39 results on '"Bartoš, Jan"'
Search Results
2. Which subjects contribute to the teaching of cross-curricular topic Environmental Education at elementary schools in Czechia?
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Matějček, Tomáš, Bartoš, Jan, and Kučerová, Silvie R.
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ELEMENTARY education , *ELEMENTARY schools , *ENVIRONMENTAL education , *TEACHING , *CLUSTER analysis (Statistics) - Abstract
This article summarizes the results of the research focused on the realization of the cross-curricular subject Environmental Education (CCSEE) at elementary schools (pupils' age 6-15 years) in Czechia. The introduction of cross-curricular subjects into the Czech educational system is linked to curricular reform and it has been implemented in Czech schools since 2007. CCSEE is one of the six currently implemented cross-curricular topics. The main objective of the present study is to determine which school subjects are involved in its implementation. The study was conducted through an internet questionnaire and responses were received from 640 schools. Data were processed by basic statistical methods. A school typology depending on the subjects involved in implementing EE was developed with the help of cluster analysis. The research shows that EE is implemented through most subjects, but their representation varies considerably for individual schools. [ABSTRACT FROM AUTHOR]
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- 2020
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3. The Coiled-Coil NLR Rph1, Confers Leaf Rust Resistance in Barley Cultivar Sudan.
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Dracatos, Peter Michael, Bartoš, Jan, Elmansour, Huda, Singh, Davinder, Karafiátová, Miroslava, Peng Zhang, Steuernagel, Burkhard, Svačina, Radim, Cobbin, Joanna C. A., Clark, Bethany, Hoxha, Sami, Khatkar, Mehar S., Doležel, Jaroslav, Wulff, Brande B., and Park, Robert F.
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Unraveling and exploiting mechanisms of disease resistance in cereal crops is currently limited by their large repeat-rich genomes and the lack of genetic recombination or cultivar (cv)-specific sequence information. We cloned the first leaf rust resistance gene Rph1 (Rph1.a) from cultivated barley (Hordeum vulgare) using "MutChromSeq," a recently developed molecular genomics tool for the rapid cloning of genes in plants. Marker-trait association in the CI 9214/Stirling doubled haploid population mapped Rph1 to the short arm of chromosome 2H in a physical region of 1.3 megabases relative to the barley cv Morex reference assembly. A sodium azide mutant population in cv Sudan was generated and 10 mutants were confirmed by progeny-testing. Flow-sorted 2H chromosomes from Sudan (wild type) and six of the mutants were sequenced and compared to identify candidate genes for the Rph1 locus. MutChromSeq identified a single gene candidate encoding a coiled-coil nucleotide binding site Leucine-rich repeat (NLR) receptor protein that was altered in three different mutants. Further Sanger sequencing confirmed all three mutations and identified an additional two independent mutations within the same candidate gene. Phylogenetic analysis determined that Rph1 clustered separately from all previously cloned NLRs from the Triticeae and displayed highest sequence similarity (89%) with a homolog of the Arabidopsis (Arabidopsis thaliana) disease resistance protein 1 protein in Triticum urartu. In this study we determined the molecular basis for Rph1-mediated resistance in cultivated barley enabling varietal improvement through diagnostic marker design, gene editing, and gene stacking technologies. [ABSTRACT FROM AUTHOR]
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- 2019
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4. The early impact of mixed canopies with Norway spruce, European beech and silver fir on a new forest floor.
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Špulák, Ondřej, Kacálek, Dušan, Bartoš, Jan, and Leugner, Jan
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SILVER fir , *FOREST canopies , *MIXED forests , *SOIL mineralogy , *NORWAY spruce , *BEECH , *POSIDONIA - Abstract
The character of pure or mixed forest canopies and their litterfalls contribute to different forest-floor properties. These organic layers and also subjacent topsoil were studied at three study sites covered by mixed treatments such as beech–spruce, beech–fir, spruce–fir and two monospecific beech and spruce treatments. The age of the forest stands ranged from 11 to 15 years when sampled. All study sites were used as meadows when afforested; therefore, the forest floors were new, and the A-horizon topsoil properties were not influenced by older humus inherited from previous forest generations. The mineral soil was likely affected by different levels of former fertilization, which resulted in differences among the study sites. The early-developed forest floors showed differences between the treatments with beech and the others. The topsoil below beech with spruce had more nitrogen, oxidizable carbon and cations of exchangeable hydrogen as well as pH showing more acidic conditions and lower contents and saturation of base cations. Pure beech had more phosphorus. The nutrient pools did not differ among the treatments; significantly more matter was found below the oldest stands on the first afforested site, which also increased nutrient pools. [ABSTRACT FROM AUTHOR]
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- 2023
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5. Intraspecific sequence comparisons reveal similar rates of non-collinear gene insertion in the B and D genomes of bread wheat.
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Bartoš, Jan, Vlček, Čestmír, Choulet, Fr‚d‚ric, Džunková, M ria, Cviková, Kateřina, Šafář, Jan, Šimková, Hana, Pačes, Jan, Strnad, Hynek, Sourdille, Pierre, BergŠs, H‚lŠne, Cattonaro, Federica, Feuillet, Catherine, and Doležel, Jaroslav
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PLANT genes , *LOCUS (Genetics) , *BIOLOGICAL evolution , *WHEAT , *NUCLEOTIDE sequence , *WHEAT farming - Abstract
Background: Polyploidization is considered one of the main mechanisms of plant genome evolution. The presence of multiple copies of the same gene reduces selection pressure and permits sub-functionalization and neo-functionalization leading to plant diversification, adaptation and speciation. In bread wheat, polyploidization and the prevalence of transposable elements resulted in massive gene duplication and movement. As a result, the number of genes which are non-collinear to genomes of related species seems markedly increased in wheat. Results: We used new-generation sequencing (NGS) to generate sequence of a Mb-sized region from wheat chromosome arm 3DS. Sequence assembly of 24 BAC clones resulted in two scaffolds of 1,264,820 and 333,768 bases. The sequence was annotated and compared to the homoeologous region on wheat chromosome 3B and orthologous loci of Brachypodium distachyon and rice. Among 39 coding sequences in the 3DS scaffolds, 32 have a homoeolog on chromosome 3B. In contrast, only fifteen and fourteen orthologs were identified in the corresponding regions in rice and Brachypodium, respectively. Interestingly, five pseudogenes were identified among the non-collinear coding sequences at the 3B locus, while none was found at the 3DS locus. Conclusion: Direct comparison of two Mb-sized regions of the B and D genomes of bread wheat revealed similar rates of non-collinear gene insertion in both genomes with a majority of gene duplications occurring before their divergence. Relatively low proportion of pseudogenes was identified among non-collinear coding sequences. Our data suggest that the pseudogenes did not originate from insertion of non-functional copies, but were formed later during the evolution of hexaploid wheat. Some evidence was found for gene erosion along the B genome locus. [ABSTRACT FROM AUTHOR]
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- 2012
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6. Genetic mapping of DArT markers in the Festuca- Lolium complex and their use in freezing tolerance association analysis.
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Bartoš, Jan, Sandve, Simen, Kölliker, Roland, Kopecký, David, Christelová, Pavla, Stočes, Štěpán, Østrem, Liv, Larsen, Arild, Kilian, Andrzej, Rognli, Odd-Arne, and Doležel, Jaroslav
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GENE mapping , *GENETIC markers , *FESCUE , *BRACHYPODIUM , *RICE , *CHROMOSOMES , *GENOMICS - Abstract
Species belonging to the Festuca- Lolium complex are important forage and turf species and as such, have been studied intensively. However, their out-crossing nature and limited availability of molecular markers make genetic studies difficult. Here, we report on saturation of F. pratensis and L. multiflorum genetic maps using Diversity Array Technology (DArT) markers and the DArTFest array.The 530 and 149 DArT markers were placed on genetic maps of L. multiflorum and F. pratensis, respectively, with overlap of 20 markers, which mapped in both species. The markers were sequenced and comparative sequence analysis was performed between L. multiflorum, rice and Brachypodium. The utility of the DArTFest array was then tested on a Festulolium population FuRs0357 in an integrated analysis using the DArT marker map positions to study associations between markers and freezing tolerance. Ninety six markers were significantly associated with freezing tolerance and five of these markers were genetically mapped to chromosomes 2, 4 and 7. Three genomic loci associated with freezing tolerance in the FuRs0357 population co-localized with chromosome segments and QTLs previously indentified to be associated with freezing tolerance. The present work clearly confirms the potential of the DArTFest array in genetic studies of the Festuca-Lolium complex. The annotated DArTFest array resources could accelerate further studies and improvement of desired traits in Festuca-Lolium species. [ABSTRACT FROM AUTHOR]
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- 2011
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7. Genomic constitution of Festuca × Lolium hybrids revealed by the DArTFest array.
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Kopecký, David, Bartoš, Jan, Christelová, Pavla, Černoch, Vladimír, Kilian, Andrzej, and Doležel, Jaroslav
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FESCUE , *RYEGRASSES , *COMPLEMENTATION (Genetics) , *GENETIC markers , *LOCUS (Genetics) , *PLANT identification , *GENOMICS - Abstract
Complementary attributes of Festuca and Lolium grasses can be combined in hybrid cultivars called Festuloliums, which are becoming increasingly popular fodder crops and amenity plants. Genomic constitution of commercially available Festuloliums was reported to vary from almost equal representation of parental genomes to apparent lack of one of them based on molecular cytogenetic analyses and screening with a small set of DNA markers, both approaches with limited resolution. Here, we describe the use of the DArTFest array comprising 3,884 polymorphic DArT markers for characterization of genomes in five Festulolium cultivars. In any of the cultivars, the minimum number of informative markers, which discriminated the parental Lolium and Festuca genomes was 361 and 171, respectively. Using the DArTFest array, it was possible to determine hybrid genome constitution at resolution which has never been achieved before and the analysis of a set of randomly selected plants from each cultivar provided information on genetic structure of outcrossing Festulolium cultivars. In addition to a core set of markers typical for each hybrid cultivar, markers occurring at low frequency among the plants within each cultivar were identified. Biological significance of genomic loci associated with the rare markers is yet to be determined. Finally, with the aim to simplify the use of DArTFest arrays to characterize Festuca × Lolium hybrids, various bulking strategies were compared. While all bulks were suitable for identification of hybrids, only bulks of few plants have been found to reveal the rare markers. [ABSTRACT FROM AUTHOR]
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- 2011
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8. Development and mapping of DArT markers within the Festuca--Lolium complex.
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Kopecký, David, Bartoš, Jan, Lukaszewski, Adam J., Baird, James H., Černoch, Vladimír, Kölliker, Roland, Rognli, Odd Arne, Blois, Helene, Caig, Vanessa, Lübberstedt, Thomas, Studer, Bruno, Shaw, Paul, Doležel, Jaroslav, and Kilian, Andrzej
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FESCUE , *GENETIC research , *BIOMARKERS , *GENOMES ,CULTIVATED plant genetics - Abstract
Background: Grasses are among the most important and widely cultivated plants on Earth. They provide high quality fodder for livestock, are used for turf and amenity purposes, and play a fundamental role in environment protection. Among cultivated grasses, species within the Festuca-Lolium complex predominate, especially in temperate regions. To facilitate high-throughput genome profiling and genetic mapping within the complex, we have developed a Diversity Arrays Technology (DArT) array for five grass species: F. pratensis, F. arundinacea, F. glaucescens, L. perenne and L. multiflorum. Results: The DArTFest array contains 7680 probes derived from methyl-filtered genomic representations. In a first marker discovery experiment performed on 40 genotypes from each species (with the exception of F. glaucescens for which only 7 genotypes were used), we identified 3884 polymorphic markers. The number of DArT markers identified in every single genotype varied from 821 to 1852. To test the usefulness of DArTFest array for physical mapping, DArT markers were assigned to each of the seven chromosomes of F. pratensis using single chromosome substitution lines while recombinants of F. pratensis chromosome 3 were used to allocate the markers to seven chromosome bins. Conclusion: The resources developed in this project will facilitate the development of genetic maps in Festuca and Lolium, the analysis on genetic diversity, and the monitoring of the genomic constitution of the Festuca × Lolium hybrids. They will also enable marker-assisted selection for multiple traits or for specific genome regions. [ABSTRACT FROM AUTHOR]
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- 2009
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9. Development of microsatellite markers specific for the short arm of rye ( Secale cereale L.) chromosome 1.
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Kofler, Robert, Bartoš, Jan, Li Gong, Stift, Gertraud, Suchánková, Pavla, Šimková, Hana, Berenyi, Maria, Burg, Kornel, Doležel, Jaroslav, and Lelley, Tamas
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PLANT genetics , *GENETIC research , *MICROSATELLITE repeats , *PLANT chromosomes , *TELOMERES , *GENETIC polymorphisms , *RYE - Abstract
We developed 74 microsatellite marker primer pairs yielding 76 polymorphic loci, specific for the short arm of rye chromosome 1R (1RS) in wheat background. Four libraries enriched for microsatellite motifs AG, AAG, AC and AAC were constructed from DNA of flow-sorted 1RS chromosomes and 1,290 clones were sequenced. Additionally, 2,778 BAC-end-sequences from a 1RS specific BAC library were used for microsatellite screening and marker development. From 724 designed primer pairs, 119 produced 1RS specific bands and 74 of them showed polymorphism in a set of ten rye genotypes. We show that this high attrition rate was due to the highly repetitive nature of the rye genome consisting of a large number of transposable elements. We mapped the 76 polymorphic loci physically into three regions (bins) on 1RS; 29, 30 and 17 loci were assigned to the distal, intercalary and proximal regions of the 1RS arm, respectively. The average polymorphism information content increases with distance from the centromere, which could be due to an increased recombination rate along the chromosome arm toward’s the telomere. Additionally, we demonstrate, using the data of the whole rice genome, that the intra-genomic length variation of microsatellites correlates ( r = 0.87) with microsatellite polymorphism. Based on these results we suggest that an analysis of the microsatellite length variation is conducted for each species prior to microsatellite development, provided that sufficient sequence information is available. This will allow to selectively design microsatellite markers for motifs likely to yield a high level of polymorphism. [ABSTRACT FROM AUTHOR]
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- 2008
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10. A first survey of the rye (Secale cereale) genome composition through BAC end sequencing of the short arm of chromosome IR.
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Bartoš, Jan, Paux, Etienne, Kofler, Robert, Havránková, Miroslava, Kopecký, David, Suchánková, Pavla, Šafář, Jan, Šimková, Hana, Town, Christopher D., Lelley, Tamas, Feuillet, Catherine, and Doležel, Jaroslav
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RYE , *PLANT genomes , *PLANT chromosomes , *WHEAT , *DNA - Abstract
Background: Rye (Secale cereale L.) belongs to tribe Triticeae and is an important temperate cereal. It is one of the parents of man-made species Triticale and has been used as a source of agronomically important genes for wheat improvement. The short arm of rye chromosome 1 (1RS), in particular is rich in useful genes, and as it may increase yield, protein content and resistance to biotic and abiotic stress, it has been introgressed into wheat as the 1BL.1RS translocation. A better knowledge of the rye genome could facilitate rye improvement and increase the efficiency of utilizing rye genes in wheat breeding. Results: Here, we report on BAC end sequencing of 1,536 clones from two 1RS-specific BAC libraries. We obtained 2,778 (90.4%) useful sequences with a cumulative length of 2,032,538 bp and an average read length of 732 bp. These sequences represent 0.5% of 1RS arm. The GC content of the sequenced fraction of 1RS is 45.9%, and at least 84% of the 1RS arm consists of repetitive DNA. We identified transposable element junctions in BESs and developed insertion site based polymorphism markers (ISBP). Out of the 64 primer pairs tested, 17 (26.6%) were specific for 1RS. We also identified BESs carrying microsatellites suitable for development of 1RS-specific SSR markers. Conclusion: This work demonstrates the utility of chromosome arm-specific BAC libraries for targeted analysis of large Triticeae genomes and provides new sequence data from the rye genome and molecular markers for the short arm of rye chromosome 1. [ABSTRACT FROM AUTHOR]
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- 2008
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11. Construction of a subgenomic BAC library specific for chromosomes 1D, 4D and 6D of hexaploid wheat.
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Janda, Jaroslav, Bartoš, Jan, Šfář, Jan, Kubaláková, Marie, Valárik, Miroslav, Čihalíková, Jarmila, Šimková, Hana, Caboche, Michel, Sourdille, Pierre, Bernard, Michel, Chalhoub, Boulos, and Doležel, Jaroslav
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WHEAT , *BACTERIAL artificial chromosomes , *ARTIFICIAL chromosomes , *BACTERIAL chromosomes , *CHROMOSOMES , *PLANT genetics , *GENETICS - Abstract
The analysis of the hexaploid wheat genome (Triticum aestivumL., 2n=6x=42) is hampered by its large size (16,974 Mb/1C) and presence of three homoeologous genomes (A, B and D). One of the possible strategies is a targeted approach based on subgenomic libraries of large DNA inserts. In this work, we purified by flow cytometry a total of 107 of three wheat D-genome chromosomes: 1D, 4D and 6D. Chromosomal DNA was partially digested withHindIII and used to prepare a specific bacterial artificial chromosome (BAC) library. The library (designated as TA-subD) consists of 87,168 clones, with an average insert size of 85 kb. Among these clones, 53% had inserts larger than 100 kb, only 29% of inserts being shorter than 75 kb. The coverage was estimated to be 3.4-fold, giving a 96.5% probability of identifying a clone corresponding to any sequence on the three chromosomes. Specificity for chromosomes 1D, 4D and 6D was confirmed after screening the library pools with single-locus microsatellite markers. The screening indicated that the library was not biased and gave an estimated coverage of sixfold. This is the second report on BAC library construction from flow-sorted plant chromosomes, which confirms that dissecting of the complex wheat genome and preparation of subgenomic BAC libraries is possible. Their availability should facilitate the analysis of wheat genome structure and evolution, development of cytogenetic maps, construction of local physical maps and map-based cloning of agronomically important genes. [ABSTRACT FROM AUTHOR]
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- 2004
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12. Cytonuclear interplay in auto‐ and allopolyploids: a multifaceted perspective from the Festuca‐Lolium complex.
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Shahbazi, Mehrdad, Majka, Joanna, Kubíková, Denisa, Zwierzykowski, Zbigniew, Glombik, Marek, Wendel, Jonathan F., Sharbrough, Joel, Hartmann, Stephan, Szecówka, Marek, Doležel, Jaroslav, Bartoš, Jan, Kopecký, David, and Kneřová, Jana
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CHLOROPLAST DNA , *POLYPLOIDY , *PLANT hybridization , *GENE expression , *RYEGRASSES , *PLANT evolution - Abstract
SUMMARY: Restoring cytonuclear stoichiometry is necessary after whole‐genome duplication (WGD) and interspecific/intergeneric hybridization in plants. We investigated this phenomenon in auto‐ and allopolyploids of the Festuca‐Lolium complex providing insights into the mechanisms governing cytonuclear interactions in early polyploid and hybrid generations. Our study examined the main processes potentially involved in restoring the cytonuclear balance after WGD comparing diploids and new and well‐established autopolyploids. We uncovered that both the number of chloroplasts and the number of chloroplast genome copies were significantly higher in the newly established autopolyploids and grew further in more established autopolyploids. The increase in the copy number of the chloroplast genome exceeded the rise in the number of chloroplasts and fully compensated for the doubling of the nuclear genome. In addition, changes in nuclear and organelle gene expression were insignificant. Allopolyploid Festuca × Lolium hybrids displayed potential structural conflicts in parental protein variants within the cytonuclear complexes. While biased maternal allele expression has been observed in numerous hybrids, our results suggest that its role in cytonuclear stabilization in the Festuca × Lolium hybrids is limited. This study provides insights into the restoration of the cytonuclear stoichiometry, yet it emphasizes the need for future research to explore post‐transcriptional regulation and its impact on cytonuclear gene expression stoichiometry. Our findings may enhance the understanding of polyploid plant evolution, with broader implications for the study of cytonuclear interactions in diverse biological contexts. [ABSTRACT FROM AUTHOR]
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- 2024
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13. Diethyl ether anaesthesia inhibits de‐etiolation of barley seedlings by locking them in intermediate skoto‐photomorphogenetic state.
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Pavlovič, Andrej, Kopečná, Martina, Hloušková, Lucie, Koller, Jana, Hřivňacký, Martin, Ilík, Petr, and Bartoš, Jan
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ETHER (Anesthetic) , *BARLEY , *ANESTHESIA , *SEEDLINGS , *PLANT development , *HORDEUM , *CITRUS greening disease - Abstract
Light is an essential environmental signal for plant development called photomorphogenesis. Here, we show that diethyl ether anaesthesia inhibits the de‐etiolation process in barley (Hordeum vulgare) seedlings. Illuminated seedlings exposed to diethyl ether accumulated significantly less chlorophylls and chlorophyll‐binding proteins, and exhibited reduced maximum quantum yield of photosystem II photochemistry (Fv/Fm). Although the direct effect of light necessary for the greening process, i.e. for the photoreduction of protochlorophyllide (Pchlide) to chlorophyllide (Chlide) catalysed by light‐dependent protochlorophyllide oxidoreductase A (PORA), was not inhibited, the RNA‐seq and qPCR analyses showed that light‐induced expression of photosynthesis‐associated nuclear genes (PhANGs) and genes encoding enzymes for chlorophyll biosynthesis were attenuated. On the other hand, transcription of chloroplast‐encoded genes was not negatively affected by diethyl ether treatment during greening. Among the genes negatively regulated by light, PORA and PHYA were only slightly affected by diethyl ether. The effect of diethyl ether was fully reversible and, after its removal, the greening process was fully restored. Our data indicate that diethyl ether had two effects on greening: i) it inhibited the expression of PhANGs and chlorophyll biosynthesis‐related genes irrespective of light conditions, ii) it blocked the light‐induced expression of these genes and greening process of etiolated seedlings. Our study indicates that diethyl ether affects plastid biogenesis, which alters the orchestration of negative and positive regulators affecting phytochrome and/or retrograde signalling and does not allow expression of PhANGs. Thus, the plants are locked in an intermediate skoto‐photomorphogenetic state in the light. [ABSTRACT FROM AUTHOR]
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- 2024
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14. Chromosome genomics facilitates the marker development and selection of wheat-Aegilops biuncialis addition, substitution and translocation lines.
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Farkas, András, Gaál, Eszter, Ivanizs, László, Blavet, Nicolas, Said, Mahmoud, Holušová, Kateřina, Szőke-Pázsi, Kitti, Spitkó, Tamás, Mikó, Péter, Türkösi, Edina, Kruppa, Klaudia, Kovács, Péter, Darkó, Éva, Szakács, Éva, Bartoš, Jan, Doležel, Jaroslav, and Molnár, István
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CHROMOSOMES , *GENOMICS , *CHROMOSOME abnormalities , *PLANT hybridization , *GERMPLASM , *INTROGRESSION (Genetics) , *WHEAT diseases & pests , *WHEAT - Abstract
The annual goatgrass, Aegilops biuncialis is a rich source of genes with considerable agronomic value. This genetic potential can be exploited for wheat improvement through interspecific hybridization to increase stress resistance, grain quality and adaptability. However, the low throughput of cytogenetic selection hampers the development of alien introgressions. Using the sequence of flow-sorted chromosomes of diploid progenitors, the present study enabled the development of chromosome-specific markers. In total, 482 PCR markers were validated on wheat (Mv9kr1) and Ae. biuncialis (MvGB642) crossing partners, and 126 on wheat-Aegilops additions. Thirty-two markers specific for U- or M-chromosomes were used in combination with GISH and FISH for the screening of 44 Mv9kr1 × Ae. biuncialis BC3F3 genotypes. The predominance of chromosomes 4M and 5M, as well as the presence of chromosomal aberrations, may indicate that these chromosomes have a gametocidal effect. A new wheat-Ae. biuncialis disomic 4U addition, 4M(4D) and 5M(5D) substitutions, as well as several introgression lines were selected. Spike morphology and fertility indicated that the Aegilops 4M or 5M compensated well for the loss of 4D and 5D, respectively. The new cytogenetic stocks represent valuable genetic resources for the introgression of key genes alleles into wheat. [ABSTRACT FROM AUTHOR]
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- 2023
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15. Scoring the number of B chromosomes in Zea mays L. using droplet digital PCR assay.
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Svačina, Radim, Hloušková, Lucie, Karafiátová, Miroslava, and Bartoš, Jan
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CHROMOSOMES , *CELL anatomy , *PLANT chromosomes , *DNA probes , *PLANTING , *CORN - Abstract
Background: B chromosomes are classified as dispensable genomic components tolerated by cells, which are transmitted to progeny despite providing no benefit in most cases. They have been observed in over 2800 species of plants, animals and fungi, including numerous maize accessions. As maize is one of the most important crops worldwide, research on the maize B chromosome has been pioneering in the field. The characteristic of the B chromosome is its irregular inheritance. This results in offspring with a different number of B chromosomes compared to the parents. However, the exact number of B chromosomes in the studied plants is a crucial piece of information. Currently, assessing the number of B chromosomes in maize largely depends on cytogenetic analyses, which are laborious and time-consuming. We present an alternative approach based on the droplet digital PCR technique (ddPCR), which is faster, more efficient and provides the results within one day with the same level of accuracy. Results: In this study, we report a rapid and straightforward protocol for determining the number of B chromosomes in maize plants. We developed a droplet digital PCR assay using specific primers and a TaqMan probe for the B-chromosome-linked gene and a single-copy reference gene on maize chromosome 1. The performance of the assay was successfully verified by comparison with the results of cytogenetic analyses performed in parallel. Conclusions: The protocol significantly improves the efficiency of B chromosome number assessment in maize compared to cytogenetic approaches. The assay has been developed to target conserved genomic regions and can therefore be applied to a wide range of diverged maize accessions. This universal approach can be modified for chromosome number detection in other species, not only for the B chromosome but also for any other chromosome in aneuploid constitution. [ABSTRACT FROM AUTHOR]
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- 2023
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16. Both male and female meiosis contribute to non‐Mendelian inheritance of parental chromosomes in interspecific plant hybrids (Lolium × Festuca).
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Majka, Joanna, Glombik, Marek, Doležalová, Alžběta, Kneřová, Jana, Ferreira, Marco Tulio Mendes, Zwierzykowski, Zbigniew, Duchoslav, Martin, Studer, Bruno, Doležel, Jaroslav, Bartoš, Jan, and Kopecký, David
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HEREDITY , *RYEGRASSES , *FESCUE , *PLANT chromosomes , *MEIOSIS , *GENE expression profiling - Abstract
Summary: Some interspecific plant hybrids show unequal transmission of chromosomes from parental genomes to the successive generations. It has been suggested that this is due to a differential behavior of parental chromosomes during meiosis. However, underlying mechanism is unknown.We analyzed chromosome composition of the F2 generation of Festuca × Lolium hybrids and reciprocal backcrosses to elucidate effects of male and female meiosis on the shift in parental genome composition. We studied male meiosis, including the attachment of chromosomes to the karyokinetic spindle and gene expression profiling of the kinetochore genes.We found that Lolium and Festuca homoeologues were transmitted differently to the F2 generation. Female meiosis led to the replacement of Festuca chromosomes by their Lolium counterparts. In male meiosis, Festuca univalents were attached less frequently to microtubules than Lolium univalents, lagged in divisions and formed micronuclei, which were subsequently eliminated.Genome sequence analysis revealed a number of non‐synonymous mutations between copies of the kinetochore genes from Festuca and Lolium genomes. Furthermore, we found that outer kinetochore proteins NDC80 and NNF1 were exclusively expressed from the Lolium allele. We hypothesize that silencing of Festuca alleles results in improper attachment of Festuca chromosomes to karyokinetic spindle and subsequently their gradual elimination. [ABSTRACT FROM AUTHOR]
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- 2023
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17. Evolutionary loss of light-harvesting proteins Lhcb6 and Lhcb3 in major land plant groups - break-up of current dogma.
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Kouřil, Roman, Nosek, Lukáš, Bartoš, Jan, Boekema, Egbert J., and Ilík, Petr
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PHOTOSYNTHESIS , *PROTEINS , *CHLAMYDOMONAS , *CHLAMYDOMONADACEAE , *GYMNOSPERMS - Abstract
Photosynthesis in plants and algae relies on the coordinated function of photosystems ( PS) I and II. Their efficiency is augmented by finely-tuned light-harvesting proteins (Lhcs) connected to them. The most recent Lhcs (in evolutionary terms), Lhcb6 and Lhcb3, evolved during the transition of plants from water to land and have so far been considered to be an essential characteristic of land plants., We used single particle electron microscopy and sequence analysis to study architecture and composition of PSII supercomplex from Norway spruce and related species., We have found that there are major land plant families that lack functional lhcb6 and lhcb3 genes, which notably changes the organization of PSII supercomplexes. The Lhcb6 and Lhcb3 proteins have been lost in the gymnosperm genera Picea and Pinus (family Pinaceae) and Gnetum (Gnetales). We also revealed that the absence of these proteins in Norway spruce modifies the PSII supercomplex in such a way that it resembles its counterpart in the alga Chlamydomonas reinhardtii, an evolutionarily older organism., Our results break a deep-rooted concept of Lhcb6 and Lhcb3 proteins being the essential characteristic of land plants, and beg the question of what the evolutionary benefit of their loss could be. [ABSTRACT FROM AUTHOR]
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- 2016
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18. New markers for flowering-time selection in sweet cherry.
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Holušová, Kateřina, Čmejlová, Jana, Žďárská, Ivona, Suran, Pavol, Čmejla, Radek, Sedlák, Jiří, Zelený, Lubor, and Bartoš, Jan
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SWEET cherry , *GENOME-wide association studies , *SINGLE nucleotide polymorphisms , *FLOWERING time , *CROP losses ,COLD regions - Abstract
• New markers for beginning of flowering in sweet cherry were identified. • Genome-wide association based on resequencing enabled superior marker resolution. • Single-base extension assay in one reaction developed to assist cherry breading. Sweet cherry (Prunus avium L.) is a fruit tree in the Rosaceae family grown worldwide for its tasty fruit. However, its yield may be threatened in warmer growing regions by insufficient dormancy, which usually occurs in late-blooming genotypes. Conversely, in cold regions, the yield is threatened by late spring frosts, especially for early flowering cultivars. It is therefore necessary to breed cultivars adapted to local weather conditions and avoid potential crop losses. New markers associated with the beginning of flowering were sought to enable molecular marker-assisted selection of genotypes tailored for different climatic conditions. Previously whole-genome sequenced 298 sweet cherry genotypes with nine years of phenotypic evaluation provided the basis for a genome-wide association study that allowed the identification of 163 single nucleotide polymorphisms and indels associated with flowering time, located on all sweet cherry chromosomes. This study confirmed the previously predicted polygenic basis of the trait. Three markers suitable for selection of late-blooming genotypes and one for early-blooming genotypes were selected and validated using independent 128 sweet cherry hybrids from different crossings. Individual markers for late beginning of flowering were able to select genotypes flowering at least three days after the reference (i.e. the earliest flowering) cultivar 'Kišiněvskaja'. Accumulation of preferred allele combinations for all three late-blooming markers has a synergistic effect, indicating delay of flowering 7.1 days after the reference cultivar on average. The marker for early beginning of flowering identified accessions flowering maximally five days after the earliest flowering reference cultivar 'Kišiněvskaja'. All four markers were integrated into a single base extension assay to help breeders with prediction of beginning of flowering for their breeding materials and cultivars. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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19. Variation in genome composition of blue-aleurone wheat.
- Author
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Burešová, Veronika, Kopecký, David, Bartoš, Jan, Martinek, Petr, Watanabe, Nobuyoshi, Vyhnánek, Tomáš, and Doležel, Jaroslav
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PLANT chromosomes , *PLANT translocation , *ANTHOCYANINS , *ANTIOXIDANTS , *PLANT genomes - Abstract
Key message: Different blue-aleurone wheats display major differences in chromosome composition, ranging from disomic chromosome additions, substitutions, single chromosome arm introgressions and chromosome translocation of Thinopyrum ponticum. Abstract: Anthocyanins are of great importance for human health due to their antioxidant, anti-inflammatory, anti-microbial and anti-cancerogenic potential. In common wheat ( Triticum aestivum L.) their content is low. However, elite lines with blue aleurone exhibit significantly increased levels of anthocyanins. These lines carry introgressed chromatin from wild relatives of wheat such as Thinopyrum ponticum and Triticum monococcum. The aim of our study was to characterize genomic constitutions of wheat lines with blue aleurone using genomic and fluorescence in situ hybridization. We used total genomic DNA of Th. ponticum and two repetitive DNA sequences (GAA repeat and the Afa family) as probes to identify individual chromosomes. This enabled precise localization of introgressed Th. ponticum chromatin. Our results revealed large variation in chromosome constitutions of the blue-aleurone wheats. Of 26 analyzed lines, 17 carried an introgression from Th. ponticum; the remaining nine lines presumably carry T. monococcum chromatin undetectable by the methods employed. Of the Th. ponticum introgressions, six different types were present, ranging from a ditelosomic addition (cv. Blue Norco) to a disomic substitution (cv. Blue Baart), substitution of complete (homologous) chromosome arms (line UC66049) and various translocations of distal parts of a chromosome arm(s). Different types of introgressions present support a hypothesis that the introgressions activate the blue aleurone trait present, but inactivated, in common wheat germplasm. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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20. Can a late bloomer become an early bird? Tools for flowering time adjustment.
- Author
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Milec, Zbyněk, Valárik, Miroslav, Bartoš, Jan, and Šafář, Jan
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FLOWERING time , *INFLORESCENCES , *SCIENTISTS , *ARABIDOPSIS thaliana , *ALLELES in plants , *PLANT biotechnology - Abstract
Abstract: The transition from the vegetative to reproductive stage followed by inflorescence is a critical step in plant life; therefore, studies of the genes that influence flowering time have always been of great interest to scientists. Flowering is a process controlled by many genes interacting mutually in a genetic network, and several hypothesis and models of flowering have been suggested so far. Plants in temperate climatic conditions must respond mainly to changes in the day length (photoperiod) and unfavourable winter temperatures. To avoid flowering before winter, some plants exploit a specific mechanism called vernalization. This review summarises current achievements in the study of genes controlling flowering in the dicot model species thale cress (Arabidopsis thaliana), as well as in monocot model species rice (Oryza sativa) and temperate cereals such as barley (Hordeum vulgare L.) and wheat (Triticum aestivum L.). The control of flowering in crops is an attractive target for modern plant breeding efforts aiming to prepare locally well-adapted cultivars. The recent progress in genomics revealed the importance of minor-effect genes (QTLs) and natural allelic variation of genes for fine-tuning flowering and better cultivar adaptation. We briefly describe the up-to-date technologies and approaches that scientists may employ and we also indicate how these modern biotechnological tools and “-omics” can expand our knowledge of flowering in agronomically important crops. [Copyright &y& Elsevier]
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- 2014
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21. Towards spruce-type photosystem II: consequences of the loss of light-harvesting proteins LHCB3 and LHCB6 in Arabidopsis.
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Ilíková, Iva, Ilík, Petr, Opatíková, Monika, Arshad, Rameez, Nosek, Lukáš, Karlický, Václav, Kučerová, Zuzana, Roudnický, Pavel, Pospíšil, Pavel, Lazár, Dušan, Bartoš, Jan, and Kouřil, Roman
- Abstract
The largest stable photosystem II (PSII) supercomplex in land plants (C2S2M2) consists of a core complex dimer (C2), two strongly (S2) and two moderately (M2) bound light-harvesting protein (LHCB) trimers attached to C2 via monomeric antenna proteins LHCB4-6. Recently, we have shown that LHCB3 and LHCB6, presumably essential for land plants, are missing in Norway spruce (Picea abies), which results in a unique structure of its C2S2M2 supercomplex. Here, we performed structure-function characterization of PSII supercomplexes in Arabidopsis (Arabidopsis thaliana) mutants lhcb3, lhcb6, and lhcb3 lhcb6 to examine the possibility of the formation of the "spruce-type" PSII supercomplex in angiosperms. Unlike in spruce, in Arabidopsis both LHCB3 and LHCB6 are necessary for stable binding of the M trimer to PSII core. The "spruce-type" PSII supercomplex was observed with low abundance only in the lhcb3 plants and its formation did not require the presence of LHCB4.3, the only LHCB4-type protein in spruce. Electron microscopy analysis of grana membranes revealed that the majority of PSII in lhcb6 and namely in lhcb3 lhcb6 mutants were arranged into C2S2 semi-crystalline arrays, some of which appeared to structurally restrict plastoquinone diffusion. Mutants without LHCB6 were characterized by fast induction of non-photochemical quenching and, on the contrary to the previous lhcb6 study, by only transient slowdown of electron transport between PSII and PSI. We hypothesize that these functional changes, associated with the arrangement of PSII into C2S2 arrays in thylakoids, may be important for the photoprotection of both PSI and PSII upon abrupt high-light exposure. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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22. Long‐range assembly of sequences helps to unravel the genome structure and small variation of the wheat–Haynaldia villosa translocated chromosome 6VS.6AL.
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Xing, Liping, Yuan, Lu, Lv, Zengshuai, Wang, Qiang, Yin, Chunhong, Huang, Zhenpu, Liu, Jiaqian, Cao, Shuqi, Zhang, Ruiqi, Chen, Peidu, Karafiátová, Miroslava, Vrána, Jan, Bartoš, Jan, Doležel, Jaroslav, and Cao, Aizhong
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CHROMOSOMES , *CHROMOSOME structure , *GENOMES , *MOLECULAR structure , *WHEAT breeding , *CENTROMERE , *CHROMOSOMAL translocation ,WHEAT genetics - Abstract
Summary: Genomics studies in wild species of wheat have been limited due to the lack of references; however, new technologies and bioinformatics tools have much potential to promote genomic research. The wheat–Haynaldia villosa translocation line T6VS·6AL has been widely used as a backbone parent of wheat breeding in China. Therefore, revealing the genome structure of translocation chromosome 6VS·6AL will clarify how this chromosome formed and will help to determine how it affects agronomic traits. In this study, chromosome flow sorting, NGS sequencing and Chicago long‐range linkage assembly were innovatively used to produce the assembled sequences of 6VS·6AL, and gene prediction and genome structure characterization at the molecular level were effectively performed. The analysis discovered that the short arm of 6VS·6AL was actually composed of a large distal segment of 6VS, a small proximal segment of 6AS and the centromere of 6A, while the collinear region in 6VS corresponding to 230–260 Mb of 6AS‐Ta was deleted when the recombination between 6VS and 6AS occurred. In addition to the molecular mechanism of the increased grain weight and enhanced spike length produced by the translocation chromosome, it may be correlated with missing GW2‐V and an evolved NRT‐V cluster. Moreover, a fine physical bin map of 6VS was constructed by the high‐throughput developed 6VS‐specific InDel markers and a series of newly identified small fragment translocation lines involving 6VS. This study will provide essential information for mining of new alien genes carried by the 6VS·6AL translocation chromosome. [ABSTRACT FROM AUTHOR]
- Published
- 2021
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23. Integrated physical map of bread wheat chromosome arm 7DS to facilitate gene cloning and comparative studies.
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Tulpová, Zuzana, Luo, Ming-Cheng, Toegelová, Helena, Visendi, Paul, Hayashi, Satomi, Vojta, Petr, Paux, Etienne, Kilian, Andrzej, Abrouk, Michaël, Bartoš, Jan, Hajdúch, Marián, Batley, Jacqueline, Edwards, David, Doležel, Jaroslav, and Šimková, Hana
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MOLECULAR cloning , *CHROMOSOMES , *NUCLEOTIDE sequencing , *GENOMICS , *CENTROMERE ,WHEAT genetics - Abstract
Highlights • BAC-based physical map covering 94% of bread wheat 7DS chromosome arm constructed. • 1713 markers from one RH and three high-density genetic maps integrated. • Coassembly with D-genome ancestor Aegilops tauschii enables comparative studies. • Rearrangement in 7DS pericentromere between wheat and its ancestor was revealed. Abstract Bread wheat (Triticum aestivum L.) is a staple food for a significant part of the world's population. The growing demand on its production can be satisfied by improving yield and resistance to biotic and abiotic stress. Knowledge of the genome sequence would aid in discovering genes and QTLs underlying these traits and provide a basis for genomics-assisted breeding. Physical maps and BAC clones associated with them have been valuable resources from which to generate a reference genome of bread wheat and to assist map-based gene cloning. As a part of a joint effort coordinated by the International Wheat Genome Sequencing Consortium, we have constructed a BAC-based physical map of bread wheat chromosome arm 7DS consisting of 895 contigs and covering 94% of its estimated length. By anchoring BAC contigs to one radiation hybrid map and three high resolution genetic maps, we assigned 73% of the assembly to a distinct genomic position. This map integration, interconnecting a total of 1713 markers with ordered and sequenced BAC clones from a minimal tiling path, provides a tool to speed up gene cloning in wheat. The process of physical map assembly included the integration of the 7DS physical map with a whole-genome physical map of Aegilops tauschii and a 7DS Bionano genome map, which together enabled efficient scaffolding of physical-map contigs, even in the non-recombining region of the genetic centromere. Moreover, this approach facilitated a comparison of bread wheat and its ancestor at BAC-contig level and revealed a reconstructed region in the 7DS pericentromere. [ABSTRACT FROM AUTHOR]
- Published
- 2019
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24. Transcriptome reprogramming due to the introduction of a barley telosome into bread wheat affects more barley genes than wheat.
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Rey, Elodie, Abrouk, Michael, Keeble‐Gagnère, Gabriel, Karafiátová, Miroslava, Vrána, Jan, Balzergue, Sandrine, Soubigou‐Taconnat, Ludivine, Brunaud, Véronique, Martin‐Magniette, Marie‐Laure, Endo, Takashi R., Bartoš, Jan, International Wheat Genome Sequencing Consortium (IWGSC), Appels, Rudi, and Doležel, Jaroslav
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INTROGRESSION (Genetics) , *GENETIC transcription , *DELETION mutation ,BARLEY genetics ,WHEAT genetics - Abstract
Summary: Despite a long history, the production of useful alien introgression lines in wheat remains difficult mainly due to linkage drag and incomplete genetic compensation. In addition, little is known about the molecular mechanisms underlying the impact of foreign chromatin on plant phenotype. Here, a comparison of the transcriptomes of barley, wheat and a wheat–barley 7HL addition line allowed the transcriptional impact both on 7HL genes of a non‐native genetic background and on the wheat gene complement as a result of the presence of 7HL to be assessed. Some 42% (389/923) of the 7HL genes assayed were differentially transcribed, which was the case for only 3% (960/35 301) of the wheat gene complement. The absence of any transcript in the addition line of a suite of chromosome 7A genes implied the presence of a 36 Mbp deletion at the distal end of the 7AL arm; this deletion was found to be in common across the full set of Chinese Spring/Betzes barley addition lines. The remaining differentially transcribed wheat genes were distributed across the whole genome. The up‐regulated barley genes were mostly located in the proximal part of the 7HL arm, while the down‐regulated ones were concentrated in the distal part; as a result, genes encoding basal cellular functions tended to be transcribed, while those encoding specific functions were suppressed. An insight has been gained into gene transcription in an alien introgression line, thereby providing a basis for understanding the interactions between wheat and exotic genes in introgression materials. [ABSTRACT FROM AUTHOR]
- Published
- 2018
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25. Pm21 from Haynaldia villosa Encodes a CC-NBS-LRR Protein Conferring Powdery Mildew Resistance in Wheat.
- Author
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Xing, Liping, Hu, Ping, Liu, Jiaqian, Witek, Kamil, Zhou, Shuang, Xu, Jiefei, Zhou, Weihao, Gao, Li, Huang, Zhenpu, Zhang, Ruiqi, Wang, Xiue, Chen, Peidu, Wang, Haiyan, Jones, Jonathan D.G., Karafiátová, Miroslava, Vrána, Jan, Bartoš, Jan, Doležel, Jaroslav, Tian, Yuanchun, and Wu, Yufeng
- Published
- 2018
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26. Multiple horizontal transfers of nuclear ribosomal genes between phylogenetically distinct grass lineages.
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Mahelka, Václav, Krak, Karol, Kopecký, David, Fehrer, Judith, Šafář, Jan, Bartoš, Jan, Hobza, Roman, Blavet, Nicolas, and Blattner, Frank R.
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PLANT phylogeny , *GRASSES , *LINEAGE , *HORIZONTAL gene transfer , *TRANSPOSONS , *HORDEUM , *PLANTS - Abstract
The movement of nuclear DNA from one vascular plant species to another in the absence of fertilization is thought to be rare. Here, nonnative rRNA gene [ribosomal DNA (rDNA)] copies were identified in a set of 16 diploid barley (Hordeum) species; their origin was traceable via their internal transcribed spacer (ITS) sequence to five distinct Panicoideae genera, a lineage that split from the Pooideae about 60 Mya. Phylogenetic, cytogenetic, and genomic analyses implied that the nonnative sequences were acquired between 1 and 5 Mya after a series of multiple events, with the result that some current Hordeum sp. individuals harbor up to five different panicoid rDNA units in addition to the native Hordeum rDNA copies. There was no evidence that any of the nonnative rDNA units were transcribed; some showed indications of having been silenced via pseudogenization. A single copy of a Panicum sp. rDNA unit present in H. bogdanii had been interrupted by a native transposable element and was surrounded by about 70 kbp of mostly noncoding sequence of panicoid origin. The data suggest that horizontal gene transfer between vascular plants is not a rare event, that it is not necessarily restricted to one or a few genes only, and that it can be selectively neutral. [ABSTRACT FROM AUTHOR]
- Published
- 2017
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27. Role and structural characterization of plant aldehyde dehydrogenases from family 2 and family 7.
- Author
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Končitíková, Radka, Vigouroux, Armelle, Kopečná, Martina, Andree, Tomáš, Bartoš, Jan, Šebela, Marek, Moréra, Solange, and Kopečný, David
- Subjects
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ALDEHYDE dehydrogenase , *CRYSTAL structure , *GENE expression in plants , *BENZALDEHYDE , *PHENYLPROPANOIDS , *LIPID peroxidation (Biology) , *CORN - Abstract
Aldehyde dehydrogenases (ALDHs) are responsible for oxidation of biogenic aldehyde intermediates as well as for cell detoxification of aldehydes generated during lipid peroxidation. So far, 13 ALDH families have been described in plants. In the present study, we provide a detailed biochemical characterization of plant ALDH2 and ALDH7 families by analysing maize and pea ALDH7 (ZmALDH7 and PsALDH7) and four maize cytosolic ALDH(cALDH)2 isoforms RF2C, RF2D, RF2E and RF2F [the first maize ALDH2 was discovered as a fertility restorer (RF2A)]. We report the crystal structures of ZmALDH7, RF2C and RF2F at high resolution. The ZmALDH7 structure shows that the three conserved residues Glu120, Arg300 and Thr302 in the ALDH7 family are located in the substrate-binding site and are specific to this family. Our kinetic analysis demonstrates that α-aminoadipic semialdehyde, a lysine catabolism intermediate, is the preferred substrate for plant ALDH7. In contrast, aromatic aldehydes including benzaldehyde, anisaldehyde, cinnamaldehyde, coniferaldehyde and sinapaldehyde are the best substrates for cALDH2. In line with these results, the crystal structures of RF2C and RF2F reveal that their substrate-binding sites are similar and are formed by an aromatic cluster mainly composed of phenylalanine residues and several nonpolar residues. Gene expression studies indicate that the RF2C gene, which is strongly expressed in all organs, appears essential, suggesting that the crucial role of the enzyme would certainly be linked to the cellwall formation using aldehydes from phenylpropanoid pathway as substrates. Finally, plant ALDH7 may significantly contribute to osmoprotection because it oxidizes several aminoaldehydes leading to products known as osmolytes. [ABSTRACT FROM AUTHOR]
- Published
- 2015
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28. High-throughput physical map anchoring via BAC-pool sequencing.
- Author
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Cviková, Katerina, Cattonaro, Federica, Alaux, Michael, Stein, Nils, Mayer, Klaus F. X., Doležel, Jaroslav, and Bartoš, Jan
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NUCLEOTIDE sequence , *NUCLEOTIDE sequencing , *CHROMOSOMES , *BRACHYPODIUM - Abstract
Background: Physical maps created from large insert DNA libraries, typically cloned in BAC vector, are valuable resources for map-based cloning and de novo genome sequencing. The maps are most useful if contigs of overlapping DNA clones are anchored to chromosome(s), and ordered along them using molecular markers. Here we present a novel approach for anchoring physical maps, based on sequencing three-dimensional pools of BAC clones from minimum tilling path. Results: We used physical map of wheat chromosome arm 3DS to validate the method with two different DNA sequence datasets. The first comprised 567 genes ordered along the chromosome arm based on syntenic relationship of wheat with the sequenced genomes of Brachypodium, rice and sorghum. The second dataset consisted of 7,136 SNP-containing sequences, which were mapped genetically in Aegilops tauschii, the donor of the wheat D genome. Mapping of sequence reads from individual BAC pools to the first and the second datasets enabled unambiguous anchoring 447 and 311 3DS-specific sequences, respectively, or 758 in total. Conclusions: We demonstrate the utility of the novel approach for BAC contig anchoring based on mass parallel sequencing of three-dimensional pools prepared from minimum tilling path of physical map. The existing genetic markers as well as any other DNA sequence could be mapped to BAC clones in a single in silico experiment. The approach reduces significantly the cost and time needed for anchoring and is applicable to any genomic project involving the construction of anchored physical map. [ABSTRACT FROM AUTHOR]
- Published
- 2015
- Full Text
- View/download PDF
29. Flow Sorting and Sequencing Meadow Fescue Chromosome 4F1[C][w].
- Author
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Kopecký, David, Martis, Mihaela, Číhalíková, Jarmila, Hríbová, Eva, Vrána, Jan, Bartoš, Jan, Kopecká, Jitka, Cattonaro, Federica, Stočes, Stèpán, Novák, Petr, Neumann, Pavel, Macas, Jiří, Šimková, Hana, Studer, Bruno, Asp, Torben, Baird, James H., Navrátil, Petr, Karafiátová, Miroslava, Kubaláková, Marie, and Šafár, Jan
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MEADOW fescue , *CHROMOSOMES , *IN situ hybridization , *RYEGRASSES , *GENOMES - Abstract
The analysis of large genomes is hampered by a high proportion of repetitive DNA, which makes the assembly of short sequence reads difficult. This is also the case in meadow fescue (Festuca pratensis), which is known for good abiotic stress resistance and has been used in intergeneric hybridization with ryegrasses (Lolium spp.) to produce Festulolium cultivars. In this work, we describe a new approach to analyze the large genome of meadow fescue, which involves the reduction of sample complexity without compromising information content. This is achieved by dissecting the genome to smaller parts: individual chromosomes and groups of chromosomes. As the first step, we flow sorted chromosome 4F and sequenced it by Illumina with approximately 50 × coverage. This provided, to our knowledge, the first insight into the composition of the fescue genome, enabled the construction of the virtual gene order of the chromosome, and facilitated detailed comparative analysis with the sequenced genomes of rice (Oryza sativa), Brachypodium distachyon, sorghum (Sorghum bicolor), and barley (Hordeum vulgare). Using GenomeZipper, we were able to confirm the collinearity of chromosome 4F with barley chromosome 4H and the long arm of chromosome 5H. Several new tandem repeats were identified and physically mapped using fluorescence in situ hybridization. They were found as robust cytogenetic markers for karyotyping of meadow fescue and ryegrass species and their hybrids. The ability to purify chromosome 4F opens the way for more efficient analysis of genomic loci on this chromosome underlying important traits, including freezing tolerance. Our results confirm that next-generation sequencing of flow-sorted chromosomes enables an overview of chromosome structure and evolution at a resolution never achieved before. [ABSTRACT FROM AUTHOR]
- Published
- 2013
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30. Chromosomes in the flow to simplify genome analysis.
- Author
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Doležel, Jaroslav, Vrána, Jan, Šafář, Jan, Bartoš, Jan, Kubaláková, Marie, and Šimková, Hana
- Subjects
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CHROMOSOMES , *FLUORESCENCE , *KARYOTYPES , *FLOW cytometry , *CHROMOSOMAL proteins , *ULTRASTRUCTURE (Biology) , *GENOMES - Abstract
Nuclear genomes of human, animals, and plants are organized into subunits called chromosomes. When isolated into aqueous suspension, mitotic chromosomes can be classified using flow cytometry according to light scatter and fluorescence parameters. Chromosomes of interest can be purified by flow sorting if they can be resolved from other chromosomes in a karyotype. The analysis and sorting are carried out at rates of 10-10 chromosomes per second, and for complex genomes such as wheat the flow sorting technology has been ground-breaking in reducing genome complexity for genome sequencing. The high sample rate provides an attractive approach for karyotype analysis (flow karyotyping) and the purification of chromosomes in large numbers. In characterizing the chromosome complement of an organism, the high number that can be studied using flow cytometry allows for a statistically accurate analysis. Chromosome sorting plays a particularly important role in the analysis of nuclear genome structure and the analysis of particular and aberrant chromosomes. Other attractive but not well-explored features include the analysis of chromosomal proteins, chromosome ultrastructure, and high-resolution mapping using FISH. Recent results demonstrate that chromosome flow sorting can be coupled seamlessly with DNA array and next-generation sequencing technologies for high-throughput analyses. The main advantages are targeting the analysis to a genome region of interest and a significant reduction in sample complexity. As flow sorters can also sort single copies of chromosomes, shotgun sequencing DNA amplified from them enables the production of haplotype-resolved genome sequences. This review explains the principles of flow cytometric chromosome analysis and sorting (flow cytogenetics), discusses the major uses of this technology in genome analysis, and outlines future directions. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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31. Genetic Diversity of Turf-Type Tall Fescue Using Diversity Arrays Technology.
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Baird, James H., Kopecký, David, Lukaszewski, Adam J., Green, Robert L., Bartoš, Jan, and Doleže, Jaroslav
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CULTIVARS , *GENETIC polymorphisms , *TALL fescue , *PLANT germplasm , *FORAGE plants - Abstract
Turf-type tall fescue (Festuca arundinacea Schreb.) germplasm available both commercially and in cultivar trials is surprisingly similar in quality and performance. To test genetic diversity within this germplasm, Diversity Arrays Technology (DArT) was used to detect DNA polymorphism among 93 entries from the 2006 National Turfgrass Evaluation Program tall fescue test in Riverside, CA. Based on the analysis of 190 polymorphic DArT markers, we found little variability in the turf-type cultivars. These data are in agreement with field observations showing very few distinguishable differences in turf quality among the entries, with the exception of 'Kentucky-31', a forage-type standard entry. This cultivar ranked lowest for turf quality. The 93 entries were then compared with 14 forage-type and four turf-type accessions collected worldwide, further demonstrating narrow diversity among the entries and overall lower genetic diversity among turf-types relative to forage-types. Such low genetic polymorphism of turf-type genotypes indicates a very close relationship regardless of the origin. It may have been caused by either a severe genetic bottleneck in the conversion of germplasm from forage to turfgrass use, or by extensive sharing of germplasm. This indicates an urgent need to rapidly broaden the genetic diversity in commercial germplasm of turf-type tall fescue. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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32. BAC Libraries from Wheat Chromosome 7D: Efficient Tool for Positional Cloning of Aphid Resistance Genes.
- Author
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Šimková, Hana, Šafář, Jan, Kubaláková, Marie, Suchánková, Pavla, Číhalíková, Jarmila, Robert-Quatre, Heda, Azhaguvel, Perumal, Yiqun Weng, Peng, Junhua, Lapitan, Nora L. V., Yaqin Ma, You, Frank M., Ming-Cheng Luo, Bartoš, Jan, and Doležel, Jaroslav
- Abstract
Positional cloning in bread wheat is a tedious task due to its huge genome size and hexaploid character. BAC libraries represent an essential tool for positional cloning. However, wheat BAC libraries comprise more than million clones, which makes their screening very laborious. Here, we present a targeted approach based on chromosome-specific BAC libraries. Such libraries were constructed from flow-sorted arms of wheat chromosome 7D. A library from the short arm (7DS) consisting of 49,152 clones with 113 kb insert size represented 12.1 arm equivalents whereas a library from the long arm (7DL) comprised 50,304 clones of 116 kb providing 14.9x arm coverage. The 7DS library was PCR screened with markers linked to Russian wheat aphid resistance gene DnCI2401, the 7DL library was screened by hybridization with a probe linked to greenbug resistance gene Gb3. The small number of clones combined with high coverage made the screening highly efficient and cost effective. [ABSTRACT FROM AUTHOR]
- Published
- 2011
- Full Text
- View/download PDF
33. Coupling amplified DNA from flow-sorted chromosomes to high-density SNP mapping in barley.
- Author
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Šimková, Hana, Svensson, Jan T., Condamine, Pascal, Hřibová, Eva, Suchánková, Pavla, Bhat, Prasanna R., Bartoš, Jan, Šafář, Jan, Close, Timothy J., and Doležel, Jaroslav
- Subjects
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GENE amplification , *DNA , *PLANT chromosomes , *GENETIC polymorphisms , *PLANT genomes , *PLANT gene mapping , *GENOMICS ,BARLEY genetics - Abstract
Background: Flow cytometry facilitates sorting of single chromosomes and chromosome arms which can be used for targeted genome analysis. However, the recovery of microgram amounts of DNA needed for some assays requires sorting of millions of chromosomes which is laborious and time consuming. Yet, many genomic applications such as development of genetic maps or physical mapping do not require large DNA fragments. In such cases time-consuming de novo sorting can be minimized by utilizing whole-genome amplification. Results: Here we report a protocol optimized in barley including amplification of DNA from only ten thousand chromosomes, which can be isolated in less than one hour. Flow-sorted chromosomes were treated with proteinase K and amplified using Phi29 multiple displacement amplification (MDA). Overnight amplification in a 20-microlitre reaction produced 3.7 - 5.7 micrograms DNA with a majority of products between 5 and 30 kb. To determine the purity of sorted fractions and potential amplification bias we used quantitative PCR for specific genes on each chromosome. To extend the analysis to a whole genome level we performed an oligonucleotide pool assay (OPA) for interrogation of 1524 loci, of which 1153 loci had known genetic map positions. Analysis of unamplified genomic DNA of barley cv. Akcent using this OPA resulted in 1426 markers with present calls. Comparison with three replicates of amplified genomic DNA revealed >99% concordance. DNA samples from amplified chromosome 1H and a fraction containing chromosomes 2H - 7H were examined. In addition to loci with known map positions, 349 loci with unknown map positions were included. Based on this analysis 40 new loci were mapped to 1H. Conclusion: The results indicate a significant potential of using this approach for physical mapping. Moreover, the study showed that multiple displacement amplification of flow-sorted chromosomes is highly efficient and representative which considerably expands the potential of chromosome flow sorting in plant genomics. [ABSTRACT FROM AUTHOR]
- Published
- 2008
- Full Text
- View/download PDF
34. A novel resource for genomics of Triticeae: BAC library specific for the short arm of rye (Secale cereale L.) chromosome 1R (1RS).
- Author
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Šimková, Hana, Šafář, Jan, Suchánková, Pavla, Kovářová, Pavlína, Bartoš, Jan, Kubaláková, Marie, Janda, Jaroslav, Číhalíková, Jarmila, Mago, Rohit, Lelley, Tamas, and Doležel, Jaroslav
- Subjects
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GENOMICS , *RYE , *PLANT genomes , *PLANT chromosomes , *MOLECULAR cloning - Abstract
Background: Genomics of rye (Secale cereale L.) is impeded by its large nuclear genome (1C~7,900 Mbp) with prevalence of DNA repeats (> 90%). An attractive possibility is to dissect the genome to small parts after flow sorting particular chromosomes and chromosome arms. To test this approach, we have chosen 1RS chromosome arm, which represents only 5.6% of the total rye genome. The 1RS arm is an attractive target as it carries many important genes and because it became part of the wheat gene pool as the 1BL.1RS translocation. Results: We demonstrate that it is possible to sort 1RS arm from wheat-rye ditelosomic addition line. Using this approach, we isolated over 10 million of 1RS arms using flow sorting and used their DNA to construct a 1RS-specific BAC library, which comprises 103,680 clones with average insert size of 73 kb. The library comprises two sublibraries constructed using HindIII and EcoRI and provides a deep coverage of about 14-fold of the 1RS arm (442 Mbp). We present preliminary results obtained during positional cloning of the stem rust resistance gene SrR, which confirm a potential of the library to speed up isolation of agronomically important genes by map-based cloning. Conclusion: We present a strategy that enables sorting short arms of several chromosomes of rye. Using flow-sorted chromosomes, we have constructed a deep coverage BAC library specific for the short arm of chromosome 1R (1RS). This is the first subgenomic BAC library available for rye and we demonstrate its potential for positional gene cloning. We expect that the library will facilitate development of a physical contig map of 1RS and comparative genomics of the homoeologous chromosome group 1 of wheat, barley and rye. [ABSTRACT FROM AUTHOR]
- Published
- 2008
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- View/download PDF
35. Advanced resources for plant genomics: a BAC library specific for the short arm of wheat chromosome 1B.
- Author
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Janda, Jaroslav, Šaf, Jan, Kubalákov, Marie, Bartoš, Jan, Kovářov, Pavlína, Suchánkov, Pavla, Pateyron, Stephanie, Číhalíková, Jarmila, Sourdille, Pierre, Šimkov, Hana, Faivre-Rampant, Patricia, Hřibová, Eva, Bernard, Michel, Lukaszewski, Adam, Doležel, Jaroslav, and Chalhoub, Boulos
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WHEAT , *PLANT genomes , *PLANT genetics , *PLANT chromosomes , *DNA - Abstract
Common wheat ( Triticum aestivum L., 2 n = 6 x = 42) is a polyploid species possessing one of the largest genomes among the cultivated crops (1C is approximately 17 000 Mb). The presence of three homoeologous genomes (A, B and D), and the prevalence of repetitive DNA make sequencing the wheat genome a daunting task. We have developed a novel ‘chromosome arm-based’ strategy for wheat genome sequencing to simplify this task; this relies on sub-genomic libraries of large DNA inserts. In this paper, we used a di-telosomic line of wheat to isolate six million copies of the short arm of chromosome 1B (1BS) by flow sorting. Chromosomal DNA was partially digested with HindIII and used to construct an arm-specific BAC library. The library consists of 65 280 clones with an average insert size of 82 kb. Almost half of the library (45%) has inserts larger than 100 kb, while 18% of the inserts range in size between 75 and 100 kb, and 37% are shorter than 75 kb. We estimated the chromosome arm coverage to be 14.5-fold, giving a 99.9% probability of identifying a clone corresponding to any sequence on the short arm of 1B. Each chromosome arm in wheat can be flow sorted from an appropriate cytogenetic stock, and we envisage that the availability of chromosome arm-specific BAC resources in wheat will greatly facilitate the development of ready-to-sequence physical maps and map-based gene cloning. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
36. Dissection of the nuclear genome of barley by chromosome flow sorting.
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Suchánková, Pavla, Kubaláková, Marie, Koválová, Pavlína, Bartoš, Jan, Číhalíková, Jarmila, Molnár-Láng, Márta, Endo, Takashi R., and Doležel, Jaroslav
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GENETICS , *GENOMES , *CELL nuclei , *CHROMOSOMES , *POLYMERASE chain reaction , *IN situ hybridization - Abstract
Isolation of mitotic chromosomes using flow cytometry is an attractive way to dissect nuclear genomes into their individual chromosomal components or portions of them. This approach is especially useful in plants with complex genomes, where it offers a targeted and hence economical approach to genome analysis and gene cloning. In several plant species, DNA of flow-sorted chromosomes has been used for isolation of molecular markers from specific genome regions, for physical mapping using polymerase chain reaction (PCR) and fluorescence in situ hybridization (FISH), for integration of genetic and physical maps and for construction of chromosome-specific DNA libraries, including those cloned in bacterial artificial chromosome vectors. Until now, chromosome analysis and sorting using flow cytometry (flow cytogenetics) has found little application in barley (2 n = 14, 1C ∼ 5,100 Mbp) because of the impossibility of discriminating and sorting individual chromosomes, except for the smallest chromosome 1H and some translocation chromosomes with DNA content significantly different from the remaining chromosomes. In this work, we demonstrate that wheat–barley ditelosomic addition lines can be used to sort any arm of barley chromosomes 2H–7H. Thus, the barley genome can be dissected into fractions representing only about 6–12% of the total genome. This advance makes the flow cytogenetics an attractive tool, which may greatly facilitate genome analysis and gene cloning in barley. [ABSTRACT FROM AUTHOR]
- Published
- 2006
- Full Text
- View/download PDF
37. Chromosome Sorting in Tetraploid Wheat and Its Potential for Genome Analysis.
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Kubaláková,, Marie, Kovářová, Pavlína, Suchánková, Pavla, Číhaliková, Jarmila, Bartoš, Jan, Lucretti, Sergio, Watanabe, Nobuyoshi, Kianian, Shahryar F., and Doležel, Jaroslav
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CHROMOSOMES , *WHEAT , *HETEROCHROMATIN , *CHROMATIN , *GENOMICS - Abstract
This study evaluates the potential of flow cytometry for chromosome sorting in durum wheat (Triticum turgidum Desf. var. durum, 2n = 4x = 28). Histograms of fluorescence intensity (flow karyotypes) obtained after the analysis of DAPI-stained chromosomes consisted of three peaks. Of these, one represented chromosome 3B, a small peak corresponded to chromosomes 1A and 6A, and a large peak represented the remaining 11 chromosomes. Chromosomes sorted onto microscope slides were identified after fluorescence in situ hybridization (FISH) with probes for GAA microsatellite, pSc1 19.2, and Afa repeats. Genomic distribution of these sequences was determined for the first time in durum wheat and a molecular karyotype has been developed for this crop. Flow karyotyping in double-ditelosomic lines of durum wheat revealed that the lines facilitated sorting of any arm of the wheat A- and B-genome chromosomes. Compared to hexaploid wheat, flow karyotype of durum wheat is less complex. This property results in better discrimination of telosomes and high purities in sorted fractions, ranging from 90 to 98%. We have demonstrated that large insert libraries can be created from DNA purified using flow cytometry. This study considerably expands the potential of flow cytogenetics for use in wheat genomics and opens the possibility of sequencing the genome of this important crop one chromosome arm at a time. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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38. Creation of a BAC resource to study the structure and evolution of the banana (Musa balbisiana) genome.
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Šafár, Jan, Noa-Carrazana, Juan Carlos, Vrána, Jan, Bartoš, Jan, Alkhimova, Olena, Sabau, Xavier, Šimková, Hana, Lheureux, Fabrice, Caruana, Marie-Line, Dolezel, Jaroslav, Piffanelli, Pietro, and De Jong, J. H.
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BACTERIAL artificial chromosomes , *ARTIFICIAL chromosomes , *BANANAS , *FLOW cytometry , *GENOMES - Abstract
The first bacterial artificial chromosome (BAC) library of the banana species Musa balbisiana 'Pisang Klutuk Wulung' (PKW BAC library) was constructed and characterized. One improved and one novel protocol for nuclei isolation were employed to overcome problems caused by high levels of polyphenols and polysaccharides present in leaf tissues. The use of flow cytometry to purify cell nuclei eliminated contamination with secondary metabolites and plastid DNA. Furthermore, the usefulness of the inducible pCC1BAC vector to obtain a higher amount of BAC DNA was demonstrated. The PKW BAC library represents nine haploid genome equivalents of M. balbisiana and its mean insert size is 135 kb. It consists of two sublibraries, of which the first one (SN sublibrary with 24 960 clones) was prepared according to an improved standard nuclei isolation protocol, whereas the second (FN sublibrary with 11 904 clones) was obtained from flow-sorted nuclei. Screening with 12 RFLP probes, which were genetically anchored to 8 genetic linkage groups of the banana species Musa acuminata, revealed an average of 11 BAC clones per probe, thus confirming the genome coverage estimated based on the insert size, as well as a high level of conservation between the two species of Musa. Localization of selected BAC clones to mitotic chromosomes using FISH indicated that the BAC library represented a useful resource for cytogenetic mapping. As the first step in map-based cloning of a genetic factor that is involved in the activation of integrated pararetroviral sequences of Banana streak virus (BSV), the BSV expressed locus (BEL) was physically delimited. The PKW BAC library represents a publicly available tool, and is currently used to reveal the integration and activation mechanisms of BSV sequences and to study banana genome structure and evolution. [ABSTRACT FROM AUTHOR]
- Published
- 2004
- Full Text
- View/download PDF
39. One Major Challenge of Sequencing Large Plant Genomes Is to Know How Big They Really Are.
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Doležel, Jaroslav, Čížková, Jana, Šimková, Hana, and Bartoš, Jan
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NUCLEOTIDE sequencing , *LEUCOCYTES , *COELOMOCYTES , *BLOOD cells , *GRANULOCYTES - Abstract
Any project seeking to deliver a plant or animal reference genome sequence must address the question as to the completeness of the assembly. Given the complexity introduced particularly by the presence of sequence redundancy, a problem which is especially acute in polyploid genomes, this question is not an easy one to answer. One approach is to use the sequence data, along with the appropriate computational tools, the other is to compare the estimate of genome size with an experimentally measured mass of nuclear DNA. The latter requires a reference standard in order to provide a robust relationship between the two independent measurements of genome size. Here, the proposal is to choose the human male leucocyte genome for this standard: its 1C DNA amount (the amount of DNA contained within unreplicated haploid chromosome set) of 3.50 pg is equivalent to a genome length of 3.423 Gbp, a size which is just 5% longer than predicted by the most current human genome assembly. Adopting this standard, this paper assesses the completeness of the reference genome assemblies of the leading cereal crops species wheat, barley and rye. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
- View/download PDF
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