Evolution of the Grain Dispersal System in Barley

Evolution of the Grain Dispersal System in Barley

About 12,000 years ago in the Near East, humans began the transition from hunter-gathering to agriculture-based societies. Barley was a founder crop in this process, and the most important steps in its domestication were mutations in two adjacent, dominant, and complementary genes, through which gra...

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Bibliographic Details
Published in:Cell 2015-07, Vol.162 (3), p.527-539
Main Authors: Pourkheirandish, Mohammad, Hensel, Goetz, Kilian, Benjamin, Senthil, Natesan, Chen, Guoxiong, Sameri, Mohammad, Azhaguvel, Perumal, Sakuma, Shun, Dhanagond, Sidram, Sharma, Rajiv, Mascher, Martin, Himmelbach, Axel, Gottwald, Sven, Nair, Sudha K., Tagiri, Akemi, Yukuhiro, Fumiko, Nagamura, Yoshiaki, Kanamori, Hiroyuki, Matsumoto, Takashi, Willcox, George, Middleton, Christopher P., Wicker, Thomas, Walther, Alexander, Waugh, Robbie, Fincher, Geoffrey B., Stein, Nils, Kumlehn, Jochen, Sato, Kazuhiro, Komatsuda, Takao
Format: Article
Language:eng
Subjects:
Amino Acid Sequence
Biochemistry & Molecular Biology
Biological Evolution
BRITTLE
Cell and Molecular Biology
Cell Biology
Cell- och molekylärbiologi
CULTIVATION
DOMESTICATION
GENE
GENOME
Hordeum - anatomy & histology
Hordeum - genetics
Hordeum - physiology
HORDEUM-VULGARE L
LEAF ABSCISSION
Molecular Sequence Data
OHALO-II
Phenotype
Plant Proteins - chemistry
Plant Proteins - genetics
PREDICTION
RACHIS-1 BTR1
Seed Dispersal
Sequence Alignment
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Summary:About 12,000 years ago in the Near East, humans began the transition from hunter-gathering to agriculture-based societies. Barley was a founder crop in this process, and the most important steps in its domestication were mutations in two adjacent, dominant, and complementary genes, through which grains were retained on the inflorescence at maturity, enabling effective harvesting. Independent recessive mutations in each of these genes caused cell wall thickening in a highly specific grain “disarticulation zone,” converting the brittle floral axis (the rachis) of the wild-type into a tough, non-brittle form that promoted grain retention. By tracing the evolutionary history of allelic variation in both genes, we conclude that spatially and temporally independent selections of germplasm with a non-brittle rachis were made during the domestication of barley by farmers in the southern and northern regions of the Levant, actions that made a major contribution to the emergence of early agrarian societies. [Display omitted] •Wild barley spikes are brittle at maturity due to thin cell walls at rachis nodes•This characteristic evolved by duplication and neo-functionalization of two genes, Btr1 and Btr2•During domestication, deletions in Btr1 or Btr2 converted the rachis to non-brittle•The deletions happened twice: first in the South (btr1) and then in the North Levant (btr2) Spatially and temporally independent selections of seeds with a non-brittle rachis were made during the domestication of barley by farmers in the southern and northern regions of the Levant, actions that made a major contribution to the emergence of early agrarian societies.
ISSN:0092-8674
1097-4172