Your search keyword '"Genetic Maps"' showing total 608 results

1. Informational rescaling of PCA maps with application to genetic distance

Author

Taleb, Nassim Nicholas, Zalloua, Pierre, Elbassioni, Khaled, Hatzikirou, Haralampos, Henschel, Andreas, and Platt, Daniel E.

Published

2025

2. One hundred years of comparative genetic and physical mapping in cultivated oat (Avena sativa)

Author

Wight, Charlene P, Blake, Victoria C, Jellen, Eric N, Yao, Eric, Sen, Taner Z, and Tinker, Nicholas A

Subjects

Agricultural, Veterinary and Food Sciences, Environmental Sciences, Human Genome, Genetics, Avena, comparative mapping, curation, genes, genetic maps, molecular markers, oat, quantitative trait loci, Agricultural and Veterinary Sciences, Agronomy & Agriculture, Agricultural, veterinary and food sciences, Environmental sciences

Abstract

Context. Researchers have been accumulating information concerning the locations of genes and quantitative trait loci (QTLs) in cultivated oat (Avena sativa L.) for more than 100 years. Aims. The aim of this work was to create an inventory of genes and QTLs found in cultivated hexaploid oat and produce tools to make this resource more useful. Methods. By using the positions of perfectly matched, single nucleotide polymorphism markers, each centimorgan (cM) location along the consensus map was assigned to a location on the OT3098 v2 physical map found on the GrainGenes database website (https://wheat.pw.usda.gov/jb/?data=/ggds/oat-ot3098v2-pepsico). This information was then used to assign physical locations to the genes and QTLs in the inventory, where possible. Key results. A table comparing the major genetic maps of hexaploid oats to each other, to the 2018 oat consensus map, and to physical chromosomes was produced. Genome browser tracks aligning the consensus map regions and the locations of the genes and QTLs to OT3098 v2 were added to GrainGenes. Conclusions. Many oat genes and QTLs identified using genetic mapping could be assigned positions on physical oat chromosomes. However, many of these assigned regions are quite long, owing to the presence of large areas of reduced recombination. Specific examples of identified patterns of recombination between the genetic and physical maps and validated gene and QTL locations are discussed. Implications. These resources will assist researchers performing comparative genetic and physical mapping in oat.

Published

2024

3. Genome-Wide Datasets of Chicories (Cichorium intybus L.) for Marker-Assisted Crop Breeding Applications: A Systematic Review and Meta-Analysis.

Author

Draga, Samela, Gabelli, Giovanni, Palumbo, Fabio, and Barcaccia, Gianni

Subjects

*CHICORY, *PLANT breeding, *SCIENCE publishing, *ANIMAL breeding, *BITTERNESS (Taste), *ASTERACEAE

Abstract

Cichorium intybus L. is the most economically important species of its genus and among the most important of the Asteraceae family. In chicory, many linkage maps have been produced, several sets of mapped and unmapped markers have been developed, and dozens of genes linked to traits of agronomic interest have been investigated. This treasure trove of information, properly cataloged and organized, is of pivotal importance for the development of superior commercial products with valuable agronomic potential in terms of yield and quality, including reduced bitter taste and increased inulin production, as well as resistance or tolerance to pathogens and resilience to environmental stresses. For this reason, a systematic review was conducted based on the scientific literature published in chicory during 1980–2023. Based on the results obtained from the meta-analysis, we created two consensus maps capable of supporting marker-assisted breeding (MAB) and marker-assisted selection (MAS) programs. By taking advantage of the recently released genome of C. intybus, we built a 639 molecular marker-based consensus map collecting all the available mapped and unmapped SNP and SSR loci available for this species. In the following section, after summarizing and discussing all the genes investigated in chicory and related to traits of interest such as reproductive barriers, sesquiterpene lactone biosynthesis, inulin metabolism and stress response, we produced a second map encompassing 64 loci that could be useful for MAS purposes. With the advent of omics technologies, molecular data chaos (namely, the situation where the amount of molecular data is so complex and unmanageable that their use becomes challenging) is becoming far from a negligible issue. In this review, we have therefore tried to contribute by standardizing and organizing the molecular data produced thus far in chicory to facilitate the work of breeders. [ABSTRACT FROM AUTHOR]

Published

2023

4. Designing Tobacco Genomes for Resistance to Biotic Stresses

Author

Sarala, K., Nanda, C., Baghyalakshmi, K., Darvishzadeh, Reza, Prabhakara Rao, K., Sreedhar, U., Gangadhara, K., and Kole, Chittaranjan, editor

Published

2022

5. Next Generation Breeding for Abiotic Stress Resistance in Eggplant

Author

Toppino, Laura, Barchi, Lorenzo, Rotino, Giuseppe Leonardo, and Kole, Chittaranjan, editor

Published

2022

6. Brassica juncea Genome Assemblies—Characteristics and Utilization

Author

Paritosh, Kumar, Pental, Deepak, Kole, Chittaranjan, Series Editor, and Mohapatra, Trilochan, editor

Published

2022

7. Genetic Resources of Groundnut

Author

Radhakrishnan, T., Rathnakumar, A. L., Mahatma, M. K., Chandramohan, S., Patel, S., Priyadarshan, P.M., editor, and Jain, S. Mohan, editor

Published

2022

8. Pepper and Eggplant Genetic Resources

Author

Toppino, Laura, Prohens, Jaime, Rotino, Giuseppe Leonardo, Plazas, Mariola, Parisi, Mario, Carrizo García, Carolina, Tripodi, Pasquale, Kole, Chittaranjan, Series Editor, Carputo, Domenico, editor, Aversano, Riccardo, editor, and Ercolano, Maria Raffaella, editor

Published

2021

9. A hapless mathematical contribution to biology: Chromosome inversions in Drosophila, 1937–1941.

Author

Tannier, Eric

Subjects

*SCIENTIFIC errors, *DROSOPHILA, *BIOLOGY, *QUANTITATIVE genetics, *HISTORY of biology, *COMPUTATIONAL biology, *CHROMOSOME inversions

Abstract

This is the story, told in the light of a new analysis of historical data, of a mathematical biology problem that was explored in the 1930s in Thomas Morgan's laboratory at the California Institute of Technology. It is one of the early developments of evolutionary genetics and quantitative phylogeny, and deals with the identification and counting of chromosomal inversions in Drosophila species from comparisons of genetic maps. A re-analysis of the data produced in the 1930s using current mathematics and computational technologies reveals how a team of biologists, with the help of a renowned mathematician and against their first intuition, came to an erroneous conclusion regarding the presence of phylogenetic signals in gene arrangements. This example illustrates two different aspects of a same piece: (1) the appearance of a mathematical in biology problem solved with the development of a combinatorial algorithm, which was unusual at the time, and (2) the role of errors in scientific activity. Also underlying is the possible influence of computational complexity in understanding the directions of research in biology. [ABSTRACT FROM AUTHOR]

Published

2022

10. The art of curation at a biological database: Principles and application

Author

Odell, Sarah G, Lazo, Gerard R, Woodhouse, Margaret R, Hane, David L, and Sen, Taner Z

Subjects

Plant Biology, Biological Sciences, Generic health relevance, Biological databases, Curation, Genetic markers, Genetic maps, Genomic data, Genome browsers, Ecology, Plant biology

Abstract

The variety and quantity of data being produced by biological research has grown dramatically in recent years, resulting in an expansion of our understanding of biological systems. However, this abundance of data has brought new challenges, especially in curation. The role of biocurators is in part to filter research outcomes as they are generated, not only so that information is formatted and consolidated into locations that can provide long-term data sustainability, but also to ensure that the relevant data that was captured is reliable, reusable, and accessible. In many ways, biocuration lies somewhere between an art and a science. At GrainGenes (https://wheat.pw.usda.gov;https://graingenes.org), a long-time, stably-funded centralized repository for data about wheat, barley, rye, oat, and other small grains, curators have implemented a workflow for locating, parsing, and uploading new data so that the most important, peer-reviewed, high-quality research is available to users as quickly as possible with rich links to past research outcomes. In this report, we illustrate the principles and practical considerations of curation that we follow at GrainGenes with three case studies for curating a gene, a quantitative trait locus (QTL), and genomic elements. These examples demonstrate how our work allows users, i.e., small grains geneticists and breeders, to harness high-quality small grains data at GrainGenes to help them develop plants with enhanced agronomic traits.

Published

2017

11. Cytogenetics to functional genomics: six decades journey of Professor P.K. Gupta.

Author

Kulwal, Pawan L., Mir, Reyazul Rouf, and Varshney, Rajeev K.

Subjects

*FUNCTIONAL genomics, *CYTOGENETICS, *PLANT gene mapping, *QUANTITATIVE genetics, *CYTOTAXONOMY, *LOCUS (Genetics), *MOLECULAR biology

Abstract

Summary: We had the fortune of starting our scientific/research careers in the Molecular Biology and Crop Biotechnology Laboratory of Professor P.K. Gupta at Ch. Charan Singh University, Meerut, UP, India. Here, we describe the most important scientific contributions of our beloved mentor in the area of cytotaxonomy, cytogenetics, mutation breeding, quantitative genetics, molecular biology, crop biotechnology and plant genomics, on his 85th birthday. Important contributions made in the development and use of genomics resources including the development and use of different kinds of molecular markers, genetic and physical mapping, quantitative trait locus (QTL) interval mapping, genome‐wide association mapping and molecular breeding including marker‐assisted selection have been briefly summarized. Efforts have been also made to give readers a glimpse of important contributions in the study of cytology/apomixis of grasses, cytotaxonomic studies in asteraceae/fabaceae, nuclear/repetitive DNA content in Lolium, interspecific/intergeneric relationships involving the genus Hordeum and re‐examining taxonomy of the tribe Triticeae. [ABSTRACT FROM AUTHOR]

Published

2022

12. Targeted amplicon sequencing + next-generation sequencing–based bulked segregant analysis identified genetic loci associated with preharvest sprouting tolerance in common buckwheat (Fagopyrum esculentum)

Author

Ryoma Takeshima, Eri Ogiso-Tanaka, Yasuo Yasui, and Katsuhiro Matsui

Subjects

Breeding, Genetic maps, Genome database, Resequencing, Marker-assisted selection, QTL-Seq, Botany, QK1-989

Abstract

Abstract Background Common buckwheat (2n = 2x = 16) is an outcrossing pseudocereal whose seeds contain abundant nutrients and potential antioxidants. As these beneficial compounds are damaged by preharvest sprouting (PHS) and PHS is likely to increase with global warming, it is important to find efficient ways to develop new PHS-tolerant lines. However, genetic loci and selection markers associated with PHS in buckwheat have not been reported. Results By next-generation sequencing (NGS) of whole-genome of parental lines, we developed a genome-wide set of 300 markers. By NGS- based bulked segregant analysis (NGS-BSA), we developed 100 markers linked to PHS tolerance. To confirm the effectiveness of marker development from NGS-BSA data, we developed 100 markers linked to the self-compatibility (SC) trait from previous NGS-BSA data. Using these markers, we developed genetic maps with AmpliSeq technology, which can quickly detect polymorphisms by amplicon-based multiplex targeted NGS, and performed quantitative trait locus (QTL) analysis for PHS tolerance in combination with NGS-BSA. QTL analysis detected two major and two minor QTLs for PHS tolerance in a segregating population developed from a cross between the PHS-tolerant ‘Kyukei 29’ and the self-compatible susceptible ‘Kyukei SC7’. We found different major and minor QTLs in other segregating populations developed from the PHS-tolerant lines ‘Kyukei 28’ and ‘NARO-FE-1’. Candidate markers linked to PHS developed by NGS-BSA were located near these QTL regions. We also investigated the effectiveness of markers linked to these QTLs for selection of PHS-tolerant lines among other segregating populations. Conclusions We efficiently developed genetic maps using a method combined with AmpliSeq technology and NGS-BSA, and detected QTLs associated with preharvest sprouting tolerance in common buckwheat. This is the first report to identify QTLs for PHS tolerance in buckwheat. Our marker development system will accelerate genetic research and breeding in common buckwheat.

Published

2021

13. Integration of Maps Enables a Cytogenomics Analysis of the Complete Karyotype in Solea senegalensis.

Author

Ramírez, Daniel, Rodríguez, María Esther, Cross, Ismael, Arias-Pérez, Alberto, Merlo, Manuel Alejandro, Anaya, Marco, Portela-Bens, Silvia, Martínez, Paulino, Robles, Francisca, Ruiz-Rejón, Carmelo, and Rebordinos, Laureana

Subjects

*SOLEA senegalensis, *KARYOTYPES, *MICROSATELLITE repeats, *PSETTA maxima, *FLATFISHES

Abstract

The Pleuronectiformes order, which includes several commercially-important species, has undergone extensive chromosome evolution. One of these species is Solea senegalensis, a flatfish with 2n = 42 chromosomes. In this study, a cytogenomics approach and integration with previous maps was applied to characterize the karyotype of the species. Synteny analysis of S. senegalensis was carried out using two flatfish as a reference: Cynoglossus semilaevis and Scophthalmus maximus. Most S. senegalensis chromosomes (or chromosome arms for metacentrics and submetacentrics) showed a one-to-one macrosyntenic pattern with the other two species. In addition, we studied how repetitive sequences could have played a role in the evolution of S. senegalensis bi-armed (3, and 5–9) and acrocentric (11, 12 and 16) chromosomes, which showed the highest rearrangements compared with the reference species. A higher abundance of TEs (Transposable Elements) and other repeated elements was observed adjacent to telomeric regions on chromosomes 3, 7, 9 and 16. However, on chromosome 11, a greater abundance of DNA transposons was detected in interstitial BACs. This chromosome is syntenic with several chromosomes of the other two flatfish species, suggesting rearrangements during its evolution. A similar situation was also found on chromosome 16 (for microsatellites and low complexity sequences), but not for TEs (retroelements and DNA transposons). These differences in the distribution and abundance of repetitive elements in chromosomes that have undergone remodeling processes during the course of evolution also suggest a possible role for simple repeat sequences in rearranged regions. [ABSTRACT FROM AUTHOR]

Published

2022

14. GenoTypeMapper: graphical genotyping on genetic and sequence-based maps

Author

Mathieu Deblieck, Andrii Fatiukha, Norbert Grundman, Lianne Merchuk-Ovnat, Yehoshua Saranga, Tamar Krugman, Klaus Pillen, Albrecht Serfling, Wojciech Makalowski, Frank Ordon, and Dragan Perovic

Subjects

Genetic maps, Sequence-based maps, Graphical genotyping, Molecular breeding, Algorithm, Plant culture, SB1-1110, Biology (General), QH301-705.5

Abstract

Abstract Background The rising availability of assemblies of large genomes (e.g. bread and durum wheat, barley) and their annotations deliver the basis to graphically present genome organization of parents and progenies on a physical scale. Genetic maps are a very important tool for breeders but often represent distorted models of the actual chromosomes, e.g., in centromeric and telomeric regions. This biased picture might lead to imprecise assumptions and estimations about the size and complexity of genetic regions and the selection of suitable molecular markers for the incorporation of traits in breeding populations or near-isogenic lines (NILs). Some software packages allow the graphical illustration of genotypic data, but to the best of our knowledge, suitable software packages that allow the comparison of genotypic data on the physical and genetic scale are currently unavailable. Results We developed a simple Java-based-software called GenoTypeMapper (GTM) for comparing genotypic data on genetic and physical maps and tested it for effectiveness on data of two NILs that carry QTL-regions for drought stress tolerance from wild emmer on chromosome 2BS and 7AS. Both NILs were more tolerant to drought stress than their recurrent parents but exhibited additional undesirable traits such as delayed heading time. Conclusions In this article, we illustrate that the software easily allows users to display and identify additional chromosomal introgressions in both NILs originating from the wild emmer parent. The ability to detect and diminish linkage drag can be of particular interest for pre-breeding purposes and the developed software is a well-suited tool in this respect. The software is based on a simple allele-matching algorithm between the offspring and parents of a crossing scheme. Despite this simple approach, GTM seems to be the only software that allows us to analyse, illustrate and compare genotypic data of offspring of different crossing schemes with up to four parents in two different maps. So far, up to 500 individuals with a maximum number of 50,000 markers can be examined with the software. The main limitation that hampers the performance of the software is the number of markers that are examined in parallel. Since each individual must be analysed separately, a maximum of ten individuals can currently be displayed in a single run. On a computer with an Intel five processor of the 8th generation, GTM can reliably either analyse a single individual with up to 12,000 markers or ten individuals with up to 3,600 markers in less than five seconds. Future work aims to improve the performance of the software so that more complex crossing schemes with more parents and more markers can be analysed.

Published

2020

15. Genomics and animal production

Author

F. Abel Ponce de León and Gustavo A. Gutierrez

Subjects

genetic markers, genetic maps, genomic selection, ngs, dna editing systems, Science, Biology (General), QH301-705.5

Abstract

Developing countries have the challenge of achieving food security in a world context that is affected by climate change and global population growth. Molecular Genetics and genomics are proposed as technologies that will help to achieve sustainable food security. Technologies that have been developed in the last decade such as the development of genetic markers, genetic maps, genomic selection, next-generation sequencing, and DNA editing systems are discussed. Examples of some discoveries and achievements are provided.

Published

2020

16. Genetics and Breeding

Author

Portis, Ezio, Acquadro, Alberto, Lanteri, Sergio, Kole, Chittaranjan, Series Editor, Portis, Ezio, editor, Acquadro, Alberto, editor, and Lanteri, Sergio, editor

Published

2019

17. Classical and Molecular Carrot Breeding

Author

Simon, Philipp W., Kole, Chittaranjan, Series Editor, Simon, Philipp, editor, Iorizzo, Massimo, editor, Grzebelus, Dariusz, editor, and Baranski, Rafal, editor

Published

2019

18. Carrot Molecular Genetics and Mapping

Author

Iorizzo, Massimo, Ellison, Shelby, Pottorff, Marti, Cavagnaro, Pablo F., Kole, Chittaranjan, Series Editor, Simon, Philipp, editor, Iorizzo, Massimo, editor, Grzebelus, Dariusz, editor, and Baranski, Rafal, editor

Published

2019

19. Molecular Breeding

Author

Priyadarshan, P. M. and Priyadarshan, P. M.

Published

2019

20. Grass Pea: Remodeling an Ancient Insurance Crop for Climate Resilience

Author

Sarkar, Abhimanyu, Emmrich, Peter M. F., Sarker, Ashutosh, Zong, Xuxiao, Martin, Cathie, Wang, Trevor L., and Kole, Chittaranjan, editor

Published

2019

21. Current Status of Genomic Maps: Genomic Selection/GBV in Livestock

Author

Blasco, Agustin, Pena, R. N., Niemann, Heiner, editor, and Wrenzycki, Christine, editor

Published

2018

22. Transmission Genetics of a Sorghum bicolor × S. halepense Backcross Populations

Author

Wenqian Kong, Pheonah Nabukalu, T. Stan Cox, Valorie H. Goff, Gary J. Pierce, Cornelia Lemke, Jon S. Robertson, Rosana Compton, Haibao Tang, and Andrew H. Paterson

Subjects

genetic maps, autopolyploid, genotyping by sequencing, segregation, crop-to-weed, Plant culture, SB1-1110

Abstract

Despite a “ploidy barrier,” interspecific crosses to wild and/or cultivated sorghum (Sorghum bicolor, 2n = 2x = 20) may have aided the spread across six continents of Sorghum halepense, also exemplifying risks of “transgene escape” from crops that could make weeds more difficult to control. Genetic maps of two BC1F1 populations derived from crosses of S. bicolor (sorghum) and S. halepense with totals of 722 and 795 single nucleotide polymorphism (SNP) markers span 37 and 35 linkage groups, with 2–6 for each of the 10 basic sorghum chromosomes due to fragments covering different chromosomal portions or independent segregation from different S. halepense homologs. Segregation distortion favored S. halepense alleles on chromosomes 2 (1.06–4.68 Mb, near a fertility restoration gene), 7 (1.20–6.16 Mb), 8 (1.81–5.33 Mb, associated with gene conversion), and 9 (47.5–50.1 Mb); and S. bicolor alleles on chromosome 6 (0–40 Mb), which contains both a large heterochromatin block and the Ma1 gene. Regions of the S. halepense genome that are recalcitrant to gene flow from sorghum might be exploited as part a multi-component system to reduce the likelihood of spread of transgenes or other modified genes. Its SNP profile suggests that chromosome segments from its respective progenitors S. bicolor and Sorghum propinquum have extensively recombined in S. halepense. This study reveals genomic regions that might discourage crop-to-weed gene escape, and provides a foundation for marker-trait association analysis to determine the genetic control of traits contributing to weediness, invasiveness, and perenniality of S. halepense.

Published

2020

23. COMBINED INHERITANCE OF GENES CONTROLLING MORPHOLOGICAL CHARACTERS AND RESTORATION OF POLLEN FERTILITY IN CASE OF CYTOPLASMIC MALE STERILITY IN FLAX (LINUM USITATISSIMUM L.)

Author

E. A. Porokhovinova

Subjects

linum usitatissimum, генетическая карта, генетическая коллекция, гены rf, плейотропный эффект, сцепление генов, цмс, трубчатая форма цветка, genetic maps, genetic collection, rf genes, pleiotropic effect, genes linkage, cms, tubular shape of the flower, Biotechnology, TP248.13-248.65, Botany, QK1-989

Abstract

As CMS sources 3 flax lines were used: gc-204 (open flower, sterile anthers), gc-208 and gc-188 are self fertile, their sterility occurs only in hybridization with other lines. The linkage group of rft3 (sterile tubular flowers) - pf1 (pink flower) - CSB1 (cilia on the bolls’ walls) with the frequency of crossing-over 10, 28 and 34cM, respectively was found. Independent inheritance of rft genes with others: YSED1(yellow seeds) and rft3-2; pbc1(light blue star-shaped flower) and rft3-6; rft3-7, rft5-2, rft6, rft7; ygp1 (yellow-green plant) and rft6, rft7; s1 and rft5-2, and independent inheritance of genes restoring pollen fertility of open flowers (RFO) with genes: RFO6, RFO8, RFO9 and pf-ad, RFO6, RFO7 and pbc1, RFO7 and s1 (white star-shaped flower, yellow seeds) were shown.

Published

2018

24. Genetics and Genomics of Cucurbita spp.

Author

Montero-Pau, J., Esteras, C., Blanca, J., Ziarsolo, P., Cañizares, J., Picó, B., Jorgensen, Richard A., Section editor, Grumet, Rebecca, editor, Katzir, Nurit, editor, and Garcia-Mas, Jordi, editor

Published

2017

25. Targeted amplicon sequencing + next-generation sequencing–based bulked segregant analysis identified genetic loci associated with preharvest sprouting tolerance in common buckwheat (Fagopyrum esculentum).

Author

Takeshima, Ryoma, Ogiso-Tanaka, Eri, Yasui, Yasuo, and Matsui, Katsuhiro

Subjects

BUCKWHEAT, GERMINATION, GENE mapping, GLOBAL warming, NUCLEOTIDE sequencing

Abstract

Background: Common buckwheat (2n = 2x = 16) is an outcrossing pseudocereal whose seeds contain abundant nutrients and potential antioxidants. As these beneficial compounds are damaged by preharvest sprouting (PHS) and PHS is likely to increase with global warming, it is important to find efficient ways to develop new PHS-tolerant lines. However, genetic loci and selection markers associated with PHS in buckwheat have not been reported. Results: By next-generation sequencing (NGS) of whole-genome of parental lines, we developed a genome-wide set of 300 markers. By NGS- based bulked segregant analysis (NGS-BSA), we developed 100 markers linked to PHS tolerance. To confirm the effectiveness of marker development from NGS-BSA data, we developed 100 markers linked to the self-compatibility (SC) trait from previous NGS-BSA data. Using these markers, we developed genetic maps with AmpliSeq technology, which can quickly detect polymorphisms by amplicon-based multiplex targeted NGS, and performed quantitative trait locus (QTL) analysis for PHS tolerance in combination with NGS-BSA. QTL analysis detected two major and two minor QTLs for PHS tolerance in a segregating population developed from a cross between the PHS-tolerant 'Kyukei 29' and the self-compatible susceptible 'Kyukei SC7'. We found different major and minor QTLs in other segregating populations developed from the PHS-tolerant lines 'Kyukei 28' and 'NARO-FE-1'. Candidate markers linked to PHS developed by NGS-BSA were located near these QTL regions. We also investigated the effectiveness of markers linked to these QTLs for selection of PHS-tolerant lines among other segregating populations. Conclusions: We efficiently developed genetic maps using a method combined with AmpliSeq technology and NGS-BSA, and detected QTLs associated with preharvest sprouting tolerance in common buckwheat. This is the first report to identify QTLs for PHS tolerance in buckwheat. Our marker development system will accelerate genetic research and breeding in common buckwheat. [ABSTRACT FROM AUTHOR]

Published

2021

26. VfODB: a comprehensive database of ESTs, EST-SSRs, mtSSRs, microRNA-target markers and genetic maps in Vicia faba.

Author

Mokhtar, Morad M, Hussein, Ebtissam H A, El-Assal, Salah El-Din S, and Atia, Mohamed A M

Subjects

FAVA bean, GENETIC markers, GENE mapping, FODDER crops, CROP improvement, DATABASES

Abstract

Faba bean (Vicia faba) is an essential food and fodder legume crop worldwide due to its high content of proteins and fibres. Molecular markers tools represent an invaluable tool for faba bean breeders towards rapid crop improvement. Although there have historically been few V. faba genome resources available, several transcriptomes and mitochondrial genome sequence data have been released. These data in addition to previously developed genetic linkage maps represent a great resource for developing functional markers and maps that can accelerate the faba bean breeding programmes. Here, we present the Vicia faba Omics database (Vf ODB) as a comprehensive database integrating germplasm information, expressed sequence tags (ESTs), expressed sequence tags-simple sequence repeats (EST-SSRs), and mitochondrial-simple sequence repeats (mtSSRs), microRNA-target markers and genetic maps in faba bean. In addition, KEGG pathway-based markers and functional maps are integrated as a novel class of annotation-based markers/maps. Collectively, we developed 31 536 EST markers, 9071 EST-SSR markers and 3023 microRNA-target markers based on V. faba RefTrans V2 mining. By mapping 7940 EST and 2282 EST-SSR markers against the KEGG pathways database we successfully developed 107 functional maps. Also, 40 mtSSR markers were developed based on mitochondrial genome mining. On the data curation level, we retrieved 3461 markers representing 12 types of markers (CAPS, EST, EST-SSR, Gene marker, INDEL, Isozyme, ISSR, RAPD, SCAR, RGA, SNP and SSR), which mapped across 18 V. faba genetic linkage maps. Vf ODB provides two user-friendly tools to identify, classify SSR motifs and in silico amplify their targets. Vf ODB can serve as a powerful database and helpful platform for faba bean research community as well as breeders interested in Genomics-Assisted Breeding. [ABSTRACT FROM AUTHOR]

Published

2020

27. Adaptive Divergence of Meiotic Recombination Rate in Ecological Speciation.

Author

Neupane, Swatantra and Xu, Sen

Subjects

*GENETIC recombination, *DAPHNIA pulex, *GENETIC speciation, *GENETIC drift, *DAPHNIA, *RATES

Abstract

Theories predict that directional selection during adaptation to a novel habitat results in elevated meiotic recombination rate. Yet the lack of population-level recombination rate data leaves this hypothesis untested in natural populations. Here, we examine the population-level recombination rate variation in two incipient ecological species, the microcrustacean Daphnia pulex (an ephemeral-pond species) and Daphnia pulicaria (a permanent-lake species). The divergence of D. pulicaria from D. pulex involved habitat shifts from pond to lake habitats as well as strong local adaptation due to directional selection. Using a novel single-sperm genotyping approach, we estimated the male-specific recombination rate of two linkage groups in multiple populations of each species in common garden experiments and identified a significantly elevated recombination rate in D. pulicaria. Most importantly, population genetic analyses show that the divergence in recombination rate between these two species is most likely due to divergent selection in distinct ecological habitats rather than neutral evolution. [ABSTRACT FROM AUTHOR]

Published

2020

28. Transmission Genetics of a Sorghum bicolor × S. halepense Backcross Populations.

Author

Kong, Wenqian, Nabukalu, Pheonah, Cox, T. Stan, Goff, Valorie H., Pierce, Gary J., Lemke, Cornelia, Robertson, Jon S., Compton, Rosana, Tang, Haibao, and Paterson, Andrew H.

Subjects

SORGHUM, PLANT gene mapping, GENE flow, GENE conversion, GENETICS, SINGLE nucleotide polymorphisms, MEIOTIC drive, PLANT fertility

Abstract

Despite a "ploidy barrier," interspecific crosses to wild and/or cultivated sorghum (Sorghum bicolor , 2n = 2x = 20) may have aided the spread across six continents of Sorghum halepense , also exemplifying risks of "transgene escape" from crops that could make weeds more difficult to control. Genetic maps of two BC1F1 populations derived from crosses of S. bicolor (sorghum) and S. halepense with totals of 722 and 795 single nucleotide polymorphism (SNP) markers span 37 and 35 linkage groups, with 2–6 for each of the 10 basic sorghum chromosomes due to fragments covering different chromosomal portions or independent segregation from different S. halepense homologs. Segregation distortion favored S. halepense alleles on chromosomes 2 (1.06–4.68 Mb, near a fertility restoration gene), 7 (1.20–6.16 Mb), 8 (1.81–5.33 Mb, associated with gene conversion), and 9 (47.5–50.1 Mb); and S. bicolor alleles on chromosome 6 (0–40 Mb), which contains both a large heterochromatin block and the Ma1 gene. Regions of the S. halepense genome that are recalcitrant to gene flow from sorghum might be exploited as part a multi-component system to reduce the likelihood of spread of transgenes or other modified genes. Its SNP profile suggests that chromosome segments from its respective progenitors S. bicolor and Sorghum propinquum have extensively recombined in S. halepense. This study reveals genomic regions that might discourage crop-to-weed gene escape, and provides a foundation for marker-trait association analysis to determine the genetic control of traits contributing to weediness, invasiveness, and perenniality of S. halepense. [ABSTRACT FROM AUTHOR]

Published

2020

29. Microsatellite markers in common bean (Phaseolus vulgaris L.)

Author

Monika VIDAK, Klaudija CAROVIĆ-STANKO, Ana BAREŠIĆ, Martina GRDIŠA, Zlatko ŠATOVIĆ, and Zlatko LIBER

Subjects

genetic maps, genetic diversity, common bean, microsatellite markers, Agriculture

Abstract

Common bean is one of the most cultivated and consumed grain legumes worldwide, showing a high level of genetic diversity. Here is presented a detailed review of development and mapping of simple sequence repeats (SSRs, microsatellite markers) in the common bean. In the last 25 years, common bean has been the subject of numerous genetic studies, in which the identification and use of SSRs were conducted, and lead to the development of genetic maps. First genetic maps of common bean have been developed in the 1990s and were based on different molecular markers, and included domestication genes and important agronomic traits. Later, SSRs allowed the genetic mapping of more narrow crosses that are often of interest in plant breeding. Most genetic maps have been correlated with the core map established in the recombinant inbred population BAT93 x Jalo EEP558, and includes different markers, RFLP (restriction fragment length polymorphism), RAPD (random amplified polymorphic DNA), AFLP (amplified fragment length polymorphism), and SSRs in particular. More than 2,000 SSR markers are available for the common bean and they are an important tool to evaluate the genetic diversity of common bean landraces. SSRs are also useful to evaluate intra-specific diversity within the genus Phaseolus.

Published

2017

30. The art of curation at a biological database: Principles and application

Author

Sarah G. Odell, Gerard R. Lazo, Margaret R. Woodhouse, David L. Hane, and Taner Z. Sen

Subjects

Biological databases, Curation, Genetic markers, Genetic maps, Genomic data, Genome browsers, Botany, QK1-989

Abstract

The variety and quantity of data being produced by biological research has grown dramatically in recent years, resulting in an expansion of our understanding of biological systems. However, this abundance of data has brought new challenges, especially in curation. The role of biocurators is in part to filter research outcomes as they are generated, not only so that information is formatted and consolidated into locations that can provide long-term data sustainability, but also to ensure that the relevant data that was captured is reliable, reusable, and accessible. In many ways, biocuration lies somewhere between an art and a science. At GrainGenes (https://wheat.pw.usda.gov;https://graingenes.org), a long-time, stably-funded centralized repository for data about wheat, barley, rye, oat, and other small grains, curators have implemented a workflow for locating, parsing, and uploading new data so that the most important, peer-reviewed, high-quality research is available to users as quickly as possible with rich links to past research outcomes. In this report, we illustrate the principles and practical considerations of curation that we follow at GrainGenes with three case studies for curating a gene, a quantitative trait locus (QTL), and genomic elements. These examples demonstrate how our work allows users, i.e., small grains geneticists and breeders, to harness high-quality small grains data at GrainGenes to help them develop plants with enhanced agronomic traits.

Published

2017

31. Estimation of linkage disequilibrium and effective population size in New Zealand sheep using three different methods to create genetic maps

Author

Vincent Prieur, Shannon M. Clarke, Luiz F. Brito, John C. McEwan, Michael A. Lee, Rudiger Brauning, Ken G. Dodds, and Benoît Auvray

Subjects

Genetic diversity, LD, Ovine 50 K SNP chip, genetic maps, Ovis aries, Genetics, QH426-470

Abstract

Abstract Background Investments in genetic selection have played a major role in the New Zealand sheep industry competitiveness. Selection may erode genetic diversity, which is a crucial factor for the success of breeding programs. Better understanding of linkage disequilibrium (LD) and ancestral effective population size (Ne) through quantifying this diversity and comparison between populations allows for more informed decisions with regards to selective breeding taking population genetic diversity into account. The estimation of N e can be determined via genetic markers and requires knowledge of genetic distances between these markers. Single nucleotide polymorphisms (SNP) data from a sample of 12,597 New Zealand crossbred and purebred sheep genotyped with the Illumina Ovine SNP50 BeadChip was used to perform a genome-wide scan of LD and N e . Three methods to estimate genetic distances were investigated: 1) M1: a ratio fixed across the whole genome of one Megabase per centiMorgan; 2) M2: the ratios of genetic distance (using M3, below) over physical distance fixed for each chromosome; and, 3) M3: a genetic map of inter-SNP distances estimated using CRIMAP software (v2.503). Results The estimates obtained with M2 and M3 showed much less variability between autosomes than those with M1, which tended to give lower N e results and higher LD decay. The results suggest that N e has decreased since the development of sheep breeds in Europe and this reduction in Ne has been accelerated in the last three decades. The N e estimated for five generations in the past ranged from 71 to 237 for Texel and Romney breeds, respectively. A low level of genetic kinship and inbreeding was estimated in those breeds suggesting avoidance of mating close relatives. Conclusions M3 was considered the most accurate method to create genetic maps for the estimation of LD and Ne. The findings of this study highlight the history of genetic selection in New Zealand crossbred and purebred sheep and these results will be very useful to understand genetic diversity of the population with respect to genetic selection. In addition, it will help geneticists to identify genomic regions which have been preferentially selected within a variety of breeds and populations.

Published

2017

32. Genetic Architecture of a Rice Nested Association Mapping Population

Author

Christopher A. Fragoso, Maria Moreno, Zuoheng Wang, Christopher Heffelfinger, Lady J. Arbelaez, John A. Aguirre, Natalia Franco, Luz E. Romero, Karine Labadie, Hongyu Zhao, Stephen L. Dellaporta, and Mathias Lorieux

Subjects

QTL mapping, computational biology, genetic maps, nested association mapping, plant genomics, Genetics, QH426-470

Abstract

Describing the genetic diversity in the gene pool of crops will provide breeders with novel resources for varietal improvement. Nested Association Mapping (NAM) populations are uniquely suited for characterizing parental diversity through the shuffling and fixation of parental haplotypes. Here, we describe a set of 1879 rice NAM lines created through the selfing and single-seed descent of F1 hybrids derived from elite IR64 indica crossed with 10 diverse tropical japonica lines. Genotyping data indicated tropical japonica alleles were captured at every queried locus despite the presence of segregation distortion factors. Several distortion loci were mapped, both shared and unique, among the 10 populations. Using two-point and multi-point genetic map calculations, our datasets achieved the ∼1500 cM expected map size in rice. Finally, we highlighted the utility of the NAM lines for QTL mapping, including joint analysis across the 10 populations, by confirming known QTL locations for the trait days to heading.

Published

2017

33. Diverse data supports the transition of filamentous fungal model organisms into the post-genomics era

Author

Kevin McCluskey and Scott E. Baker

Subjects

Filamentous fungi, gene-for-gene hypothesis, bioprocessing, biotechnology, parasexual genetics, genetic maps, molecular markers, historical genetics, Biology (General), QH301-705.5, Microbiology, QR1-502

Abstract

Filamentous fungi have been important as model organisms since the beginning of modern biological inquiry and have benefitted from open data since the earliest genetic maps were shared. From early origins in simple Mendelian genetics of mating types, parasexual genetics of colony colour, and the foundational demonstration of the segregation of a nutritional requirement, the contribution of research systems utilising filamentous fungi has spanned the biochemical genetics era, through the molecular genetics era, and now are at the very foundation of diverse omics approaches to research and development. Fungal model organisms have come from most major taxonomic groups although Ascomycete filamentous fungi have seen the most major sustained effort. In addition to the published material about filamentous fungi, shared molecular tools have found application in every area of fungal biology. Similarly, shared data has contributed to the success of model systems. The scale of data supporting research with filamentous fungi has grown by 10 to 12 orders of magnitude. From genetic to molecular maps, expression databases, and finally genome resources, the open and collaborative nature of the research communities has assured that the rising tide of data has lifted all of the research systems together.

Published

2017

34. Meta-Analysis of the QTLome of Fusarium Head Blight Resistance in Bread Wheat: Refining the Current Puzzle

Author

Eduardo Venske, Railson Schreinert dos Santos, Daniel da Rosa Farias, Vianei Rother, Luciano Carlos da Maia, Camila Pegoraro, and Antonio Costa de Oliveira

Subjects

molecular markers, meta-QTL, genetic architecture, genetic maps, genome, transcriptome, Plant culture, SB1-1110

Abstract

Background: Fusarium Head Blight (FHB) is a worldwide devastating disease of bread wheat (Triticum aestivum L.). Genetic resistance is the most effective way to control FHB and many QTL related to this trait have been mapped on the wheat genetic map. This information, however, must be refined to be more efficiently used in breeding programs and for the advance of the basic research. The objective of the present study was to in-depth analyze the QTLome of FHB resistance in bread wheat, further integrating genetic, genomic, and transcriptomic data, aiming to find candidate genes.Methods: An exhaustive bibliographic review on 76 scientific papers was carried out collecting information about QTL related to FHB resistance mapped on bread wheat. A dense genetic consensus map with 572,862 loci was generated for QTL projection. Meta-analysis could be performed on 323 QTL. Candidate gene mining was carried out within the most refined loci, containing genes that were cross-validated with publicly available transcriptional expression data of wheat under Fusarium infection. Most highlighted genes were investigated for protein evidence.Results: A total of 556 QTL were found in the literature, distributed on all sub-genomes and chromosomes of wheat. Meta-analysis generated 65 meta-QTL, and this refinement allows one to find markers more tightly linked to these regions. Candidate gene mining within the most refined meta-QTL, meta-QTL 1/chr. 3B, harvested 324 genes and transcriptional data cross-validated 10 of these genes, as responsive to FHB. One is of these genes encodes a Glycosiltransferase and the other encodes for a Cytochrome P450, and these such proteins have already been verified as being responsible for FHB resistance, but the remaining eight genes still have to be further studied, as promising loci for breeding.Conclusions: The QTLome of FHB resistance in wheat was successfully assembled and a refinement in terms of number and length of loci was obtained. The integration of the QTLome with genomic and transcriptomic data has allowed for the discovery of promising candidate genes for use in breeding programs.

Published

2019

35. Molecular advancements in male sterility systems of Capsicum: A review.

Author

Jindal, Salesh Kumar, Dhaliwal, Major Singh, and Meena, Om Prakash

Subjects

*MALE sterility in plants, *PEPPERS, *CYTOPLASMIC male sterility, *TOMATOES, *MOLECULAR cloning, *HOT peppers, *GENOME size

Abstract

In recent years, plant molecular research on genetic mapping, gene tagging and cloning, and marker‐assisted selection (MAS) have gained importance in crop improvement programmes. In Capsicum, several inter‐ and intra‐specific genetic maps with wide distribution of markers covering the whole genome have been developed. Recently, whole genome of the hot pepper C. annuum, its wild progenitor C. annuum var. glabriusculum and C. baccatum has been sequenced. The Capsicum genome size has been estimated to be approx. 4× (3.48 Gb) the genome size of cultivated tomato (Solanum lycopersicum L.) (900 Mb). Breeders' access to the pepper genomic information would facilitate the choice of markers from different linkage groups, thus paving the way for gene cloning and its introgression into the elite breeding lines through MAS. Till date, approx. 20 independently inherited nuclear male sterility (NMS) genes have been reported. Linked markers have been identified for ms1, ms3, ms8, ms10, msk, msc‐1 and an undesignated gene. However, markers tightly linked to ms8 and ms10 are still lacking. Except ms1, ms3, ms8 and ms10, the map position of other NMS genes is not known. In cytoplasmic male sterility (CMS), markers for the mitochondrial gene atp6 have been developed and the gene cloned. Number of markers some very tightly linked to the restorer‐of‐fertility (Rf) gene have been identified. However, the actual map position of the Rf locus is still not determined. Another CMS‐associated nuclear gene "pr" responsible for restoring partial fertility has been identified and tagged. In this review, we have compiled up‐to‐date information about the marker technology relating to the NMS and the CMS‐associated genes in Capsicum. This information can be useful when screening Capsicum germplasm, developing NMS lines through MAS, improving efficiency of the NMS system, transferring rf gene for maintainer line breeding and Rf genes for restorer line breeding in CMS and assessing genetic purity of the hybrid seed. [ABSTRACT FROM AUTHOR]

Published

2020

36. Breeding and genomics status in faba bean (Vicia faba).

Author

Maalouf, Fouad, Hu, Jinguo, O'Sullivan, Donal M., Zong, Xuxiao, Hamwieh, Aladdin, Kumar, Shiv, Baum, Michael, and Ojiewo, Chris

Subjects

*FAVA bean, *CROP yields, *NANOTECHNOLOGY, *GENE mapping, *ABIOTIC stress, *LEGUMES

Abstract

Faba bean is an important legume crop because of its high‐yield potential and nutrition‐dense grains. There have been significant achievements in faba bean improvement in the last four decades, which led to the doubling of the global yield average. This study reviews the genetic diversity, the breeding methodologies, major achievement on biotic and abiotic traits, and the recent molecular approaches. The high genetic diversity among faba bean accessions has been useful for increasing yield potential of the crop. Substantial increase in yield potential can be gained through the development of cultivars in open pollinated conditions. In the past, many faba bean varieties that are tolerant to abiotic and biotic stresses were released worldwide. The average yield gains varied from 1.65% per year in Syria to 4.17% per year in Ethiopia. The recent advances in molecular technologies will be used to develop more coherent genetic maps, which would also facilitate assembling and ordering genomic scaffolds in a future genome‐sequencing effort and molecular‐breeding approach. [ABSTRACT FROM AUTHOR]

Published

2019

37. Genetics, genomics and breeding of groundnut (Arachis hypogaea L.).

Author

Desmae, Haile, Janila, Pasupuleti, Okori, Patrick, Pandey, Manish K., Motagi, Babu N., Monyo, Emmanuel, Mponda, Omari, Okello, David, Sako, Dramane, Echeckwu, Candidus, Oteng‐Frimpong, Richard, Miningou, Amos, Ojiewo, Chris, Varshney, Rajeev K., and Morris, Bradley

Subjects

*PEANUTS, *GLYCINE (Plants), *FOOD consumption, *ARACHIS, *GENETICS, *OILSEED plants, *FOOD crops

Abstract

Groundnut is an important food and oil crop in the semiarid tropics, contributing to household food consumption and cash income. In Asia and Africa, yields are low attributed to various production constraints. This review paper highlights advances in genetics, genomics and breeding to improve the productivity of groundnut. Genetic studies concerning inheritance, genetic variability and heritability, combining ability and trait correlations have provided a better understanding of the crop's genetics to develop appropriate breeding strategies for target traits. Several improved lines and sources of variability have been identified or developed for various economically important traits through conventional breeding. Significant advances have also been made in groundnut genomics including genome sequencing, marker development and genetic and trait mapping. These advances have led to a better understanding of the groundnut genome, discovery of genes/variants for traits of interest and integration of marker‐assisted breeding for selected traits. The integration of genomic tools into the breeding process accompanied with increased precision of yield trialing and phenotyping will increase the efficiency and enhance the genetic gain for release of improved groundnut varieties. [ABSTRACT FROM AUTHOR]

Published

2019

38. Meta-Analysis of the QTLome of Fusarium Head Blight Resistance in Bread Wheat: Refining the Current Puzzle.

Author

Venske, Eduardo, dos Santos, Railson Schreinert, Farias, Daniel da Rosa, Rother, Vianei, da Maia, Luciano Carlos, Pegoraro, Camila, and Costa de Oliveira, Antonio

Subjects

WHEAT, FUSARIOSIS, META-analysis, CYTOCHROME P-450, FUSARIUM, GENE mapping

Abstract

Background: Fusarium Head Blight (FHB) is a worldwide devastating disease of bread wheat (Triticum aestivum L.). Genetic resistance is the most effective way to control FHB and many QTL related to this trait have been mapped on the wheat genetic map. This information, however, must be refined to be more efficiently used in breeding programs and for the advance of the basic research. The objective of the present study was to in-depth analyze the QTLome of FHB resistance in bread wheat, further integrating genetic, genomic, and transcriptomic data, aiming to find candidate genes. Methods: An exhaustive bibliographic review on 76 scientific papers was carried out collecting information about QTL related to FHB resistance mapped on bread wheat. A dense genetic consensus map with 572,862 loci was generated for QTL projection. Meta-analysis could be performed on 323 QTL. Candidate gene mining was carried out within the most refined loci, containing genes that were cross-validated with publicly available transcriptional expression data of wheat under Fusarium infection. Most highlighted genes were investigated for protein evidence. Results: A total of 556 QTL were found in the literature, distributed on all sub-genomes and chromosomes of wheat. Meta-analysis generated 65 meta-QTL, and this refinement allows one to find markers more tightly linked to these regions. Candidate gene mining within the most refined meta-QTL, meta-QTL 1/chr. 3B, harvested 324 genes and transcriptional data cross-validated 10 of these genes, as responsive to FHB. One is of these genes encodes a Glycosiltransferase and the other encodes for a Cytochrome P450, and these such proteins have already been verified as being responsible for FHB resistance, but the remaining eight genes still have to be further studied, as promising loci for breeding. Conclusions: The QTLome of FHB resistance in wheat was successfully assembled and a refinement in terms of number and length of loci was obtained. The integration of the QTLome with genomic and transcriptomic data has allowed for the discovery of promising candidate genes for use in breeding programs. [ABSTRACT FROM AUTHOR]

Published

2019

39. Exaggerated heterochiasmy in a fish with sex-linked male coloration polymorphisms.

Author

Bergero, Roberta, Gardner, Jim, Bader, Beth, Lengxob Yong, and Charlesworth, Deborah

Subjects

*ANIMAL coloration, *GENETIC polymorphisms, *SEX chromosomes, *MEIOSIS, *GUPPIES

Abstract

It is often stated that polymorphisms for mutations affecting fitness of males and females in opposite directions [sexually antagonistic (SA) polymorphisms] are the main selective force for the evolution of recombination suppression between sex chromosomes. However, empirical evidence to discriminate between different hypotheses is difficult to obtain. We report genetic mapping results in laboratory-raised families of the guppy (Poecilia reticulata), a sexually dimorphic fish with SA polymorphisms for male coloration genes, mostly on the sex chromosomes. Comparison of the genetic and physical maps shows that crossovers are distributed very differently in the two sexes (heterochiasmy); in male meiosis, they are restricted to the termini of all four chromosomes studied, including chromosome 12, which carries the sex-determining locus. Genome resequencing of male and female guppies from a population also indicates sex linkage of variants across almost the entire chromosome 12. More than 90% of the chromosome carrying the male-determining locus is therefore transmitted largely through the male lineage. A lack of heterochiasmy in a related fish species suggests that it originated recently in the lineage leading to the guppy. Our findings do not support the hypothesis that suppressed recombination evolved in response to the presence of SA polymorphisms. Instead, a low frequency of recombination on a chromosome that carries a male-determining locus and has not undergone genetic degeneration has probably facilitated the establishment of male-beneficial coloration polymorphisms. [ABSTRACT FROM AUTHOR]

Published

2019

40. Molecular Marker Technology for Crop Improvement

Author

Jose Miguel Soriano

Subjects

crop breeding, genetic maps, QTL mapping, GWAS, marker assisted selection, genomic selection, Agriculture

Abstract

Since the 1980s, agriculture and plant breeding have changed with the development of molecular marker technology. In recent decades, different types of molecular markers have been used for different purposes: mapping, marker-assisted selection, characterization of genetic resources, etc. These have produced effective genotyping, but the results have been costly and time-consuming, due to the small number of markers that could be tested simultaneously. Recent advances in molecular marker technologies such as the development of high-throughput genotyping platforms, genotyping by sequencing, and the release of the genome sequences of major crop plants open new possibilities for advancing crop improvement. This Special Issue collects sixteen research studies, including the application of molecular markers in eleven crop species, from the generation of linkage maps and diversity studies to the application of marker-assisted selection and genomic prediction.

Published

2020

41. Analysing Quality Measures of Phasing Algorithms in Genome-Wide Haplotyping

Author

Torres-Sánchez, Sergio, García-Sánchez, Manuel, Medina-Medina, Nuria, Abad-Grau, María Mar, Mohamad, Mohd Saberi, editor, Nanni, Loris, editor, Rocha, Miguel P., editor, and Fdez-Riverola, Florentino, editor

Published

2013

42. Apricot

Author

Zhebentyayeva, Tatyana, Ledbetter, Craig, Burgos, Lorenzo, Llácer, Gerardo, Badenes, Marisa Luisa, editor, and Byrne, David H., editor

Published

2012

43. The State of the Art: Molecular Genomics and Marker-Assisted Breeding

Author

Priyadarshan, P. M., Schnell, Raymond J., Schnell, R.J., editor, and Priyadarshan, P.M., editor

Published

2012

44. Construction of a high-density genetic map and its application for leaf shape QTL mapping in poplar.

Author

Xia, Wenxiu, Xiao, Zheng’ang, Cao, Pei, Zhang, Yan, Du, Kebing, and Wang, Nian

Subjects

POPLARS, LEAF morphology, GENE mapping, GENOTYPES, ARABIDOPSIS thaliana

Abstract

Main conclusion: High-quality and dense genetic maps were constructed, and leaf shape variation was dissected by QTL mapping in poplar.Species in the genus Populus, also known as poplars, are important woody species and considered model plants for perennial trees. High-density genetic maps are valuable genomic resources for population genetics. Here, we generated a high-quality and dense genetic map for an F1 poplar population using high-throughput NGS-based genotyping. A total of 92,097 high-quality SNP markers were developed by stringent filtering and identification. In total, 889 and 1650 SNPs formed the female and male genetic maps, respectively. To test the application of the genetic maps, QTL mapping of leaf shape was conducted for this F1 population. A total of nine parameters were scored for leaf shape variation in three different environments. Combining genetic maps and measurements of the nine leaf shape parameters, we mapped a total of 42 significant QTLs. The highest LOD score of all QTLs was 9.2, and that QTL explained the most (15.13%) trait variation. A total of nine QTLs could be detected in at least two environments, and they were located in two genomic regions. Within these two QTL regions, some candidate genes for regulating leaf shape were predicted through functional annotation. The successful mapping of leaf shape QTLs demonstrated the utility of our genetic maps. According to the performance of this study, we were able to provide high-quality and dense genetic maps and dissect the leaf shape variation in poplar. [ABSTRACT FROM AUTHOR]

Published

2018

45. Integration of maps enables a cytogenomics analysis of the complete karyotype in solea senegalensis

Author

Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Ramírez, Daniel, Rodríguez, María Esther, Alejandro Merlo, Manuel, Anaya, Marco, Portela-Bens, Silvia, Martinez Portela, Paulino, Robles, Francisca, Rebordinos, Laureana, Cross, Ismael, Arias Pérez, Alberto, Ruíz Rejón, Carmelo, Universidade de Santiago de Compostela. Departamento de Zooloxía, Xenética e Antropoloxía Física, Ramírez, Daniel, Rodríguez, María Esther, Alejandro Merlo, Manuel, Anaya, Marco, Portela-Bens, Silvia, Martinez Portela, Paulino, Robles, Francisca, Rebordinos, Laureana, Cross, Ismael, Arias Pérez, Alberto, and Ruíz Rejón, Carmelo

Abstract

The Pleuronectiformes order, which includes several commercially-important species, has undergone extensive chromosome evolution. One of these species is Solea senegalensis, a flatfish with 2n = 42 chromosomes. In this study, a cytogenomics approach and integration with previous maps was applied to characterize the karyotype of the species. Synteny analysis of S. senegalensis was carried out using two flatfish as a reference: Cynoglossus semilaevis and Scophthalmus maximus. Most S. senegalensis chromosomes (or chromosome arms for metacentrics and submetacentrics) showed a one-to-one macrosyntenic pattern with the other two species. In addition, we studied how repetitive sequences could have played a role in the evolution of S. senegalensis bi-armed (3, and 5–9) and acrocentric (11, 12 and 16) chromosomes, which showed the highest rearrangements compared with the reference species. A higher abundance of TEs (Transposable Elements) and other repeated elements was observed adjacent to telomeric regions on chromosomes 3, 7, 9 and 16. However, on chromosome 11, a greater abundance of DNA transposons was detected in interstitial BACs. This chromosome is syntenic with several chromosomes of the other two flatfish species, suggesting rearrangements during its evolution. A similar situation was also found on chromosome 16 (for microsatellites and low complexity sequences), but not for TEs (retroelements and DNA transposons). These differences in the distribution and abundance of repetitive elements in chromosomes that have undergone remodeling processes during the course of evolution also suggest a possible role for simple repeat sequences in rearranged regions.

Published

2022

46. Variation in Recombination Rate and Its Genetic Determinism in Sheep Populations.

Author

Petit, Morgane, Astruc, Jean-Michel, Sarry, Julien, Drouilhet, Laurence, Fabre, Stéphane, Moreno, Carole R., and Servin, Bertrand

Subjects

*SHEEP genetics, *GENETIC determinism, *GENE expression, *SHEEP breeding, *GENOTYPES

Abstract

Recombination is a complex biological process that results from a cascade of multiple events during meiosis. Understanding the genetic determinism of recombination can help to understand if and how these events are interacting. To tackle this question, we studied the patterns of recombination in sheep, using multiple approaches and data sets. We constructed male recombination maps in a dairy breed from the south of France (the Lacaune breed) at a fine scale by combining meiotic recombination rates from a large pedigree genotyped with a 50K SNP array and historical recombination rates from a sample of unrelated individuals genotyped with a 600K SNP array. This analysis revealed recombination patterns in sheep similar to other mammals but also genome regions that have likely been affected by directional and diversifying selection. We estimated the average recombination rate of Lacaune sheep at 1.5 cM/Mb, identified 50,000 crossover hotspots on the genome, and found a high correlation between historical and meiotic recombination rate estimates. A genome-wide association study revealed two major loci affecting interindividual variation in recombination rate in Lacaune, including the RNF212 and HEI10 genes and possibly two other loci of smaller effects including the KCNJ15 and FSHR genes. The comparison of these new results to those obtained previously in a distantly related population of domestic sheep (the Soay) revealed that Soay and Lacaune males have a very similar distribution of recombination along the genome. The two data sets were thus combined to create more precise male meiotic recombination maps in Sheep. However, despite their similar recombination maps, Soay and Lacaune males were found to exhibit different heritabilities and QTL effects for interindividual variation in genome-wide recombination rates. This highlights the robustness of recombination patterns to underlying variation in their genetic determinism. [ABSTRACT FROM AUTHOR]

Published

2017

47. Microsatellite markers in common bean (Phaseolus vulgaris L.).

Author

VIDAK, Monika, CAROVIĆ-STANKO, Klaudija, BAREŠIĆ, Ana, GRDIŠA, Martina, ŠATOVIĆ, Zlatko, and LIBER, Zlatko

Subjects

COMMON bean, PLANT gene mapping, GENETIC markers in plants, BEAN genetics, PLANT breeding, RESTRICTION fragment length polymorphisms, RAPD technique, AMPLIFIED fragment length polymorphism

Abstract

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

Published

2017

48. Estimation of linkage disequilibrium and effective population size in New Zealand sheep using three different methods to create genetic maps.

Author

Prieur, Vincent, Clarke, Shannon M., Brito, Luiz F., McEwan, John C., Lee, Michael A., Brauning, Rudiger, Dodds, Ken G., and Auvray, Benoît

Subjects

SHEEP industry, ANIMAL genetics, ANIMAL breeding, LINKAGE disequilibrium, GENETIC markers

Abstract

Background: Investments in genetic selection have played a major role in the New Zealand sheep industry competitiveness. Selection may erode genetic diversity, which is a crucial factor for the success of breeding programs. Better understanding of linkage disequilibrium (LD) and ancestral effective population size (Ne) through quantifying this diversity and comparison between populations allows for more informed decisions with regards to selective breeding taking population genetic diversity into account. The estimation of Ne can be determined via genetic markers and requires knowledge of genetic distances between these markers. Single nucleotide polymorphisms (SNP) data from a sample of 12,597 New Zealand crossbred and purebred sheep genotyped with the Illumina Ovine SNP50 BeadChip was used to perform a genome-wide scan of LD and Ne. Three methods to estimate genetic distances were investigated: 1) M1: a ratio fixed across the whole genome of one Megabase percentiMorgan; 2) M2: the ratios of genetic distance (using M3, below) over physical distance fixed for each chromosome; and, 3) M3: a genetic map of inter-SNP distances estimated using CRIMAP software (v2.503). Results: The estimates obtained with M2 and M3 showed much less variability between autosomes than those with M1, which tended to give lower Ne results and higher LD decay. The results suggest that Ne has decreased since the development of sheep breeds in Europe and this reduction in Ne has been accelerated in the last three decades. The Ne estimated for five generations in the past ranged from 71 to 237 for Texel and Romney breeds, respectively. A low level of genetic kinship and inbreeding was estimated in those breeds suggesting avoidance of mating close relatives. Conclusions: M3 was considered the most accurate method to create genetic maps for the estimation of LD and Ne. The findings of this study highlight the history of genetic selection in New Zealand crossbred and purebred sheep and these results will be very useful to understand genetic diversity of the population with respect to genetic selection. In addition, it will help geneticists to identify genomic regions which have been preferentially selected within a variety of breeds and populations. [ABSTRACT FROM AUTHOR]

Published

2017

49. Diverse data supports the transition of filamentous fungal model organisms into the post-genomics era.

Author

McCluskey, Kevin and Baker, Scott E.

Subjects

FILAMENTOUS fungi, GENE-for-gene coevolution, BIOCHEMICAL engineering

Abstract

Filamentous fungi have been important as model organisms since the beginning of modern biological inquiry and have benefitted from open data since the earliest genetic maps were shared. From early origins in simple Mendelian genetics of mating types, parasexual genetics of colony colour, and the foundational demonstration of the segregation of a nutritional requirement, the contribution of research systems utilising filamentous fungi has spanned the biochemical genetics era, through the molecular genetics era, and now are at the very foundation of diverse omics approaches to research and development. Fungal model organisms have come from most major taxonomic groups although Ascomycete filamentous fungi have seen the most major sustained effort. In addition to the published material about filamentous fungi, shared molecular tools have found application in every area of fungal biology. Similarly, shared data has contributed to the success of model systems. The scale of data supporting research with filamentous fungi has grown by 10 to 12 orders of magnitude. From genetic to molecular maps, expression databases, and finally genome resources, the open and collaborative nature of the research communities has assured that the rising tide of data has lifted all of the research systems together. [ABSTRACT FROM AUTHOR]

Published

2017

50. Cartographie fine de la région du gène PIS de la chèvre

Author

Daniel Vaiman, Laurent Schibler, Edmond-Paul Cribiu, ProdInra, Migration, Institut National de la Recherche Agronomique (INRA), and Unité de recherche Génétique Biochimique et Cytogénétique (LGBC)

Subjects

microsatellite, cartographie fine, chèvre, [SDV]Life Sciences [q-bio], marqueur génétique, CARTOGRAPHIE GENETIQUE, séquence nucléotidique, SEX DIFFERENTIATION, Agricultural sciences, [SDV] Life Sciences [q-bio], GOATS, GENETIC MAPS, PIS GENE, mutation, caprin, ComputingMilieux_MISCELLANEOUS, Sciences agricoles, gène pis

Abstract

Chez les Mammifères, la différenciation sexuelle résulte d’une cascade complexe dont le premier acteur est le gène SRY, porté par le chromosome Y, qui masculinise la gonade indifférenciée. Cependant, certains individus, en l’absence de SRY, présentent un développement testiculaire et une réversion du sexe. Chez la chèvre, par exemple, la réversion du sexe d’individus XX en l’absence du gène SRY ou d’autres séquences du chromosome Y est étroitement liée à l’absence de corne (mutation motte) puisqu’aucun recombinant n’a jamais été observé. Ce syndrome, nommé PIS pour Polled Intersex Syndrome, est causé par des mutations dans un ou deux gènes autosomiques que nous avons localisés dans un premier temps à proximité de deux marqueurs microsatellites d’origine bovine sur le chromosome 1 caprin. Les cartes génétique, cytogénétique et physique de la région ont ensuite été construites à l’aide, d’une part, de banques d’ADN issues de chromosome 1 trié, des bandes 1q42, 1q43 et 1q44 microdisséquées et de grands fragments (BAC) et, d’autre part, de la cartographie comparée avec les gènes ou EST (expressed sequence tags) localisés dans la région humaine homologue. Ces différentes approches ont permis de localiser le gène PIS au sein d’un contig de 1,5 Mb, dans une région de 100 kb autour d’un marqueur microsatellite.

Published

2020