Rutley, N., Miller, G., Wang, F., Harper, J. F., Miller, G., and Lieberman-Lazarovich, M. (2021). Enhanced Reproductive Thermotolerance of the Tomato high pigment 2 Mutant is Associated with Increased Accumulation of Flavonols in Pollen. Front. Plant Sci. 12, 672368. doi:10.3389/fpls.2021.672368.

Miller, G., Beery, A., Singh, P. K., Wang, F., Zelingher, R., Motenko, E., and Lieberman-Lazarovich, M. (2021). Contrasting Processing Tomato Cultivars Unlink Yield and Pollen Viability Under Heat Stress. AoB Plants 13. doi:10.1093/aobpla/plab046.

Singh, P. K., Miller, G., Faigenboim, A., and Lieberman-lazarovich, M. (2021). The Tomato ddm1b Mutant Shows Decreased Sensitivity to Heat Stress Accompanied by Transcriptional Alterations. Genes (Basel). 1–9.

Lieberman-Lazarovich, M., Yahav, C., Israeli, A., and Efroni, I. (2019). Deep Conservation of cis-Element Variants Regulating Plant Hormonal Responses. Plant Cell 31, 2559–2572. doi:10.1105/tpc.19.00129.

Catoni, M., Griffiths, J., Becker, C., Zabet, N. R., Bayon, C., Dapp, M., Lieberman-Lazarovich, M., Weigel, D., and Paszkowski, J. (2017). DNA Sequence Properties That Predict Susceptibility to Epiallelic Switching. EMBO J. 36, 617–628. doi:10.15252/embj.201695602.

Lieberman-Lazarovich, M., Melamed-Bessudo, C., De Pater, S., and Levy, A. A. (2013). Epigenetic Alterations at Genomic Loci Modified by Gene Targeting in Arabidopsis thaliana. PLoS One 8, e85383. doi:10.1371/journal.pone.0085383.

Mirouze, M*., Lieberman-Lazarovich, M*., Aversano, R., Bucher, E., Nicolet, J., Reinders, J., and Paszkowski, J. (2012). Loss of DNA Methylation Affects The Recombination Landscape in Arabidopsis. Proc. Natl. Acad. Sci. 109, 5880–5885. *equal contribution

Bino, R.J., De Vos, C.H.R., Lieberman, M., Hall, R.D., Bovy, A., Jonker, H.H., Tikunov, Y., Lommen, A., Moco, S. and Levin, I. (2005). The Light-hyperresponsive high pigment-2dg Mutation of Tomato: Alterations in The Fruit Metabolome. New Phytol. 166, 427–438.

Lieberman, M., Segev, O., Gilboa, N. Lalazar, A., and Levin, I. (2004). The Tomato Homolog of The Gene Encoding UV-Damaged DNA Binding Protein 1 (DDB1) Underlined as the Gene That Causes the high pigment-1 Mutant Phenotype. Theor. Appl. Genet. 108, 1574–1581.


Guarino, F., Cicatelli, A., Castiglione, S., Agius, D. R., Orhun, G. E., Fragkostefanakis, S., Leclercq, J., Dobránszki, J., Kaiserli, E., Lieberman-Lazarovich, M., Sõmera, M., Sarmiento, C., Vettori, C., Paffetti, D., Poma, A., Moschou, P. N., Gašparović, M., Yousefi, S., Vergata, C., Berger, M., Gallusci, P., Miladinović, D., and Martinelli, F. (2022). An Epigenetic Alphabet of Crop Adaptation to Climate Change. Front. Genet. 13, 818727.

Kakoulidou, I., Avramidou, E. V, Baránek, M., Brunel-Muguet, S., Farrona, S., Johannes, F., Kaiserli, E., Lieberman-Lazarovich, M., Martinelli, F., Mladenov, V., Testillano, P. S., Vassileva, V., Maury, S. (2021). Epigenetics for Crop Improvement in Times of Global Change. Biology (Basel). 10, 766.

Levin, I., de Vos, C. R., Tadmor, Y., Bovy, A., Lieberman, M., Oren-Shamir, M., Segev, O., Kolotilin, I., Keller, M., Ovadia, R., Meir, A., and Bino, R. J. (2006). High pigment tomato mutants—more than just lycopene (a review). Isr. J. Plant Sci. 54(3), 179-190.

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Lieberman-Lazarovich, M., Levy, A.A. (2011). Homologous Recombination in Plants: An Antireview. In: Birchler, J. (eds) Plant Chromosome Engineering. Methods in Molecular Biology, vol 701. Humana Press, Totowa, NJ.


Brog, Y. M., WOLFENSON, Y. G., Goren, S. Z., Hilman, D., Karchi, H., Lieberman-lazarovich, M., et al. (2020). Plant traits conferred by isolated polynucleotides and polypeptides.

Levin, I., Lieberman, M., Segev, O. A., Gilboa, N., and Lalazar, A. (2013). Isolated nucleotide sequences responsible for the tomato high pigment-1 mutant phenotype (hp-1) and uses thereof.