TY  - JOUR
A1  - Brzezinka, Krzysztof
A1  - Altmann, Simone
A1  - Czesnick, Hjördis
A1  - Nicolas, Philippe
A1  - Gorka, Michal
A1  - Benke, Eileen
A1  - Kabelitz, Tina
A1  - Jähne, Felix
A1  - Graf, Alexander
A1  - Kappel, Christian
A1  - Bäurle, Isabel
T1  - Arabidopsis FORGETTER1 mediates stress-induced chromatin memory through nucleosome remodeling
JF  - eLife
N2  - Plants as sessile organisms can adapt to environmental stress to mitigate its adverse effects. As part of such adaptation they maintain an active memory of heat stress for several days that promotes a more efficient response to recurring stress. We show that this heat stress memory requires the activity of the FORGETTER1 (FGT1) locus, with fgt1 mutants displaying reduced maintenance of heat-induced gene expression. FGT1 encodes the Arabidopsis thaliana orthologue of Strawberry notch (Sno), and the protein globally associates with the promoter regions of actively expressed genes in a heat-dependent fashion. FGT1 interacts with chromatin remodelers of the SWI/ SNF and ISWI families, which also display reduced heat stress memory. Genomic targets of the BRM remodeler overlap significantly with FGT1 targets. Accordingly, nucleosome dynamics at loci with altered maintenance of heat-induced expression are affected in fgt1. Together, our results suggest that by modulating nucleosome occupancy, FGT1 mediates stress-induced chromatin memory.
Y1  - 2016
U6  - https://doi.org/10.7554/eLife.17061
SN  - 2050-084X
VL  - 5
PB  - eLife Sciences Publications
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Cuong Nguyen Huu, 
A1  - Kappel, Christian
A1  - Keller, Barbara
A1  - Sicard, Adrien
A1  - Takebayashi, Yumiko
A1  - Breuninger, Holger
A1  - Nowak, Michael D.
A1  - Bäurle, Isabel
A1  - Himmelbach, Axel
A1  - Burkart, Michael
A1  - Ebbing-Lohaus, Thomas
A1  - Sakakibara, Hitoshi
A1  - Altschmied, Lothar
A1  - Conti, Elena
A1  - Lenhard, Michael
T1  - Presence versus absence of CYP734A50 underlies the style-length dimorphism in primroses
JF  - eLife
N2  - Heterostyly is a wide-spread floral adaptation to promote outbreeding, yet its genetic basis and evolutionary origin remain poorly understood. In Primula (primroses), heterostyly is controlled by the S-locus supergene that determines the reciprocal arrangement of reproductive organs and incompatibility between the two morphs. However, the identities of the component genes remain unknown. Here, we identify the Primula CYP734A50 gene, encoding a putative brassinosteroid-degrading enzyme, as the G locus that determines the style-length dimorphism. CYP734A50 is only present on the short-styled S-morph haplotype, it is specifically expressed in S-morph styles, and its loss or inactivation leads to long styles. The gene arose by a duplication specific to the Primulaceae lineage and shows an accelerated rate of molecular evolution. Thus, our results provide a mechanistic explanation for the Primula style-length dimorphism and begin to shed light on the evolution of the S-locus as a prime model for a complex plant supergene.
Y1  - 2016
U6  - https://doi.org/10.7554/eLife.17956
SN  - 2050-084X
VL  - 5
PB  - eLife Sciences Publications
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Fujikura, Ushio
A1  - Jing, Runchun
A1  - Hanada, Atsushi
A1  - Takebayashi, Yumiko
A1  - Sakakibara, Hitoshi
A1  - Yamaguchi, Shinjiro
A1  - Kappel, Christian
A1  - Lenhard, Michael
T1  - Variation in splicing efficiency underlies morphological evolution in capsella
JF  - Developmental cell
N2  - Understanding the molecular basis of morphological change remains a central challenge in evolutionary-developmental biology. The transition from outbreeding to selfing is often associated with a dramatic reduction in reproductive structures and functions, such as the loss of attractive pheromones in hermaphroditic Caenorhabditis elegans and a reduced flower size in plants. Here, we demonstrate that variation in the level of the brassinosteroid-biosynthesis enzyme CYP724A1 contributes to the reduced flower size of selfing Capsella rubella compared with its outbreeding ancestor Capsella grandiflora. The primary transcript of the C. rubella allele is spliced more efficiently than that of C. grandiflora, resulting in higher brassinosteroid levels. These restrict organ growth by limiting cell proliferation. More efficient splicing of the C. rubella allele results from two de novo mutations in the selfing lineage. Thus, our results highlight the potentially widespread importance of differential splicing efficiency and higher-than-optimal hormone levels in generating phenotypic variation.
Y1  - 2017
U6  - https://doi.org/10.1016/j.devcel.2017.11.022
SN  - 1534-5807
SN  - 1878-1551
VL  - 44
IS  - 2
SP  - 192
EP  - 203
PB  - Cell Press
CY  - Cambridge
ER  - 
TY  - JOUR
A1  - Huu, Cuong Nguyen
A1  - Keller, Barbara
A1  - Conti, Elena
A1  - Kappel, Christian
A1  - Lenhard, Michael
T1  - Supergene evolution via stepwise duplications and neofunctionalization of a floral-organ identity gene
JF  - Proceedings of the National Academy of Sciences of the United States of America (PNAS)
N2  - Heterostyly represents a fascinating adaptation to promote outbreeding in plants that evolved multiple times independently. While L-morph individuals form flowers with long styles, short anthers, and small pollen grains, S-morph individuals have flowers with short styles, long anthers, and large pollen grains. The difference between the morphs is controlled by an S-locus "supergene" consisting of several distinct genes that determine different traits of the syndrome and are held together, because recombination between them is suppressed. In Primula, the S locus is a roughly 300-kb hemizygous region containing five predicted genes. However, with one exception, their roles remain unclear, as does the evolutionary buildup of the S locus. Here we demonstrate that the MADS-box GLOBOSA2 (GLO2) gene at the S locus determines anther position. In Primula forbesii S-morph plants, GLO2 promotes growth by cell expansion in the fused tube of petals and stamen filaments beneath the anther insertion point; by contrast, neither pollen size nor male incompatibility is affected by GLO2 activity. The paralogue GLO1, from which GLO2 arose by duplication, has maintained the ancestral B-class function in specifying petal and stamen identity, indicating that GLO2 underwent neofunctionalization, likely at the level of the encoded protein. Genetic mapping and phylogenetic analysis indicate that the duplications giving rise to the style-length-determining gene CYP734A50 and to GLO2 occurred sequentially, with the CYP734A50 duplication likely the first. Together these results provide the most detailed insight into the assembly of a plant supergene yet and have important implications for the evolution of heterostyly.
KW  - heterostyly
KW  - Primula
KW  - supergene
KW  - gene duplication
KW  - neofunctionalization
Y1  - 2020
U6  - https://doi.org/10.1073/pnas.2006296117
SN  - 0027-8424
VL  - 117
IS  - 37
SP  - 23148
EP  - 23157
PB  - National Academy of Sciences
CY  - Washington
ER  - 
TY  - GEN
A1  - Huu, Cuong Nguyen
A1  - Plaschil, Sylvia
A1  - Himmelbach, Axel
A1  - Kappel, Christian
A1  - Lenhard, Michael
T1  - Female self-incompatibility type in heterostylous Primula is determined by the brassinosteroid-inactivating cytochrome P450 CYP734A50
T2  - Current biology
N2  - Most flowering plants are hermaphrodites, with flowers having both male and female reproductive organs. One widespread adaptation to limit self-fertilization is self-incompatibility (SI), where self-pollen fails to fertilize ovules.(1,2) In homomorphic SI, many morphologically indistinguishable mating types are found, although in heteromorphic SI, the two or three mating types are associated with different floral morphologies.(3-6) In heterostylous Primula, a hemizygous supergene determines a short-styled S-morph and a long-styled L-morph, corresponding to two different mating types, and full seed set only results from inter morph crosses.(7-9) Style length is controlled by the brassinosteroid (BR)-inactivating cytochrome P450 CYP734A50,(10) yet it remains unclear what defines the male and female incompatibility types. Here, we show that CYP734A50 also determines the female incompatibility type. Inactivating CYP734A50 converts short S-morph styles into long styles with the same incompatibility behavior as L-morph styles, and this effect can be mimicked by exogenous BR treatment. In vitro responses of S-and L-morph pollen grains and pollen tubes to increasing BR levels could only partly explain their different in vivo behavior, suggesting both direct and indirect effects of the different BR levels in S-versus L-morph stigmas and styles in controlling pollen performance. This BR-mediated SI provides a novel mechanism for preventing self-fertilization. The joint control of morphology and SI by CYP734A50 has important implications for the evolutionary buildup of the heterostylous syndrome and provides a straightforward explanation for why essentially all of the derived self-compatible homostylous Primula species are long homostyles.(11)
KW  - heteromorphic self-incompatibility
KW  - heterostyly
KW  - Primula forbesii
KW  - brassinosteroid
KW  - CYP734A50
KW  - supergene
KW  - pleiotropy
Y1  - 2022
U6  - https://doi.org/10.1016/j.cub.2021.11.046
SN  - 0960-9822
SN  - 1879-0445
VL  - 32
IS  - 3
SP  - 671
EP  - 676, E1-E5
PB  - Cell Press
CY  - Cambridge, Mass.
ER  - 
TY  - GEN
A1  - Jantzen, Friederike
A1  - Lynch, Joseph H.
A1  - Kappel, Christian
A1  - Höfflin, Jona
A1  - Skaliter, Oded
A1  - Wozniak, Natalia Joanna
A1  - Sicard, Adrien
A1  - Sas, Claudia
A1  - Adebesin, Funmilayo
A1  - Ravid, Jasmin
A1  - Vainstein, Alexander
A1  - Hilker, Monika
A1  - Dudareva, Natalia
A1  - Lenhard, Michael
T1  - Retracing the molecular basis and evolutionary history of the loss of benzaldehyde emission in the genus Capsella
T2  - Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe
N2  - The transition from pollinator-mediated outbreeding to selfing has occurred many times in angiosperms. This is generally accompanied by a reduction in traits attracting pollinators, including reduced emission of floral scent. In Capsella, emission of benzaldehyde as a main component of floral scent has been lost in selfing C. rubella by mutation of cinnamate-CoA ligase CNL1. However, the biochemical basis and evolutionary history of this loss remain unknown, as does the reason for the absence of benzaldehyde emission in the independently derived selfer Capsella orientalis. We used plant transformation, in vitro enzyme assays, population genetics and quantitative genetics to address these questions. CNL1 has been inactivated twice independently by point mutations in C. rubella, causing a loss of enzymatic activity. Both inactive haplotypes are found within and outside of Greece, the centre of origin of C. rubella, indicating that they arose before its geographical spread. By contrast, the loss of benzaldehyde emission in C. orientalis is not due to an inactivating mutation in CNL1. CNL1 represents a hotspot for mutations that eliminate benzaldehyde emission, potentially reflecting the limited pleiotropy and large effect of its inactivation. Nevertheless, even closely related species have followed different evolutionary routes in reducing floral scent.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 775 
KW  - benzaldehyde
KW  - Capsella
KW  - cinnamate-CoA ligase
KW  - evolution
KW  - floral scent
KW  - selfing syndrome
KW  - shepherd’s purse
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-437542
SN  - 1866-8372
IS  - 775
SP  - 1349
EP  - 1360
ER  - 
TY  - GEN
A1  - Jantzen, Friederike
A1  - Wozniak, Natalia Joanna
A1  - Kappel, Christian
A1  - Sicard, Adrien
A1  - Lenhard, Michael
T1  - A high‑throughput amplicon‑based method for estimating outcrossing rates
T2  - Postprints der Universität Potsdam Mathematisch-Naturwissenschaftliche Reihe
N2  - Background: The outcrossing rate is a key determinant of the population-genetic structure of species and their long-term evolutionary trajectories. However, determining the outcrossing rate using current methods based on PCRgenotyping individual offspring of focal plants for multiple polymorphic markers is laborious and time-consuming.

Results: We have developed an amplicon-based, high-throughput enabled method for estimating the outcrossing rate and have applied this to an example of scented versus non-scented Capsella (Shepherd’s Purse) genotypes. Our results show that the method is able to robustly capture differences in outcrossing rates. They also highlight potential biases in the estimates resulting from differential haplotype sharing of the focal plants with the pollen-donor population at individual amplicons.

Conclusions: This novel method for estimating outcrossing rates will allow determining this key population-genetic parameter with high-throughput across many genotypes in a population, enabling studies into the genetic determinants of successful pollinator attraction and outcrossing.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 745 
KW  - Outcrossing
KW  - Mixed mating
KW  - Outcrossing rate
KW  - Capsella
KW  - Amplicon sequencing
Y1  - 2019
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-435657
SN  - 1866-8372
IS  - 745
ER  - 
TY  - JOUR
A1  - Jantzen, Friederike
A1  - Wozniak, Natalia Joanna
A1  - Kappel, Christian
A1  - Sicard, Adrien
A1  - Lenhard, Michael
T1  - A high‑throughput amplicon‑based method for estimating outcrossing rates
JF  - Plant Methods
N2  - Background: The outcrossing rate is a key determinant of the population-genetic structure of species and their long-term evolutionary trajectories. However, determining the outcrossing rate using current methods based on PCRgenotyping individual offspring of focal plants for multiple polymorphic markers is laborious and time-consuming.

Results: We have developed an amplicon-based, high-throughput enabled method for estimating the outcrossing rate and have applied this to an example of scented versus non-scented Capsella (Shepherd’s Purse) genotypes. Our results show that the method is able to robustly capture differences in outcrossing rates. They also highlight potential biases in the estimates resulting from differential haplotype sharing of the focal plants with the pollen-donor population at individual amplicons.

Conclusions: This novel method for estimating outcrossing rates will allow determining this key population-genetic parameter with high-throughput across many genotypes in a population, enabling studies into the genetic determinants of successful pollinator attraction and outcrossing.
KW  - Outcrossing
KW  - Mixed mating
KW  - Outcrossing rate
KW  - Capsella
KW  - Amplicon sequencing
Y1  - 2019
U6  - https://doi.org/10.1186/s13007-019-0433-9
SN  - 1746-4811
VL  - 15
IS  - 47
PB  - BioMed Central
CY  - London
ER  - 
TY  - GEN
A1  - Johnson, Kim L.
A1  - Ramm, Sascha
A1  - Kappel, Christian
A1  - Ward, Sally
A1  - Leyser, Ottoline
A1  - Sakamoto, Tomoaki
A1  - Kurata, Tetsuya
A1  - Bevan, Michael W.
A1  - Lenhard, Michael
T1  - The tinkerbell (tink) mutation identifies the dual-specificity MAPK phosphatase INDOLE- 3-BUTYRIC ACID-RESPONSE5 (IBR5) as a novel regulator of organ size in Arabidopsis
T2  - PLoS ONE
N2  - Mitogen-activated dual-specificity MAPK phosphatases are important negative regulators in the MAPK signalling pathways responsible for many essential processes in plants. In a screen for mutants with reduced organ size we have identified a mutation in the active site of the dual-specificity MAPK phosphatase INDOLE-3-BUTYRIC ACID-RESPONSE5 (IBR5) that we named tinkerbell (tink) due to its small size. Analysis of the tink mutant indicates that IBR5 acts as a novel regulator of organ size that changes the rate of growth in petals and leaves. Organ size and shape regulation by IBR5 acts independently of the KLU growth-regulatory pathway. Microarray analysis of tink/ibr5-6 mutants identified a likely role for this phosphatase in male gametophyte development. We show that IBR5 may influence the size and shape of petals through auxin and TCP growth regulatory pathways.
T3  - Zweitveröffentlichungen der Universität Potsdam : Mathematisch-Naturwissenschaftliche Reihe - 427 
KW  - class-i
KW  - protein phosphatase
KW  - auxin
KW  - responses
KW  - thaliana
KW  - kinase
KW  - growth
KW  - interacts
KW  - distinct
KW  - pathway
Y1  - 2018
U6  - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus4-410245
ER  - 
TY  - JOUR
A1  - Johnson, Kim L.
A1  - Ramm, Sascha
A1  - Kappel, Christian
A1  - Ward, Sally
A1  - Leyser, Ottoline
A1  - Sakamoto, Tomoaki
A1  - Kurata, Tetsuya
A1  - Bevan, Michael W.
A1  - Lenhard, Michael
T1  - The Tinkerbell (Tink) Mutation Identifies the Dual-Specificity MAPK Phosphatase INDOLE-3-BUTYRIC ACID-RESPONSE5 (IBR5) as a Novel Regulator of Organ Size in Arabidopsis
JF  - PLoS one
N2  - Mitogen-activated dual-specificity MAPK phosphatases are important negative regulators in the MAPK signalling pathways responsible for many essential processes in plants. In a screen for mutants with reduced organ size we have identified a mutation in the active site of the dual-specificity MAPK phosphatase INDOLE-3-BUTYRIC ACID-RESPONSE5 (IBR5) that we named tinkerbell (tink) due to its small size. Analysis of the tink mutant indicates that IBR5 acts as a novel regulator of organ size that changes the rate of growth in petals and leaves. Organ size and shape regulation by IBR5 acts independently of the KLU growth-regulatory pathway. Microarray analysis of tink/ibr5-6 mutants identified a likely role for this phosphatase in male gametophyte development. We show that IBR5 may influence the size and shape of petals through auxin and TCP growth regulatory pathways.
Y1  - 2015
U6  - https://doi.org/10.1371/journal.pone.0131103
SN  - 1932-6203
VL  - 10
IS  - 7
PB  - PLoS
CY  - San Fransisco
ER  -