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1. Convergent evolution of plant prickles by repeated gene co-option over deep time

   https://doi.org/10.1126/science.ado1663  

   Satterlee, James W; Alonso, David; Gramazio, Pietro; Jenike, Katharine M; He, Jia; Arrones, Andrea; Villanueva, Gloria; Plazas, Mariola; Ramakrishnan, Srividya; Benoit, Matthias; et al (August 2024, Science)

   An enduring question in evolutionary biology concerns the degree to which episodes of convergent trait evolution depend on the same genetic programs, particularly over long timescales. In this work, we genetically dissected repeated origins and losses of prickles—sharp epidermal projections—that convergently evolved in numerous plant lineages. Mutations in a cytokinin hormone biosynthetic gene caused at least 16 independent losses of prickles in eggplants and wild relatives in the genusSolanum. Homologs underlie prickle formation across angiosperms that collectively diverged more than 150 million years ago, including rice and roses. By developing newSolanumgenetic systems, we leveraged this discovery to eliminate prickles in a wild species and an indigenously foraged berry. Our findings implicate a shared hormone activation genetic program underlying evolutionarily widespread and recurrent instances of plant morphological innovation. 

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2. Image‐based assessment of plant disease progression identifies new genetic loci for resistance to Ralstonia solanacearum in tomato

   https://doi.org/10.1111/tpj.16101  

   Méline, Valérian; Caldwell, Denise L; Kim, Bong‐Suk; Khangura, Rajdeep S; Baireddy, Sriram; Yang, Changye; Sparks, Erin E; Dilkes, Brian; Delp, Edward J; Iyer‐Pascuzzi, Anjali S (March 2023, The Plant Journal)

   SUMMARY A major challenge in global crop production is mitigating yield loss due to plant diseases. One of the best strategies to control these losses is through breeding for disease resistance. One barrier to the identification of resistance genes is the quantification of disease severity, which is typically based on the determination of a subjective score by a human observer. We hypothesized that image‐based, non‐destructive measurements of plant morphology over an extended period after pathogen infection would capture subtle quantitative differences between genotypes, and thus enable identification of new disease resistance loci. To test this, we inoculated a genetically diverse biparental mapping population of tomato (Solanum lycopersicum) withRalstonia solanacearum, a soilborne pathogen that causes bacterial wilt disease. We acquired over 40 000 time‐series images of disease progression in this population, and developed an image analysis pipeline providing a suite of 10 traits to quantify bacterial wilt disease based on plant shape and size. Quantitative trait locus (QTL) analyses using image‐based phenotyping for single and multi‐traits identified QTLs that were both unique and shared compared with those identified by human assessment of wilting, and could detect QTLs earlier than human assessment. Expanding the phenotypic space of disease with image‐based, non‐destructive phenotyping both allowed earlier detection and identified new genetic components of resistance. 

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3. Phosphate deprivation‐induced changes in tomato are mediated by an interaction between brassinosteroid signaling and zinc

   https://doi.org/10.1111/nph.19007  

   Demirer, Gozde S; Gibson, Donald J; Yue, Xiaoyan; Pan, Kelly; Elishav, Eshel; Khandal, Hitaishi; Horev, Guy; Tarkowská, Danuše; Cantó‐Pastor, Alex; Kong, Shuyao; et al (August 2023, New Phytologist)

   Summary Inorganic phosphate (Pi) is a necessary macronutrient for basic biological processes. Plants modulate their root system architecture (RSA) and cellular processes to adapt to Pi deprivation albeit with a growth penalty. Excess application of Pi fertilizer, on the contrary, leads to eutrophication and has a negative environmental impact.We compared RSA, root hair elongation, acid phosphatase activity, metal ion accumulation, and brassinosteroid hormone levels ofSolanum lycopersicum(tomato) andSolanum pennellii, which is a wild relative of tomato, under Pi sufficiency and deficiency conditions to understand the molecular mechanism of Pi deprivation response in tomato.We showed thatS.pennelliiis partially insensitive to phosphate deprivation. Furthermore, it mounts a constitutive response under phosphate sufficiency. We demonstrate that activated brassinosteroid signaling through a tomato BZR1 ortholog gives rise to the same constitutive phosphate deficiency response, which is dependent on zinc overaccumulation.Collectively, these results reveal an additional strategy by which plants can adapt to phosphate starvation. 

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4. Seed dispersal by Martu peoples promotes the distribution of native plants in arid Australia

   https://doi.org/10.1038/s41467-024-50300-5  

   Bliege_Bird, Rebecca; Bird, Douglas W; Martine, Christopher T; McGuire, Chloe; Greenwood, Leanne; Taylor, Desmond; Williams, Tanisha M; Veth, Peter M (December 2024, Nature Communications)

   Abstract Commensal relationships between wild plants and their dispersers play a key ecological and evolutionary role in community structure and function. While non-human dispersers are often considered critical to plant recruitment, human dispersers have received much less attention, especially when it comes to non-domesticated plants. Australia, as a continent historically characterized by economies reliant on non-domesticated plants, is thus a key system for exploring the ecological role of people as seed dispersers in the absence of agriculture. Here, we utilize a controlled observation research design, employing ecological surveys and ethnographic observations to examine how seed dispersal and landscape burning by Martu Aboriginal people affects the distribution of three preferred plants and one (edible, but non-preferred) control species. Using an information theoretic approach, we find that the three preferred plants show evidence of human dispersal, with the strongest evidence supporting anthropogenic dispersal for the wild bush tomato,Solanum diversiflorum. 

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5. Variation in ripe fruit volatiles across the tomato clade: An evolutionary framework for studying fruit scent diversity in a crop wild relative

   https://doi.org/10.1002/ajb2.16223  

   Barnett, Jacob R; Tieman, Denise M; Caicedo, Ana L (September 2023, American Journal of Botany)

   Abstract PremiseThe scents of volatile organic compounds (VOCs) are an important component of ripe fleshy fruit attractiveness, yet their variation across closely related wild species is poorly understood. Phylogenetic patterns in these compounds and their biosynthetic pathways offer insight into the evolutionary drivers of fruit diversity, including whether scent can communicate an honest signal of nutrient content to animal dispersers. We assessed ripe fruit VOC content across the tomato clade (Solanumsect.Lycopersicon), with implications for crop improvement since these compounds are key components of tomato flavor. MethodsWe analyzed ripe fruit volatiles from 13 species of wild tomato grown in a common garden. Interspecific variations in 66 compounds and their biosynthetic pathways were assessed in 32 accessions, and an accession‐level phylogeny was constructed to account for relatedness. ResultsWild tomato species can be differentiated by their VOCs, withSolanum pennelliinotably distinct. Phylogenetic conservatism exists to a limited extent. Major cladewide patterns corresponded to divergence of the five brightly colored‐fruited species from the nine green‐fruited species, particularly for nitrogen‐containing compounds (higher in colored‐fruited) and esters (higher in green‐fruited), the latter appearing to signal a sugar reward. ConclusionsWe established a framework for fruit scent evolution studies in a crop wild relative system, showing that each species in the tomato clade has a unique VOC profile. Differences between color groups align with fruit syndromes that could be driven by selection from frugivores. The evolution of colored fruits was accompanied by changes in biosynthetic pathways for esters and nitrogen‐containing compounds, volatiles important to tomato flavor. 

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