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1. Nonphotochemical quenching kinetics GWAS in sorghum identifies genes that may play conserved roles in maize and Arabidopsis thaliana photoprotection

   https://doi.org/10.1111/tpj.16967  

   Sahay, Seema; Shrestha, Nikee; Dias, Henrique_Moura; Mural, Ravi_V; Grzybowski, Marcin; Schnable, James_C; Głowacka, Katarzyna (August 2024, The Plant Journal)

   SUMMARY Photosynthetic organisms must cope with rapid fluctuations in light intensity. Nonphotochemical quenching (NPQ) enables the dissipation of excess light energy as heat under high light conditions, whereas its relaxation under low light maximizes photosynthetic productivity. We quantified variation in NPQ kinetics across a large sorghum (Sorghum bicolor) association panel in four environments, uncovering significant genetic control for NPQ. A genome‐wide association study (GWAS) confidently identified three unique regions in the sorghum genome associated with NPQ and suggestive associations in an additional 61 regions. We detected strong signals from the sorghum ortholog ofArabidopsis thaliana Suppressor Of Variegation 3(SVR3) involved in plastid–nucleus signaling. By integrating GWAS results for NPQ across maize (Zea mays) and sorghum‐association panels, we identified a second gene,Non‐yellowing 1(NYE1), originally studied by Gregor Mendel in pea (Pisum sativum) and involved in the degradation of photosynthetic pigments in light‐harvesting complexes. Analysis ofnye1insertion alleles inA. thalianaconfirmed the effect of this gene on NPQ kinetics in eudicots. We extended our comparative genomics GWAS framework across the entire maize and sorghum genomes, identifying four additional loci involved in NPQ kinetics. These results provide a baseline for increasing the accuracy and speed of candidate gene identification for GWAS in species with high linkage disequilibrium. 

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2. Light Potentials of Photosynthetic Energy Storage in the Field: What limits the ability to use or dissipate rapidly increased light energy?

   https://doi.org/10.1101/2021.08.26.457798  

   Kanazawa, Atsuko; Chattopadhyay, Abhijnan; Kuhlgert, Sebastian; Tuitupou, Hainite; Maiti, Tapabrata; Kramer, David M. (August 2021, bioRxiv)

   null (Ed.)

   The responses of plant photosynthesis to rapid fluctuations in environmental conditions are thought to be critical for efficient conversion of light energy. Such responses are not well represented under laboratory conditions, but have also been difficult to probe in complex field environments. We demonstrate an open science approach to this problem that combines multifaceted measurements of photosynthesis and environmental conditions, and an unsupervised statistical clustering approach. In a selected set of data on mint (Mentha sp.), we show that the “light potential” for increasing linear electron flow (LEF) and nonphotochemical quenching (NPQ) upon rapid light increases are strongly suppressed in leaves previously exposed to low ambient PAR or low leaf temperatures, factors that can act both independently and cooperatively. Further analyses allowed us to test specific mechanisms. With decreasing leaf temperature or PAR, limitations to photosynthesis during high light fluctuations shifted from rapidly-induced NPQ to photosynthetic control (PCON) of electron flow at the cytochrome b6f complex. At low temperatures, high light induced lumen acidification, but did not induce NPQ, leading to accumulation of reduced electron transfer intermediates, a situation likely to induce photodamage, and represents a potential target for improving the efficiency and robustness of photosynthesis. Finally, we discuss the implications of the approach for open science efforts to understand and improve crop productivity. 

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3. The intracellular immune receptor like gene SNC1 is an enhancer of effector-triggered immunity in Arabidopsis

   https://doi.org/10.1093/plphys/kiac543  

   Wang, Zhixue; Yang, Leiyun; Hua, Jian (November 2022, Plant Physiology)

   Abstract Plants contain many nucleotide-binding leucine-rich repeat (NLR) proteins that are postulated to function as intracellular immune receptors but do not yet have an identified function during plant-pathogen interactions. SUPPRESSOR OF NPR1-1, CONSTITUTIVE 1 (SNC1) one such NLR protein of the Toll-interleukin 1 receptor (TIR) type despite its well characterized gain-of-function activity and its involvement in autoimmunity in Arabidopsis (Arabidopsis thaliana). Here, we investigated the role of SNC1 in natural plant-pathogen interactions and genetically tested the importance of the enzymatic activities of its TIR domain for its function. The SNC1 loss-of-function mutants were more susceptible to avirulent bacterial pathogen strains of Pseudomonas syringae containing specific effectors, especially under constant light growth condition. The mutants also had reduced defense gene expression induction and hypersensitive responses upon infection by avirulent pathogens under constant light growth condition. In addition, genetic and biochemical studies supported that the TIR enzymatic activity of SNC1 is required for its gain-of-function activity. In sum, our study uncovers a role of SNC1 as an amplifier of plant defense responses during natural plant-pathogen interactions and indicates its use of enzymatic activity and intermolecular interactions for triggering autoimmune responses. 

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4. The influence of climate and management on transpiration of residential trees during a bark beetle infestation

   https://doi.org/10.1002/ecs2.4881  

   Litvak, Elizaveta; Pataki, Diane E (May 2024, Ecosphere)

   Abstract Trees in residential environments are affected by a unique combination of environmental and anthropogenic factors, including occasional insect outbreaks that are increasing in frequency and severity due to climate change. We studied loblolly pine trees infested by bark beetles in a residential backyard in a southeastern US city. We investigated the responses of tree and stand‐level transpiration to environmental factors (solar radiation, atmospheric vapor pressure deficit, and soil moisture), severe weather events (strong winds and heavy storms), bark beetle infestation, and human actions (insecticide treatments and tree removals). We used constant heat dissipation probes to make continuous sap flux measurements (J₀) in tree boles. Over 22 months of the study,J₀of trees with confirmed infestation decreased from ~90 to ~60 g cm⁻² day⁻¹andJ₀of the rest of the trees increased from ~60 to ~80 g cm⁻² day⁻¹. One infested tree died, as itsJ₀steadily declined from 110 g cm⁻² day⁻¹to zero over the course of 2 months, followed by a loss of foliage and visible signs of severe infestation 6 months later.J₀was sensitive to variations in incoming solar radiation and atmospheric vapor pressure deficit. In most trees,J₀linearly responded to soil water content during drought periods. Yet despite complex dynamics ofJ₀variations, plot‐level transpiration at the end of the study was the same as at the beginning due to compensatory increases in tree transpiration rates. This study highlights the intrinsic interplay of environmental, biotic, and anthropogenic factors in residential environments where human actions may directly mediate ecosystem responses to climate. 

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5. Eigenmodes of 1-kink skyrmions in cylindrical magnetic discs

   https://doi.org/10.1016/j.jmmm.2024.171761  

   Staggers, Trae L.; Pollard, Shawn D. (February 2024, Journal of Magnetism and Magnetic Materials)

   The stability and resonance spectra associated with a domain wall skyrmion embedded within a Néel skyrmion, forming a 1-kink skyrmion, has been studied using micromagnetic simulations. We show that the 1-kink skyrmion is stable over a wide range of fields at moderate strengths of the Dzyaloshinskii-Moriya interaction. By exciting these structures with a broadband magnetic field excitation, we find complex resonance behavior deviating from that of a pure Néel skyrmion. For out-of-plane excitations, the 1-kink skyrmion demonstrates an additional mode relative to that of the Néel skyrmion at reduced amplitude. These consist of low frequency and high frequency modes associated with both a breathing mode and an oscillation of the embedded domain wall skyrmion. Following an in-plane excitation, both Néel and 1-kink skyrmions exhibit a counterclockwise rotational mode with similar frequencies, as well as a higher frequency mode associated with the interaction of the structure with the ferromagnetic background state. These results may help pave the way for exploration of more complex spin structures for magnetic-based microwave devices. 

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