Roslyn M Gleadow


Affiliation: Monash University
Country: Australia


  1. Neilson E, Edwards A, Blomstedt C, Berger B, Møller B, Gleadow R. Utilization of a high-throughput shoot imaging system to examine the dynamic phenotypic responses of a C4 cereal crop plant to nitrogen and water deficiency over time. J Exp Bot. 2015;66:1817-32 pubmed publisher
    ..R scripts for robust, parsimonious models are provided to allow other users of phenomic imaging systems to extract useful data readily, and thus relieve a bottleneck in phenotypic screening of multiple genotypes of key crop plants. ..
  2. Gleadow R, Møller B. Cyanogenic glycosides: synthesis, physiology, and phenotypic plasticity. Annu Rev Plant Biol. 2014;65:155-85 pubmed publisher
    ..Given that many food crops are cyanogenic, it is important to understand the molecular mechanisms regulating cyanogenesis so that the impact of future environmental challenges can be anticipated. ..
  3. Gleadow R, Pegg A, Blomstedt C. Resilience of cassava (Manihot esculenta Crantz) to salinity: implications for food security in low-lying regions. J Exp Bot. 2016;67:5403-5413 pubmed
    ..We propose that the mechanisms for salinity tolerance are age dependent, and that this can be traced to the relative cost of leaves in young and old plants. ..
  4. Heraud P, Cowan M, Marzec K, Møller B, Blomstedt C, Gleadow R. Label-free Raman hyperspectral imaging analysis localizes the cyanogenic glucoside dhurrin to the cytoplasm in sorghum cells. Sci Rep. 2018;8:2691 pubmed publisher
  5. Blomstedt C, O Donnell N, Bjarnholt N, Neale A, Hamill J, Møller B, et al. Metabolic consequences of knocking out UGT85B1, the gene encoding the glucosyltransferase required for synthesis of dhurrin in Sorghum bicolor (L. Moench). Plant Cell Physiol. 2016;57:373-86 pubmed publisher