Items where Author is "Lomax, Charlotte"

Number of items: 9.
Article
  • Breeding Novel Chemistry in Willow: New Hetero Diels–Alder Cyclodimers from Arbusculoidin and Salicortin Suggest Parallel Biosynthetic Pathways. (2024) Noleto-Dias, Clarice, Lomax, Charlotte, Bellisai, Alice, Ruvo, Gianluca, Harflett, Claudia, Macalpine, William, Hanley, Steve, Beale, Mike, Ward, Jane
  • Diverting phenylpropanoid pathway flux from sinapine to produce industrially useful 4-vinyl derivatives of hydroxycinnamic acids in Brassicaceous oilseeds. (2022) Menard, Guillaume, Langdon, Mollie, Bhunia, Rupam, Shankhapal, Aishwarya, Noleto-Dias, Clarice, Lomax, Charlotte, Ward, Jane, Kurup, Smita, Eastmond, Peter
  • A willow UDP-glycosyltransferase involved in salicinoid biosynthesis. (2020) Kulasekaran, Satish, Cerezo-Medina, Sergio, Harflett, Claudia, Lomax, Charlotte, deJong, Femke, Rendour, Amelie, Ruvo, Gianluca, Hanley, Steve, Beale, Mike, Ward, Jane picture_as_pdf
  • Inhibitors of α-Synuclein Fibrillation and Oligomer Toxicity in Rosa damascena: The All-Pervading Powers of Flavonoids and Phenolic Glycosides. (2020) Eskandari, H., Ghanadian, M., Noleto-Dias, Clarice, Lomax, Charlotte, Tawfike, Ahmed, Christiansen, G., Sutherland, D. S., Ward, Jane, Mohammad-Beigi, H., Otzen, D. E.
  • Miyabeacin: A new cyclodimer presents a potential role for willow in cancer therapy. (2020) Ward, Jane, Wu, Y., Harflett, Claudia, Onafuye, H., Corol, Delia, Lomax, Charlotte, Macalpine, William, Cinatl, J., Wass, M. N., Michaelis, M., Beale, Mike
  • Oleuropein derivatives from olive fruit extracts reduce α-synuclein fibrillation and oligomer toxicity. (2019) Mohammed-Beigi, H., Aliakbari, F., Sahin, C., Lomax, Charlotte, Tawfike, Ahmed, Shafer, N.P., Amiri-Nowdijeh, A., Eskandari, E., Moller, I.M., Hosseini-Mazinani, M., Christiansen, G., Ward, Jane, Morshedi, D., Otzen, D.E
  • Salicin-7-sulfate: A new salicinoid from willow and implications for herbal medicine. (2018) Noleto-Dias, Clarice, Ward, Jane, Bellisai, Alice, Lomax, Charlotte, Beale, Mike
  • Methylated arsenic species in plants originate from soil microorganisms. (2011) Lomax, Charlotte, Liu, W-J., Wu, Liyou, Xue, K., Xiong, J., Zhou, J., McGrath, Steve, Meharg, A. A., Miller, Tony, Zhao, Fangjie
    • Thesis
  • Investigating the origin and transport of methylated arsenic species in plants. (2013) Lomax, Charlotte