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Abstract
Plant cell organelles are highly mobile and their positioning play key roles in plant growth, development and responses to changing environmental conditions. Movement is acto-myosin dependent. Despite controlling the dynamics of several organelles, myosin and myosin receptors identified so far in Arabidopsis thaliana generally do not localise to the organelles whose movement they control, raising the issue of how specificity is determined. Here we show that a MyoB myosin receptor, MRF7, specifically localises to the Golgi membrane and affects its movement. Myosin XI-K was identified as a putative MRF7 interactor through mass spectrometry analysis. Co-expression of MRF7 and XI-K tail triggers the relocation of XI-K to the Golgi, linking a MyoB/myosin complex to a specific organelle in Arabidopsis. FRET-FLIM confirmed the in vivo interaction between MRF7 and XI-K tail on the Golgi and in the cytosol, suggesting that myosin/myosin receptor complexes perhaps cycle on and off organelle membranes. This work supports a traditional mechanism for organelle movement where myosins bind to receptors and adaptors on the organelle membranes, allowing them to actively move on the actin cytoskeleton, rather than passively in the recently proposed cytoplasmic streaming model.
Highlights
Plant cell organelles are highly mobile and their positioning play key roles in plant growth, development and responses to changing environmental conditions
We focussed our attention on the full-length variant which we will refer to as Myosin Recruitment Factor 7 (MRF7)
We provide evidence that A. thaliana class XI myosins can be targeted to a specific organelle upon co-expression with their receptor/adaptor protein
Summary
Plant cell organelles are highly mobile and their positioning play key roles in plant growth, development and responses to changing environmental conditions. Multiple techniques have been employed to reconcile the localisation of myosins XI with their role on organelle movement and plant development, including expression of dominant negative mutants, immunolocalisation, RNAi and knockout of myosin genes. These studies suggested that plant myosins do not tend to localise to specific organelle membranes and that they mostly have overlapping effects on organelle dynamics[16,21,22,23] and, in the case of myosin XI-K, XI-1 and XI-2, on cell growth and plant development[13,14]. The one exception is myosin XI-I which is localised to the nuclear envelope and controls movement through interaction with WIT1 and WIT224
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