Author
Listed:
- Hazel Bull
(The James Hutton Institute
The James Hutton Institute)
- M. Cristina Casao
(The James Hutton Institute)
- Monika Zwirek
(The James Hutton Institute)
- Andrew J. Flavell
(The University of Dundee at The James Hutton Institute)
- William T. B. Thomas
(The James Hutton Institute)
- Wenbin Guo
(The University of Dundee at The James Hutton Institute
The James Hutton Institute)
- Runxuan Zhang
(The James Hutton Institute)
- Paulo Rapazote-Flores
(The James Hutton Institute)
- Stylianos Kyriakidis
(The University of Dundee at The James Hutton Institute)
- Joanne Russell
(The James Hutton Institute)
- Arnis Druka
(The James Hutton Institute)
- Sarah M. McKim
(The University of Dundee at The James Hutton Institute)
- Robbie Waugh
(The James Hutton Institute
The University of Dundee at The James Hutton Institute)
Abstract
The barley inflorescence (spike) comprises a multi-noded central stalk (rachis) with tri-partite clusters of uni-floretted spikelets attached alternately along its length. Relative fertility of lateral spikelets within each cluster leads to spikes with two or six rows of grain, or an intermediate morphology. Understanding the mechanisms controlling this key developmental step could provide novel solutions to enhanced grain yield. Classical genetic studies identified five major SIX-ROWED SPIKE (VRS) genes, with four now known to encode transcription factors. Here we identify and characterise the remaining major VRS gene, VRS3, as encoding a putative Jumonji C-type H3K9me2/me3 demethylase, a regulator of chromatin state. Exploring the expression network modulated by VRS3 reveals specific interactions, both with other VRS genes and genes involved in stress, hormone and sugar metabolism. We show that combining a vrs3 mutant allele with natural six-rowed alleles of VRS1 and VRS5 leads to increased lateral grain size and greater grain uniformity.
Suggested Citation
Hazel Bull & M. Cristina Casao & Monika Zwirek & Andrew J. Flavell & William T. B. Thomas & Wenbin Guo & Runxuan Zhang & Paulo Rapazote-Flores & Stylianos Kyriakidis & Joanne Russell & Arnis Druka & S, 2017.
"Barley SIX-ROWED SPIKE3 encodes a putative Jumonji C-type H3K9me2/me3 demethylase that represses lateral spikelet fertility,"
Nature Communications, Nature, vol. 8(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_s41467-017-00940-7
DOI: 10.1038/s41467-017-00940-7
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