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| Kawaharada Y, Sandal N, Gupta V, et al. (2021) Natural variation identifies a Pxy gene controlling vascular organization and formation of nodules and lateral roots in Lotus japonicus. The New Phytologist |
| Shrestha A, Zhong S, Therrien J, et al. (2020) Lotus japonicus Nuclear Factor YA1, a nodule emergence stage-specific regulator of auxin signalling. The New Phytologist |
| Giovannetti M, Göschl C, Dietzen C, et al. (2019) Identification of novel genes involved in phosphate accumulation in Lotus japonicus through Genome Wide Association mapping of root system architecture and anion content. Plos Genetics. 15: e1008126 |
| Malolepszy A, Kelly S, Sørensen KK, et al. (2018) A plant chitinase controls cortical infection thread progression and nitrogen-fixing symbiosis. Elife. 7 |
| Kelly S, Mun T, Stougaard J, et al. (2018) Distinct Transcriptomic Responses to a Spectrum of Bacteria Ranging From Symbiotic to Pathogenic. Frontiers in Plant Science. 9: 1218 |
| Magne K, George J, Berbel Tornero A, et al. (2018) Lotus japonicus NOOT-BOP-COCH-LIKE1 is essential for nodule, nectary, leaf and flower development. The Plant Journal : For Cell and Molecular Biology |
| Munch D, Gupta V, Mun T, et al. (2017) The Brassicaceae family displays divergent, shoot-skewed NLR resistance gene expression. Plant Physiology |
| Reid DE, Liu H, Kelly S, et al. (2017) Dynamics of Lotus japonicus ethylene production in response to compatible Nod factor. Plant Physiology |
| Małolepszy A, Urbański DF, James EK, et al. (2015) The deubiquitinating enzyme AMSH1 is required for rhizobial infection and nodule organogenesis in Lotus japonicus. The Plant Journal : For Cell and Molecular Biology. 83: 719-31 |
| Dam S, Dyrlund TF, Ussatjuk A, et al. (2014) Proteome reference maps of the Lotus japonicus nodule and root. Proteomics. 14: 230-40 |