Education
PhD, University College Dublin, 2017
Lab information
Dr. Ewen Mullins' group in Teagasc, Crop Science Department, Biotechnology unit, Oak Park, Carlow R93 XE12, Ireland
http://www.emt4crops.com/
https://www.teagasc.ie/contact/staff-directory/m/ewen-mullins/
Research focus
Genome editing, Genetic engineering and Crop Improvement, microbiology, Plant-microbe interaction, Metagenomics, Horticultural crops, Plant pathology, Microbe-microbe interaction, Bio-control
Publications
https://orcid.org/0000-0003-3787-6084/printDS Rathore, MA Lopez-Vernaza, F Doohan, DO Connell, A Lloyd, Mulins E (2015). Profiling antibiotic resistance and electrotransformation potential of Ensifer adhaerens OV14; a non-Agrobacterium species capable of efficient rates of plant transformation. FEMS microbiology letters 362 (17).
DS Rathore, F Doohan, E Mullins (2016). Capability of the plant-associated bacterium, Ensifer adhaerens strain OV14, to genetically transform its original host Brassica napus. Plant Cell, Tissue and Organ Culture (PCTOC) 127 (1), 85-94.
DS Rathore, FM Doohan, and E Mullins (2017). Ensifer-mediated Arabidopsis thaliana Root Transformation (E-ART): A Protocol to Analyse the Factors that Support Ensifer-mediated Transformation (EMT) of Plant Cells. Bio-Protocol 7 (19), e2564.
DS Rathore, A Govindan, FM Doohan, and E Mullins (2018). Enhancing the utility of Ensifer-mediated transformation (EMT) technology. IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-PLANT 54, S104-S105
E Mullins, DS Rathore, F Doohan, E Zuniga (2018). Ensifer Mediated Transformation (EMT), a novel engineering platform for crop genomes. IN VITRO CELLULAR & DEVELOPMENTAL BIOLOGY-PLANT 54, S98-S98
DS Rathore, E Mullins (2018). Alternative Non‐Agrobacterium Based Methods for Plant Transformation. Annual Plant Reviews online, 891-908.
DS Rathore, E Zuniga-Soto, E Mullins (2018). Ensifer-Mediated Transformation (EMT) of Rice (Monocot) and Oilseed Rape (Dicot). Transgenic Plants, 37-48
R Rathore, DN Vakharia, and DS Rathore (2020). In vitro screening of different Pseudomonas fluorescens isolates to study lytic enzyme production and growth inhibition during antagonism of Fusarium oxysporum f. sp. cumini, wilt causing pathogen of cumin. Egyptian Journal of Biological Pest Control, 30, pp.1-8.
JG Hehir, HR Benbow, DS Rathore, and E Mullins (2020). Improvements in Genomic Technologies: Applications to Crop Research. Reference Module in Food Science, Elsevier, https://doi.org/10.1016/B978-0-08-100596-5.22693-0.