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2. DArT markers for the rye genome - genetic diversity and mapping

Author

Kilian Andrzej, Uszyński Grzegorz, Wenzl Peter, Heller-Uszyńska Katarzyna, Bolibok-Brągoszewska Hanna, and Rakoczy-Trojanowska Monika

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Implementation of molecular breeding in rye (Secale cereale L.) improvement programs depends on the availability of high-density molecular linkage maps. However, the number of sequence-specific PCR-based markers available for the species is limited. Diversity Arrays Technology (DArT) is a microarray-based method allowing for detection of DNA polymorphism at several thousand loci in a single assay without relying on DNA sequence information. The objective of this study was the development and application of Diversity Arrays technology for rye. Results Using the PstI/TaqI method of complexity reduction we created a rye diversity panel from DNA of 16 rye varieties and 15 rye inbred lines, including parents of a mapping population consisting of 82 recombinant inbred lines. The usefulness of a wheat diversity panel for identification of DArT markers for rye was also demonstrated. We identified 1022 clones that were polymorphic in the genotyped ILs and varieties and 1965 clones that differentiated the parental lines L318 and L9 and segregated in the mapping population. Hierarchical clustering and ordination analysis were performed based on the 1022 DArT markers to reveal genetic relationships between the rye varieties and inbred lines included in the study. Chromosomal location of 1872 DArT markers was determined using wheat-rye addition lines and 1818 DArT markers (among them 1181 unique, non-cosegregating) were placed on a genetic linkage map of the cross L318 × L9, providing an average density of one unique marker every 2.68 cM. This is the most saturated rye linkage map based solely on transferable markers available at the moment, providing rye breeders and researches with a better choice of markers and a higher probability of finding polymorphic markers in the region of interest. Conclusion The Diversity Arrays Technology can be efficiently and effectively used for rye genome analyses - assessment of genetic similarity and linkage mapping. The 11520-clone rye genotyping panel with several thousand markers with determined chromosomal location and accessible through an inexpensive genotyping service is a valuable resource for studies on rye genome organization and in molecular breeding of the species.

Published
2009
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3. DArT markers: diversity analyses, genomes comparison, mapping and integration with SSR markers in Triticum monococcum

Author

Huttner Eric, Wenzl Peter, Berry Simon, Kanyuka Kostya, Bayon Carlos, Jing Hai-Chun, Kilian Andrzej, and E Hammond-Kosack Kim

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Triticum monococcum (2n = 2x = 14) is an ancient diploid wheat with many useful traits and is used as a model for wheat gene discovery. DArT (Diversity Arrays Technology) employs a hybridisation-based approach to type thousands of genomic loci in parallel. DArT markers were developed for T. monococcum to assess genetic diversity, compare relationships with hexaploid genomes, and construct a genetic linkage map integrating DArT and microsatellite markers. Results A DArT array, consisting of 2304 hexaploid wheat, 1536 tetraploid wheat, 1536 T. monococcum as well as 1536 T. boeoticum representative genomic clones, was used to fingerprint 16 T. monococcum accessions of diverse geographical origins. In total, 846 polymorphic DArT markers were identified, of which 317 were of T. monococcum origin, 246 of hexaploid, 157 of tetraploid, and 126 of T. boeoticum genomes. The fingerprinting data indicated that the geographic origin of T. monococcum accessions was partially correlated with their genetic variation. DArT markers could also well distinguish the genetic differences amongst a panel of 23 hexaploid wheat and nine T. monococcum genomes. For the first time, 274 DArT markers were integrated with 82 simple sequence repeat (SSR) and two morphological trait loci in a genetic map spanning 1062.72 cM in T. monococcum. Six chromosomes were represented by single linkage groups, and chromosome 4Am was formed by three linkage groups. The DArT and SSR genetic loci tended to form independent clusters along the chromosomes. Segregation distortion was observed for one third of the DArT loci. The Ba (black awn) locus was refined to a 23.2 cM region between the DArT marker locus wPt-2584 and the microsatellite locus Xgwmd33 on 1Am; and the Hl (hairy leaf) locus to a 4.0 cM region between DArT loci 376589 and 469591 on 5Am. Conclusion DArT is a rapid and efficient approach to develop many new molecular markers for genetic studies in T. monococcum. The constructed genetic linkage map will facilitate localisation and map-based cloning of genes of interest, comparative mapping as well as genome organisation and evolution studies between this ancient diploid species and other crops.

Published
2009
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4. New DArT markers for oat provide enhanced map coverage and global germplasm characterization

Author

Ohm Herbert W, Carson Marty L, Federizzi Luiz, Olsson Olof, Kolb Frederic L, Tuvesson Stine, Jackson Eric W, Sorrells Mark E, Stuthman Deon D, Rossnagel Brian G, Anderson Joseph M, Jannink Jean-Luc, Howarth Catherine J, Bjørnstad Åsmund, Rines Howard W, Wenzl Peter, Heller-Uszynska Katarzyna, Wight Charlene P, Kilian Andrzej, Tinker Nicholas A, Molnar Stephen J, Scoles Graham J, Eckstein Peter E, Bonman J Michael, Ceplitis Alf, and Langdon Tim

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Genomic discovery in oat and its application to oat improvement have been hindered by a lack of genetic markers common to different genetic maps, and by the difficulty of conducting whole-genome analysis using high-throughput markers. This study was intended to develop, characterize, and apply a large set of oat genetic markers based on Diversity Array Technology (DArT). Results Approximately 19,000 genomic clones were isolated from complexity-reduced genomic representations of pooled DNA samples from 60 oat varieties of global origin. These were screened on three discovery arrays, with more than 2000 polymorphic markers being identified for use in this study, and approximately 2700 potentially polymorphic markers being identified for use in future studies. DNA sequence was obtained for 2573 clones and assembled into a non-redundant set of 1770 contigs and singletons. Of these, 705 showed highly significant (Expectation < 10E-10) BLAST similarity to gene sequences in public databases. Based on marker scores in 80 recombinant inbred lines, 1010 new DArT markers were used to saturate and improve the 'Kanota' × 'Ogle' genetic map. DArT markers provided map coverage approximately equivalent to existing markers. After binning markers from similar clones, as well as those with 99% scoring similarity, a set of 1295 non-redundant markers was used to analyze genetic diversity in 182 accessions of cultivated oat of worldwide origin. Results of this analysis confirmed that major clusters of oat diversity are related to spring vs. winter type, and to the presence of major breeding programs within geographical regions. Secondary clusters revealed groups that were often related to known pedigree structure. Conclusion These markers will provide a solid basis for future efforts in genomic discovery, comparative mapping, and the generation of an oat consensus map. They will also provide new opportunities for directed breeding of superior oat varieties, and guidance in the maintenance of oat genetic diversity.

Published
2009
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5. A consensus genetic map of sorghum that integrates multiple component maps and high-throughput Diversity Array Technology (DArT) markers

Author

Xia Ling, Wenzl Peter, Kilian Andrzej, Klein Robert R, Klein Patricia E, Bouchet Sophie, Rami Jean-Francois, Mace Emma S, Halloran Kirsten, and Jordan David R

Subjects
Botany, QK1-989
Abstract

Abstract Background Sorghum genome mapping based on DNA markers began in the early 1990s and numerous genetic linkage maps of sorghum have been published in the last decade, based initially on RFLP markers with more recent maps including AFLPs and SSRs and very recently, Diversity Array Technology (DArT) markers. It is essential to integrate the rapidly growing body of genetic linkage data produced through DArT with the multiple genetic linkage maps for sorghum generated through other marker technologies. Here, we report on the colinearity of six independent sorghum component maps and on the integration of these component maps into a single reference resource that contains commonly utilized SSRs, AFLPs, and high-throughput DArT markers. Results The six component maps were constructed using the MultiPoint software. The lengths of the resulting maps varied between 910 and 1528 cM. The order of the 498 markers that segregated in more than one population was highly consistent between the six individual mapping data sets. The framework consensus map was constructed using a "Neighbours" approach and contained 251 integrated bridge markers on the 10 sorghum chromosomes spanning 1355.4 cM with an average density of one marker every 5.4 cM, and were used for the projection of the remaining markers. In total, the sorghum consensus map consisted of a total of 1997 markers mapped to 2029 unique loci (1190 DArT loci and 839 other loci) spanning 1603.5 cM and with an average marker density of 1 marker/0.79 cM. In addition, 35 multicopy markers were identified. On average, each chromosome on the consensus map contained 203 markers of which 58.6% were DArT markers. Non-random patterns of DNA marker distribution were observed, with some clear marker-dense regions and some marker-rare regions. Conclusion The final consensus map has allowed us to map a larger number of markers than possible in any individual map, to obtain a more complete coverage of the sorghum genome and to fill a number of gaps on individual maps. In addition to overall general consistency of marker order across individual component maps, good agreement in overall distances between common marker pairs across the component maps used in this study was determined, using a difference ratio calculation. The obtained consensus map can be used as a reference resource for genetic studies in different genetic backgrounds, in addition to providing a framework for transferring genetic information between different marker technologies and for integrating DArT markers with other genomic resources. DArT markers represent an affordable, high throughput marker system with great utility in molecular breeding programs, especially in crops such as sorghum where SNP arrays are not publicly available.

Published
2009
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6. Precision-mapping and statistical validation of quantitative trait loci by machine learning

Author

Kowalczyk Adam, Wenzl Peter, Bedo Justin, and Kilian Andrzej

Subjects
Genetics, QH426-470
Abstract

Abstract Background We introduce a QTL-mapping algorithm based on Statistical Machine Learning (SML) that is conceptually quite different to existing methods as there is a strong focus on generalisation ability. Our approach combines ridge regression, recursive feature elimination, and estimation of generalisation performance and marker effects using bootstrap resampling. Model performance and marker effects are determined using independent testing samples (individuals), thus providing better estimates. We compare the performance of SML against Composite Interval Mapping (CIM), Bayesian Interval Mapping (BIM) and single Marker Regression (MR) on synthetic datasets and a multi-trait and multi-environment dataset of the progeny for a cross between two barley cultivars. Results In an analysis of the synthetic datasets, SML accurately predicted the number of QTL underlying a trait while BIM tended to underestimate the number of QTL. The QTL identified by SML for the barley dataset broadly coincided with known QTL locations. SML reported approximately half of the QTL reported by either CIM or MR, not unexpected given that neither CIM nor MR incorporates independent testing. The latter makes these two methods susceptible to producing overly optimistic estimates of QTL effects, as we demonstrate for MR. The QTL resolution (peak definition) afforded by SML was consistently superior to MR, CIM and BIM, with QTL detection power similar to BIM. The precision of SML was underscored by repeatedly identifying, at ≤ 1-cM precision, three QTL for four partially related traits (heading date, plant height, lodging and yield). The set of QTL obtained using a 'raw' and a 'curated' version of the same genotypic dataset were more similar to each other for SML than for CIM or MR. Conclusion The SML algorithm produces better estimates of QTL effects because it eliminates the optimistic bias in the predictive performance of other QTL methods. It produces narrower peaks than other methods (except BIM) and hence identifies QTL with greater precision. It is more robust to genotyping and linkage mapping errors, and identifies markers linked to QTL in the absence of a genetic map.

Published
2008
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7. DArT markers: diversity analyses and mapping in Sorghum bicolor

Author

Parh Dipal K, Halloran Kirsten, Jordan David R, Xia Ling, Mace Emma S, Huttner Eric, Wenzl Peter, and Kilian Andrzej

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background The sequential nature of gel-based marker systems entails low throughput and high costs per assay. Commonly used marker systems such as SSR and SNP are also dependent on sequence information. These limitations result in high cost per data point and significantly limit the capacity of breeding programs to obtain sufficient return on investment to justify the routine use of marker-assisted breeding for many traits and particularly quantitative traits. Diversity Arrays Technology (DArT™) is a cost effective hybridisation-based marker technology that offers a high multiplexing level while being independent of sequence information. This technology offers sorghum breeding programs an alternative approach to whole-genome profiling. We report on the development, application, mapping and utility of DArT™ markers for sorghum germplasm. Results A genotyping array was developed representing approximately 12,000 genomic clones using PstI+BanII complexity with a subset of clones obtained through the suppression subtractive hybridisation (SSH) method. The genotyping array was used to analyse a diverse set of sorghum genotypes and screening a Recombinant Inbred Lines (RIL) mapping population. Over 500 markers detected variation among 90 accessions used in a diversity analysis. Cluster analysis discriminated well between all 90 genotypes. To confirm that the sorghum DArT markers behave in a Mendelian manner, we constructed a genetic linkage map for a cross between R931945-2-2 and IS 8525 integrating DArT and other marker types. In total, 596 markers could be placed on the integrated linkage map, which spanned 1431.6 cM. The genetic linkage map had an average marker density of 1/2.39 cM, with an average DArT marker density of 1/3.9 cM. Conclusion We have successfully developed DArT markers for Sorghum bicolor and have demonstrated that DArT provides high quality markers that can be used for diversity analyses and to construct medium-density genetic linkage maps. The high number of DArT markers generated in a single assay not only provides a precise estimate of genetic relationships among genotypes, but also their even distribution over the genome offers real advantages for a range of molecular breeding and genomics applications.

Published
2008
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8. A DArT platform for quantitative bulked segregant analysis

Author

Wang Junping, Raman Harsh, Wenzl Peter, Zhou Meixue, Huttner Eric, and Kilian Andrzej

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Bulked segregant analysis (BSA) identifies molecular markers associated with a phenotype by screening two DNA pools of phenotypically distinct plants for markers with skewed allele frequencies. In contrast to gel-based markers, hybridization-based markers such as SFP, DArT or SNP generate quantitative allele-frequency estimates. Only DArT, however, combines this advantage with low development and assay costs and the ability to be deployed for any plant species irrespective of its ploidy level. Here we investigate the suitability of DArT for BSA applications using a barley array as an example. Results In a first test experiment, we compared two bulks of 40 Steptoe/Morex DH plants with contrasting pubescent leaves (mPub) alleles on chromosome 3H. At optimized levels of experimental replication and marker-selection threshold, the BSA scan identified 433 polymorphic markers. The relative hybridization contrast between bulks accurately reflected the between-bulk difference in the frequency of the mPub allele (r = 0.96). The 'platform noise' of DArT assays, estimated by comparing two identical aliquots of a DNA mixture, was significantly lower than the 'pooling noise' reflecting the binomial sampling variance of the bulking process. The allele-frequency difference on chromosome 3H increased in the vicinity of mPub and peaked at the marker with the smallest distance from mPub (4.6 cM). In a validation experiment with only 20 plants per bulk we identified an aluminum (Al) tolerance locus in a Dayton/Zhepi2 DH population on chromosome 4H with < 0.8 cM precision, the same Al-tolerance locus that had been mapped before in other barley populations. Conclusion DArT-BSA identifies genetic loci that influence phenotypic characters in barley with at least 5 cM accuracy and should prove useful as a generic tool for high-throughput, quantitative BSA in plants irrespective of their ploidy level.

Published
2007
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9. A high-density consensus map of barley linking DArT markers to SSR, RFLP and STS loci and agricultural traits

Author

Wang Junping, Poulsen David, Cakir Mehmet, Ovesná Jaroslava, Caig Vanessa, Xia Ling, Maier Christina, Hearnden Phillippa, Paul Edie, Raman Harsh, Zhou Meixue, Carling Jason, Li Haobing, Wenzl Peter, Raman Rosy, Smith Kevin P, Muehlbauer Gary J, Chalmers Ken J, Kleinhofs Andris, Huttner Eric, and Kilian Andrzej

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Molecular marker technologies are undergoing a transition from largely serial assays measuring DNA fragment sizes to hybridization-based technologies with high multiplexing levels. Diversity Arrays Technology (DArT) is a hybridization-based technology that is increasingly being adopted by barley researchers. There is a need to integrate the information generated by DArT with previous data produced with gel-based marker technologies. The goal of this study was to build a high-density consensus linkage map from the combined datasets of ten populations, most of which were simultaneously typed with DArT and Simple Sequence Repeat (SSR), Restriction Enzyme Fragment Polymorphism (RFLP) and/or Sequence Tagged Site (STS) markers. Results The consensus map, built using a combination of JoinMap 3.0 software and several purpose-built perl scripts, comprised 2,935 loci (2,085 DArT, 850 other loci) and spanned 1,161 cM. It contained a total of 1,629 'bins' (unique loci), with an average inter-bin distance of 0.7 ± 1.0 cM (median = 0.3 cM). More than 98% of the map could be covered with a single DArT assay. The arrangement of loci was very similar to, and almost as optimal as, the arrangement of loci in component maps built for individual populations. The locus order of a synthetic map derived from merging the component maps without considering the segregation data was only slightly inferior. The distribution of loci along chromosomes indicated centromeric suppression of recombination in all chromosomes except 5H. DArT markers appeared to have a moderate tendency toward hypomethylated, gene-rich regions in distal chromosome areas. On the average, 14 ± 9 DArT loci were identified within 5 cM on either side of SSR, RFLP or STS loci previously identified as linked to agricultural traits. Conclusion Our barley consensus map provides a framework for transferring genetic information between different marker systems and for deploying DArT markers in molecular breeding schemes. The study also highlights the need for improved software for building consensus maps from high-density segregation data of multiple populations.

Published
2006
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10. State of ex situ conservation of landrace groups of 25 major crops

Author

Ramirez-Villegas, Julian, Khoury, Colin K., Achicanoy, Harold A., Diaz, Maria Victoria, Mendez, Andres C., Sosa, Chrystian C., Kehel, Zakaria, Guarino, Luigi, Abberton, Michael, Aunario, Jorrel, Awar, Bashir Al, Alarcon, Juan Carlos, Amri, Ahmed, Anglin, Noelle L., Azevedo, Vania, Aziz, Khadija, Capilit, Grace Lee, Chavez, Oswaldo, Chebotarov, Dmytro, Costich, Denise E., Debouck, Daniel G., Ellis, David, Falalou, Hamidou, Fiu, Albert, Ghanem, Michel Edmond, Giovannini, Peter, Goungoulou, Alphonse J., Gueye, Badara, Hobyb, Amal Ibn El, Jamnadass, Ramni, Jones, Chris S., Kpeki, Bienvenu, Lee, Jae-Sung, McNally, Kenneth L., Muchugi, Alice, Ndjiondjop, Marie-Noelle, Oyatomi, Olaniyi, Payne, Thomas S., Ramachandran, Senthil, Rossel, Genoveva, Roux, Nicolas, Ruas, Max, Sansaloni, Carolina, Sardos, Julie, Setiyono, Tri Deri, Tchamba, Marimagne, van den Houwe, Ines, Velazquez, J. Alejandro, Venuprasad, Ramaiah, Wenzl, Peter, Yazbek, Mariana, and Zavala, Cristian

Published
2022
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11. Sampling strategies for genotyping common bean (Phaseolus vulgaris L.) Genebank accessions with DArTseq: a comparison of single plants, multiple plants, and DNA pools.

Author

Abondano, Miguel Correa, Ospina, Jessica Alejandra, Wenzl, Peter, and Carvajal-Yepes, Monica

Subjects
SINGLE nucleotide polymorphisms, GERMPLASM, HIERARCHICAL clustering (Cluster analysis), GENE frequency, RESEARCH personnel, COMMON bean
Abstract

Introduction: Genotyping large-scale gene bank collections requires an appropriate sampling strategy to represent the diversity within and between accessions. Methods: A panel of 44 common bean (Phaseolus vulgaris L.) landraces from the Alliance Bioversity and The Alliance of Bioversity International and the International Center for Tropical Agriculture (CIAT) gene bank was genotyped with DArTseq using three sampling strategies: a single plant per accession, 25 individual plants per accession jointly analyzed after genotyping (in silico-pool), and by pooling tissue from 25 individual plants per accession (seq-pool). Sampling strategies were compared to assess the technical aspects of the samples, the marker information content, and the genetic composition of the panel. Results: The seq-pool strategy resulted inmore consistent DNA libraries for quality and call rate, although with fewer polymorphic markers (6,142 single-nucleotide polymorphisms) than the in silico-pool (14,074) or the single plant sets (6,555). Estimates of allele frequencies by seq-pool and in silico-pool genotyping were consistent, but the results suggest that the difference between pools depends on population heterogeneity. Principal coordinate analysis, hierarchical clustering, and the estimation of admixture coefficients derived froma single plant, in silico-pool, and seq-pool successfully identified the well-known structure of Andean and Mesoamerican gene pools of P. vulgaris across all datasets. Conclusion: In conclusion, seq-pool proved to be a viable approach for characterizing common bean germplasm compared to genotyping individual plants separately by balancing genotyping effort and costs. This study provides insights and serves as a valuable guide for gene bank researchers embarking on genotyping initiatives to characterize their collections. It aids curators in effectively managing the collections and facilitates marker-trait association studies, enabling the identification of candidate markers for key traits. [ABSTRACT FROM AUTHOR]

Published
2024
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14. Digital descriptors sharpen classical descriptors, for improving genebank accession management: A case study on Arachis spp. and Phaseolus spp.

Author

Conejo-Rodríguez, Diego Felipe, Gonzalez-Guzman, Juan José, Ramirez-Gil, Joaquín Guillermo, Wenzl, Peter, and Urban, Milan Oldřich

Subjects
ARACHIS, PLANT germplasm, MACHINE learning, RANDOM forest algorithms, AGROBIODIVERSITY
Abstract

High-throughput phenotyping brings new opportunities for detailed genebank accessions characterization based on image-processing techniques and data analysis using machine learning algorithms. Our work proposes to improve the characterization processes of bean and peanut accessions in the CIAT genebank through the identification of phenomic descriptors comparable to classical descriptors including methodology integration into the genebank workflow. To cope with these goals morphometrics and colorimetry traits of 14 bean and 16 forage peanut accessions were determined and compared to the classical International Board for Plant Genetic Resources (IBPGR) descriptors. Descriptors discriminating most accessions were identified using a random forest algorithm. The most-valuable classification descriptors for peanuts were 100-seed weight and days to flowering, and for beans, days to flowering and primary seed color. The combination of phenomic and classical descriptors increased the accuracy of the classification of Phaseolus and Arachis accessions. Functional diversity indices are recommended to genebank curators to evaluate phenotypic variability to identify accessions with unique traits or identify accessions that represent the greatest phenotypic variation of the species (functional agrobiodiversity collections). The artificial intelligence algorithms are capable of characterizing accessions which reduces costs generated by additional phenotyping. Even though deep analysis of data requires new skills, associating genetic, morphological and ecogeographic diversity is giving us an opportunity to establish unique functional agrobiodiversity collections with new potential traits. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Forage diversity, conservation and use.

Author

Hanson, Jean, primary, Schultze-Kraft, Rainer, additional, Peters, Michael, additional, Wenzl, Peter, additional, Amri, Ahmed, additional, Shehadeh, Ali, additional, and Yazbek, Mariana, additional

Published
2020
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19. Diversity analysis of 80,000 wheat accessions reveals consequences and opportunities of selection footprints

Author

Sansaloni, Carolina, Franco, Jorge, Santos, Bruno, Percival-Alwyn, Lawrence, Singh, Sukhwinder, Petroli, Cesar, Campos, Jaime, Dreher, Kate, Payne, Thomas, Marshall, David, Kilian, Benjamin, Milne, Iain, Raubach, Sebastian, Shaw, Paul, Stephen, Gordon, Carling, Jason, Pierre, Carolina Saint, Burgueño, Juan, Crosa, José, Li, HuiHui, Guzman, Carlos, Kehel, Zakaria, Amri, Ahmed, Kilian, Andrzej, Wenzl, Peter, Uauy, Cristobal, Banziger, Marianne, Caccamo, Mario, and Pixley, Kevin

Published
2020
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23. Using phenomics to identify and integrate traits of interest for better-performing common beans: A validation study on an interspecific hybrid and its Acutifolii parents.

Author

Conejo Rodriguez, Diego Felipe, Urban, Milan Oldřich, Santaella, Marcela, Gereda, Javier Mauricio, Contreras, Aquiles Darghan, and Wenzl, Peter

Abstract

Introduction: Evaluations of interspecific hybrids are limited, as classical genebank accession descriptors are semi-subjective, have qualitative traits and show complications when evaluating intermediate accessions. However, descriptors can be quantified using recognized phenomic traits. This digitalization can identify phenomic traits which correspond to the percentage of parental descriptors remaining expressed/visible/measurable in the particular interspecific hybrid. In this study, a line of P. vulgaris, P. acutifolius and P. parvifolius accessions and their crosses were sown in the mesh house according to CIAT seed regeneration procedures. Methodology: Three accessions and one derived breeding line originating from their interspecific crosses were characterized and classified by selected phenomic descriptors using multivariate and machine learning techniques. The phenomic proportions of the interspecific hybrid (line INB 47) with respect to its three parent accessions were determined using a random forest and a respective confusion matrix. Results: The seed and pod morphometric traits, physiological behavior and yield performance were evaluated. In the classification of the accession, the phenomic descriptors with highest prediction force were Fm’, Fo’, Fs’, LTD, Chl, seed area, seed height, seed Major, seed MinFeret, seed Minor, pod AR, pod Feret, pod round, pod solidity, pod area, pod major, pod seed weight and pod weight. Physiological traits measured in the interspecific hybrid present 2.2% similarity with the P. acutifolius and 1% with the P. parvifolius accessions. In addition, in seed morphometric characteristics, the hybrid showed 4.5% similarity with the P. acutifolius accession. Conclusions: Here we were able to determine the phenomic proportions of individual parents in their interspecific hybrid accession. After some careful generalization the methodology can be used to: i) verify trait-of-interest transfer from P. acutifolius and P. parvifolius accessions into their hybrids; ii) confirm selected traits as “phenomic markers” which would allow conserving desired physiological traits of exotic parental accessions, without losing key seed characteristics from elite common bean accessions; and iii) propose a quantitative tool that helps genebank curators and breeders to make betterinformed decisions based on quantitative analysis. [ABSTRACT FROM AUTHOR]

Published
2022
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24. In pursuit of a better world: crop improvement and the CGIAR

Author

Kholová, Jana, primary, Urban, Milan Oldřich, additional, Cock, James, additional, Arcos, Jairo, additional, Arnaud, Elizabeth, additional, Aytekin, Destan, additional, Azevedo, Vania, additional, Barnes, Andrew P, additional, Ceccarelli, Salvatore, additional, Chavarriaga, Paul, additional, Cobb, Joshua N, additional, Connor, David, additional, Cooper, Mark, additional, Craufurd, Peter, additional, Debouck, Daniel, additional, Fungo, Robert, additional, Grando, Stefania, additional, Hammer, Graeme L, additional, Jara, Carlos E, additional, Messina, Charlie, additional, Mosquera, Gloria, additional, Nchanji, Eileen, additional, Ng, Eng Hwa, additional, Prager, Steven, additional, Sankaran, Sindhujan, additional, Selvaraj, Michael, additional, Tardieu, François, additional, Thornton, Philip, additional, Valdes-Gutierrez, Sandra P, additional, van Etten, Jacob, additional, Wenzl, Peter, additional, and Xu, Yunbi, additional

Published
2021
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26. Reconstruction of the synthetic W7984 x Opata M85 wheat reference population

Author

Sorrells, Mark E., Gustafson, J. Perry, Somers, Daryl, Chao, Shiaoman, Benscher, David, Guedira-Brown, Gina, Huttner, Eric, Kilian, Andrezj, McGuire, Patrick E., Ross, Kathleen, Tanaka, James, Wenzl, Peter, Williams, Keith, and Qualset, Calvin O.

Subjects
Genetic markers -- Research, Wheat -- Genetic aspects -- Research, Genetic populations -- Research, Chromosome mapping -- Usage, Biological sciences
Abstract

Reference populations are valuable resources in genetics studies for determining marker order, marker selection, trait mapping, construction of large-insert libraries, cross-referencing marker platforms, and genome sequencing. Reference populations can be propagated indefinitely, they are polymorphic and have normal segregation. Described are two new reference populations who share the same parents of the original wheat reference population Synthetic W7984 (Altar84/Aegilops tauschii (219) CIGM86.940) X Opata M85, an Fi-derived doubled haploid population (SynOpDH) of 215 inbred lines and a recombinant inbred population (SynOpRIL) of 2039 F6 lines derived by single-plant self-pollinations. A linkage map was constructed for the SynOpDH population using 1446 markers. In addition, a core set of 42 SSR markers was genotyped on SynOpRIL. A new approach to identifying a core set of markers used a step-wise selection protocol based on polymorphism, uniform chromosome distribution, and reliability to create nested sets starting with one marker per chromosome, followed by two, four, and six. It is suggested that researchers use these markers as anchors for all future mapping projects to facilitate cross-referencing markers and chromosome locations. To enhance this public resource, researchers are strongly urged to validate line identities and deposit their data in GrainGenes so that others can benefit from the accumulated information. Key words: reference populations, mapping, core collections, molecular markers. Les populations de reference constituent une ressource precieuse en genetique pour determiner l'ordre des marqueurs, ou encore pour le choix des marqueurs, la cartographie de caracteres, la construction de banques de grands inserts, la comparaison croisee de technologies de marqueurs et le sequencage d'un genome. Il est possible de propager indefiniment des populations de reference, elles sont polymorphes et presentent une segregation normale. Les auteurs decrivent deux nouvelles populations de reference qui ont en commun les parents de la population de reference originale W7984 (Altar84/Aegilops tauschii (219) CIGM86,940) x Opata M85, soit une population haploi'de doublee derivee en [F.sub.1] et composee de 215 individus HD (SynOpDH) ainsi qu'une population de 2039 lignees recombinantes fixees en [F.sub.6] (SynOpRIL) obtenues par autofecondation de plantes individuelles. Une carte genetique a ete produite pour la population SynOpDH a l'aide de 1446 marqueurs. De plus, un jeu de base de 42 marqueurs SSR a ete genotype sur la population SynOpRIL. Une nouvelle approche pour choisir les marqueurs composant un jeu de base a ete developpee en faisant appel a une demarche systematique s'appuyant sur le polymorphisme, l'uniformite de la distribution chromosomique ainsi que la reproductibilite afin de creer des jeux emboites commencant avec un marqueur par chromosome, suivis de deux et de six. Il est suggere que les chercheurs utilisent ces marqueurs comme points d'ancrage pour tous les futurs travaux de cartographie afin de faciliter la comparaison des marqueurs et des positions chromosomiques. Afin d'ameliorer cette ressource publique, les chercheurs sont encourages a valider l'identite de leurs lignees et de deposer les donnees au sein de GrainGenes de maniere a permettre aux autres de beneficier de l'information ainsi collectee. Mots-cles : populations de reference, cartographie, collections nucleates, marqueurs moleculaires. [Traduit par la Redaction], Introduction Historical aspects In the late 1980s, the International Maize and Wheat Improvement Center (CIMMYT), Mexico, and Cornell University, Ithaca, New York, collaborated to survey polymorphism levels among a large [...]

Published
2011
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33. A greenhouse method to screen brachiariagrass genotypes for aluminum resistance and root vigor

Author

Wenzl, Peter, Arango, Adriana, Chaves, Alba L., Buitrago, Maria E., Patino, Gloria M., Miles, John, and Rao, Idupulapati M.

Subjects
Grass breeding -- Research, Hybridization, Vegetable -- Research, Agricultural industry, Business
Abstract

Brachiaria species are widely sown on the infertile and Al-toxic soils of neotropical savannas. Breeding programs seek to combine edaphic adaptation with other traits in interspecific hybrids. Edaphic adaptation is difficult to assess because it is only manifest in pasture persistence across several growing seasons. We developed and validated a solution-culture technique that uses rooted vegetative propagules from mature plants to assess two key components of edaphic adaptation: root vigor and Al resistance. Root vigor was assessed by measuring growth of adventitious root systems in 200 µM Ca[Cl.sub.2] (pH 4.2). Aluminum resistance was assessed by comparing root growth in this solution vs. root growth in an identical solution that also contained 200 µM Al[Cl.sub.3]. The well-adapted parent (Brachiaria decumbens Stapf cv. Basilisk) was superior to the less-adapted parent (B. ruziziensis Germain & Evrad clone 44-02), and both traits segregated as expected in a set of 44-02 x Basilisk hybrids. A simplified version of this technique, which exclusively relies on visual inspection, has been implemented in our breeding program to facilitate progress toward edaphic adaptation., BRACHIARIA SPECIES are the most widely sown tropical forage grasses, occupying up to 70 million ha of South American savannas (Fisher and Kerridge, 1996). The Centro Internacional de Agricultura Tropical [...]

Published
2006

36. Germplasm Acquisition and Distribution by CGIAR Genebanks

Author

Halewood, Michael, primary, Jamora, Nelissa, additional, Noriega, Isabel, additional, Anglin, Noelle, additional, Wenzl, Peter, additional, Payne, Thomas, additional, Ndjiondjop, Marie-Noelle, additional, Guarino, Luigi, additional, Kumar, P., additional, Yazbek, Mariana, additional, Muchugi, Alice, additional, Azevedo, Vania, additional, Tchamba, Marimagne, additional, Jones, Chris, additional, Venuprasad, Ramaiah, additional, Roux, Nicolas, additional, Rojas, Edwin, additional, and Lusty, Charlotte, additional

Published
2020
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37. Mobilizing Crop Biodiversity

Author

McCouch, Susan, primary, Navabi, Zahra Katy, additional, Abberton, Michael, additional, Anglin, Noelle L., additional, Barbieri, Rosa Lia, additional, Baum, Michael, additional, Bett, Kirstin, additional, Booker, Helen, additional, Brown, Gerald L., additional, Bryan, Glenn J., additional, Cattivelli, Luigi, additional, Charest, David, additional, Eversole, Kellye, additional, Freitas, Marcelo, additional, Ghamkhar, Kioumars, additional, Grattapaglia, Dario, additional, Henry, Robert, additional, Valadares Inglis, Maria Cleria, additional, Islam, Tofazzal, additional, Kehel, Zakaria, additional, Kersey, Paul J., additional, King, Graham J., additional, Kresovich, Stephen, additional, Marden, Emily, additional, Mayes, Sean, additional, Ndjiondjop, Marie Noelle, additional, Nguyen, Henry T., additional, Paiva, Samuel Rezende, additional, Papa, Roberto, additional, Phillips, Peter W.B., additional, Rasheed, Awais, additional, Richards, Christopher, additional, Rouard, Mathieu, additional, Amstalden Sampaio, Maria Jose, additional, Scholz, Uwe, additional, Shaw, Paul D., additional, Sherman, Brad, additional, Staton, S. Evan, additional, Stein, Nils, additional, Svensson, Jan, additional, Tester, Mark, additional, Montenegro Valls, Jose Francisco, additional, Varshney, Rajeev, additional, Visscher, Stephen, additional, von Wettberg, Eric, additional, Waugh, Robbie, additional, Wenzl, Peter, additional, and Rieseberg, Loren H., additional

Published
2020
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38. Diversity Arrays Technology: A Generic Genome Profiling Technology on Open Platforms

Author

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

Published
2012
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39. Simulating infertile acid soils with nutrient solutions: the effects on Brachiaria species

Author

Wenzl, Peter, Mancilla, Lida I., Mayer, Jorge E., Albert, Roland, and Rao, Idupulapati M.

Subjects
Grasses -- Growth, Aluminum -- Environmental aspects, Soil amendments -- Composition, Soil amendments -- Evaluation, Soil fertility -- Research, Company growth, Earth sciences
Abstract

Aluminum toxicity limits plant growth in acid soils. Because of their advanced state of weathering, acid soils of the tropics also tend to be deficient in nutrients. A realistic assessment of plant adaptation to these soils would therefore require Al-toxic conditions under which growth is simultaneously limited by nutrient deficiency. We developed and tested a nutrient solution for this purpose. We analyzed soil solutions of two Oxisols from the Colombian savannas. Nutrient concentrations were extremely low (ionic strength

Published
2003

41. Parental and childhood use of smartphones and its influence on leisure activities and conflicts in families

Author

Wenzl, Peter

Subjects
functions, influences, family, user behavior, Kind, Auswirkungen, Freizeit, Nutzungsverhalten, smartphones, Einflüsse, Funktionen, children, conflicts, Familie, parenting, Erziehung, leisure, Smartphone, Konflikte, impacts
Abstract

Diese Masterarbeit beschäftigt sich daher mit elterlicher und kindlicher Smartphone-Nutzung und untersucht dessen Einfluss auf Freizeitaktivitäten sowie innerfamiliäre Konflikte. Anhand von qualitativen leitfadengestützten Interviews wurde die elterliche Sichtweise zur Thematik erhoben. Dabei wurden Unterschiede als auch Gemeinsamkeiten des Nutzungsverhalten sowie die Funktionen untersucht, die durch die Smartphone-Nutzung erfüllt werden. Durch die seit dem Smartphone-Besitz wahrgenommenen Veränderungen im Freizeitverhalten der Kinder wurden die damit einhergehenden Konflikte und Lösungsversuche erfragt, um auf mögliche Faktoren schließen zu können, die zu einem möglicherweise weniger problematischen Nutzungsverhalten bei manchen Kindern führen. Da Smartphones jedoch im Alltag der Menschen omnipräsent sind, stellen nicht nur die kindliche Smartphone-Nutzung, sondern auch die elterliche Nutzung sowie außerfamiliäre Faktoren Einflüsse dar, die sich auf die innerfamiliäre Smartphone-Nutzung auswirken und in weiterer Folge das Familienleben beeinflussen. Die Forschungsergebnisse werden darlegen, dass sich diese Bereiche wechselseitig beeinflussen und die Eltern eine wesentliche Rolle dabei spielen, wie sich die kindliche Smartphone-Nutzung gestaltet. Aus diesen Ergebnissen werden für die Soziale Arbeit relevante Erkenntnisse abgeleitet und aufgezeigt. This master thesis deals with parental and childhood use of smartphones and examines its influence on leisure activities as well as intra-family conflicts. Based on qualitative guideline-based interviews, the parental point of view was surveyed. It examined differences as well as similarities in user behavior as well as the functions that are provided by the use of smartphones. The changes in children's recreational behavior since the smartphone was acquired have been used to investigate the conflicts and attempts to solve them in order to identify possible factors that may lead to a less problematic use behavior in some children. As smartphones are omnipresent in people's everyday lives, not only the use of the smartphone by children, but also parental use as well as non-familial factors are influences that affect the use of smartphones within the family and subsequently influence family life. The research findings will show that these fields interact and that parents play a key role in shaping how the smartphone is used by children. From these results relevant findings for Social Work are derived and presented. vorgelegt von: Peter Wenzl Wien, FH Campus Wien, Masterarb., 2019

Published
2019

43. CGIAR Operations under the Plant Treaty Framework

Author

Noriega, Isabel López, primary, Halewood, Michael, additional, Abberton, Michael, additional, Amri, Ahmed, additional, Angarawai, Ijantiku Ignatius, additional, Anglin, Noelle, additional, Blümmel, Michael, additional, Bouman, Bas, additional, Campos, Hugo, additional, Costich, Denise, additional, Ellis, David, additional, Gaur, Pooran M., additional, Guarino, Luigi, additional, Hanson, Jean, additional, Kommerell, Victor, additional, Kumar, Lava, additional, Lusty, Charlotte, additional, Ndjiondjop, Marie-Noelle, additional, Payne, Thomas, additional, Peters, Michael, additional, Popova, Elena, additional, Prakash, Gangashetty, additional, Sackville-Hamilton, Ruaraidh, additional, Tabo, Ramadjita, additional, Upadhyaya, Hari, additional, Yazbek, Mariana, additional, and Wenzl, Peter, additional

Published
2019
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45. Corrigendum: Unlocking the genetic diversity of Creole wheats

Author

Vikram, Prashant, Franco, Jorge, Burgueño-Ferreira, Juan, Li, Huihui, Sehgal, Deepmala, Pierre, Carolina Saint, Ortiz, Cynthia, Sneller, Clay, Tattaris, Maria, Guzman, Carlos, Sansaloni, Carolina Paola, Ellis, Marc, Fuentes-Davila, Guillermo, Reynolds, Matthew, Sonder, Kai, Singh, Pawan, Payne, Thomas, Wenzl, Peter, Sharma, Achla, Bains, Navtej Singh, Singh, Gyanendra Pratap, Crossa, José, and Singh, Sukhwinder

Subjects
Gene Flow, Principal Component Analysis, Genotype, Geography, Models, Genetic, Genetic Variation, Corrigenda, Polymorphism, Single Nucleotide, Chromosomes, Plant, Polyploidy, Plant Breeding, Phenotype, Gene Frequency, Species Specificity, Mexico, Algorithms, Alleles, Genome, Plant, Phylogeny, Triticum
Abstract

Climate change and slow yield gains pose a major threat to global wheat production. Underutilized genetic resources including landraces and wild relatives are key elements for developing high-yielding and climate-resilient wheat varieties. Landraces introduced into Mexico from Europe, also known as Creole wheats, are adapted to a wide range of climatic regimes and represent a unique genetic resource. Eight thousand four hundred and sixteen wheat landraces representing all dimensions of Mexico were characterized through genotyping-by-sequencing technology. Results revealed sub-groups adapted to specific environments of Mexico. Broadly, accessions from north and south of Mexico showed considerable genetic differentiation. However, a large percentage of landrace accessions were genetically very close, although belonged to different regions most likely due to the recent (nearly five centuries before) introduction of wheat in Mexico. Some of the groups adapted to extreme environments and accumulated high number of rare alleles. Core reference sets were assembled simultaneously using multiple variables, capturing 89% of the rare alleles present in the complete set. Genetic information about Mexican wheat landraces and core reference set can be effectively utilized in next generation wheat varietal improvement.

Published
2016

46. Erratum: Corrigendum: A study of allelic diversity underlying flowering-time adaptation in maize landraces

Author

Navarro, J Alberto Romero, primary, Wilcox, Martha, additional, Burgueño, Juan, additional, Romay, Cinta, additional, Swarts, Kelly, additional, Trachsel, Samuel, additional, Preciado, Ernesto, additional, Terron, Arturo, additional, Delgado, Humberto Vallejo, additional, Vidal, Victor, additional, Ortega, Alejandro, additional, Banda, Armando Espinoza, additional, Montiel, Noel Orlando Gómez, additional, Ortiz-Monasterio, Ivan, additional, Vicente, Félix San, additional, Espinoza, Armando Guadarrama, additional, Atlin, Gary, additional, Wenzl, Peter, additional, Hearne, Sarah, additional, and Buckler, Edward S, additional

Published
2017
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47. A study of allelic diversity underlying flowering-time adaptation in maize landraces

Author

Romero Navarro, J Alberto, primary, Willcox, Martha, additional, Burgueño, Juan, additional, Romay, Cinta, additional, Swarts, Kelly, additional, Trachsel, Samuel, additional, Preciado, Ernesto, additional, Terron, Arturo, additional, Delgado, Humberto Vallejo, additional, Vidal, Victor, additional, Ortega, Alejandro, additional, Banda, Armando Espinoza, additional, Montiel, Noel Orlando Gómez, additional, Ortiz-Monasterio, Ivan, additional, Vicente, Félix San, additional, Espinoza, Armando Guadarrama, additional, Atlin, Gary, additional, Wenzl, Peter, additional, Hearne, Sarah, additional, and Buckler, Edward S, additional

Published
2017
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48. Identifying the diamond in the rough: a study of allelic diversity underlying flowering time adaptation in maize landraces

Author

Romero-Navarro, J. Alberto, primary, Wilcox, Martha, additional, Burgueño, Juan, additional, Romay, Cinta, additional, Swarts, Kelly, additional, Trachsel, Samuel, additional, Preciado, Ernesto, additional, Terron, Arturo, additional, Vallejo Delgado, Humberto, additional, Vidal, Victor, additional, Ortega, Alejandro, additional, Espinoza Banda, Armando, additional, Gómez Montiel, Noel Orlando, additional, Ortiz-Monasterio, Ivan, additional, San Vicente, Félix, additional, Guadarrama Espinoza, Armando, additional, Atlin, Gary, additional, Wenzl, Peter, additional, Hearne, Sarah, additional, and Buckler, Edward, additional

Published
2016
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50. Genomic Prediction of Gene Bank Wheat Landraces

Author

Crossa, José, primary, Jarquín, Diego, additional, Franco, Jorge, additional, Pérez-Rodríguez, Paulino, additional, Burgueño, Juan, additional, Saint-Pierre, Carolina, additional, Vikram, Prashant, additional, Sansaloni, Carolina, additional, Petroli, Cesar, additional, Akdemir, Deniz, additional, Sneller, Clay, additional, Reynolds, Matthew, additional, Tattaris, Maria, additional, Payne, Thomas, additional, Guzman, Carlos, additional, Peña, Roberto J, additional, Wenzl, Peter, additional, and Singh, Sukhwinder, additional

Published
2016
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