Laura Böttner scite author profile

Summary The mechanisms of initiation and transmission of apomixis (asexual reproduction through seeds) in natural plant populations are important for understanding the evolution of reproductive variation. Here, we used the phylogenetic diversity of the genus Boechera (Brassicaceae), together with natural diversity in pollen types produced by apomictic lines, to test whether hybridization triggers the transition to asexuality, and whether a ‘triploid bridge’ is required for the formation of polyploid apomicts. We performed crosses between diploid sexual recipient and diploid apomictic donor lines and tested whether the mating system (interspecific hybridization vs intraspecific outcrossing) or pollen type (haploid vs diploid) influenced the transmission of apomixis from diploid apomictic donors into sexual recipients. We used genetic markers and flow cytometric analyses of embryo and endosperm in seeds to infer the reproductive mode. Within a single generation, initiation of both diploid and polyploid apomixis in sexual Boechera can occur. Diploid apomixis is transmitted through haploid pollen (infectious asexuality) and polyploids can form through multiple pathways. The three functional elements of apomixis occasionally segregate. Variation in pollen ploidy and the segregation of apomixis elements drive reproductive diversity of hybrids and outcrosses and can be utilized for apomixis initiation in crop breeding programs.

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Differential localization of flavonoid glucosides in an aquatic plant implicates different functions under abiotic stress

Böttner

Grabe

Gablenz

et al. 2020

Plant Cell & Environment

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Flavonoids may mediate UV protection in plants either by screening of harmful radiation or by minimizing the resulting oxidative stress. To help distinguish between these alternatives, more precise knowledge of flavonoid distribution is needed. We used confocal laser scanning microscopy (cLSM) with the “emission fingerprinting” feature to study the cellular and subcellular distribution of flavonoid glucosides in the giant duckweed (Spirodela polyrhiza), and investigated the fitness effects of these compounds under natural UV radiation and copper sulphate addition (oxidative stress) using common garden experiments indoors and outdoors. cLSM “emission fingerprinting” allowed us to individually visualize the major dihydroxylated B‐ring‐substituted flavonoids, luteolin 7‐O‐glucoside and luteolin 8‐C‐glucoside, in cross‐sections of the photosynthetic organs. While luteolin 8‐C‐glucoside accumulated mostly in the vacuoles and chloroplasts of mesophyll cells, luteolin 7‐O‐glucoside was predominantly found in the vacuoles of epidermal cells. In congruence with its cellular distribution, the mesophyll‐associated luteolin 8‐C‐glucoside increased plant fitness under copper sulphate addition but not under natural UV light treatment, whereas the epidermis‐associated luteolin 7‐O‐glucoside tended to increase fitness under both stresses across chemically diverse genotypes. Taken together, we demonstrate that individual flavonoid glucosides have distinct cellular and subcellular locations and promote duckweed fitness under different abiotic stresses.

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Exploring microbiomes for plant disease management

et al. 2022

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Induced responses contribute to rapid plant adaptation to herbivory

Malacrinò

Böttner

Nouere

et al. 2022

Preprint

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Herbivory-induced responses in plants are a typical example of phenotypic plasticity and are thought to be important for adaptation to herbivory. However, direct evidence demonstrating that induced responses increase the multigenerational fitness of plants remains scarce. Here, we experimentally evolved populations of an aquatic plant and its native herbivore for more than 30 generations outdoors. We found that herbivory rapidly increased plant resistance via altering the genotype frequencies, herbivory-induced phenotypic plasticity, and plant microbiota. Together, this study provides direct evidence for the adaptive role of herbivory-induced responses in plants.

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Laura Böttner

The spread of infectious asexuality through haploid pollen

Differential localization of flavonoid glucosides in an aquatic plant implicates different functions under abiotic stress

Exploring microbiomes for plant disease management

Induced responses contribute to rapid plant adaptation to herbivory

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