Your search keyword '"Kilian, Andrzej"' showing total 50 results

1. Identification of quantitative trait loci (QTL) controlling resistance to pea weevil (Bruchus pisorum) in a high-density integrated DArTseq SNP-based genetic map of pea

Author

Ministerio de Economía y Competitividad (España), European Commission, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Aznar-Fernández, T., Barilli, Eleonora, Cobos, María José, Kilian, Andrzej, Carling, Jason, Rubiales, Diego, Ministerio de Economía y Competitividad (España), European Commission, Agencia Estatal de Investigación (España), Ministerio de Ciencia, Innovación y Universidades (España), Aznar-Fernández, T., Barilli, Eleonora, Cobos, María José, Kilian, Andrzej, Carling, Jason, and Rubiales, Diego

Abstract

Pea weevil (Bruchus pisorum) is a damaging insect pest affecting pea (Pisum sativum) production worldwide. No resistant cultivars are available, although some levels of incomplete resistance have been identified in Pisum germplasm. To decipher the genetic control underlying the resistance previously identify in P. sativum ssp. syriacum, a recombinant inbred line (RIL F8:9) population was developed. The RIL was genotyped through Diversity Arrays Technology PL’s DArTseq platform and screened under field conditions for weevil seed infestation and larval development along 5 environments. A newly integrated genetic linkage map was generated with a subset of 6,540 markers, assembled into seven linkage groups, equivalent to the number of haploid pea chromosomes. An accumulated distance of 2,503 cM was covered with an average density of 2.61 markers cM−1. The linkage map allowed the identification of three QTLs associated to reduced seed infestation along LGs I, II and IV. In addition, a QTL for reduced larval development was also identified in LGIV. Expression of these QTLs varied with the environment, being particularly interesting QTL BpSI.III that was detected in most of the environments studied. This high-saturated pea genetic map has also allowed the identification of seven potential candidate genes co-located with QTLs for marker-assisted selection, providing an opportunity for breeders to generate effective and sustainable strategies for weevil control.

Published

2020

2. Diversification of seed carotenoid content and profile in wild barley (Hordeum chilense Roem. et Schultz.) and Hordeum vulgare L.–H. chilense synteny as revealed by DArTSeq markers

Author

Ministerio de Economía y Competitividad (España), European Commission, Ávila, Carmen M., Mattera, M. Gabriela, Rodríguez-Suárez, Cristina, Palomino, Carmen, Ramírez, M. Carmen, Martín, Antonio, Kilian, Andrzej, Hornero-Méndez, Dámaso, Atienza, Sergio G., Ministerio de Economía y Competitividad (España), European Commission, Ávila, Carmen M., Mattera, M. Gabriela, Rodríguez-Suárez, Cristina, Palomino, Carmen, Ramírez, M. Carmen, Martín, Antonio, Kilian, Andrzej, Hornero-Méndez, Dámaso, and Atienza, Sergio G.

Abstract

The high carotenoid content and distinctive carotenoid profile of tritordeum are conferred by its wild progenitor, Hordeum chilense. Genetic studies on this wild barley could exploit the knowledge gained in Hordeum vulgare L. if the synteny between H. vulgare and H. chilense is established. DArTSeq markers were aligned to barley genome and used to inspect H. chilense-barley synteny. All chromosome pairs showed a good degree of collinearity with the exception of 7Hv–7Hch, where a reciprocal translocation in 7Hch was identified. Carotenoid analyses revealed a high diversity for total carotenoids, free and esterified lutein in a collection of H. chilense. Population structure analyses revealed the existence of two subgroups contrasting for total carotenoids, free lutein and esterified lutein in seeds. Lutein esters were produced with palmitic and linoleic acids as happens in tritordeum. However, tritordeum prefer palmitic acid for the synthesis of lutein esters but this preference is not maintained in H. chilense. This indicates the existence of diversity in the enzymes involved in the esterification which could be useful in tritordeum breeding. Furthermore, several accessions produced lutein monoesters but they lacked diesters which suggests that esterification is controlled by more than one enzyme in H. chilense. A total of 91 marker-trait associations were identified for carotenoid content and profile. These associations constitute a good starting point for future genetic analyses for the identification of candidate genes from H. vulgare genome.

Published

2019

3. Riparian populations of minnesota reed canarygrass (Phalaris arundinacea) are most likely native, based on SNPs (DArTseqLD).

Author

Noyszewski, Andrzej K., Anderson, Neil O., Smith, Alan G., Kilian, Andrzej, Dalbotten, Diana, Ito, Emi, Timm, Anne, Pellerin, Holly, Kubátová, Barbora, Kávová, Tereza, Januš, Vojtěch, Čurn, Vladislav, Edwards, Keith R., Bastlová, Daša, and Květ, Jan

Subjects

REED canary grass, GENETIC variation, RIPARIAN plants, PHRAGMITES

Abstract

The native vs. exotic status of reed canarygrass (RCG), a major invasive species of Minnesota wetlands, is unknown. The aim of this study was to investigate this native vs. exotic status to enhance its management. Genetic comparison of wild RCG populations from six Minnesota and six Czech Republic rivers was performed. A total of 2521 polymorphic SNP markers (single nucleotide polymorphisms) were used to evaluate 478 RCG samples across all collections. In the PCoA, all (n = 256) tested extant wild, riparian RCG genotypes from six Minnesota Rivers and six Czech Republic Rivers were genetically distinct, although some SNPs were common in both populations since they are the same species. DAPC analysis also resulted in the formation of two primary clusters separating the Minnesota Rivers and Czech Republic Rivers riparian samples, with little overlap; STRUCTURE analysis also supported this clustering with k = 4 groups as it separated the Czech Republic Rivers populations into three groups, along with Minnesota Rivers. The uniformity of PCoA, DAPC, STRUCTURE, and Evanno results indicates the distinct separation of Minnesota Rivers and Czech Republic Rivers populations. Portions of the genome (specific SNPs) are preserved or in common across continents, as indicated by STRUCTURE similarities. Nonetheless, overall significant SNP differences between the continents indicate that the Minnesota riparian populations are distinct enough from the European (Czech) collections to be delineated as native N. American RCG. PCoA of all the Minnesota RCG collections clustered Minnesota Rivers, Herbarium, Extant Herbarium, Research Field and Native Field collections together. STRUCTURE analysis (k = 2; Evanno) divided these Minnesota collections from the Commercial Field and Cultivars collections. There are two genetically distinct groups of RCG in Minnesota and since the Minnesota Rivers, the Research Field, the Native Field and pre-1930 herbaria collections clustered together, they are most likely native N. American types. Analysis of molecular variance (AMOVA) indicated that the genetic variation was more significant within, rather than among, the RCG populations. Native, historic herbaria types cluster together with all wild RCG river populations in Minnesota, all of which were distinct from those in Central Europe, suggesting native RCG type persistence in N. America. Also, cultivated forage types of RCG are distinct from wild RCG Minnesota river populations. The SNP genetic data shows that riparian Minnesota RCG populations are native. These data will facilitate future management strategies to control RCG as a native, but invasive, species. [ABSTRACT FROM AUTHOR]

Published

2021

4. Identification of quantitative trait loci (QTL) controlling resistance to pea weevil (Bruchus pisorum) in a high-density integrated DArTseq SNP-based genetic map of pea.

Author

Aznar-Fernández, Thais, Barilli, Eleonora, Cobos, María J., Kilian, Andrzej, Carling, Jason, and Rubiales, Diego

Subjects

PEAS, GENE mapping, RECOMBINANT DNA, BAR codes

Abstract

Pea weevil (Bruchus pisorum) is a damaging insect pest affecting pea (Pisum sativum) production worldwide. No resistant cultivars are available, although some levels of incomplete resistance have been identified in Pisum germplasm. To decipher the genetic control underlying the resistance previously identify in P. sativum ssp. syriacum, a recombinant inbred line (RIL F8:9) population was developed. The RIL was genotyped through Diversity Arrays Technology PL's DArTseq platform and screened under field conditions for weevil seed infestation and larval development along 5 environments. A newly integrated genetic linkage map was generated with a subset of 6,540 markers, assembled into seven linkage groups, equivalent to the number of haploid pea chromosomes. An accumulated distance of 2,503 cM was covered with an average density of 2.61 markers cM−1. The linkage map allowed the identification of three QTLs associated to reduced seed infestation along LGs I, II and IV. In addition, a QTL for reduced larval development was also identified in LGIV. Expression of these QTLs varied with the environment, being particularly interesting QTL BpSI.III that was detected in most of the environments studied. This high-saturated pea genetic map has also allowed the identification of seven potential candidate genes co-located with QTLs for marker-assisted selection, providing an opportunity for breeders to generate effective and sustainable strategies for weevil control. [ABSTRACT FROM AUTHOR]

Published

2020

5. Genetic Analysis of High Protein Content in 'AC Proteus' Related Soybean Populations Using SSR, SNP, DArT and DArTseq Markers.

Author

Samanfar, Bahram, Cober, Elroy R., Charette, Martin, Tan, Le Hoa, Bekele, Wubishet A., Morrison, Malcolm J., Kilian, Andrzej, Belzile, François, and Molnar, Stephen J.

Subjects

SOYBEAN, CHROMOSOMES, SEED proteins, PHENOTYPES, SEED yield

Abstract

Key message: Several AC Proteus derived genomic regions (QTLs, SNPs) have been identified which may prove useful for further development of high yielding high protein cultivars and allele-specific marker developments. High seed protein content is a trait which is typically difficult to introgress into soybean without an accompanying reduction in seed yield. In a previous study, 'AC Proteus' was used as a high protein source and was found to produce populations that did not exhibit the typical association between high protein and low yield. Five high x low protein RIL populations and a high x high protein RIL population were evaluated by either quantitative trait locus (QTL) analysis or bulk segregant analyses (BSA) following phenotyping in the field. QTL analysis in one population using SSR, DArT and DArTseq markers found two QTLs for seed protein content on chromosomes 15 and 20. The BSA analyses suggested multiple genomic regions are involved with high protein content across the five populations, including the two previously mentioned QTLs. In an alternative approach to identify high protein genes, pedigree analysis identified SNPs for which the allele associated with high protein was retained in seven high protein descendants of AC Proteus on chromosomes 2, 17 and 18. Aside from the two identified QTLs (five genomic regions in total considering the two with highly elevated test statistic, but below the statistical threshold and the one with epistatic interactions) which were some distance from Meta-QTL regions and which were also supported by our BSA analysis within five populations. These high protein regions may prove useful for further development of high yielding high protein cultivars. [ABSTRACT FROM AUTHOR]

Published

2019

6. Concordant divergence of mitogenomes and a mitonuclear gene cluster in bird lineages inhabiting different climates.

Author

Morales, Hernán E., Pavlova, Alexandra, Amos, Nevil, Major, Richard, Kilian, Andrzej, Greening, Chris, and Sunnucks, Paul

Published

2018

7. A mosaic monoploid reference sequence for the highly complex genome of sugarcane.

Author

Garsmeur, Olivier, Droc, Gaetan, Antonise, Rudie, Grimwood, Jane, Potier, Bernard, Aitken, Karen, Jenkins, Jerry, Martin, Guillaume, Charron, Carine, Hervouet, Catherine, Costet, Laurent, Yahiaoui, Nabila, Healey, Adam, Sims, David, Cherukuri, Yesesri, Sreedasyam, Avinash, Kilian, Andrzej, Chan, Agnes, Van Sluys, Marie-Anne, and Swaminathan, Kankshita

Abstract

Sugarcane (Saccharum spp.) is a major crop for sugar and bioenergy production. Its highly polyploid, aneuploid, heterozygous, and interspecific genome poses major challenges for producing a reference sequence. We exploited colinearity with sorghum to produce a BAC-based monoploid genome sequence of sugarcane. A minimum tiling path of 4660 sugarcane BAC that best covers the gene-rich part of the sorghum genome was selected based on whole-genome profiling, sequenced, and assembled in a 382-Mb single tiling path of a high-quality sequence. A total of 25,316 protein-coding gene models are predicted, 17% of which display no colinearity with their sorghum orthologs. We show that the two species, S. officinarum and S. spontaneum, involved in modern cultivars differ by their transposable elements and by a few large chromosomal rearrangements, explaining their distinct genome size and distinct basic chromosome numbers while also suggesting that polyploidization arose in both lineages after their divergence. [ABSTRACT FROM AUTHOR]

Published

2018

8. Exploring the genetic and adaptive diversity of a pan-Mediterranean crop wild relative: narrow-leafed lupin.

Author

Mousavi-Derazmahalleh, Mahsa, Bayer, Philipp E., Nevado, Bruno, Hurgobin, Bhavna, Filatov, Dmitry, Kilian, Andrzej, Kamphuis, Lars G., Singh, Karam B., Berger, Jens D., Hane, James K., Edwards, David, Erskine, William, and Nelson, Matthew N.

Subjects

LEGUMES, PLANT diversity, PLANT genetics, PLANT breeders, CLIMATE change, PLANT adaptation

Abstract

Key message: This first pan-Mediterranean analysis of genetic diversity in wild narrow-leafed lupin revealed strong East-West genetic differentiation of populations, an historic eastward migration, and signatures of genetic adaptation to climatic variables.Abstract: Most grain crops suffer from a narrow genetic base, which limits their potential for adapting to new challenges such as increased stresses associated with climate change. Plant breeders are returning to the wild ancestors of crops and their close relatives to broaden the genetic base of their crops. Understanding the genetic adaptation of these wild relatives will help plant breeders most effectively use available wild diversity. Here, we took narrow-leafed lupin (Lupinus angustifolius L.) as a model to understand adaptation in a wild crop ancestor. A set of 142 wild accessions of narrow-leafed lupin from across the Mediterranean basin were subjected to genotyping-by-sequencing using Diversity Arrays Technology. Phylogenetic, linkage disequilibrium and demographic analyses were employed to explore the history of narrow-leafed lupin within the Mediterranean region. We found strong genetic differentiation between accessions from the western and eastern Mediterranean, evidence of an historic West to East migration, and that eastern Mediterranean narrow-leafed lupin experienced a severe and recent genetic bottleneck. We showed that these two populations differ for flowering time as a result of local adaptation, with the West flowering late while the East flowers early. A genome-wide association study identified single nucleotide polymorphism markers associated with climatic adaptation. Resolving the origin of wild narrow-leafed lupin and how its migration has induced adaptation to specific regions of the Mediterranean serves as a useful resource not only for developing narrow-leafed lupin cultivars with greater resilience to a changing climate, but also as a model which can be applied to other legumes. [ABSTRACT FROM AUTHOR]

Published

2018

9. High density SNP and DArT-based genetic linkage maps of two closely related oil palm populations.

Author

Gan, Siou Ting, Wong, Wei Chee, Wong, Choo Kien, Soh, Aik Chin, Kilian, Andrzej, Low, Eng-Ti Leslie, Massawe, Festo, and Mayes, Sean

Abstract

Oil palm (Elaeis guineensis Jacq.) is an outbreeding perennial tree crop with long breeding cycles, typically 12 years. Molecular marker technologies can greatly improve the breeding efficiency of oil palm. This study reports the first use of the DArTseq platform to genotype two closely related self-pollinated oil palm populations, namely AA0768 and AA0769 with 48 and 58 progeny respectively. Genetic maps were constructed using the DArT and SNP markers generated in combination with anchor SSR markers. Both maps consisted of 16 major independent linkage groups (2n = 2× = 32) with 1399 and 1466 mapped markers for the AA0768 and AA0769 populations, respectively, including the morphological trait “shell-thickness” (Sh). The map lengths were 1873.7 and 1720.6 cM with an average marker density of 1.34 and 1.17 cM, respectively. The integrated map was 1803.1 cM long with 2066 mapped markers and average marker density of 0.87 cM. A total of 82% of the DArTseq marker sequence tags identified a single site in the published genome sequence, suggesting preferential targeting of gene-rich regions by DArTseq markers. Map integration of higher density focused around the Sh region identified closely linked markers to the Sh, with D.15322 marker 0.24 cM away from the morphological trait and 5071 bp from the transcriptional start of the published SHELL gene. Identification of the Sh marker demonstrates the robustness of using the DArTseq platform to generate high density genetic maps of oil palm with good genome coverage. Both genetic maps and integrated maps will be useful for quantitative trait loci analysis of important yield traits as well as potentially assisting the anchoring of genetic maps to genomic sequences. [ABSTRACT FROM AUTHOR]

Published

2018

10. QTL mapping and comparative genome analysis of agronomic traits including grain yield in winter rye.

Author

Hackauf, Bernd, Haffke, Stefan, Fromme, Franz, Roux, Steffen, Kusterer, Barbara, Musmann, Dörthe, Kilian, Andrzej, and Miedaner, Thomas

Subjects

GRAIN yields, WINTER rye, GENOMES, OUTCROSSING (Biology), ETHANOL as fuel

Abstract

Key message : Genetic diversity in elite rye germplasm as well as F testcross design enables fast QTL mapping to approach genes controlling grain yield, grain weight, tiller number and heading date in rye hybrids. Abstract: Winter rye ( Secale cereale L.) is a multipurpose cereal crop closely related to wheat, which offers the opportunity for a sustainable production of food and feed and which continues to emerge as a renewable energy source for the production of bioethanol and biomethane. Rye contributes to increase agricultural crop species diversity particularly in Central and Eastern Europe. In contrast to other small grain cereals, knowledge on the genetic architecture of complex inherited, agronomic important traits is yet limited for the outbreeding rye. We have performed a QTL analysis based on a F design and testcross performance of 258 experimental hybrids in multi-environmental field trials. A genetic linkage map covering 964.9 cM based on SSR, conserved-orthologous set (COS), and mixed-phase dominant DArT markers allowed to describe 22 QTL with significant effects for grain yield, heading date, tiller number, and thousand grain weight across seven environments. Using rye COS markers, orthologous segments for these traits have been identified in the rice genome, which carry cloned and functionally characterized rice genes. The initial genome scan described here together with the existing knowledge on candidate genes provides the basis for subsequent analyses of the genetic and molecular mechanisms underlying agronomic important traits in rye. [ABSTRACT FROM AUTHOR]

Published

2017

11. Identification of Single Nucleotide Polymorphisms Associated with Brown Rust Resistance, α-Amylase Activity and Pre-harvest Sprouting in Rye ( Secale cereale L.).

Author

Rakoczy-Trojanowska, Monika, Krajewski, Paweł, Bocianowski, Jan, Schollenberger, Małgorzata, Wakuliński, Wojciech, Milczarski, Paweł, Masojć, Piotr, Targońska-Karasek, Małgorzata, Banaszak, Zofia, Banaszak, Katarzyna, Brukwiński, Waldemar, Orczyk, Wacław, and Kilian, Andrzej

Subjects

RYE genetics, GERMINATION, AMYLASES, SINGLE nucleotide polymorphisms, DISEASE resistance of plants, PLANT gene mapping

Abstract

Rye is a crop with relatively high resistance to biotic and abiotic stresses. However, the resistance to brown rust ( Puccinia recondita f. sp. secalis) and pre-harvest sprouting are still not satisfactory. High α-amylase activity is also among the main disadvantages of this species. Therefore, effective tools, e.g. molecular markers, allowing precise and environmentally independent selection of favourable alleles are desirable. In the present study, two kinds of association mapping-genome-wide association mapping (GWAM) based on sequences of DArTSeq markers and candidate gene association mapping (CGAM) based on sequences of ScBx genes-were chosen for development of molecular markers fulfilling these criteria. The analysed population consisted of 149 diverse inbred lines (DILs). Altogether, 67 and 11 single nucleotide polymorphisms (SNPs) identified in, respectively, GWAM and CGAM, were significantly associated with the investigated traits: 2 SNPs with resistance to brown rust, 71 SNPs with resistance to pre-harvest sprouting and 5 SNPs with α-amylase activity in the grain. Fifteen SNPs were stable across all environments. The highest number (13) of environmentally stable SNPs was associated with pre-harvest sprouting resistance. The test employing the Kompetitive Allele Specific PCR method proved the versatility of four markers identified in both GWAM and CGAM. [ABSTRACT FROM AUTHOR]

Published

2017

12. Evolutionary relationships in the genus Secale revealed by DArTseq DNA polymorphism.

Author

Al-Beyroutiová, Maja, Sabo, Miroslav, Sleziak, Patrik, Dušinský, Roman, Birčák, Erik, Hauptvogel, Pavol, Kilian, Andrzej, and Švec, Miroslav

Subjects

SECALE, BIOLOGICAL evolution, PHYLOGENY, GENETIC polymorphisms, GENETIC markers

Abstract

Till this day, there is not much known about the phylogeny of the Secale genus; therefore, in our research, we tried to shed some lights on the issue of rye ( Secale genus) taxonomy. The genetic diversity and phylogenetic relationships were evaluated using 13,842 DArTseq™ polymorphic markers. The model-based clustering (STRUCTURE software) separated our 84 samples into three main clusters: perennial cluster, annual cluster, and S. sylvestre cluster. The same result was obtained using Neighbour Joining tree and self-organizing maps. Secale sylvestre, S. strictum, and S. cereale are the three main species of the Secale genus. Three samples of rye are in basal positions in phylogenetic trees. These accessions share ancient morphological characters and are probably the ancestors of different lineages within Secale. Annual Secale taxa, with the exception of S. sylvestre, create one mutual taxon. We have found out that the semi-perennial taxa of S. cereale var. multicaule and S. strictum subsp. ciliatoglume are genetically closest to the annual species of S. cereale. Phylogenetic signals for semi-perennial and annual taxa are also present in S. strictum subsp. africanum. SNP-based analysis revealed that evolution of annual S. cereale has already begun in S. strictum subsp. africanum. The results showed that S. vavilovii cannot be considered as a separate species but a subspecies of S. cereale Secale cereale subsp. dighoricum is a hybrid. It is still not clear whether we can consider S. strictum subsp. strictum and S. strictum subsp. kuprijanovii as two separate species. [ABSTRACT FROM AUTHOR]

Published

2016

13. SSR marker development, genetic diversity and population structure analysis of Bambara groundnut [ Vigna subterranea (L.) Verdc.] landraces.

Author

Molosiwa, Odireleng, Aliyu, Siise, Stadler, Florian, Mayes, Katie, Massawe, Festo, Kilian, Andrzej, and Mayes, Sean

Abstract

We report here the development of 75 SSR markers for Bambara groundnut through various sequencing approaches and the subsequent utilization of these SSR markers and other marker types (DArT Arrays) for the analysis of genetic diversity, population structure and the selection of pure lines from landraces. To assess the level of genetic diversity in Bambara groundnut landrace collections, 68 and 201 polymorphic SSR and DArT markers, respectively, were assayed against 24 single individual seed from a core collection of landraces. Polymorphic information content (PIC) ranged from 0.08 to 0.89 with an average of 0.42 across all SSR polymorphic markers, with observed ( Ho) and expected ( He) heterozygosity of 0.01 and 0.5 respectively. For the population structure analysis, 12 SSR markers selected as highly polymorphic from the initial screen were assayed against 123 landrace accessions. The average PIC across the 12 SSR was 0.66 with an average Ho of 0.02 and an inbreeding coefficient ( f) of 0.98, suggesting that seed derived from a single plant essentially represents an unselected variety. Based on the low level of Ho and high f observed in the landrace samples, a subset of 35 genotypes derived from the landraces were advanced for field trials in Botswana and scored for 37 phenotypic traits. These 35 individual genotypes were ranked for agronomic performance based on yield component factors and other qualitative traits after field evaluation. Five genotypes with good yield potential and adaptability were recommended as potential varieties for Botswanan agro-ecology. [ABSTRACT FROM AUTHOR]

Published

2015

14. DArT-based characterisation of genetic diversity in a Miscanthus collection from Poland.

Author

Tang, Jie, Daroch, Maurycy, Kilian, Andrzej, Jeżowski, Stanislaw, Pogrzeba, Marta, and Mos, Michal

Subjects

MISCANTHUS, PLANT phylogeny, PLANT genetics, PLANT germplasm, CROP improvement

Abstract

Main conclusion: Analysis of 180 accessions of Miscanthus using a DArT platform revealed high diversity. The phylogenetic analysis revealed that M. × giganteus accessions fall into two genetically distinct groups. Miscanthus is a genus of perennial rhizomatous grasses that has emerged in last 20 years as a feedstock for bioenergy and biofuel production. Currently, the most widely used accession for bioenergy purposes is Miscanthus × giganteus, a sterile triploid hybrid between Miscanthus sinensis and Miscanthus sacchariflorus. However, previous reports have shown that genetic diversity of Miscanthus × giganteus is limited. Here, we report development of Diversity Arrays Technology platform for the analysis of genetic structure of a Miscanthus collection of 180 accessions. A total of 906 markers were obtained of which around 25.5 % exhibited polymorphism information content value in the range of 0.40 and 0.50 and are considered particularly informative. Newly developed marker system will serve as an additional resource to assist crop improvement, germplasm preservation and genetic studies. Three types of analysis indicated that 180 accessions from the collection were well differentiated and presented high diversity. Interestingly, the analysis revealed that there are two separate groups of plants, significantly differing in genetic diversity, that are commercially available as M. × giganteus. We suggest that one of these groups is most likely mutants or somaclonal variants of original M. × giganteus. The other group is recent hybrids of Miscanthus of higher genetic diversity. This study indicates that the diversity of commercially available M. × giganteus is higher than commonly assumed. Development of the new marker system can significantly assist breeding of new commercial cultivars of Miscanthus for bioenergy use. [ABSTRACT FROM AUTHOR]

Published

2015

15. Construction of a high-density DArTseq SNP-based genetic map and identification of genomic regions with segregation distortion in a genetic population derived from a cross between feral and cultivated-type watermelon.

Author

Ren, Runsheng, Ray, Rumiana, Li, Pingfang, Xu, Jinhua, Zhang, Man, Liu, Guang, Yao, Xiefeng, Kilian, Andrzej, and Yang, Xingping

Subjects

WATERMELONS, PLANT gene mapping, CHROMOSOME segregation, SINGLE nucleotide polymorphisms, LINKAGE (Genetics), CULTIVATED plants, CROSSBREEDING, FRUIT, PLANTS

Abstract

Watermelon [ Citrullus lanatus (Thunb.) Matsum. & Nakai] is an economically important vegetable crop grown extensively worldwide. To facilitate the identification of agronomically important traits and provide new information for genetic and genomic research on this species, a high-density genetic linkage map of watermelon was constructed using an F population derived from a cross between elite watermelon cultivar K3 and wild watermelon germplasm PI 189225. Based on a sliding window approach, a total of 1,161 bin markers representing 3,465 SNP markers were mapped onto 11 linkage groups corresponding to the chromosome pair number of watermelon. The total length of the genetic map is 1,099.2 cM, with an average distance between bins of 1.0 cM. The number of markers in each chromosome varies from 62 in chromosome 07 to 160 in chromosome 05. The length of individual chromosomes ranged between 61.8 cM for chromosome 07 and 140.2 cM for chromosome 05. A total of 616 SNP bin markers showed significant ( P < 0.05) segregation distortion across all 11 chromosomes, and 513 (83.3 %) of these distorted loci showed distortion in favor of the elite watermelon cultivar K3 allele and 103 were skewed toward PI 189225. The number of SNPs and InDels per Mb varied considerably across the segregation distorted regions (SDRs) on each chromosome, and a mixture of dense and sparse SNPs and InDel SDRs coexisted on some chromosomes suggesting that SDRs were randomly distributed throughout the genome. Recombination rates varied greatly among each chromosome, from 2.0 to 4.2 centimorgans per megabase (cM/Mb). An inconsistency was found between the genetic and physical positions on the map for a segment on chromosome 11. The high-density genetic map described in the present study will facilitate fine mapping of quantitative trait loci, the identification of candidate genes, map-based cloning, as well as marker-assisted selection (MAS) in watermelon breeding programs. [ABSTRACT FROM AUTHOR]

Published

2015

16. Genetic mapping of resistance to Diuraphis noxia (Kurdjumov) biotype 2 in wheat ( Triticum aestivum L.) accession CI2401.

Author

Fazel-Najafabadi, Mehdi, Peng, Junhua, Peairs, Frank, Simkova, Hana, Kilian, Andrzej, and Lapitan, Nora

Subjects

WHEAT disease & pest resistance, RUSSIAN wheat aphid, PLANT gene mapping, SINGLE nucleotide polymorphisms, SEEDLINGS, GENETIC markers in plants

Abstract

The RWA, Diuraphis noxia (Kurdjumov), is a devastating insect pest of wheat ( Triticum aestivum L.) and barley ( Hordeum vulgare) in the United States and in many parts of the world. The use of D. noxia-resistant cultivars is an economically useful approach for protecting cereals from this aphid. However, there are few genes conferring resistance to the most predominant US biotype (Biotype RWA2). Wheat line CI2401, originating from Tajikistan, has been identified to be resistant to RWA2. An F-derived F (F) segregating population developed from a cross between CI2401 and Glupro (a high quality susceptible wheat cultivar) was used to genetically map the resistance in CI2401. Seedlings from F individuals and F families were infested with RWA2 aphids. Seedling reactions were scored as resistant or susceptible based on the degrees of leaf rolling and chlorosis. The observed segregation ratios in the F and F generations indicate the presence of a major dominant gene controlling resistance to RWA2. The gene, named Dn2401, was genetically mapped to the short arm of chromosome 7D. Xbarc214 mapped 1.1 cM and Xgwm473 mapped 1.8 cM distal and proximal, respectively, to the gene. Association studies using more than 12,000 SNPs and SilicoDArTs confirmed the presence of a major signal associated with resistance on chromosome 7DS. In addition, a minor signal was detected in chromosome 1D. The markers developed in this study will be useful for marker-assisted-breeding for resistance to RWA2. [ABSTRACT FROM AUTHOR]

Published

2015

17. Diversity Arrays Technology: A Generic Genome Profiling Technology on Open Platforms.

Author

Kilian, Andrzej, Wenzl, Peter, Huttner, Eric, Carling, Jason, Xia, Ling, Blois, Hélène, Caig, Vanessa, Heller-Uszynska, Katarzyna, Jaccoud, Damian, Hopper, Colleen, Aschenbrenner-Kilian, Malgorzata, Evers, Margaret, Peng, Kaiman, Cayla, Cyril, Hok, Puthick, and Uszynski, Grzegorz

Published

2012

18. Identification of a major quantitative trait locus for resistance to fire blight in the wild apple species Malus fusca.

Author

Emeriewen, Ofere, Richter, Klaus, Kilian, Andrzej, Zini, Elena, Hanke, Magda-Viola, Malnoy, Mickael, and Peil, Andreas

Subjects

APPLE varieties, FIRE-blight, APPLE genetics, ERWINIA amylovora, BIOMARKERS, PLANTS, PHENOTYPES

Abstract

Fire blight, caused by the Gram-negative bacterium Erwinia amylovora, is the most important bacterial disease affecting apple ( Malus × domestica) and pear ( Pyrus communis) production. The use of antibiotic treatment, though effective to some degree, is forbidden or strictly regulated in many European countries, and hence an alternative means of control is essential. The planting of fire blight-resistant cultivars seems to be a highly feasible strategy. In this study, we explored a segregating population derived from a cross between the wild apple species Malus fusca and the M. × domestica cultivar Idared. F1 progenies used for mapping were artificially inoculated with Erwinia amylovora strain Ea222_JKI at a concentration of 10 cfu/ml in three different years. The averages of percentage lesion length of all replicates of each genotype were used as numerical traits for statistical analysis. A Kruskal-Wallis analysis was used to determine marker-phenotype association and revealed a linkage group with Diversity Arrays Technology (DArT) markers significantly linked with fire blight. After locating the positions of the DArT markers on the Golden Delicious genome, simple sequence repeat (SSR) markers were developed from chromosome 10 to replace the DArT markers and to determine the quantitative trait locus (QTL) region. Multiple QTL mapping (MQM) revealed a strong QTL ( Mfu10) on linkage group 10 of M. fusca explaining about 65.6 % of the phenotypic variation. This is the first report on a fire blight resistance QTL of M. fusca. [ABSTRACT FROM AUTHOR]

Published

2014

19. Quantitative trait loci of barley malting quality trait components in the Stellar/01Ab8219 mapping population.

Author

Islamovic, Emir, Obert, Donald, Budde, Allen, Schmitt, Mark, Brunick, Robert, Kilian, Andrzej, Chao, Shiaoman, Lazo, Gerard, Marshall, Juliet, Jellen, Eric, Maughan, Peter, Hu, Gongshe, Klos, Kathy, Brown, Ryan, and Jackson, Eric

Subjects

LOCUS in plant genetics, QUANTITATIVE chemical analysis, BARLEY genetics, CROP quality, PLANT gene mapping, SINGLE nucleotide polymorphisms

Abstract

Malting barley is of high economic and scientific importance. Determining barley grains that are suitable for malting involves measuring malting quality, which is an expensive and complex process. In order to decrease the cost of phenotyping and accelerate the process of developing superior malting barley cultivars, markers for marker-assisted breeding are needed. In this study, we identified quantitative trait loci (QTLs) for malting traits in a Stellar/01Ab8219 F6:8 recombinant inbred line population grown at Aberdeen and Tetonia, Idaho, USA in 2009 and 2010. We identified QTLs associated with malt extract (ME), wort protein, soluble/total protein (S/T), diastatic power (DP), alpha-amylase, beta-glucan (BG) and free amino nitrogen (FAN) at a logarithm of odds score ≥2.5 using a high-density genetic map produced by merging Diversity Arrays Technology markers with the current single nucleotide polymorphism map. Novel QTLs were identified for DP and FAN on chromosome 5H, S/T on 6H, and BG and ME on 7H. Dissection of the genetic regions associated with malting traits suggests the involvement of multiple molecular pathways. The resulting molecular markers may prove useful for barley improvement. [ABSTRACT FROM AUTHOR]

Published

2014

20. New evidence of ancestral polyploidy in the Genistoid legume Lupinus angustifolius L. (narrow-leafed lupin).

Author

Kroc, Magdalena, Koczyk, Grzegorz, Święcicki, Wojciech, Kilian, Andrzej, and Nelson, Matthew

Subjects

POLYPLOIDY in plant chromosomes, LUPINUS angustifolius, PLANT genomes, NUCLEOTIDE sequence, PLANT genetics

Abstract

Key message: This is the first clear evidence of duplication and/or triplication of large chromosomal regions in a genome of a Genistoid legume, the most basal clade of Papilionoid legumes. Abstract: Lupinus angustifolius L. (narrow-leafed lupin) is the most widely cultivated species of Genistoid legume, grown for its high-protein grain. As a member of this most basal clade of Papilionoid legumes, L. angustifolius serves as a useful model for exploring legume genome evolution. Here, we report an improved reference genetic map of L. angustifolius comprising 1207 loci, including 299 newly developed Diversity Arrays Technology markers and 54 new gene-based PCR markers. A comparison between the L. angustifolius and Medicago truncatula genomes was performed using 394 sequence-tagged site markers acting as bridging points between the two genomes. The improved L. angustifolius genetic map, the updated M. truncatula genome assembly and the increased number of bridging points between the genomes together substantially enhanced the resolution of synteny and chromosomal colinearity between these genomes compared to previous reports. While a high degree of syntenic fragmentation was observed that was consistent with the large evolutionary distance between the L. angustifolius and M. truncatula genomes, there were striking examples of conserved colinearity of loci between these genomes. Compelling evidence was found of large-scale duplication and/or triplication in the L. angustifolius genome, consistent with one or more ancestral polyploidy events. [ABSTRACT FROM AUTHOR]

Published

2014

21. Diversity, genetic mapping, and signatures of domestication in the carrot ( Daucus carota L.) genome, as revealed by Diversity Arrays Technology (DArT) markers.

Author

Grzebelus, Dariusz, Iorizzo, Massimo, Senalik, Douglas, Ellison, Shelby, Cavagnaro, Pablo, Macko-Podgorni, Alicja, Heller-Uszynska, Kasia, Kilian, Andrzej, Nothnagel, Thomas, Allender, Charlotte, Simon, Philipp, and Baranski, Rafal

Subjects

GENE mapping, DOMESTICATION of animals, CARROTS, PLANT diversity, ECONOMIC botany, GENETIC markers in plants, VEGETABLES, PLANT materials centers

Abstract

Carrot is one of the most economically important vegetables worldwide, but genetic and genomic resources supporting carrot breeding remain limited. We developed a Diversity Arrays Technology (DArT) platform for wild and cultivated carrot and used it to investigate genetic diversity and to develop a saturated genetic linkage map of carrot. We analyzed a set of 900 DArT markers in a collection of plant materials comprising 94 cultivated and 65 wild carrot accessions. The accessions were attributed to three separate groups: wild, Eastern cultivated and Western cultivated. Twenty-seven markers showing signatures for selection were identified. They showed a directional shift in frequency from the wild to the cultivated, likely reflecting diversifying selection imposed in the course of domestication. A genetic linkage map constructed using 188 F2 plants comprised 431 markers with an average distance of 1.1 cM, divided into nine linkage groups. Using previously anchored single nucleotide polymorphisms, the linkage groups were physically attributed to the nine carrot chromosomes. A cluster of markers mapping to chromosome 8 showed significant segregation distortion. Two of the 27 DArT markers with signatures for selection were segregating in the mapping population and were localized on chromosomes 2 and 6. Chromosome 2 was previously shown to carry the Vrn1 gene governing the biennial growth habit essential for cultivated carrot. The results reported here provide background for further research on the history of carrot domestication and identify genomic regions potentially important for modern carrot breeding. [ABSTRACT FROM AUTHOR]

Published

2014

22. QTL analysis of canning quality and color retention in black beans ( Phaseolus vulgaris L.).

Author

Cichy, Karen, Fernandez, Andrea, Kilian, Andrzej, Kelly, James, Galeano, Carlos, Shaw, Scott, Brick, Mark, Hodkinson, Donny, and Troxtell, Emily

Subjects

CANNING & preserving, BLACK bean, FOOD quality, FOOD color, PLANT breeding, CULTIVARS

Abstract

Black bean ( Phaseolus vulgaris L.) consumption is increasing in the USA. One of the major challenges faced by breeders is to develop superior black bean cultivars to meet the demands of the canning industry. Processors require beans that take up water quickly during pre-canning soak and beans that retain their black color after canning. To properly assess canning quality requires expensive and detailed measurements of the canned product, often not possible for bean breeders. The objective of this research was identify quantitative trait loci (QTL) in a black bean recombinant inbred line (RIL) population for canning quality traits related to water uptake, color retention, and anthocyanin concentration. The parental lines from which the population was developed, Black Magic and Shiny Crow, contrasted in water uptake and color retention. These cultivars also differed in seed coat luster, controlled by a single gene, Asp. A medium-density linkage map of 1,449 markers and a distance of 1,660 cM was developed from this RIL population. The map was aligned to the bean genome sequence V1.0 by using sequence information associated with the Diversity Arrays Technology markers. QTL analysis revealed that the region near the Asp gene on chromosome Pv 07 is the major determinant of water uptake, explaining up to 49 % of the phenotypic variation. A group of QTL for color retention-related traits was found at the upper region of Pv 11, explaining up to 30 % of the phenotypic variation. A smaller effect QTL clustered on Pv 5 co-localized with a QTL for canned bean anthocyanin concentration and explained less than 10 % of the phenotypic variation. These color-related QTL have marker-assisted selection potential for bean breeders interested in enhancing color retention and anthocyanin concentration of processed black beans. [ABSTRACT FROM AUTHOR]

Published

2014

23. Linkage Maps of Lowland and Upland Tetraploid Switchgrass Ecotypes.

Author

Serba, Desalegn, Wu, Limin, Daverdin, Guillaume, Bahri, Bochra, Wang, Xuewen, Kilian, Andrzej, Bouton, Joseph, Brummer, E., Saha, Malay, and Devos, Katrien

Subjects

SWITCHGRASS, TETRAPLOIDY, BIOMASS energy, GENE mapping, NUCLEOTIDE sequence, FEEDSTOCK

Abstract

Switchgrass ( Panicum virgatum L.) is a native perennial warm season (C) grass that has been identified as a promising species for bioenergy research and production. Consequently, biomass yield and feedstock quality improvements are high priorities for switchgrass research. The objective of this study was to develop a switchgrass genetic linkage map using a full-sib pseudo-testcross mapping population derived from a cross between two heterozygous genotypes selected from the lowland cultivar 'Alamo' (AP13) and the upland cultivar 'Summer' (VS16). The female parent (AP13) map consists of 515 loci in 18 linkage groups (LGs) and spans 1,733 cM. The male parent (VS16) map arranges 363 loci in 17 LGs and spans 1,508 cM. No obvious cause for the lack of one LG in VS16 could be identified. Comparative analyses between the AP13 and VS16 maps showed that the two major ecotypic classes of switchgrass have highly colinear maps with similar recombination rates, suggesting that chromosomal exchange between the two ecotypes should be able to occur freely. The AP13 and VS16 maps are also highly similar with respect to marker orders and recombination levels to previously published switchgrass maps. The genetic maps will be used to identify quantitative trait loci associated with biomass and quality traits. The AP13 genotype was used for the whole genome-sequencing project and the map will thus also provide a tool for the anchoring of the switchgrass genome assembly. [ABSTRACT FROM AUTHOR]

Published

2013

24. iDArTs: increasing the value of genomic resources at no cost.

Author

Emma Huang, B., Cavanagh, Colin, Rampling, Lynette, Kilian, Andrzej, and George, Andrew

Subjects

GENETIC markers in plants, PLANT genomes, PLANT breeding, MICROARRAY technology, PLANT gene mapping, PLANT germplasm, LOCUS in plant genetics

Abstract

For many years, genetic markers have been the building blocks in assembling genomic knowledge. Improved technology and methods for collecting marker data have increased accuracy, increased throughput, and reduced cost. However, common genotyping technology still produces far fewer markers in plant species than in animals and humans. We propose a new type of genetic marker based on the Diversity Arrays Technology (DArT) genotyping system for organisms lacking a reference genetic sequence. These markers are based directly on microarray probe intensity profiles and hence are called iDArTs. They require no additional genotyping beyond screening with a DArT array. Since standard methods of genetic analysis cannot be used with these continuous markers, we develop novel methods for the common bi-parental experimental designs doubled haploids, recombinant inbred lines, and backcrosses. These enable the augmentation of genetic maps with iDArTs and permit quantitative trait locus mapping with both discrete and continuous markers. We use simulation to demonstrate the power of this approach for marker mapping. In addition, we construct maps and perform linkage analysis for these DArT genotypes using the doubled haploid progeny lines from a cross between the wheat cultivars Chara and Glenlea. These methods allow access to a previously untapped genetic resource by extracting additional information from the raw data. With no additional genotyping cost, we are able to double the number of markers mapped and thereby increase genome coverage. [ABSTRACT FROM AUTHOR]

Published

2012

25. A whole genome DArT assay to assess germplasm collection diversity in common beans.

Author

Briñez, Boris, Blair, Matthew, Kilian, Andrzej, Carbonell, Sérgio, Chiorato, Allison, and Rubiano, Luciana

Subjects

GENOMES, COMMON bean, BREEDING, TRANSGENIC seed banks, ENDONUCLEASES, DNA restriction enzymes, GENETIC polymorphisms

Abstract

A Diversity Arrays Technology (DArT) marker system was applied for the first time to common beans ( Phaseolus vulgaris L.) and tested on 89 accessions from the IAC and CIAT common bean breeding programs, as well as on landraces from the FAO collection. Seven frequently used restriction endonucleases were tested in combination with a rare-cutting restriction enzyme, PstI, to evaluate their suitability for DArT technology. Two restriction enzyme combinations ( PstI/ BstNI and PstI/ TaqI) were selected to evaluate polymorphisms and PstI/ BstNI, which yielded the most polymorphisms, was used to construct the final array. Genotyping was done by labelling the genomic representations with the fluorescent nucleotides cy3-dUTP and cy5-dUTP. The poly-linker fragment was labelled with 6-FAM and used as a control treatment and standard to determine the amount of DNA spotted on the array for each clone. DArTsoft version 7.3 software was used to analyse, identify and score polymorphic markers. Arrays containing individual fragments from these representations generated DArT fingerprints with a genotype call rate of 97.1% and a scoring reproducibility of at least 99.9%. A total of 2,501 polymorphic markers were found. Neighbour-joining distance matrices were used to create dispersion graphs that distinguished the two major gene pools of common beans and classified the accessions as either Andean or Mesoamerican. A principal coordinate analysis of the DArT marker results explained 82% of the total data variation. These results show that the DArT platform was accurate for studying the genetic diversity of the common bean and efficient for the large-scale detection of polymorphisms. These properties make marker technology a choice for future experiments. This is the first report to describe the use of DArT technology for genotyping the common bean. [ABSTRACT FROM AUTHOR]

Published

2012

26. Detection of the quantitative trait loci for α-amylase activity on a high-density genetic map of rye and comparison of their localization to loci controlling preharvest sprouting and earliness.

Author

Myśków, Beata, Stojałowski, Stefan, Łań, Anna, Bolibok-Brągoszewska, Hanna, Rakoczy-Trojanowska, Monika, and Kilian, Andrzej

Subjects

AMYLASES, GENE mapping, RYE, GERMINATION, CHROMOSOMES, BREEDING, GENETIC markers

Abstract

The objectives of the research were to determine the position of quantitative trait loci (QTL) for α-amylase activity on the genetic map of a rye recombinant inbred line population-S120 × S76-and to compare them to known QTL for preharvest sprouting and heading earliness. Fourteen QTL for α-amylase activity on all seven chromosomes were identified. The detected QTL were responsible for 6.09-23.32% of α-amylase activity variation. The lowest LOD value (2.22) was achieved by locus QAa4R-M3 and the highest (7.79) by locus QAa7R-M1. Some QTL intervals for features of interest overlapped partially or completely. There were six overlapping QTL for α-amylase activity and preharvest sprouting (on 1R, 3R, 4R, 6R, 7R) and the same number for preharvest sprouting and heading earliness (on 1R, 2R, 6R, 7R). Furthermore, there was one interval partially common to all three traits, mapped on the long arm of chromosome 1R. Testing of lines originating from hybrid breeding programs, such as S120 and S76, may provide important information about the most significant genes and markers for selection in commercial breeding. Among the statistically significant markers selected in the Kruskal-Wallis test ( P < 0.005), there were 55 common ones for preharvest sprouting and heading earliness (1R, 2R, 6R), 30 markers coinciding between α-amylase activity and preharvest sprouting (5R, 7R) and one marker for α-amylase activity and heading earliness (6R). [ABSTRACT FROM AUTHOR]

Published

2012

27. High synteny and colinearity among Eucalyptus genomes revealed by high-density comparative genetic mapping.

Author

Hudson, Corey, Kullan, Anand, Freeman, Jules, Faria, Danielle, Grattapaglia, Dario, Kilian, Andrzej, Myburg, Alexander, Potts, Brad, and Vaillancourt, René

Subjects

EUCALYPTUS, PLANT genomes, PLANT gene mapping, PLANT chromosomes, NUCLEOTIDE sequence

Abstract

Understanding genome differentiation is important to compare and transfer genomic information between taxa, such as from model to non-model organisms. Comparative genetic mapping can be used to assess genome differentiation by identifying similarities and differences in chromosome organization. Following release of the assembled Eucalyptus grandis genome sequence (January 2011; ), a better understanding of genome differentiation between E. grandis and other commercially important species belonging to the subgenus Symphyomyrtus is required. In this study, comparative genetic mapping analyses were conducted between E. grandis, Eucalyptus urophylla, and Eucalyptus globulus using high-density linkage maps constructed from Diversity Array Technology and microsatellite molecular markers. There were 236-393 common markers between maps, providing the highest resolution yet achieved for comparative mapping in Eucalyptus. In two intra-section comparisons (section Maidenaria- E. globulus and section Latoangulatae- E. grandis vs . E. urophylla), ∼1% of common markers were non-syntenic and within chromosomes 4.7-6.8% of markers were non-colinear. Consistent with increasing taxonomic distance, lower synteny (6.6% non-syntenic markers) was observed in an inter-section comparison between E. globulus and E. grandis × E. urophylla consensus linkage maps. Two small chromosomal translocations or duplications were identified in this comparison representing possible genomic differences between E. globulus and section Latoangulatae species. Despite these differences, the overall high level of synteny and colinearity observed between section Maidenaria- Latoangulatae suggests that the genomes of these species are highly conserved indicating that sequence information from the E. grandis genome will be highly transferable to related Symphyomyrtus species. [ABSTRACT FROM AUTHOR]

Published

2012

28. Developing a core collection of olive ( Olea europaea L.) based on molecular markers (DArTs, SSRs, SNPs) and agronomic traits.

Author

Belaj, Angjelina, Dominguez-García, Maria, Atienza, Sergio, Martín Urdíroz, Nieves, Rosa, Raúl, Satovic, Zlatko, Martín, Antonio, Kilian, Andrzej, Trujillo, Isabel, Valpuesta, Victoriano, and Río, Carmen

Subjects

OLIVE, PLANT molecular genetics, PLANT germplasm, PLANT genetic engineering, ALLELES, ALGORITHMS

Abstract

Molecular markers (SSR, SNP and DArT) and agronomical traits have been used in the world's largest olive ( Olea europaea L.) germplasm collection (IFAPA, Centre Alameda del Obispo, Cordoba, Spain) to study the patterns of genetic diversity and underlying genetic structure among 361 olive accessions. In addition the marker data were used to construct a set of core collections by means of two different algorithms (MSTRAT and PowerCore) based on M (maximization) strategy. Our results confirm that the germplasm collection is a useful source of genetically diverse material. We also found that geographical origin is an important factor structuring genetic diversity in olive. Subsets of 18, 27, 36, 45 and 68 olive accessions, representing respectively 5%, 7.5%, 10%, 12.5% and 19% of the whole germplasm collection, were selected based on the information obtained by all the data set as well as each marker type considered individually. According to our results, the core collections that represent between 19% and 10% of the total collection size could be considered as optimal to retain the bulk of the genetic diversity found in this collection. Due to its high efficiency at capturing all the alleles/traits states found in the whole collection, the core size of 68 accessions could be of special interest for genetic conservation applications in olive. The high average genetic distance and diversity and the almost equal representation of accessions from different geographical regions indicate that the core size of 36 accessions, could be the working collection for olive breeders. [ABSTRACT FROM AUTHOR]

Published

2012

29. Bin mapping of tomato diversity array (DArT) markers to genomic regions of Solanum lycopersicum × Solanum pennellii introgression lines.

Author

Schalkwyk, Antoinette, Wenzl, Peter, Smit, Sandra, Lopez-Cobollo, Rosa, Kilian, Andrzej, Bishop, Gerard, Hefer, Charles, and Berger, Dave

Subjects

GENE mapping, TOMATO genetics, PLANT diversity, GENETIC markers, SOLANUM, NUCLEOTIDE sequence, GENE amplification

Abstract

Marker-trait association studies in tomato have progressed rapidly due to the availability of several populations developed between wild species and domesticated tomato. However, in the absence of whole genome sequences for each wild species, molecular marker methods for whole genome comparisons and fine mapping are required. We describe the development and validation of a diversity arrays technology (DArT) platform for tomato using an introgression line (IL) population consisting of wild Solanum pennellii introgressed into Solanum lycopersicum (cv. M82). A tomato diversity array consisting of 6,912 clones from domesticated tomato and twelve wild tomato/Solanaceous species was constructed. We successfully bin-mapped 990 polymorphic DArT markers together with 108 RFLP markers across the IL population, increasing the number of markers available for each S. pennellii introgression by tenfold on average. A subset of DArT markers from ILs previously associated with increased levels of lycopene and carotene were sequenced, and 44% matched protein coding genes. The bin-map position and order of sequenced DArT markers correlated well with their physical position on scaffolds of the draft tomato genome sequence (SL2.40). The utility of sequenced DArT markers was illustrated by converting several markers in both the S. pennellii and S. lycopersicum phases to cleaved amplified polymorphic sequence (CAPS) markers. Genotype scores from the CAPS markers confirmed the genotype scores from the DArT hybridizations used to construct the bin map. The tomato diversity array provides additional 'sequence-characterized' markers for fine mapping of QTLs in S. pennellii ILs and wild tomato species. [ABSTRACT FROM AUTHOR]

Published

2012

30. Diversity arrays technology (DArT) markers in apple for genetic linkage maps.

Author

Schouten, Henk, Weg, W., Carling, Jason, Khan, Sabaz, McKay, Steven, Kaauwen, Martijn, Wittenberg, Alexander, Koehorst-van Putten, Herma, Noordijk, Yolanda, Gao, Zhongshan, Rees, D., Dyk, Maria, Jaccoud, Damian, Considine, Michael, and Kilian, Andrzej

Subjects

APPLE genetics, PLANT genomes, GENETIC markers in plants, PLANT gene mapping, LINKAGE (Genetics), MICROARRAY technology, PLANT diversity, PLANTS

Abstract

Diversity Arrays Technology (DArT) provides a high-throughput whole-genome genotyping platform for the detection and scoring of hundreds of polymorphic loci without any need for prior sequence information. The work presented here details the development and performance of a DArT genotyping array for apple. This is the first paper on DArT in horticultural trees. Genetic mapping of DArT markers in two mapping populations and their integration with other marker types showed that DArT is a powerful high-throughput method for obtaining accurate and reproducible marker data, despite the low cost per data point. This method appears to be suitable for aligning the genetic maps of different segregating populations. The standard complexity reduction method, based on the methylation-sensitive PstI restriction enzyme, resulted in a high frequency of markers, although there was 52-54% redundancy due to the repeated sampling of highly similar sequences. Sequencing of the marker clones showed that they are significantly enriched for low-copy, genic regions. The genome coverage using the standard method was 55-76%. For improved genome coverage, an alternative complexity reduction method was examined, which resulted in less redundancy and additional segregating markers. The DArT markers proved to be of high quality and were very suitable for genetic mapping at low cost for the apple, providing moderate genome coverage. [ABSTRACT FROM AUTHOR]

Published

2012

31. A resistance gene against potato late blight originating from Solanum × michoacanum maps to potato chromosome VII.

Author

Śliwka, Jadwiga, Jakuczun, Henryka, Chmielarz, Marcin, Hara-Skrzypiec, Agnieszka, Tomczyńska, Iga, Kilian, Andrzej, and Zimnoch-Guzowska, Ewa

Subjects

SOLANUM, LATE blight of potato, POTATO diseases & pests, PLANT gene mapping, CHROMOSOMES, PLANT species, MORELIA

Abstract

Solanum × michoacanum (Bitter.) Rydb. is a diploid, 1 EBN (Endosperm Balance Number) nothospecies, a relative of potato originating from the area of Morelia in Michoacán State of Mexico that is believed to be a natural hybrid of S. bulbocastanum × S. pinnatisectum. Both parental species and S. michoacanum have been described as sources of resistance to Phytophthora infestans (Mont.) de Bary. The gene for resistance to potato late blight, Rpi- mch1, originating from S. michoacanum was mapped to the chromosome VII of the potato genome. It confers high level of resistance since the plants possessing it showed only small necrotic lesions or no symptoms of the P. infestans infection and we could ascribe over 80% of variance observed in the late blight resistance test of the mapping population to the effect of the closest marker. Its localization on chromosome VII may correspond to the localization of the Rpi1 gene from S. pinnatisectum. When mapping Rpi- mch1, one of the first genetic maps made of 798 Diversity Array Technology (DArT) markers of a plant species from the Solanum genus and the first map of S. michoacanum, a 1EBN potato species was constructed. Particular chromosomes were identified using 48 sequence-specific PCR markers, originating mostly from the Tomato-EXPEN 2000 linkage map (SGN), but also from other sources. Recently, the first DArT linkage map of 2 EBN species Solanum phureja has been published and it shares 197 DArT markers with map obtained in this study, 88% of which are in the concordant positions. [ABSTRACT FROM AUTHOR]

Published

2012

32. Diversity Arrays Technology effectively reveals DNA polymorphism in a large and complex genome of sugarcane.

Author

Heller-Uszynska, Katarzyna, Uszynski, Grzegorz, Huttner, Eric, Evers, Margaret, Carlig, Jason, Caig, Vanessa, Aitken, Karen, Jackson, Phillip, Piperidis, George, Cox, Mike, Gilmour, Ross, D'Hont, Angelique, Butterfield, Mike, Glaszmann, Jean-Christophe, and Kilian, Andrzej

Subjects

SUGARCANE, PLANT breeding, GENETIC polymorphisms, GENETIC markers, DNA microarrays, COST effectiveness, PLANT diversity

Abstract

Diversity Arrays Technology (DArT) provides whole genome profiling for hundreds to thousands of polymorphic markers in a single assay using a high-throughput microarray platform. The presented work aimed to establish DArT genotyping for the genetically challenging genome of sugarcane. Due to the genome complexity of this sugar-producing crop of high economic importance, an application of DArT genotyping to this species required extensive testing and optimization. As the method of genome complexity reduction determines the efficiency of polymorphism identification in DArT, various approaches and several methods were tested, in order to establish the most optimal. The sugarcane DArT markers generated with these established methods identified high genetic differentiation of sugarcane ancestral species from modern cultivars, in agreement with the data available for other types of molecular markers for this crop. The majority of sugarcane DArT markers segregated in a Mendelian fashion and were readily incorporated into the framework genetic map. As the DArT markers are sequence-ready genomic clones, we sequenced 384 clones and found that one-third of sequenced markers came from the transcribed portion of the sugarcane genome. The presented results further validate the potential of DArT technology in providing cost-effective genetic profiles for plants, irrespective of their genome complexity, for effective applications in molecular-assisted breeding, diversity analysis or genetic identity testing. [ABSTRACT FROM AUTHOR]

Published

2011

33. Genetic mapping of DArT markers in the Festuca- Lolium complex and their use in freezing tolerance association analysis.

Author

Bartoš, Jan, Sandve, Simen, Kölliker, Roland, Kopecký, David, Christelová, Pavla, Stočes, Štěpán, Østrem, Liv, Larsen, Arild, Kilian, Andrzej, Rognli, Odd-Arne, and Doležel, Jaroslav

Subjects

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]

Published

2011

34. The first genetic map of pigeon pea based on diversity arrays technology (DArT) markers.

Author

Yang, Shi, Saxena, Rachit, Kulwal, Pawan, Ash, Gavin, Dubey, Anuja, Harper, John, Upadhyaya, Hari, Gothalwal, Ragini, Kilian, Andrzej, and Varshney, Rajeev

Subjects

PIGEON pea, GENE mapping, GENETIC polymorphisms, MOLECULES, ANIMAL diversity, BIOLOGICAL research

Abstract

With an objective to develop a genetic map in pigeon pea ( Cajanus spp.), a total of 554 diversity arrays technology (DArT) markers showed polymorphism in a pigeon pea F mapping population of 72 progenies derived from an interspecific cross of ICP 28 ( Cajanus cajan) and ICPW 94 ( Cajanus scarabaeoides). Approximately 13% of markers did not conform to expected segregation ratio. The total number of DArT marker loci segregating in Mendelian manner was 405 with 73.1% ( P > 0.001) of DArT markers having unique segregation patterns. Two groups of genetic maps were generated using DArT markers. While the maternal genetic linkage map had 122 unique DArT maternal marker loci, the paternal genetic linkage map has a total of 172 unique DArT paternal marker loci. The length of these two maps covered 270.0 cM and 451.6 cM, respectively. These are the first genetic linkage maps developed for pigeon pea, and this is the first report of genetic mapping in any grain legume using diversity arrays technology. [ABSTRACT FROM AUTHOR]

Published

2011

35. Genomic constitution of Festuca × Lolium hybrids revealed by the DArTFest array.

Author

Kopecký, David, Bartoš, Jan, Christelová, Pavla, Černoch, Vladimír, Kilian, Andrzej, and Doležel, Jaroslav

Subjects

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]

Published

2011

36. Construction of a high-density composite map and comparative mapping of segregation distortion regions in barley.

Author

Haobing Li, Kilian, Andrzej, Meixue Zhou, Wenzl, Peter, Huttner, Eric, Mendham, Neville, McIntyre, Lynne, and Vaillancourt, René E.

Subjects

*BARLEY, *MOLECULAR biology, *PLANT genetics, *PLANT populations, *PLANT growth

Abstract

Segregation distortion can negatively impact on gains expected using selection. In order to increase our understanding of genetic factors that may influence the extent and direction of segregation distortion, segregation distortion analyses were conducted in four different doubled haploid (DH) populations. A high-density composite map of barley was then constructed by integrating information from the four populations. The composite map contained 2,111 unique loci, comprising RFLP, SSR and DArT markers and spanned 1,136 cM. In the four populations investigated, the proportion of markers with segregation distortion ranged from 15 to 38%, depending on the population. The highest distortion was observed in populations derived by the microspore culture technique. Distorted loci tended to be clustered, which allowed definition of segregation distortion regions (SDRs). A total of 14 SDRs were identified in the 4 populations. Using the high-density composite map, several SDRs were shown to have consistent map locations in two or more populations; one SDR on chromosome 1H was present in all four populations. The analysis of haplotypes underlying seven SDRs indicated that in three cases the under-represented haplotypes were common across populations, but for four SDRs the under-represented haplotypes varied across populations. Six of the seven centromeric regions harboured SDRs suggesting that genetic processes related to position near a centromere caused the segregation distortion in these SDRs. Other SDRs were most likely due to the methods used to produce the DH populations. The association of the SDRs identified in this study and some of the genes involved in the process of haploid production described in other studies were compared. The composite map constructed in this study provides an additional resource for the barley community via increased genome coverage and the provision of additional marker options. It has also enabled further insights into mechanisms that underpin segregation distortion. [ABSTRACT FROM AUTHOR]

Published

2010

37. Isolated chromosomes as a new and efficient source of DArT markers for the saturation of genetic maps.

Author

Wenzl, Peter, Suchánková, Pavla, Carling, Jason, Šimková, Hana, Huttner, Eric, Kubaláková, Marie, Sourdille, Pierre, Paul, Edie, Feuillet, Catherine, Kilian, Andrzej, and Doležel, Jaroslav

Subjects

GENOMES, CELL nuclei, GENE mapping, CROP improvement, NUCLEIC acids

Abstract

We describe how the diversity arrays technology (DArT) can be coupled with chromosome sorting to increase the density of genetic maps in specific genome regions. Chromosome 3B and the short arm of chromosome 1B (1BS) of wheat were isolated by flow cytometric sorting and used to develop chromosome- and chromosome arm-enriched genotyping arrays containing 2,688 3B clones and 384 1BS clones. Linkage analysis showed that 553 of the 711 polymorphic 3B-derived markers (78%) mapped to chromosome 3B, and 59 of the 68 polymorphic 1BS-derived markers (87%) mapped to chromosome 1BS, confirming the efficiency of the chromosome-sorting approach. To demonstrate the potential for saturation of genetic maps, we constructed a consensus map of chromosome 3B using 19 mapping populations, including some that were genotyped with the 3B-enriched array. The 3B-derived DArT markers doubled the number of genetic loci covered. The resulting consensus map, probably the densest genetic map of 3B available to this date, contains 939 markers (779 DArTs and 160 other markers) that segregate on 304 genetically distinct loci. Importantly, only 2,688 3B-derived clones (probes) had to be screened to obtain almost twice as many polymorphic 3B markers (510) as identified by screening approximately 70,000 whole genome-derived clones (269). Since an enriched DArT array can be developed from less than 5 ng of chromosomal DNA, a quantity which can be obtained within 1 h of sorting, this approach can be readily applied to any crop for which chromosome sorting is available. [ABSTRACT FROM AUTHOR]

Published

2010

38. The genome of the cucumber, Cucumis sativus L.

Author

Sanwen Huang, Ruiqiang Li, Zhonghua Zhang, Li Li, Xingfang Gu, Wei Fan, Lucas, William J., Xiaowu Wang, Bingyan Xie, Peixiang Ni, Yuanyuan Ren, Hongmei Zhu, Li, Jun, Kui Lin, Weiwei Jin, Zhangjun Fei, Guangcun Li, Staub, Jack, Kilian, Andrzej, and van der Vossen, Edwin A. G.

Subjects

CUCUMBERS, NUCLEOTIDE sequence, PLANT genomes, PLANT physiology, PLANT chromosomes, PLANT genetics

Abstract

Cucumber is an economically important crop as well as a model system for sex determination studies and plant vascular biology. Here we report the draft genome sequence of Cucumis sativus var. sativus L., assembled using a novel combination of traditional Sanger and next-generation Illumina GA sequencing technologies to obtain 72.2-fold genome coverage. The absence of recent whole-genome duplication, along with the presence of few tandem duplications, explains the small number of genes in the cucumber. Our study establishes that five of the cucumber's seven chromosomes arose from fusions of ten ancestral chromosomes after divergence from Cucumis melo. The sequenced cucumber genome affords insight into traits such as its sex expression, disease resistance, biosynthesis of cucurbitacin and 'fresh green' odor. We also identify 686 gene clusters related to phloem function. The cucumber genome provides a valuable resource for developing elite cultivars and for studying the evolution and function of the plant vascular system. [ABSTRACT FROM AUTHOR]

Published

2009

39. Development and assessment of Diversity Arrays Technology for high-throughput DNA analyses in Musa.

Author

Risterucci, Ange-Marie, Hippolyte, Isabelle, Perrier, Xavier, Ling Xia, Caig, Vanessa, Evers, Margaret, Huttner, Eric, Kilian, Andrzej, and Glaszmann, Jean-Christophe

Subjects

GENETIC polymorphisms, CULTIVARS, NUCLEIC acid hybridization, GENETIC research

Abstract

Diversity Arrays Technology (DArT) is a DNA hybridisation-based molecular marker technique that can detect simultaneously variation at numerous genomic loci without sequence information. This efficiency makes it a potential tool for a quick and powerful assessment of the structure of germplasm collections. This article demonstrates the usefulness of DArT markers for genetic diversity analyses of Musa spp. genotypes. We developed four complexity reduction methods to generate DArT genomic representations and we tested their performance using 48 reference Musa genotypes. For these four complexity reduction methods, DArT markers displayed high polymorphism information content. We selected the two methods which generated the most polymorphic genomic representations ( PstI/ BstNI 16.8%, PstI/ TaqI 16.1%) to analyze a panel of 168 Musa genotypes from two of the most important field collections of Musa in the world: Cirad (Neufchateau, Guadeloupe), and IITA (Ibadan, Nigeria). Since most edible cultivars are derived from two wild species, Musa acuminata (A genome) and Musa balbisiana (B genome), the study is restricted mostly to accessions of these two species and those derived from them. The genomic origin of the markers can help resolving the pedigree of valuable genotypes of unknown origin. A total of 836 markers were identified and used for genotyping. Ten percent of them were specific to the A genome and enabled targeting this genome portion in relatedness analysis among diverse ploidy constitutions. DArT markers revealed genetic relationships among Musa genotype consistent with those provided by the other markers technologies, but at a significantly higher resolution and speed and reduced cost. [ABSTRACT FROM AUTHOR]

Published

2009

40. An integrated DArT-SSR linkage map of durum wheat.

Author

Mantovani, Paola, Maccaferri, Marco, Sanguineti, Maria Corinna, Tuberosa, Roberto, Catizone, Ilaria, Wenzl, Peter, Thomson, Brent, Carling, Jason, Huttner, Eric, DeAmbrogio, Enzo, and Kilian, Andrzej

Subjects

DURUM wheat, GENE mapping, PLANT breeding, MICROSATELLITE repeats, PLANT genetics

Abstract

Genetic mapping in durum wheat ( Triticum durum Desf.) is constrained by its large genome and allopolyploid nature. We developed a Diversity Arrays Technology (DArT) platform for durum wheat to enable efficient and cost-effective mapping and molecular breeding applications. Genomic representations from 56 durum accessions were used to assemble a DArT genotyping microarray. Microsatellite (SSR) and DArT markers were mapped on a durum wheat recombinant inbred population (176 lines). The integrated DArT-SSR map included 554 loci (162 SSRs and 392 DArT markers) and spanned 2022 cM (5 cM/marker on average). The DArT markers from durum wheat were positioned in respect to anchor SSRs and hexaploid wheat DArT markers. DArT markers compared favourably to SSRs to evaluate genetic relationships among the durum panel, with 1315 DArT polymorphisms found across the accessions. Combining DArT and SSR platforms provides an efficient and rapid method of generating linkage maps in durum wheat. [ABSTRACT FROM AUTHOR]

Published

2008

41. High-density genetic map of durum wheat × wild emmer wheat based on SSR and DArT markers.

Author

Zvi Peleg, Saranga, Yehoshua, Suprunova, Tatiana, Ronin, Yefim, Röder, Marion S., Kilian, Andrzej, Korol, Abraham B., and Fahima, Tzion

Subjects

DURUM wheat, BIOMARKERS, PLANT genetics, GENOMES, PLANT chromosomes

Abstract

A genetic linkage map of tetraploid wheat was constructed based on a cross between durum wheat [ Triticum turgidum ssp. durum (Desf.) MacKey] cultivar Langdon and wild emmer wheat [ T. turgidum ssp. dicoccoides (Körn.) Thell.] accession G18-16. One hundred and fifty-two single-seed descent derived F6 recombinant inbred lines (RILs) were analyzed with a total of 690 loci, including 197 microsatellite and 493 DArT markers. Linkage analysis defined 14 linkage groups. Most markers were mapped to the B-genome (60%), with an average of 57 markers per chromosome and the remaining 40% mapped to the A-genome, with an average of 39 markers per chromosome. To construct a stabilized (skeleton) map, markers interfering with map stability were removed. The skeleton map consisted of 307 markers with a total length of 2,317 cM and average distance of 7.5 cM between adjacent markers. The length of individual chromosomes ranged between 112 cM for chromosome 4B to 217 cM for chromosome 3B. A fraction (30.1%) of the markers deviated significantly from the expected Mendelian ratios; clusters of loci showing distorted segregation were found on chromosomes 1A, 1BL, 2BS, 3B, and 4B. DArT markers showed high proportion of clustering, which may be indicative of gene-rich regions. Three hundred and fifty-two new DArT markers were mapped for the first time on the current map. This map provides a useful groundwork for further genetic analyses of important quantitative traits, positional cloning, and marker-assisted selection, as well as for genome comparative genomics and genome organization studies in wheat and other cereals. [ABSTRACT FROM AUTHOR]

Published

2008

42. Diversity arrays technology (DArT) for high-throughput profiling of the hexaploid wheat genome.

Author

Akbari, Mona, Wenzl, Peter, Caig, Vanessa, Carling, Jason, Xia, Ling, Yang, Shiying, Uszynski, Grzegorz, Mohler, Volker, Lehmensiek, Anke, Kuchel, Haydn, Hayden, Mathew J., Howes, Neil, Sharp, Peter, Vaughan, Peter, Rathmell, Bill, Huttner, Eric, and Kilian, Andrzej

Subjects

CROP improvement, WHEAT, GENETIC markers, PLANT genomes, NUCLEOTIDE sequence, ARABIDOPSIS, GENETIC polymorphisms

Abstract

Despite a substantial investment in the development of panels of single nucleotide polymorphism (SNP) markers, the simple sequence repeat (SSR) technology with a limited multiplexing capability remains a standard, even for applications requiring whole-genome information. Diversity arrays technology (DArT) types hundreds to thousands of genomic loci in parallel, as previously demonstrated in a number diploid plant species. Here we show that DArT performs similarly well for the hexaploid genome of bread wheat ( Triticum aestivum L.). The methodology previously used to generate DArT fingerprints of barley also generated a large number of high-quality markers in wheat (99.8% allele-calling concordance and approximately 95% call rate). The genetic relationships among bread wheat cultivars revealed by DArT coincided with knowledge generated with other methods, and even closely related cultivars could be distinguished. To verify the Mendelian behaviour of DArT markers, we typed a set of 90 Cranbrook × Halberd doubled haploid lines for which a framework (FW) map comprising a total of 339 SSR, restriction fragment length polymorphism (RFLP) and amplified fragment length polymorphism (AFLP) markers was available. We added an equal number of DArT markers to this data set and also incorporated 71 sequence tagged microsatellite (STM) markers. A comparison of logarithm of the odds (LOD) scores, call rates and the degree of genome coverage indicated that the quality and information content of the DArT data set was comparable to that of the combined SSR/RFLP/AFLP data set of the FW map. [ABSTRACT FROM AUTHOR]

Published

2006

43. Low level of genetic diversity in cultivated Pigeonpea compared to its wild relatives is revealed by diversity arrays technology.

Author

Shiying Yang, Wen Pang, Ash, Gavin, Harper, John, Carling, Jason, Wenzl, Peter, Huttner, Eric, Xuxiao Zong, and Kilian, Andrzej

Subjects

GENETICS, SPECIES hybridization, PIGEON pea, BIODIVERSITY, BREEDING, GENETIC polymorphisms

Abstract

Understanding the distribution of genetic diversity among individuals, populations and gene pools is crucial for the efficient management of germplasm collections and breeding programs. Diversity analysis is routinely carried out using sequencing of selected gene(s) or molecular marker technologies. Here we report on the development of Diversity Arrays Technology (DArT) for pigeonpea ( Cajanus cajan) and its wild relatives. DArT tests thousands of genomic loci for polymorphism and provides the binary scores for hundreds of markers in a single hybridization-based assay. We tested eight complexity reduction methods using various combinations of restriction enzymes and selected PstI/ HaeIII genomic representation with the largest frequency of polymorphic clones (19.8%) to produce genotyping arrays. The performance of the PstI/ HaeIII array was evaluated by typing 96 accessions representing nearly 20 species of Cajanus. A total of nearly 700 markers were identified with the average call rate of 96.0% and the scoring reproducibility of 99.7%. DArT markers revealed genetic relationships among the accessions consistent with the available information and systematic classification. Most of the diversity was among the wild relatives of pigeonpea or between the wild species and the cultivated C. cajan. Only 64 markers were polymorphic among the cultivated accessions. Such narrow genetic base is likely to represent a serious impediment to breeding progress in pigeonpea. Our study shows that DArT can be effectively applied in molecular systematics and biodiversity studies. [ABSTRACT FROM AUTHOR]

Published

2006

44. DArT for high-throughput genotyping of Cassava (Manihot esculenta) and its wild relatives.

Author

Ling Xia, Kaiman Peng, Shiying Yang, Wenzl, Peter, de Vicente, M. Carmen, Fregene, Martin, and Kilian, Andrzej

Subjects

GENETIC polymorphisms, GERMPLASM, CROPS, FARMERS, DNA, GENOMICS

Abstract

Understanding the distribution of genetic diversity within and among individuals, populations, species and gene pools is crucial for the efficient management of germplasm collections. Molecular markers are playing an increasing role in germplasm characterization, yet their broad application is limited by the availability of markers, the costs and the low throughput of existing technologies. This is particularly true for crops of resource-poor farmers such as cassava,Manihot esculenta. Here we report on the development of Diversity Arrays Technology (DArT) for cassava. DArT uses microarrays to detect DNA polymorphism at several hundred genomic loci in a single assay without relying on DNA sequence information. We tested three complexity reduction methods and selected the two that generated genomic representations with the largest frequency of polymorphic clones (PstI/TaqI: 14.6%,PstI/BstNI: 17.2%) to produce large genotyping arrays. Nearly 1,000 candidate polymorphic clones were detected on the two arrays. The performance of thePstI/TaqI array was validated by typing a group of 38 accessions, 24 of them in duplicate. The average call rate was 98.1%, and the scoring reproducibility was 99.8%. DArT markers displayed fairly high polymorphism information content (PIC) values and revealed genetic relationships among the samples consistent with the information available on these samples. Our study suggests that DArT offers advantages over current technologies in terms of cost and speed of marker discovery and analysis. It can therefore be used to genotype large germplasm collections. [ABSTRACT FROM AUTHOR]

Published

2005

45. Stable transformation of barley callus using biolistic particle bombardment and the phosphinothricin acetyltransferase ( bar) gene.

Author

Stiff, Carol, Kilian, Andrzej, Zhou, Huaping, Kudrna, David, and Kleinhofs, Andris

Published

1995

46. Development patterns of telomerase activity in barley and maize.

Author

Kilian, Andrzej, Heller, Katarzyna, and Kleinhofs, Andris

Abstract

Eukaryotic chromosomes terminate with specialized structures called telomeres. Maintenance of chromosomal ends in most eukaryotes studied to date requires a specialized enzyme, telomerase. Telomerase has been shown to be developmentally regulated in man and a few other multicellular organisms, while it is constitutively expressed in unicellular eukaryotes. Recently, we demonstrated telomerase activity in plant extracts using the PCR-based TRAP (Telomeric Repeat Amplification Protocol) assay developed for human cells. Here we report telomerase activities in two grass species, barley and maize, using a modified, semi-quantitative TRAP assay. Telomerase was highly active in very young immature embryos and gradually declined during embryo development. The endosperm telomerase activity was detectable, but significantly lower than in the embryo and declined during kernel development with no detectable activity in later stages. Telomerase activity in dissected maize embryo axis was several orders of magnitude higher than in the scutellum. Telomerase activity was not detected in a range of differentiated tissues including those with active meristems such as root tips as well as the internode and leaf base. The role of telomerase repression during differentiation and the relationship between chromosome healing and telomerase activity is discussed. [ABSTRACT FROM AUTHOR]

Published

1998

47. Comparative mapping of the barley genome with male and female recombination-derived, doubled haploid populations.

Author

Devaux, Pierre, Kilian, Andrzej, and Kleinhofs, Andris

Published

1995

48. Anther culture and Hordeum bulbosum-derived barley doubled haploids mutations and methylation.

Author

Devaux, Pierre, Kilian, Andrzej, and Kleinhofs, Andris

Published

1993

49. Cloning and mapping of telomere-associated sequences from Hordeum vulgare L.

Author

Kilian, Andrzej and Kleinhofs, Andris

Published

1992

50. Population structure, genetic diversity and linkage disequilibrium in a macadamia breeding population using SNP and silicoDArT markers.

Author

O'Connor, Katie, Kilian, Andrzej, Hayes, Ben, Hardner, Craig, Nock, Catherine, Baten, Abdul, Alam, Mobashwer, and Topp, Bruce

Subjects

LINKAGE disequilibrium, POPULATION, HETEROZYGOSITY, PLANT breeding, BIRTH control, BREEDING

Abstract

Macadamia (Macadamia integrifolia Maiden & Betche, Macadamia tetraphylla L.A.S. Johnson and their hybrids) is grown commercially around the world for its high-quality edible kernel. Traditional breeding efforts involve crossing varieties to produce thousands of progeny seedlings for evaluation. Cultivar improvement for nut yield using component traits and genomics are options for macadamia breeding, but accurate knowledge of genetic diversity and structure of the breeding population is required. This study reports allelic diversity within and between families of 295 seedling offspring from 29 parents, population structure and the extent of linkage disequilibrium (LD) in the population. Genotyping generated 19,527 silicoDArT and 5329 SNP markers, and, after filtering, 16,171 silicoDArTs and 4113 SNPs were used for diversity analyses. LD decay was initially rapid at short distances, but low-level LD persisted for long distances, with an average r2 = 0.124 for SNPs within 1 kb of each other. The seedling population was relatively genetically diverse and very similar to that of the 29 parents. The diversity (HE = 0.255 for progeny and 0.250 for parents) among these individuals indicates the level of diversity at the wider population level in the breeding programme, though the population appears less diverse than other fruit crops. Macadamia progeny was moderately differentiated (FST = 0.401) and formed k = 3 distinct clusters, which represents M. integrifolia germplasm separating from two different hybrid groups. There was low to no relationship between heterozygosity and performance for nut yield among progeny. These findings will inform future genomic studies of the Australian macadamia breeding programme, such as genome-wide association studies and genomic selection, where knowledge and control of population structure are vital. [ABSTRACT FROM AUTHOR]

Published

2019