BaseSpace
Correlation Engine 2.0
Import Your Data
Literature

FAQ

More FAQs

Back to top
Clear Search sequence regions
(e.g. Alcohol, Doxorubicin, rs2300478, ZBTB7A, nitric oxide metabolic process, Leukemia)
Bookmark Forward

MORE SPIKELETS1 is required for spikelet fate in the inflorescence of Brachypodium.

Paul Derbyshire, Mary E Byrne

Plant physiology 2013 Mar


filter terms:
  • amino acid sequence (1)
  • base sequence (1)
  • chromosomes plant (1)
  • factor (4)
  • fast neutron (1)
  • gene (4)
  • genes plant (1)
  • meristems (5)
  • molecular sequence data (1)
  • mutagenesis (1)
  • oryza sativa (1)
  • plant proteins (2)
  • rice (1)
  • triticum aestivum (1)
  • wheat (1)
  • zea (1)
    • Sizes of these terms reflect their relevance to your search.

    Grasses produce florets on a structure called a spikelet, and variation in the number and arrangement of both branches and spikelets contributes to the great diversity of grass inflorescence architecture. In Brachypodium (Brachypodium distachyon), the inflorescence is an unbranched spike with a terminal spikelet and a limited number of lateral spikelets. Spikelets are indeterminate and give rise to a variable number of florets. Here, we provide a detailed description of the stages of inflorescence development in Brachypodium. To gain insight into the genetic regulation of Brachypodium inflorescence development, we generated fast neutron mutant populations and screened for phenotypic mutants. Among the mutants identified, the more spikelets1 (mos1) mutant had an increased number of axillary meristems produced from inflorescence meristem compared with the wild type. These axillary meristems developed as branches with production of higher order spikelets. Using a candidate gene approach, mos1 was found to have a genomic rearrangement disrupting the expression of an ethylene response factor class of APETALA2 transcription factor related to the spikelet meristem identity genes branched silkless1 (bd1) in maize (Zea mays) and FRIZZY PANICLE (FZP) in rice (Oryza sativa). We propose MOS1 likely corresponds to the Brachypodium bd1 and FZP ortholog and that the function of this gene in determining spikelet meristem fate is conserved with distantly related grass species. However, MOS1 also appears to be involved in the timing of initiation of the terminal spikelet. As such, MOS1 may regulate the transition to terminal spikelet development in other closely related and agriculturally important species, particularly wheat (Triticum aestivum).

    Citation

    Paul Derbyshire, Mary E Byrne. MORE SPIKELETS1 is required for spikelet fate in the inflorescence of Brachypodium. Plant physiology. 2013 Mar;161(3):1291-302

    Expand section icon Mesh Tags

    Expand section icon Substances


    PMID: 23355632

    View Full Text
    • Copyright © 2024 Illumina Inc. All rights reserved.