Autoren Titel
Ahn Y-J, Cuacos M, Ayoub M A, Kappermann J, Houben A, Heckmann S In planta delivery of chemical compounds into barley meiocytes – EdU as compound example. In: Pradillo M, Heckmann S (Eds.): Plant Meiosis: methods and protocols. (Series: Methods in molecular biology, Vol. 2061) New York, NY: Humana Press (2020) 381-402. 978-1-4939-9817-3
Chen E C H, Mathieu S, Hoffrichter A, Ropars J, Dreissig S, Fuchs J, Brachmann A, Corradi N More filtering on SNP calling does not remove evidence of inter-nucleus recombination in dikaryotic arbuscular mycorrhizal fungi. Front. Plant Sci. 11 (2020) 912.
Desjardins S D, Ogle D E, Ayoub M A, Heckmann S, Henderson I R, Edwards K J, Higgins J D MutS homologue 4 and MutS homologue 5 maintain the obligate crossover in wheat despite stepwise gene loss following polyploidization. Plant Physiol. 183 (2020) 1545-1558.
Dreissig S, Fuchs J, Himmelbach A, Mascher M, Houben A Quantification of recombination rate and segregation distortion by genotyping and sequencing of single pollen nuclei. In: Pradillo M, Heckmann S (Eds.): Plant Meiosis: methods and protocols. (Series: Methods in molecular biology, Vol. 2061) New York, NY: Humana Press (2020) 281-300. 978-1-4939-9817-3
Dubey R Targeted meiotic DNA Double strand break induction using the CRISPR/Cas9 system analyzed via single pollen genotyping. (Master Thesis) Zaragoza, Catalonia, Spain, Spain University of Lleida, Instituto Agronómico Mediterráneo de Zaragoza (IAMZ-CIHEAM) (2020) 70 pp.
Garavello M, Cuenca J, Dreissig S, Fuchs J, Navarro L, Houben A, Aleza P Analysis of crossover events and allele segregation distortion in interspecific citrus hybrids by single pollen genotyping. Front. Plant Sci. 11 (2020) 615.
Khosravi S, Dreissig S, Schindele P, Wolter F, Rutten T, Puchta H, Houben A Live Cell CRISPR imaging in plant cells with a telomere-specific guide RNA. In: Heinlein M (Ed.): RNA Tagging: methods and protocols. (Series: Methods in molecular biology, Vol. 2166) New York, NY: Humana Press (2020) 343-356. 1940-6029 (Electronic)1064-3745 (Linking)
Khosravi S, Ishii T, Dreissig S, Houben A Application and prospects of CRISPR/Cas9-based methods to trace defined genomic sequences in living and fixed plant cells. Chromosome Res. 28 (2020) 7-17.
Le Goff S, Keçeli B N, Jeřábková H, Heckmann S, Rutten T, Cotterell S, Schubert V, Roitinger E, Mechtler K, Franklin F C H, Tatout C, Houben A, Geelen D, Probst A V, Lermontova I The H3 histone chaperone NASPSIM3 escorts CenH3 in Arabidopsis. Plant J. 101 (2020) 71-86.
Pradillo M, Heckmann S (Eds.) Plant Meiosis: methods and protocols. (Series: Methods in molecular biology, Vol. 2061) New York, NY: Humana Press (2020) 410 pp. 978-1-4939-9817-3
Schmidt C, Fransz P, Rönspies M, Dreissig S, Fuchs J, Heckmann S, Houben A, Puchta H Changing local recombination patterns in plants by CRISPR/Cas mediated chromosome engineering. Nat. Commun. 11 (2020) 4418.
Schubert V, Neumann P, Marques A, Heckmann S, Macas J, Pedrosa-Harand A, Schubert I, Jang T-S, Houben A Super-resolution microscopy reveals diversity of plant centromere architecture. Int. J. Mol. Sci. 21 (2020) 3488.
Valuchova S, Mikulkova P, Pecinkova J, Klimova J, Krumnikl M, Bainar P, Heckmann S, Tomancak P, Riha K Imaging plant germline differentiation within Arabidopsis flowers by light sheet microscopy. eLife 9 (2020) e52546.
Demidov D, Heckmann S, Weiss O, Rutten T, Tomaštíková E D, Kuhlmann M, Scholl P, Municio C M, Lermontova I, Houben A Deregulated phosphorylation of CENH3 at Ser65 affects the development of floral meristems in Arabidopsis thaliana. Front. Plant Sci. 10 (2019) 928.
Dreissig S, Mascher M, Heckmann S Variation in recombination rate is shaped by domestication and environmental conditions in barley. Mol. Biol. Evol. 36 (2019) 2029–2039.
Ishii T, Schubert V, Khosravi S, Dreissig S, Metje-Sprink J, Sprink T, Fuchs J, Meister A, Houben A RNA-guided endonuclease – in situ labelling (RGEN-ISL): a fast CRISPR/Cas9-based method to label genomic sequences in various species. New Phytol. 222 (2019) 1652-1661.
Chambon A, West A, Vezon D, Horlow C, De Muyt A, Chelysheva L, Ronceret A, Darbyshire A R, Osman K, Heckmann S, Franklin F C H, Grelon M Identification of ASYNAPTIC4, a component of the meiotic chromosome axis. Plant Physiol. 178 (2018) 233–246.
Chen E C, Mathieu S, Hoffrichter A, Sedzielewska-Toro K, Peart M, Pelin A, Ndikumana S, Ropars J, Dreissig S, Fuchs J, Brachmann A, Corradi N Single nucleus sequencing reveals evidence of inter-nucleus recombination in arbuscular mycorrhizal fungi. eLife 7 (2018) e39813.
Lambing C, Heckmann S Tackling plant meiosis: from model research to crop improvement. Front. Plant Sci. 9 (2018) 829.
Osman K, Yang J, Roitinger E, Lambing C, Heckmann S, Howell E, Cuacos M, Imre R, Dürnberger G, Mechtler K, Armstrong S, Franklin F C H Affinity proteomics reveals extensive phosphorylation of the Brassica chromosome axis protein ASY1 and a network of associated proteins at prophase I of meiosis. Plant J. 93 (2018) 17-33.
Kappermann J Beeinflussung der Anzahl und Verteilung meiotischer Rekombinationsereignisse in der Gerste (Hordeum vulgare) mittels Manipulation epigenetischer Faktoren anhand von Chemikalien. (Bachelor Thesis) Köthen, Hochschule Anhalt (2017)

Publications Stefan Heckmann


Cuacos, M, Franklin, C, Heckmann, S (2015) Atypical centromeres in plants: what they can tell us. Front Plant Sci 6:913


Demidov, D, Schubert, V, Kumke, K, Weiss, O, Karimi-Ashtiyani, R, Butlar, J, Heckmann, S, Wanner, G, Dong, Q, Han, F, Houben, A (2014) Anti-phosphorylated histone H2AThr120 - an universal mark for centromeric chromatin of mono- and holocentric plant species. Cytogenet Genome Res 43:150-156.


Heckmann, S, Lermontova, I, Berckmans, B, De Veylder, L, Bäumlein, H, Schubert, I (2011) The E2F transcription factor family regulates CENH3 expression in Arabidopsis thaliana. Plant J 68:646-656.


Heckmann, S, Schroeder-Reiter, E, Kumke, K, Ma, L, Nagaki, K, Murata, MM, Wanner, G, Houben, A (2011) Holocentric chromosomes of Luzula elegans are characterized by a longitudinal centromere groove, chromosome bending and a terminal nucleolus organizer region. Cytogenet Genome Res 134:220-228.


Heckmann, S, Houben, A (2013) Holokinetic centromeres (pp. 83-94) In: Jiang, J and Birchler, J (Eds.): Plant Centromere Biology, Vol. 1, John Wiley & Sons.


Heckmann, S, Macas, J, Kumke, K, Fuchs, J, Schubert, V, Ma, L, Novák, P, Neumann, P, Taudien, S, Platzer, M, Houben, A (2013) The holocentric species Luzula elegans shows interplay between centromere and large-scale genome organization. Plant J 73:555-565.


Heckmann, S, Jankowska, M, Schubert, V, Kumke, K, Ma, W, Houben, A (2014) Alternative meiotic chromatid segregation in the holocentric plant Luzula elegans. Nat Commun 5, doi:10.1038/ncomms5979


Heckmann, S, Schubert, V, Houben, A (2014) Holocentric plant meiosis: First sisters, then homologues. Cell Cycle 13:3623-3624


Karimi-Ashtiyani, R, Ishii, T, Niessen, M, Stein, N, Heckmann, S, Gurushidze, M, Banaei-Moghaddam, AM, Fuchs, J, Schubert, V, Koch, K, Weiss, O, Demidov, D, Schmidt, K, Kumlehn, J, Houben, A (2015) Point mutation impairs centromeric CENH3 loading and induces haploid plants. Proc Natl Acad Sci USA 112:11211-11216


Lermontova, I, Kuhlmann, M, Friedel, S, Rutten, T, Heckmann, S, Sandmann, M, Demidov, D, Schubert, V, Schubert, I (2013) Arabidopsis KINETOCHORE NULL2 is an upstream component for centromeric histone H3 variant cenH3 deposition at centromeres. Plant Cell 25:3389-3404.


Marques, A, Fuchs, J, Ma, L, Heckmann, S, Guerra, M, Houben, A (2011) Characterization of eu- and heterochromatin of Citrus with a focus on the condensation behaviour of 45S rDNA chromatin. Cytogenet Genome Res 134:72-82.