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1. Reading light: leaf spectra capture fine‐scale diversity of closely related, hybridizing arctic shrubs

   https://doi.org/10.1111/nph.17731  

   Stasinski, Lance; White, Dawson M.; Nelson, Peter R.; Ree, Richard H.; Meireles, José Eduardo (October 2021, New Phytologist)

   Summary Leaf reflectance spectroscopy is emerging as an effective tool for assessing plant diversity and function. However, the ability of leaf spectra to detect fine‐scale plant evolutionary diversity in complicated biological scenarios is not well understood.We test if reflectance spectra (400–2400 nm) can distinguish species and detect fine‐scale population structure and phylogenetic divergence – estimated from genomic data – in two co‐occurring, hybridizing, ecotypically differentiated species ofDryas. We also analyze the correlation among taxonomically diagnostic leaf traits to understand the challenges hybrids pose to classification models based on leaf spectra.Classification models based on leaf spectra identified two species ofDryaswith 99.7% overall accuracy and genetic populations with 98.9% overall accuracy. All regions of the spectrum carried significant phylogenetic signal. Hybrids were classified with an average overall accuracy of 80%, and our morphological analysis revealed weak trait correlations within hybrids compared to parent species.Reflectance spectra captured genetic variation and accurately distinguished fine‐scale population structure and hybrids of morphologically similar, closely related species growing in their home environment. Our findings suggest that fine‐scale evolutionary diversity is captured by reflectance spectra and should be considered as spectrally‐based biodiversity assessments become more prevalent. 

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2. Celine, a long interspersed nuclear element retrotransposon, colonizes in the centromeres of poplar chromosomes

   https://doi.org/10.1093/plphys/kiae214  

   Xin, Haoyang; Wang, Yiduo; Zhang, Wenli; Bao, Yu; Neumann, Pavel; Ning, Yihang; Zhang, Tao; Wu, Yufeng; Jiang, Ning; Jiang, Jiming; et al (April 2024, Plant Physiology)

   Abstract Centromeres in most multicellular eukaryotes are composed of long arrays of repetitive DNA sequences. Interestingly, several transposable elements, including the well-known long terminal repeat centromeric retrotransposon of maize (CRM), were found to be enriched in functional centromeres marked by the centromeric histone H3 (CENH3). Here, we report a centromeric long interspersed nuclear element (LINE), Celine, in Populus species. Celine has colonized preferentially in the CENH3-associated chromatin of every poplar chromosome, with 84% of the Celine elements localized in the CENH3-binding domains. In contrast, only 51% of the CRM elements were bound to CENH3 domains in Populus trichocarpa. These results suggest different centromere targeting mechanisms employed by Celine and CRM elements. Nevertheless, the high target specificity seems to be detrimental to further amplification of the Celine elements, leading to a shorter life span and patchy distribution among plant species compared with the CRM elements. Using a phylogenetically guided approach, we were able to identify Celine-like LINE elements in tea plant (Camellia sinensis) and green ash tree (Fraxinus pennsylvanica). The centromeric localization of these Celine-like LINEs was confirmed in both species. We demonstrate that the centromere targeting property of Celine-like LINEs is of primitive origin and has been conserved among distantly related plant species. 

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3. Exploring chilling stress and recovery dynamics in C4 perennial grass of Miscanthus sinensis

   https://doi.org/10.1371/journal.pone.0308162  

   Sobańska, Karolina; Mokrzycka, Monika; Przewoźnik, Martyna; Pniewski, Tomasz; Głowacka, Katarzyna (January 2025, PLOS ONE)

   Ghasemi-Soloklui, Ali Akbar (Ed.)

   The increasing cultivation of perennial C4 grass known asMiscanthus spp. for biomass production holds promise as a sustainable source of renewable energy. Unlike the sterile triploid hybrid ofM. ×giganteus, which cannot reproduce through seeds,M.sinensispossesses attributes that could potentially address these limitations by effectively establishing itself through seed propagation. This study aimed to investigate how 18 genotypes ofM.sinensisrespond to chilling stress and subsequent recovery. Various traits were measured, including growth and biomass yield, the rate of leaf elongation, and a variety of chlorophyll fluorescence parameters, as well as chlorophyll content estimated using the SPAD method. Principal Component Analysis revealed unique genotype responses to chilling stress, with distinct clusters emerging during the recovery phase. Strong, positive correlations were identified between biomass content and yield-related traits, particularly leaf length. Leaf growth analysis delineated two subsets of genotypes: those maintaining growth and those exhibiting significant reductions under chilling conditions. The Comprehensive Total Chill Stress Response Index (SRI) pinpointed highly tolerant genotypes such as Ms16, Ms14, and Ms9, while Ms12 showed relatively lower tolerance. 

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4. Investigating the Streptococcus sinensis competence regulon through a combination of transcriptome analysis and phenotypic evaluation

   https://doi.org/10.1099/mic.0.001256  

   Brennan, Alec A.; Harrington, Anthony; Guo, Mingzhe; Renshaw, Clay P.; Tillett, Richard L.; Miura, Pedro; Tal-Gan, Yftah (October 2022, Microbiology)

   Streptococcus sinensis is a recently identified member of the Mitis group of streptococci. This species has been associated with infective endocarditis; however its mechanisms of pathogenesis and virulence are not fully understood. This study aimed to investigate the influence of the competence-stimulating peptide (CSP) and the competence regulon quorum-sensing circuitry (ComABCDE) on subsequent gene transcription and expression, as well as resultant phenotypes. In this study we confirmed the native CSP identity, ascertained when endogenous CSP was produced and completed a transcriptome-wide analysis of all genes following CSP exposure. RNA sequencing analysis revealed the upregulation of genes known to be associated with competence, biofilm formation and virulence. As such, a variety of phenotypic assays were utilized to assess the correlation between increased mRNA expression and potential phenotype response, ultimately gaining insight into the effects of CSP on both gene expression and developed phenotypes. The results indicated that the addition of exogenous CSP aided in competence development and successful transformation, yielding an average transformation efficiency comparable to that of other Mitis group streptococci. Additional studies are needed to further delineate the effects of CSP exposure on biofilm formation and virulence. Overall, this study provides novel information regarding S. sinensis and provides a substantial foundation on which this species and its role in disease pathogenesis can be further investigated. 

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5. Born in the mitochondrion and raised in the nucleus: evolution of a novel tandem repeat family in Medicago polymorpha (Fabaceae)

   https://doi.org/10.1111/tpj.15676  

   Choi, In‐Su; Wojciechowski, Martin F.; Steele, Kelly P.; Hunter, Sarah G.; Ruhlman, Tracey A.; Jansen, Robert K. (February 2022, The Plant Journal)

   SUMMARY Plant nuclear genomes harbor sequence elements derived from the organelles (mitochondrion and plastid) through intracellular gene transfer (IGT). Nuclear genomes also show a dramatic range of repeat content, suggesting that any sequence can be readily amplified. These two aspects of plant nuclear genomes are well recognized but have rarely been linked. Through investigation of 31Medicagotaxa we detected exceptionally high post‐IGT amplification of mitochondrial (mt) DNA sequences containingrps10in the nuclear genome ofMedicago polymorphaand closely related species. The amplified sequences were characterized as tandem arrays of five distinct repeat motifs (2157, 1064, 987, 971, and 587 bp) that have diverged from the mt genome (mitogenome) in theM. polymorphanuclear genome. The mtrps10‐like arrays were identified in seven loci (six intergenic and one telomeric) of the nuclear chromosome assemblies and were the most abundant tandem repeat family, representing 1.6–3.0% of total genomic DNA, a value approximately three‐fold greater than the entire mitogenome inM. polymorpha. Compared to a typical mt gene, the mtrps10‐like sequence coverage level was 691.5–7198‐fold higher inM. polymorphaand closely related species. In addition to the post‐IGT amplification, our analysis identified the canonical telomeric repeat and the species‐specific satellite arrays that are likely attributable to an ancestral chromosomal fusion inM. polymorpha. A possible relationship between chromosomal instability and the mtrps10‐like tandem repeat family in theM. polymorphaclade is discussed. 

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