Abstract
BackgroundElymus sibiricus is an important forage grass in semi-arid regions, but it is difficult to grow for commercial seed production due to high seed shattering. To better understand the underlying mechanism and explore the putative genes related to seed shattering, we conducted a combination of morphological, histological, physiochemical and transcriptome analysis on two E. sibiricus genotypes (XH09 and ZhN03) that have contrasting seed shattering.ResultsThe results show that seed shattering is generally caused by a degradation of the abscission layer. Early degradation of abscission layers was associated with the increased seed shattering in high seed shattering genotype XH09. Two cell wall degrading enzymes, cellulase (CE) and polygalacturonase (PG), had different activity in the abscission zone, indicating their roles in differentiation of abscission layer. cDNA libraries from abscission zone tissue of XH09 and ZhN03 at 7 days, 21 days and 28 days after heading were constructed and sequenced. A total of 86,634 unigenes were annotated and 7110 differentially expressed transcripts (DETs) were predicted from “XH09-7 vs ZhN03-7”, “XH09-21 vs ZhN03-21” and “XH09-28 vs ZhN03-28”, corresponding to 2058 up-regulated and 5052 down-regulated unigenes. The expression profiles of 10 candidate transcripts involved in cell wall-degrading enzymes, lignin biosynthesis and phytohormone activity were validated using quantitative real-time PCR (qRT-PCR), 8 of which were up-regulated in low seed shattering genotype ZhN03, suggesting these genes may be associated with reduction of seed shattering.ConclusionsThe expression data generated in this study provides an important resource for future molecular biological research in E. sibiricus.
Highlights
Elymus sibiricus is an important forage grass in semi-arid regions, but it is difficult to grow for commercial seed production due to high seed shattering
Time-course change in seed shattering degree of two genotypes The changes in the seed shattering degree of XH09 and ZhN03 were characterized over time by measuring pedicel breaking tensile strength (BTS), which is inversely proportional to shattering degree
Seed shattering of E. sibiricus is caused by a degradation of the abscission layer formed at the basal part of grains
Summary
Elymus sibiricus is an important forage grass in semi-arid regions, but it is difficult to grow for commercial seed production due to high seed shattering. Seed shattering is thought to be an important adaptive trait for seed dispersal in wild plants, but is a major cause of seed yield loss in many cereal crops [1]. Several major quantitative trait locus (QTLs) and genes for seed shattering have been identified and cloned, including SH4 [9], qSH1 [2], OsCPL1 [10] and SHAT1 [11]. QSH1 encodes a BEL1-type homeobox gene and regulates pedicel AZ formation, and an single nucleotide polymorphism (SNP) in the 5′ regulatory region of the qSH1 gene causes loss of seed shattering owing to the absence of abscission layer formation [2]. Previous research revealed that a variety of genes involved in cell wall degradation and abscissionpromoting phytohormone signaling are up-regulated during abscission [12, 13]
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