Your search keyword '"Majka, Maciej"' showing total 20 results

1. Dynamics of morphogen source formation in a growing tissue.

Author

Ho, Richard D. J. G., Kishi, Kasumi, Majka, Maciej, Kicheva, Anna, and Zagorski, Marcin

Subjects

NEURAL tube, MORPHOGENESIS, SPINAL cord, BIOLOGICAL systems, CONCENTRATION gradient

Abstract

A tight regulation of morphogen production is key for morphogen gradient formation and thereby for reproducible and organised organ development. Although many genetic interactions involved in the establishment of morphogen production domains are known, the biophysical mechanisms of morphogen source formation are poorly understood. Here we addressed this by focusing on the morphogen Sonic hedgehog (Shh) in the vertebrate neural tube. Shh is produced by the adjacently located notochord and by the floor plate of the neural tube. Using a data-constrained computational screen, we identified different possible mechanisms by which floor plate formation can occur, only one of which is consistent with experimental data. In this mechanism, the floor plate is established rapidly in response to Shh from the notochord and the dynamics of regulatory interactions within the neural tube. In this process, uniform activators and Shh-dependent repressors are key for establishing the floor plate size. Subsequently, the floor plate becomes insensitive to Shh and increases in size due to tissue growth, leading to scaling of the floor plate with neural tube size. In turn, this results in scaling of the Shh amplitude with tissue growth. Thus, this mechanism ensures a separation of time scales in floor plate formation, so that the floor plate domain becomes growth-dependent after an initial rapid establishment phase. Our study raises the possibility that the time scale separation between specification and growth might be a common strategy for scaling the morphogen gradient amplitude in growing organs. The model that we developed provides a new opportunity for quantitative studies of morphogen source formation in growing tissues. Author summary: As organs grow during development, molecules called morphogens instruct cells to adopt specific fates at the right place and time. Morphogens are produced in specialized source regions and spread through organs, forming gradients of concentration. How morphogen source regions form in growing organs and contribute to the establishment of morphogen gradients is poorly understood. In this study, we combine theory and experiments to investigate the formation of a key morphogen source in the developing mouse spinal cord called floor plate. Uncommitted spinal cord cells adopt floor plate identity in response to the morphogen Sonic hedgehog (Shh), which is produced by the adjacent notochord and by the floor plate cells themselves. Over time, the floor plate expands, producing more Shh. We found that in theory, the floor plate could expand by distinct mechanisms. In one scenario, Shh produced by the floor plate itself is used to convert more cells into floor plate. Alternatively, once a few cells are initially specified, the floor plate expands passively by tissue growth. Our experimental and theoretical analysis indicate that the latter scenario is the one that is relevant to the biological system. Similar temporal decoupling of specification and growth might occur in other growing organs. [ABSTRACT FROM AUTHOR]

Published

2024

2. Identification, High-Density Mapping, and Characterization of New Major Powdery Mildew Resistance Loci From the Emmer Wheat Landrace GZ1.

Author

Korchanová, Zuzana, Švec, Miroslav, Janáková, Eva, Lampar, Adam, Majka, Maciej, Holušová, Kateřina, Bonchev, Georgi, Juračka, Jakub, Cápal, Petr, and Valárik, Miroslav

Subjects

POWDERY mildew diseases, EMMER wheat, LOCUS (Genetics), MOLECULAR cloning, RECESSIVE genes, CHROMOSOMES

Abstract

Powdery mildew is one of the most devastating diseases of wheat which significantly decreases yield and quality. Identification of new sources of resistance and their implementation in breeding programs is the most effective way of disease control. Two major powdery mildew resistance loci conferring resistance to all races in seedling and adult plant stages were identified in the emmer wheat landrace GZ1. Their positions, effects, and transferability were verified using two linkage maps (1,510 codominant SNP markers) constructed from two mapping populations (276 lines in total) based on the resistant GZ1 line. The dominant resistance locus QPm.GZ1-7A was located in a 90 cM interval of chromosome 7AL and explains up to 20% of the trait variation. The recessive locus QPm.GZ1-2A , which provides total resistance, explains up to 40% of the trait variation and was located in the distal part of chromosome 2AL. The locus was saturated with 14 PCR-based markers and delimited to a 0.99 cM region which corresponds to 4.3 Mb of the cv. Zavitan reference genome and comprises 55 predicted genes with no apparent candidate for the QPm.GZ1-2A resistance gene. No recessive resistance gene or allele was located at the locus before, suggesting the presence of a new powdery mildew resistance gene in the GZ1. The mapping data and markers could be used for the implementation of the locus in breeding. Moreover, they are an ideal base for cloning and study of host–pathogen interaction pathways determined by the resistance genes. [ABSTRACT FROM AUTHOR]

Published

2022

3. Badanie typów odporności na fuzariozę kłosów u pszenżyta ozimego za pomocą markerów fenotypowych i metabolicznych.

Author

Wiśniewska, Halina, Twardawska, Adriana, Góral, Tomasz, Ochodzki, Piotr, Majka, Maciej, Kwiatek, Michał, Walentyn-Góral, Dorota, and Belter, Jolanta

Published

2021

4. Wykorzystanie markerów molekularnych i fenotypowych do identyfikacji genów odporności pszenicy na łamliwość źdźbła powodowaną przez Oculimacula yallundae i Oculimacula acuformis.

Author

Wiśniewska, Halina, Majka, Maciej, Gawłowska, Magdalena, Korbas, Marek, Twardawska, Adriana, Kwiatek, Michał, and Belter, Jolanta

Published

2021

5. Chromosome instabilities in resynthesized Brassica napus revealed by FISH.

Author

Sosnowska, Katarzyna, Majka, Maciej, Majka, Joanna, Bocianowski, Jan, Kasprowicz, Marta, Książczyk, Tomasz, Szała, Laurencja, and Cegielska-Taras, Teresa

Abstract

Brassica napus is an allopolyploid plant, derived from spontaneous hybridization between Brassica rapa and Brassica oleracea. Intensive breeding has led to a significant reduction in genetic and phenotypic diversity within this species. Newly resynthesized hybrids from progenitor species may restore some diversity in B. napus, but they often are chromosomally and phenotypically unstable. Using fluorescence in situ hybridization, we tested chromosome constitutions in a range of new allopolyploids resynthesized from various parental species. A majority of these allopolyploids were euploid, with the expected chromosome numbers and constitutions, but deviations were also identified. We detected a low level of intergenomic rearrangements in analyzed hybrids and a high level of changes in rDNA loci. Our study revealed a significant effect of maternal cross combination on loss of 35S rDNA loci, especially when B. rapa was the maternal parent. The studied lines were characterized by diversified of pollen viability. In the analyzed hybrids, the erucic acid level in the seed oil ranged from 0 to 43.4% and total glucosinolate content in seeds ranged from 24.3 to 119.2 μmol g−1. Our study shows that cytogenetic analysis of B. napus resynthesized hybrids would be useful in breeding for the selection of lines with important agricultural characters and genetically stable stock seed production. [ABSTRACT FROM AUTHOR]

Published

2020

6. Badanie typów odporności na fuzariozę kłosów u pszenżyta ozimego za pomocą markerów fenotypowych i metabolicznych.

Author

Wiśniewska, Halina, Twardawska, Adriana, Góral, Tomasz, Ochodzki, Piotr, Majka, Maciej, Walentyn-Góral, Dorota, and Belter, Jolanta

Published

2020

7. Wykorzystanie markerów molekularnych i fenotypowych do identyfikacji genów odporności pszenicy na łamliwość źdźbła powodowaną przez Oculimacula yallundae i Oculimacula acuformis.

Author

Wiśniewska, Halina, Majka, Maciej, Gawłowska, Magdalena, Korbas, Marek, Twardawska, Adriana, and Belter, Jolanta

Published

2020

8. Poszukiwanie oraz wykorzystanie markerów fenotypowych, metabolicznych i molekularnych do badania typów odporności na fuzariozę kłosów u form pszenicy o zróżnicowanej podatności.

Author

Góral, Tomasz, Wiśniewska, Halina, Czembor, Paweł, Ochodzki, Piotr, Radecka-Janusik, Magdalena, Majka, Maciej, and Przetakiewicz, Jarosław

Published

2020

9. Resistance of (Aegilops tauschii × Secale cereale) × Triticosecale Hybrids to Leaf Rust (Puccinia triticina) Determined on the Macroscopic and Microscopic Level.

Author

Majka, Maciej, Serfling, Albrecht, Czembor, Paweł, Ślusarkiewicz-Jarzina, Aurelia, Kwiatek, Michał Tomasz, Ordon, Frank, and Wiśniewska, Halina

Subjects

TRITICALE, PUCCINIA triticina

Abstract

Leaf rust caused by Puccinia triticina Eriks belongs to the most important fungal pathogens of wheat (Triticum aestivum L.) and triticale (× Triticosecale). Effective resistance to leaf rust is both, cost-effective and environmentally safe. Many wild Aegilops species carry unknown resistances against fungal diseases and are characterized by a high genetic variability. The main goal of this work was to examine the resistance of (Aegilops tauschii × Secale cereale) × Triticosecale hybrids to leaf rust in inoculation tests with different races of P. triticina. Hybrid plants were selected for the presence of 2D chromosome/s in the triticale background using fluorescence and genomic in situ hybridization. The presence of leaf rust resistance genes was confirmed with closely linked molecular markers, i.e., Xgdm35 and Xgwm296. 14 genotypes of BC2F4 – BC2F6 hybrid plants with the monosomic addition of chromosome 2D (M2DA) were analyzed together with nine control lines. Resistance was determined at the macroscopic and microscopic level at the seedling and adult plant stage (flag leaf). In general, results revealed limited resistance of hybrid plants at the seedling stage, followed by an increase of the resistance level at later stages of plant development. This indicates that respective hybrid plants may exhibit APR resistance conferred by Lr22a introgressed from Ae. tauschii. On the basis of the macroscopic and microscopic analysis, this kind of resistance turned out to be additive and race-specific. We selected four monosomic 2D addition triticale genotypes highly resistant to P. triticina infection at the two main stages of plant development. From the selected genotypes, we obtained 26 doubled haploid lines among which two lines with doubled additional chromosomes 2D of Ae. tauschii can be used for further breeding to increase leaf rust resistance of cultivated triticale. [ABSTRACT FROM AUTHOR]

Published

2018

10. Organization and evolution of two repetitive sequences, 18-24J and 12-13P, in the genome of Chenopodium (Amaranthaceae).

Author

Orzechowska, Maja, Majka, Maciej, Weiss-Schneeweiss, Hanna, Kovařík, Ales, Borowska-Zuchowska, Natalia, Kolano, Bozena, and Archambault, A.

Subjects

CHROMOSOMAL proteins, CHENOPODIUM album, POLYPLOIDY in plant chromosomes, DIPLOIDY, CYTOGENETICS, PLANT chromosomes

Abstract

Copyright of Genome is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2018

11. Karyotype reshufflings of <italic>Festuca pratensis</italic> × <italic>Lolium perenne</italic> hybrids.

Author

Majka, Joanna, Zwierzykowski, Zbigniew, Majka, Maciej, and Kosmala, Arkadiusz

Subjects

PLANT karyotypes, MEADOW fescue, LOLIUM perenne, PLANT species, RECOMBINATION hotspots, RECOMBINANT DNA

Abstract

Many different processes have an impact on the shape of plant karyotype. Recently, cytogenetic examination of Lolium species has revealed the occurrence of spontaneous fragile sites (FSs) associated with 35S rDNA regions. The FSs are defined as the chromosomal regions that are sensitive to forming gaps or breaks on chromosomes. The shape of karyotype can also be determined by interstitial telomeric sequences (ITSs), what was recognized for the first time in this paper in chromosomes of Festuca pratensis × Lolium perenne hybrids. Both FSs and ITSs can contribute to genome instabilities and chromosome rearrangements. To evaluate whether these cytogenetic phenomena have an impact on karyotype reshuffling observed in Festuca × Lolium hybrids, we examined F1F. pratensis × L. perenne plants and generated F2-F9 progeny by fluorescent in situ hybridization (FISH) using rDNA sequences, telomere and centromere probes, as well as by genomic in situ hybridization (GISH). Analyses using a combination of FISH and GISH revealed that intergenomic rearrangements did not correspond to FSs but overlapped with ITSs for several analyzed genotypes. It suggests that internal telomeric repeats can affect the shape of F. pratensis × L. perenne karyotypes. However, other factors that are involved in rearrangements and have a more crucial impact could exist, but they are still unknown. [ABSTRACT FROM AUTHOR]

Published

2018

12. Adaptation of the Pivotal-Differential Genome Pattern for the Induction of Intergenomic Chromosome Recombination in Hybrids of Synthetic Amphidiploids within Triticeae Tribe.

Author

Kwiatek, Michal T., Majka, Joanna, Majka, Maciej, Belter, Jolanta, and Wisniewska, Halina

Subjects

ALLOPOLYPLOIDY in plant chromosomes, GENETIC recombination, CHROMOSOME analysis, PLANTS

Abstract

A pivotal-differential evolution pattern is when two allopolyploids share a common genome, which is called pivotal, and differ with respect to the other genome or genomes, called differential. This feature induces the intergenomic recombination between chromosomes of differential genomes, which can lead to speciation. Our study is a cytomolecular insight into this mechanism which was adapted for the induction of intergenomic chromosome recombination in hybrids of synthetic amphidiploids Aegilops biuncialis × S. cereale (UUMMRR) and triticale (AABBRR) where R-genome was pivotal. We observed chromosome recombination events which were induced by both: (1) random chromosome fragmentation and non-homologous chromosome end joining at mitosis of root meristem cells and (2) intergenomic chromosome associations at meiosis of pollen mother cells (PMCs) of F1 hybrids. Reciprocal chromosome translocations were identified in six F1 plants and 15 plants of F2 generation using fluorescence in situ hybridization (FISH) with DNA clones (pTa-86, pTa-k374, pTa-465, pTa-535, pTa-k566, and pTa-713). We observed signals of pTa-86, pTa-535, and pTa-k566 probes in several chromosome breakpoints. The comparison of the DNA clone sequences distinguished a number of common motifs, which can be considered as characteristics of chromosome breakpoint loci. Immunodetection of synaptonemal complex proteins and genomic in situ hybridization analysis at meiosis of PMCs of F¹ hybrids showed, that the homologous pairing of pivotal R--genome chromosomes is crucial for the fertility of F1 hybrids, however, these chromosomes can be also involved in the intergeneric recombination. [ABSTRACT FROM AUTHOR]

Published

2017

13. Aegilops tauschii Accessions with Geographically Diverse Origin Show Differences in Chromosome Organization and Polymorphism of Molecular Markers Linked to Leaf Rust and Powdery Mildew Resistance Genes.

Author

Majka, Maciej, Kwiatek, Michał T., Majka, Joanna, and WisŚniewska, Halina

Subjects

GENETIC polymorphisms in plants, POWDERY mildew diseases, LEAF rust of wheat

Abstract

Aegilops tauschii (2n = 2x = 14) is a diploid wild species which is reported as a donor of the D-genome of cultivated bread wheat. The main goal of this study was to examine the differences and similarities in chromosomes organization among accessions of Ae. tauschii with geographically diversed origin, which is believed as a potential source of genes, especially determining resistance to fungal diseases (i.e., leaf rust and powdery mildew) for breeding of cereals. We established and compared the fluorescence in situ hybridization patterns of 21 accessions of Ae. tauschii using various repetitive sequences mainly from the BAC library of wheat cultivar Chinese Spring. Results obtained for Ae. tauschii chromosomes revealed many similarities between analyzed accessions, however, some hybridization patterns were specific for accessions, which become from cognate regions of the World. The most noticeable differences were observed for accessions from China which were characterized by presence of distinct signals of pTa-535 in the interstitial region of chromosome 3D, less intensity of pTa-86 signals in chromosome 2D, as well as lack of additional signals of pTa-86 in chromosomes 1D, 5D, or 6D. Ae. tauschii of Chinese origin appeared homogeneous and separate from landraces that originated in western Asia. Ae. tauschii chromosomes showed similar hybridization patterns to wheat D-genome chromosomes, but some differences were also observed among both species. What is more, we identified reciprocal translocation between short arm of chromosome 1D and long arm of chromosome 7D in accession with Iranian origin. High polymorphism between analyzed accessions and extensive allelic variation were revealed using molecular markers associated with resistance genes. Majority of the markers localized in chromosomes 1D and 2D showed the diversity of banding patterns between accessions. Obtained results imply, that there is a moderate or high level of polymorphism in the genome of Ae. tauschii determined by a geographical origin, which we proved by cytogenetic and molecular markers analysis. Therefore, selected accessions might constitute an accessible source of variation for improvement of Triticeae species like wheat and triticale. [ABSTRACT FROM AUTHOR]

Published

2017

14. Similarities and differences in the nuclear genome organization within Pooideae species revealed by comparative genomic in situ hybridization (GISH).

Author

Majka, Joanna, Majka, Maciej, Kwiatek, Michał, and Wiśniewska, Halina

Abstract

In this paper, we highlight the affinity between the genomes of key representatives of the Pooideae subfamily, revealed at the chromosomal level by genomic in situ hybridization (GISH). The analyses were conducted using labeled probes from each species to hybridize with chromosomes of every species used in this study based on a 'round robin' rule. As a result, the whole chromosomes or chromosome regions were distinguished or variable types of signals were visualized to prove the different levels of the relationships between genomes used in this study. We observed the unexpected lack of signals in secondary constrictions of rye (RR) chromosomes probed by triticale (AABB RR) genomic DNA. We have also identified unlabeled chromosome regions, which point to species-specific sequences connected with disparate pathways of chromosome differentiation. Our results revealed a conservative character of coding sequence of 35S rDNA among selected species of the genera Aegilops, Brachypodium, Festuca, Hordeum, Lolium, Secale, and Triticum. In summary, we showed strong relationships in genomic DNA sequences between species which have been previously reported to be phylogenetically distant. [ABSTRACT FROM AUTHOR]

Published

2017

15. Gametocidal Factor Transferred from Aegilops geniculata Roth Can Be Adapted for Large-Scale Chromosome Manipulations in Cereals.

Author

Kwiatek, Michał T., Wiśniewska, Halina, Ślusarkiewicz-Jarzina, Aurelia, Majka, Joanna, Majka, Maciej, Belter, Jolanta, and Pudelska, Hanna

Subjects

AEGILOPS, PLANT chromosomes, PLANT gene mapping

Abstract

Segregation distorters are curious, evolutionarily selfish genetic elements, which distort Mendelian segregation in their favor at the expense of others. Those agents include gametocidal factors (Gc), which ensure their preferential transmission by triggering damages in cells lacking them via chromosome break induction. Hence, we hypothesized that the gametocidal system can be adapted for chromosome manipulations between Triticum and Secale chromosomes in hexaploid triticale (×Triticosecale Wittmack). In this work we studied the little-known gametocidal action of a Gc factor located on Aegilops geniculata Roth chromosome 4g. Our results indicate that the initiation of the gametocidal action takes place at anaphase II of meiosis of pollen mother cells. Hence, we induced androgenesis at postmeiotic pollen divisions (via anther cultures) in monosomic 4Mg addition plants of hexaploid triticale (AABBRR) followed by production of doubled haploids, to maintain the chromosome aberrations caused by the gametocidal action. This approach enabled us to obtain a large number of plants with two copies of particular chromosome translocations, which were identified by the use of cytomolecular methods. We obtained 41 doubled haploid triticale lines and 17 of them carried chromosome aberrations that included plants with the following chromosome sets: 40T+Dt2RS+Dt2RL (5 lines), 40T+N2R (1), 38T+D4RS.4BL (3), 38T+D5BS-5BL.5RL (5), and 38T+D7RS.3AL (3). The results show that the application of the Gc mechanism in combination with production of doubled haploid lines provides a sufficiently large population of homozygous doubled haploid individuals with two identical copies of translocation chromosomes. In our opinion, this approach will be a valuable tool for the production of novel plant material, which could be used for gene tracking studies, genetic mapping, and finally to enhance the diversity of cereals. [ABSTRACT FROM AUTHOR]

Published

2017

16. Alterations in Kernel Proteome after Infection with Fusarium culmorum in Two Triticale Cultivars with Contrasting Resistance to Fusarium Head Blight.

Author

Perlikowski, Dawid, Wiśniewska, Halina, Kaczmarek, Joanna, Góral, Tomasz, Ochodzki, Piotr, Kwiatek, Michał, Majka, Maciej, Augustyniak, Adam, and Kosmala, Arkadiusz

Subjects

FUSARIUM culmorum, WHEAT fusarium culmorum head blight, PLANT-pathogen relationships

Abstract

Highlight: The level of pathogen alpha-amylase and plant beta-amylase activities could be components of plant-pathogen interaction associated with the resistance of triticale to Fusarium head blight. Triticale was used here as a model to recognize new components of molecular mechanism of resistance to Fusarium head blight (FHB) in cereals. Fusarium-damaged kernels (FDK) of two lines distinct in levels of resistance to FHB were applied into a proteome profiling using two-dimensional gel electrophoresis (2-DE) to create protein maps and mass spectrometry (MS) to identify the proteins differentially accumulated between the analyzed lines. This proteomic research was supported by a measurement of alpha- and beta-amylase activities, mycotoxin content, and fungal biomass in the analyzed kernels. The 2-DE analysis indicated a total of 23 spots with clear differences in a protein content between the more resistant and more susceptible triticale lines after infection with Fusarium culmorum. A majority of the proteins were involved in a cell carbohydrate metabolism, stressing the importance of this protein group in a plant response to Fusarium infection. The increased accumulation levels of different isoforms of plant beta-amylase were observed for a more susceptible triticale line after inoculation but these were not supported by a total level of beta-amylase activity, showing the highest value in the control conditions. The more resistant line was characterized by a higher abundance of alpha-amylase inhibitor CM2 subunit and simultaneously a lower activity of alpha-amylase after inoculation. We suggest that the level of pathogen alpha-amylase and plant beta-amylase activities could be components of plant-pathogen interaction associated with the resistance of triticale to FHB. [ABSTRACT FROM AUTHOR]

Published

2016

17. Intraspecific Polymorphisms of Cytogenetic Markers Mapped on Chromosomes of Triticum polonicum L.

Author

Kwiatek, Michał, Majka, Maciej, Majka, Joanna, Belter, Jolanta, Suchowilska, Elżbieta, Wachowska, Urszula, Wiwart, Marian, and Wiśniewska, Halina

Subjects

WHEAT genetics, GENETIC polymorphisms, BIOMARKERS, NUCLEOTIDE sequence, GENE mapping

Abstract

Triticum genus encloses several tetraploid species that are used as genetic stocks for expanding the genetic variability of wheat (Triticum aestivum L.). Although the T. aestivum (2n = 6x = 42, AABBDD) and T. durum (2n = 4x = 28, AABB) karyotypes were well examined by chromosome staining, Giemsa C-banding and FISH markers, other tetraploids are still poorly characterized. Here, we established and compared the fluorescence in situ hybridization (FISH) patterns on chromosomes of 20 accessions of T. polonicum species using different repetitive sequences from BAC library of wheat ‘Chinese Spring’. The chromosome patterns of Polish wheat were compared to tetraploid (2n = 4x = 28, AABB) Triticum species: T. durum, T. diccocon and T. turanicum, as well. A combination of pTa-86, pTa-535 and pTa-713 probes was the most informative among 6 DNA probes tested. Probe pTa-k374, which is similar to 28S rDNA sequence enabled to distinguish signal size and location differences, as well as rDNA loci elimination. Furthermore, pTa-465 and pTa-k566 probes are helpful for the detection of similar organized chromosomes. The polymorphisms of signals distribution were observed in 2A, 2B, 3B, 5B, 6A and 7B chromosomes. Telomeric region of the short arm of 6B chromosome was the most polymorphic. Our work is novel and contributes to the understanding of T. polonicum genome organization which is essential to develop successful advanced breeding strategies for wheat. Collection and characterization of this germplasm can contribute to the wheat biodiversity safeguard. [ABSTRACT FROM AUTHOR]

Published

2016

18. Effective transfer of chromosomes carrying leaf rust resistance genes from Aegilops tauschii Coss. into hexaploid triticale ( X Triticosecale Witt.) using Ae. tauschii × Secale cereale amphiploid forms.

Author

Kwiatek, Michał, Majka, Maciej, Wiśniewska, Halina, Apolinarska, Barbara, and Belter, Jolanta

Abstract

This paper shows the results of effective uses of a molecular cytogenetics toolbox and molecular marker to transfer leaf rust resistance genes from Aegilops tauschii × Secale cereale (DDRR, 2n = 4x = 28) amphiploid forms to triticale cv. Bogo (AABBRR, 2n = 6x = 42). The molecular markers of resistance genes and in situ hybridization analysis of mitotic metaphase of root meristems confirmed the stable inheritance of chromosome 3D segments carrying Lr32 from the BCF to the BCF generation of ( Ae. tauschii × S. cereale) × triticale hybrids. The chromosome pairing analysis during metaphase I of meiosis of BCF and BCF hybrids showed increasing regular bivalent formation of 3D chromosome pairs and decreasing number of univalents in subsequent generations. The results indicate that using amphiploid forms as a bridge between wild and cultivated forms can be a successful technology to transfer the D-genome chromatin carrying leaf rust resistance genes into triticale. [ABSTRACT FROM AUTHOR]

Published

2015

19. Identification of Kernel Proteins Associated with the Resistance to Fusarium Head Blight in Winter Wheat (Triticum aestivum L.).

Author

Perlikowski, Dawid, Wiśniewska, Halina, Góral, Tomasz, Kwiatek, Michał, Majka, Maciej, and Kosmala, Arkadiusz

Subjects

WHEAT fusarium culmorum head blight, GEL electrophoresis, MASS spectrometry, WINTER wheat, CEREAL grains contamination

Abstract

Numerous potential components involved in the resistance to Fusarium head blight (FHB) in cereals have been indicated, however, our knowledge regarding this process is still limited and further work is required. Two winter wheat (Triticum aestivum L.) lines differing in their levels of resistance to FHB were analyzed to identify the most crucial proteins associated with resistance in this species. The presented work involved analysis of protein abundance in the kernel bulks of more resistant and more susceptible wheat lines using two-dimensional gel electrophoresis and mass spectrometry identification of proteins, which were differentially accumulated between the analyzed lines, after inoculation with F. culmorum under field conditions. All the obtained two-dimensional patterns were demonstrated to be well-resolved protein maps of kernel proteomes. Although, 11 proteins were shown to have significantly different abundance between these two groups of plants, only two are likely to be crucial and have a potential role in resistance to FHB. Monomeric alpha-amylase and dimeric alpha-amylase inhibitors, both highly accumulated in the more resistant line, after inoculation and in the control conditions. Fusarium pathogens can use hydrolytic enzymes, including amylases to colonize kernels and acquire nitrogen and carbon from the endosperm and we suggest that the inhibition of pathogen amylase activity could be one of the most crucial mechanisms to prevent infection progress in the analyzed wheat line with a higher resistance. Alpha-amylase activity assays confirmed this suggestion as it revealed the highest level of enzyme activity, after F. culmorum infection, in the line more susceptible to FHB. [ABSTRACT FROM AUTHOR]

Published

2014

20. Diagnostic value of markers linked to the eyespot resistance genes in breeding lines of hexaploid wheat (Triticum aestivum L.).

Author

Wiśniewska, Halina, Kwiatek, Michał, Majka, Maciej, Gawłowska, Magdalena, Korbas, Marek, Danielewicz, Jakub, and Belter, Jolanta

Subjects

GENETIC markers in plants, EYESPOT (Plant disease), WHEAT disease & pest resistance

Abstract

The aim of this study was to search the breeding collection of hexaploid wheat in terms of eyespot resistance identification. Eyespot is one of the common fungal stem-base disease of wheat (Triticum aestivum L.) and other cereals in temperate regions. The causal agents of eyespot are Oculimacula acuformis (syn. Tapesia acuformis; anamorph: Helgardia acuformis syn. Pseudocercosporella herpotrichoides var. acuformis) and O. yallundae (syn. T. yallundae; anamorph: H. yallundae syn. P. h. var. herpotrichoides). Eye-shaped, elliptic lesions on the lower portion are the symptoms of this disease, which can weaken stem bases and cause them to bend or break. Crops from infected plants are slighter with reduced quality and yield of even up to 50%. There are three eyespot resistance genes (Pch1, Pch2 and QTL on chromosome 5A), which have been characterized in hybrid forms of wheat. Pch1 located on chromosome 7DL is the most important and most effective resistance gene and was introduced into wheat from the wild grass Aegilops ventricosa. However, Pch1 locus is associated with lower yield in the absence of the disease, which is a limiting factor considering elite varieties breeding. On the other side, both Pch2 and Pch-QTL-5A originate from the French wheat cultivar Cappelle Desprez, but confer only a moderate level of resistance and are unlikely to prevent yield loss under high disease pressure. The main aims of this study were (1) to screen the collection of 150 winter wheat breeding lines in order to identify genotypes with Pch1, Pch2 and Q.Pch.jic-5A loci, (2) to analyze the resistance expression in those lines using inoculation tests at BBCH10-12 (seedling) and BBCH31-32 growth stage and (3) to compare the yield components with the results of markers identification and inoculation tests in order to evaluate the influence of the genotype on technological values of breeding lines. We have identified 7 genotypes carrying cumulated two or three Pch genes. The results of inoculation tests confirm the resistance expression in those genotypes. [ABSTRACT FROM AUTHOR]

Published

2017