reports open a way for the replacement of one parental genome by the other. In this review, we provide an overview of the current knowledge of genomic changes in interspecific homoploid and allopolyploid hybrids, with strictly homologous pairing and with relaxed pairing of homoeologs.

• Klíčová slova
• allopolyploid, chromosome pairing, fertility, genome stability, homoeologous recombination, interspecific hybridization, whole-genome duplication,
• Publikační typ
• časopisecké články MeSH
• přehledy MeSH

Using COS markers, the study reveals homeologous relationships between tetraploid Agropyron cristatum and bread wheat to support alien introgression breeding of wheat. Crested wheatgrass (Agropyron cristatum L. Gaertn.) is a wild relative of wheat that possesses many genes that are potentially useful in wheat improvement. The species comprises a complex of diploid, tetraploid and hexaploid forms. In this study, wheat-A. cristatum chromosome, telosome and translocation lines were used to characterize syntenic relationships between tetraploid A. cristatum and bread wheat. Prior to mapping COS markers, the cytogenetic stock lines were characterized for fertility and by FISH and GISH for karyotype stability. Out of 328 COS markers selected for the study, 279 consistently amplified products in tetraploid A. cristatum, and, out of these, 139 were polymorphic between tetraploid crested wheatgrass and wheat. Sixty-nine markers were found to be suitable for the detection of tetraploid A. cristatum chromosomes 1P-6P in wheat, ranging from 6 to 17 markers per chromosome. BLASTn of the source ESTs resulted in significant hits for 67 markers on the wheat pseudomolecules. Generally, COS markers of the same homeologous group were detected on similar arms in both Agropyron and wheat. However, some intragenomic duplications and chromosome rearrangements were detected in tetraploid A. cristatum. These results provide new insights into the structure and evolution of the tetraploid A. cristatum genome and will facilitate the exploitation of the wild species for introgression breeding of bread wheat.

• MeSH
• Agropyron genetika   růst a vývoj   MeSH
• chléb analýza   MeSH
• chromozomy rostlin MeSH
• genetické markery * MeSH
• genom rostlinný genetika   MeSH
• genotyp MeSH
• hybridizace genetická * MeSH
• mapování chromozomů MeSH
• pšenice genetika   růst a vývoj   MeSH
• tetraploidie * MeSH
• translokace genetická MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• genetické markery * MeSH

During interphase, the chromosomes of eukaryotes decondense and they occupy distinct regions of the nucleus, called chromosome domains or chromosome territories (CTs). In plants, the Rabl's configuration, with telomeres at one pole of nucleus and centromeres at the other, appears to be common, at least in plants with large genomes. It is unclear whether individual chromosomes of plants adopt defined, genetically determined addresses within the nucleus, as is the case in mammals. In this study, the nuclear disposition of alien rye and barley chromosomes and chromosome arm introgressions into wheat while using 3D-FISH in various somatic tissues was analyzed. All of the introgressed chromosomes showed Rabl's orientation, but their relative positions in the nuclei were less clear. While in most cases pairs of introgressed chromosomes occupied discrete positions, their association (proximity) along their entire lengths was rare, and partial association only marginally more frequent. This arrangement is relatively stable in various tissues and during various stages of the cell cycle. On the other hand, the length of a chromosome arm appears to play a role in its positioning in a nucleus: shorter chromosomes or chromosome arms tend to be located closer to the centre of the nucleus, while longer arms are more often positioned at the nuclear periphery.

• Klíčová slova
• 3D-FISH, barley, chromatin, hybrid, introgression, nucleus, rye, wheat,
• MeSH
• buněčné jádro MeSH
• chromatin genetika   MeSH
• chromozomy rostlin * MeSH
• hybridizace in situ fluorescenční * metody   MeSH
• interfáze * genetika   MeSH
• ječmen (rod) genetika   MeSH
• počítačové zpracování obrazu MeSH
• průtoková cytometrie MeSH
• pšenice genetika   MeSH
• žito genetika   MeSH
• Publikační typ
• časopisecké články MeSH
• Názvy látek
• chromatin MeSH