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1. A key floral scent component (β‐trans‐bergamotene) drives pollinator preferences independently of pollen rewards in seep monkeyflower

   https://doi.org/10.1111/1365-2435.13246  

   Haber, Ariela I. ; Sims, James W. ; Mescher, Mark C. ; De Moraes, Consuelo M. ; Carr, David E. ; Brody, ed., Alison ( December 2018 , Functional Ecology)

   Floral odours play an important role in attracting insect pollinators. Because pollinators visit flowers to obtain pollen and nectar rewards, they should prefer floral odour profiles associated with the highest‐rewarding flowers (honest signals). In previous work, bumblebees exhibited a preference for flowers from outbred over inbredMimulus guttatusplants. Pollen is the only floral reward inM. guttatus, and pollen viability (a reliable indicator of protein content) is reduced in inbred plants. Yet, differences in pollen viability did not explain the observed preferences.

   In this study, we examined the floral volatile profiles of inbred and outbredM. guttatusto identify inbreeding effects and associations between volatile compounds and the number of viable pollen grains per flower, designated “PRQ” (pollen reward quality). We also conducted pairwise choice tests withBombus impatiensto evaluate the ability of bees to discriminate between odours of rewarding and non‐rewarding flowers and to determine whether bumblebee preferences are explained by differences in the floral odours of inbred and outbred plants.

   Inbred plants exhibited reduced emission of β‐trans‐bergamotene, the second‐most abundant compound in the volatile blend of outbred plants. Furthermore, pollen and fertile anthers emitted nonadecane. Six other compounds in the floral blend were positively correlated withPRQ. There was no overlap between compounds affected by inbreeding and compounds associated withPRQ.

   Even when given prior experience foraging onM. guttatus, bumblebees did not distinguish between the floral odours of rewarding and non‐rewarding outbred plants. However, they preferred floral odours from non‐rewarding outbred plants over rewarding inbred plants. Bumblebees without prior experience of flowers preferred volatile blends with higher versus lower amounts of β‐trans‐bergamotene.

   Taken together, these results suggest that the volatile emissions ofM. guttatusprovide reliable indicators of pollen rewards (potential honest signals), but that the preference of bumblebees for outbred plants is not driven by these cues but rather by a sensory bias for β‐trans‐bergamotene. This may represent a subtle form of deceit‐pollination that allows plants to attract pollinators while minimizing investment in costly rewards.

   Aplain language summaryis available for this article.

    

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2. Organ-specific characteristics govern the relationship between histone code dynamics and transcriptional reprogramming during nitrogen response in tomato

   https://doi.org/10.1038/s42003-023-05601-8  

   Julian, Russell ; Patrick, Ryan M. ; Li, Ying ( December 2023 , Communications Biology)

   Environmental stimuli trigger rapid transcriptional reprogramming of gene networks. These responses occur in the context of the local chromatin landscape, but the contribution of organ-specific dynamic chromatin modifications in responses to external signals remains largely unexplored. We treated tomato seedlings with a supply of nitrate and measured the genome-wide changes of four histone marks, the permissive marks H3K27ac, H3K4me3, and H3K36me3 and repressive mark H3K27me3, in shoots and roots separately, as well as H3K9me2 in shoots. Dynamic and organ-specific histone acetylation and methylation were observed at functionally relevant gene loci. Integration of transcriptomic and epigenomic datasets generated from the same organ revealed largely syngenetic relations between changes in transcript levels and histone modifications, with the exception of H3K27me3 in shoots, where an increased level of this repressive mark is observed at genes activated by nitrate. Application of a machine learning approach revealed organ-specific rules regarding the importance of individual histone marks, as H3K36me3 is the most successful mark in predicting gene regulation events in shoots, while H3K4me3 is the strongest individual predictor in roots. Our integrated study substantiates a view that during plant environmental responses, the relationships between histone code dynamics and gene regulation are highly dependent on organ-specific contexts.

    

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3. PHYTOCHROME‐INTERACTING FACTORS are involved in starch degradation adjustment via inhibition of the carbon metabolic regulator QUA‐QUINE STARCH in Arabidopsis

   https://doi.org/10.1111/tpj.16124  

   Lee, Sang Woo ; Choi, Dasom ; Moon, Heewon ; Kim, Sujeong ; Kang, Hajeong ; Paik, Inyup ; Huq, Enamul ; Kim, Dong‐Hwan ( March 2023 , The Plant Journal)

   As sessile organisms, plants encounter dynamic and challenging environments daily, including abiotic/biotic stresses. The regulation of carbon and nitrogen allocations for the synthesis of plant proteins, carbohydrates, and lipids is fundamental for plant growth and adaption to its surroundings. Light, one of the essential environmental signals, exerts a substantial impact on plant metabolism and resource partitioning (i.e., starch). However, it is not fully understood how light signaling affects carbohydrate production and allocation in plant growth and development. An orphan gene unique toArabidopsis thaliana, namedQUA‐QUINE STARCH(QQS) is involved in the metabolic processes for partitioning of carbon and nitrogen among proteins and carbohydrates, thus influencing leaf, seed composition, and plant defense in Arabidopsis. In this study, we show that PHYTOCHROME‐INTERACTING bHLH TRANSCRIPTION FACTORS (PIFs), including PIF4, are required to suppressQQSduring the period at dawn, thus preventing overconsumption of starch reserves.QQSexpression is significantly de‐repressed inpif4andpifQ, while repressed by overexpression ofPIF4, suggesting that PIF4 and its close homologs (PIF1, PIF3, and PIF5) act as negative regulators ofQQSexpression. In addition, we show that the evening complex, including ELF3 is required for active expression ofQQS, thus playing a positive role in starch catabolism during night‐time. Furthermore,QQSis epigenetically suppressed by DNA methylation machinery, whereas histone H3 K4 methyltransferases (e.g., ATX1, ATX2, and ATXR7) and H3 acetyltransferases (e.g., HAC1 and HAC5) are involved in the expression ofQQS. This study demonstrates that PIF light signaling factors help plants utilize optimal amounts of starch during the night and prevent overconsumption of starch before its biosynthesis during the upcoming day.

    

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4. HOS15 and HDA9 negatively regulate immunity through histone deacetylation of intracellular immune receptor NLR genes in Arabidopsis

   https://doi.org/10.1111/nph.16380  

   Yang, Leiyun ; Chen, Xiangsong ; Wang, Zhixue ; Sun, Qi ; Hong, Anna ; Zhang, Aiqin ; Zhong, Xuehua ; Hua, Jian ( January 2020 , New Phytologist)

   Plant immune responses need to be tightly controlled for growth–defense balance. The mechanism underlying this tight control is not fully understood. Here we identify epigenetic regulation of nucleotide‐binding leucine rich repeat or Nod‐Like Receptor (NLR) genes as an important mechanism for immune responses.

   Through a sensitized genetic screen and molecular studies, we identified and characterized HOS15 and its associated protein HDA9 as negative regulators of immunity and NLR gene expression.

   The loss‐of‐function ofHOS15orHDA9confers enhanced resistance to pathogen infection accompanied with increased expression of one‐third of the 207 NLR genes inArabidopsis thaliana. HOS15 and HDA9 are physically associated with some of these NLR genes and repress their expression likely through reducing the acetylation of H3K9 at these loci. In addition, these NLR genes are repressed by HOS15 under both pathogenic and nonpathogenic conditions but by HDA9 only under infection condition.

   Together, this study uncovers a previously uncharacterized histone deacetylase complex in plant immunity and highlights the importance of epigenetic regulation of NLR genes in modulating growth–defense balance.

    

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5. An ortholog of CURLY LEAF/ENHANCER OF ZESTElike‐1 is required for proper flowering in Brachypodium distachyon

   https://doi.org/10.1111/tpj.13815  

   Lomax, Aaron ; Woods, Daniel P. ; Dong, Yinxin ; Bouché, Frédéric ; Rong, Ying ; Mayer, Kevin S. ; Zhong, Xuehua ; Amasino, Richard M. ( February 2018 , The Plant Journal)

   Many plants require prolonged exposure to cold to acquire the competence to flower. The process by which cold exposure results in competence is known as vernalization. InArabidopsis thaliana, vernalization leads to the stable repression of the floral repressorFLOWERING LOCUS Cvia chromatin modification, including an increase of trimethylation on lysine 27 of histone H3 (H3K27me3) by Polycomb Repressive Complex 2 (PRC2). Vernalization in pooids is associated with the stable induction of a floral promoter,VERNALIZATION1(VRN1). From a screen for mutants with a reduced vernalization requirement in the model grassBrachypodium distachyon, we identified two recessive alleles ofENHANCER OF ZESTE‐LIKE 1(EZL1).EZL1is orthologous toA. thalianaCURLY LEAF 1, a gene that encodes the catalytic subunit ofPRC2.B. distachyon ezl1mutants flower rapidly without vernalization in long‐day (LD) photoperiods; thus,EZL1is required for the proper maintenance of the vegetative state prior to vernalization. Transcriptomic studies inezl1revealed mis‐regulation of thousands of genes, including ectopic expression of several floral homeotic genes in leaves. Loss ofEZL1results in the global reduction of H3K27me3 and H3K27me2, consistent with this gene making a major contribution toPRC2 activity inB. distachyon. Furthermore, inezl1mutants, the flowering genesVRN1andAGAMOUS(AG) are ectopically expressed and have reduced H3K27me3. Artificial microRNAknock‐down of eitherVRN1orAGinezl1‐1mutants partially restores wild‐type flowering behavior in non‐vernalized plants, suggesting that ectopic expression inezl1mutants may contribute to the rapid‐flowering phenotype.

    

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