Auxin-Dependent Cell Elongation During the Shade Avoidance Response [PDF]
Frontiers in Plant Science, 2019 Plant uses multiple photoreceptors and downstream components to rapidly respond to dynamic changes in environmental light. Under shade conditions, many species exhibit shade avoidance responses that promote stem and petiole elongation, thus helping ...
Lin Ma, Lin Ma, Gang Li
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The bHLH network underlying plant shade-avoidance. [PDF]
Physiol Plant, 2020 Shade is a potential threat to many plant species. When shade‐intolerant plants detect neighbours, they elongate their stems and leaves in an effort to maximise their light capture. This developmental programme, known as ‘shade‐avoidance’ is tightly controlled by specialised photoreceptors and a suite of transcriptional regulators. The basic helix–loop–
Buti S, Hayes S, Pierik R.
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Phytochrome-mediated shade avoidance responses impact the structure and composition of the bacterial phyllosphere microbiome of Arabidopsis [PDF]
Environmental MicrobiomeThe shade avoidance response triggers a dramatic promotion of elongation growth, accompanied by a significant reprogramming of metabolic pathways as plants seek to prevent overtopping and adapt to vegetative shade.
James A. O’Rourke +4 more
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Monoseeding Increases Peanut (Arachis hypogaea L.) Yield by Regulating Shade-Avoidance Responses and Population Density [PDF]
Plants, 2021 We aimed to elucidate the possible yield-increasing mechanisms through regulation of shade-avoidance responses at both physiological and molecular levels under monoseeding.
Tingting Chen +7 more
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Multiple Pathways in the Control of the Shade Avoidance Response [PDF]
Plants, 2018 To detect the presence of neighboring vegetation, shade-avoiding plants have evolved the ability to perceive and integrate multiple signals. Among them, changes in light quality and quantity are central to elicit and regulate the shade avoidance response.
Giovanna Sessa +4 more
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From laboratory to field: yield stability and shade avoidance genes are massively differentially expressed in the field. [PDF]
Plant Biotechnol J, 2020 To unravel molecular mechanisms with the ultimate goal to achieve improved stress resilience or increased yield, plants are often studied under highly controlled conditions in which stresses are applied and in which growth‐ or architecture‐related traits
Nelissen H +6 more
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Soil Salinity Limits Plant Shade Avoidance. [PDF]
Curr Biol, 2019 Global food production is set to keep increasing despite a predicted decrease in total arable land [1]. To achieve higher production, denser planting will be required on increasingly degraded soils. When grown in dense stands, crops elongate and raise their leaves in an effort to reach sunlight, a process termed shade avoidance [2].
Hayes S +10 more
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RNA sequencing-based exploration of the effects of far-red light on lncRNAs involved in the shade-avoidance response of D. officinale [PDF]
PeerJ, 2021 Dendrobium officinale (D. officinale) is a valuable medicinal plant with a low natural survival rate, and its shade-avoidance response to far-red light is as an important strategy used by the plant to improve its production efficiency.
Hansheng Li +5 more
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Genetic and transcriptome analyses reveal the candidate genes and pathways involved in the inactive shade-avoidance response enabling high-density planting of soybean [PDF]
Frontiers in Plant Science, 2022 High-density planting is a major way to improve crop yields. However, shade-avoidance syndrome (SAS) is a major factor limiting increased planting density. First Green Revolution addressed grass lodging problem by using dwarf/semi-dwarf genes.
Jing Zhao +12 more
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lncRNAs involved in the Shade Avoidance Syndrome (SAS) in Arabidopsis thaliana [PDF]
BMC GenomicsBackground Plant long non-coding RNAs (lncRNAs) have important regulatory roles in responses to various biotic and abiotic stresses, including light quality. However, no lncRNAs have been specifically linked to the Shade Avoidance Response (SAS). Results
Irving Jair García-López +3 more
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