Greek Landrace Flours Characteristics and Quality of Dough and Bread

Skendi, Adriana; Παπαγεωργίου, Μαρία; Irakli, Maria; Stefanou, S.

doi:10.3390/foods12081618

Foods

2023

DOI: 10.3390/foods12081618

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Greek Landrace Flours Characteristics and Quality of Dough and Bread

Adriana Skendi

Μαρία Παπαγεωργίου

Maria Irakli³

et al.

Abstract: Besides organic growing, ancient wheats and landraces are attracting the attention of scientists who are reassessing the healthy and dietary properties attributed to them by popular tradition. A total of eleven wheat flours and whole meal samples were analyzed, of which, nine originated from the organic farming of five Greek landraces (one einkorn, one emmer, two durum, and one soft wheat) and a commercial organically grown emmer cultivar. Two commercial conventional flours of 70% and 100% extraction rate were… Show more

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Protein composition and bread volume of German common wheat landraces grown under organic conditions

Jahn,

Konradl,

Fleissner

et al. 2024

Current Research in Food Science

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Protein composition and bread volume of German common wheat landraces grown under organic conditions

Jahn,

Konradl,

Fleissner

et al. 2024

Current Research in Food Science

View full text Add to dashboard Cite

Research Advances in Diversity of Wheat Genetic Resources

Hyun,

Kim

2023

Korean J. Breed. Sci.

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Preserving and utilizing genetic diversity is crucial in crop breeding to address unpredictable situations such as climate change and evolving consumer demands. It serves as a source of new traits and alleles. Core collections are established from approximately 10-20% of conserved resources, and they are not only used for efficient management of genetic resources in seed banks but also applied in crop improvement programs and new gene discovery. These core collections demonstrate diversity based on the geographic origin of genetic resources and provide information on genetic similarity among resource types and collection regions. Recent advances in high-throughput genotyping has enabled high-resolution association mapping, allowing for the precise discovery of new genes and QTLs. The wheat genetic diversity and population structure of core collections are important in determining appropriate GWAS statistical methods for detecting these novel genes and QTLs. To maximize their utility, collecting detailed phenotypic data is crucial. This will expand their application in gene discovery, marker development, and more. In this study, we provided reviews for wheat core collection in the world to face the digital breeding era, where precise gene detection and manipulation are possible. The accumulation of genetic diversity, and phenotypic and genotypic information by core collections will contribute to breeding cycle acceleration and trait selection optimization.

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Greek Landrace Flours Characteristics and Quality of Dough and Bread

Cited by 2 publications

References 35 publications

Protein composition and bread volume of German common wheat landraces grown under organic conditions

Protein composition and bread volume of German common wheat landraces grown under organic conditions

Research Advances in Diversity of Wheat Genetic Resources

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