Derui Liu scite author profile

Brassinosteroids (BRs) are a group of polyhydroxylated plant steroid hormones that are crucial for many aspects of a plant's life. BRs were originally characterized for their function in cell elongation, but it is becoming clear that they play major roles in plant growth, development, and responses to several stresses such as extreme temperatures and drought. A BR signaling pathway from cell surface receptors to central transcription factors has been well characterized. Here, we summarize recent progress toward understanding the BR pathway, including BR perception and the molecular mechanisms of BR signaling. Next, we discuss the roles of BRs in development and stress responses. Finally, we show how knowledge of the BR pathway is being applied to manipulate the growth and stress responses of crops. These studies highlight the complex regulation of BR signaling, multiple points of crosstalk between BRs and other hormones or stress responses, and the finely tuned spatiotemporal regulation of BR signaling.

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Endocytosis of BRASSINOSTEROID INSENSITIVE1 Is Partly Driven by a Canonical Tyr-Based Motif

Liu

Kumar

Claus

et al. 2020

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Clathrin-mediated endocytosis (CME) and its core endocytic machinery are evolutionarily 2" conserved across all eukaryotes. In mammals, the heterotetrameric adaptor protein complex-2 3" (AP-2) sorts plasma membrane (PM) cargoes into vesicles via the recognition of motifs based 4" on tyrosine or di-leucine in their cytoplasmic tails. However, in plants, very little is known 5" about how PM proteins are sorted for CME and whether similar motifs are required. In 6" Arabidopsis thaliana, the brassinosteroid (BR) receptor BR INSENSITIVE1 (BRI1) 7" undergoes endocytosis, which depends on clathrin and AP-2. Here we demonstrate that BRI1 8" binds directly to the medium AP-2 subunit, AP2M. The cytoplasmic domain of BRI1 contains 9" five putative canonical surface-exposed tyrosine-based endocytic motifs. The tyrosine-to-10"

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Imaging cellulose synthase motility during primary cell wall synthesis in the grass Brachypodium distachyon

Liu

Zehfroosh

Hancock

et al. 2017

Sci Rep

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The mechanism of cellulose synthesis has been studied by characterizing the motility of cellulose synthase complexes tagged with a fluorescent protein; however, this approach has been used exclusively on the hypocotyl of Arabidopsis thaliana. Here we characterize cellulose synthase motility in the model grass, Brachypodium distachyon. We generated lines in which mEGFP is fused N-terminal to BdCESA3 or BdCESA6 and which grew indistinguishably from the wild type (Bd21-3) and had dense fluorescent puncta at or near the plasma membrane. Measured with a particle tracking algorithm, the average speed of GFP-BdCESA3 particles in the mesocotyl was 164 ± 78 nm min−1 (error gives standard deviation [SD], n = 1451 particles). Mean speed in the root appeared similar. For comparison, average speed in the A. thaliana hypocotyl expressing GFP-AtCESA6 was 184 ± 86 nm min−1 (n = 2755). For B. distachyon, we quantified root diameter and elongation rate in response to inhibitors of cellulose (dichlorobenylnitrile; DCB), microtubules (oryzalin), or actin (latrunculin B). Neither oryzalin nor latrunculin affected the speed of CESA complexes; whereas, DCB reduced average speed by about 50% in B. distachyon and by about 35% in A. thaliana. Evidently, between these species, CESA motility is well conserved.

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Derui Liu

Brassinosteroids: Multidimensional Regulators of Plant Growth, Development, and Stress Responses

Endocytosis of BRASSINOSTEROID INSENSITIVE1 Is Partly Driven by a Canonical Tyr-Based Motif

Imaging cellulose synthase motility during primary cell wall synthesis in the grass Brachypodium distachyon

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