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55 results on '"Smýkal P"'

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1. Paralogous Gene Recruitment in Multiple Families Constitutes Genetic Architecture and Robustness of Pod Dehiscence in Legumes.

2. Editorial: Advances in pea breeding and genomics.

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3. Domestication has altered gene expression and secondary metabolites in pea seed coat.

4. Genetic structure and ecological niche space of lentil's closest wild relative, Lens orientalis (Boiss.) Schmalh.

5. Editorial: Legumes for global food security - volume II.

8. Phenylpropanoid Content of Chickpea Seed Coats in Relation to Seed Dormancy.

9. Domestication has altered the ABA and gibberellin profiles in developing pea seeds.

12. The giant diploid faba genome unlocks variation in a global protein crop.

14. The Key to the Future Lies in the Past: Insights from Grain Legume Domestication and Improvement Should Inform Future Breeding Strategies.

16. The loss of polyphenol oxidase function is associated with hilum pigmentation and has been selected during pea domestication.

17. How Could the Use of Crop Wild Relatives in Breeding Increase the Adaptation of Crops to Marginal Environments?

18. Combination of electronically driven micromanipulation with laser desorption ionization mass spectrometry - The unique tool for analysis of seed coat layers and revealing the mystery of seed dormancy.

19. Anatomy and Histochemistry of Seed Coat Development of Wild ( Pisum sativum subsp. elatius (M. Bieb.) Asch. et Graebn. and Domesticated Pea ( Pisum sativum subsp. sativum L.).

22. A comparison of seed germination coefficients using functional regression.

23. Legume Genetics and Biology: From Mendel's Pea to Legume Genomics.

24. Physical Dormancy Release in Medicago truncatula Seeds Is Related to Environmental Variations.

25. Diversity of Naturalized Hairy Vetch ( Vicia villosa Roth) Populations in Central Argentina as a Source of Potential Adaptive Traits for Breeding.

26. Genome-Wide Association Mapping for Agronomic and Seed Quality Traits of Field Pea ( Pisum sativum L.).

28. The role of the testa during the establishment of physical dormancy in the pea seed.

29. Allelic Diversity of Acetyl Coenzyme A Carboxylase accD / bccp Genes Implicated in Nuclear-Cytoplasmic Conflict in the Wild and Domesticated Pea ( Pisum sp.).

30. Utilization of atmospheric solids analysis probe mass spectrometry for analysis of fatty acids on seed surface.

31. Variation in wild pea ( Pisum sativum subsp. elatius ) seed dormancy and its relationship to the environment and seed coat traits.

32. Molecular Evidence for Two Domestication Events in the Pea Crop.

34. Correction: Genetic structure of wild pea (Pisum sativum subsp. elatius) populations in the northern part of the Fertile Crescent reflects moderate cross-pollination and strong effect of geographic but not environmental distance.

35. Genetic structure of wild pea (Pisum sativum subsp. elatius) populations in the northern part of the Fertile Crescent reflects moderate cross-pollination and strong effect of geographic but not environmental distance.

36. Genomic diversity and macroecology of the crop wild relatives of domesticated pea.

37. Towards Better Understanding of Pea Seed Dormancy Using Laser Desorption/Ionization Mass Spectrometry.

38. Patterns of Genetic Structure and Linkage Disequilibrium in a Large Collection of Pea Germplasm.

39. A Combined Comparative Transcriptomic, Metabolomic, and Anatomical Analyses of Two Key Domestication Traits: Pod Dehiscence and Seed Dormancy in Pea ( Pisum sp.).

40. From Mendel's discovery on pea to today's plant genetics and breeding : Commemorating the 150th anniversary of the reading of Mendel's discovery.

41. Beauty will save the world, but will the world save beauty? The case of the highly endangered Vavilovia formosa (Stev.) Fed.

42. The role of the testa during development and in establishment of dormancy of the legume seed.

43. Geographical gradient of the eIF4E alleles conferring resistance to potyviruses in pea (Pisum) germplasm.

44. Core Hunter II: fast core subset selection based on multiple genetic diversity measures using Mixed Replica search.

45. Estimation of pea (Pisum sativum L.) microsatellite mutation rate based on pedigree and single-seed descent analyses.

46. Genetic diversity of cultivated flax (Linum usitatissimum L.) germplasm assessed by retrotransposon-based markers.

47. iPBS: a universal method for DNA fingerprinting and retrotransposon isolation.

48. The genetic diversity and evolution of field pea (Pisum) studied by high throughput retrotransposon based insertion polymorphism (RBIP) marker analysis.

49. Evolutionary conserved lineage of Angela-family retrotransposons as a genome-wide microsatellite repeat dispersal agent.

50. Genetic diversity and population structure of pea (Pisum sativum L.) varieties derived from combined retrotransposon, microsatellite and morphological marker analysis.