Items where Author is "Nichol, Tim"

Up a level
Export as [feed] Atom [feed] RSS
Group by: Item Type | Full Text | No Grouping
Number of items: 15.

file
BERTELSEN, Magnus, LACEY, Melissa, NICHOL, Tim and MILLER, Keith (2023). Mechanistic Insight into the Early Stages of Toroidal Pore Formation by the Antimicrobial Peptide Smp24. Pharmaceutics, 15 (10): 2399.

filefile
SPATOLA ROSSI, Tatiana, TOLMIE, A. Frances, NICHOL, Tim, PAIN, Charlotte, HARRISON, Patrick, SMITH, Thomas J., FRICKER, Mark and KRIECHBAUMER, Verena (2023). Recombinant expression and subcellular targeting of the particulate methane monooxygenase (pMMO) protein components in plants. Scientific Reports, 13 (1): 15337.

file
DAWSON, RA, CROMBIE, AT, JANSEN, RS, SMITH, Thomas, NICHOL, Tim and MURRELL, Colin (2023). Peering down the sink: a review of isoprene metabolism by bacteria. Environmental microbiology.

filefile
KARTHIKEYAN, Obulisamy Parthiba, SMITH, Thomas J., DANDARE, Shamsudeen Umar, PARWIN, Kamaludeen Sara, SINGH, Heetasmin, LOH, Hui Xin, CUNNINGHAM, Mark R, WILLIAMS, Paul Nicholas, NICHOL, Tim, SUBRAMANIAN, Avudainayagam, RAMASAMY, Kumarasamy and KUMARESAN, Deepak (2021). Metal(loid) speciation and transformation by aerobic methanotrophs. Microbiome, 9 (1).

file
NICHOL, Tim, CALLAGHAN, Jill, TOWNSEND, Robert, STOCKLEY, Ian, HATTON, Paul V, LE MAITRE, Christine, SMITH, Thomas John and AKID, Robert (2021). The antimicrobial activity and biocompatibility of a controlled gentamicin-releasing single-layer sol-gel coating on hydroxyapatite-coated titanium. The Bone & Joint Journal, 103-B (3), 522-529.

file
PAKIET, M., KOWALCZYK, I., LEIVA GARCIA, R., MOORCROFT, R., NICHOL, Tim, SMITH, Thomas, AKID, R. and BRYCKI, B. (2019). Gemini surfactant as multifunctional corrosion and biocorrosion inhibitors for mild steel. Bioelectrochemistry, 128, 252-262.

SMITH, Thomas J. and NICHOL, Tim (2018). Engineering soluble methane monooxygenase for biocatalysis. In: KALYUZHNAYA, Marina G and XIN-HUI, Xing, (eds.) Methane biocatalysis: Paving the way to sustainability. Springer International Publishing, 153-168.

file
LOCK, Malcolm, NICHOL, Tim, MURRELL, J Colin and SMITH, Thomas (2017). Mutagenesis and expression of methane monooxygenase to alter regioselectivity with aromatic substrates. FEMS microbiology letters, 364 (13), fnx137.

FREW, N M, CANNON, T, NICHOL, Tim, SMITH, Thomas and STOCKLEY, I (2017). Comparison of the elution properties of commercially available gentamicin and bone cement containing vancomycin with 'home-made' preparations. The bone & joint journal, 98-B (1), 73-77.

file
NICHOL, Tim, SMITH, Thomas, TOWNSEND, R, STOCKLEY, I and AKID, R (2016). Analysis of linezolid and tigecycline as candidates for local prophylaxis via antibiotic-loaded bone cement. The Journal of antimicrobial chemotherapy, 72 (2), 410-416.

NICHOL, Tim, MURRELL, J. Colin and SMITH, Thomas J. (2015). Controlling the activities of the Diiron Centre in bacterial monooxygenases: lessons from mutagenesis and biodiversity. European Journal of Inorganic Chemistry, 2015 (21), 3419-3431.

file
BARKER, Stewart, NICHOL, Tim, HARRISON, Patrick L., STOCKLEY, Ian, TOWNSEND, Robert and SMITH, Thomas J. (2015). Temocillin: a new candidate antibiotic for local antimicrobial delivery in orthopaedic surgery? The Journal of antimicrobial chemotherapy, 70 (3), 780-783.

BARKER, S., NICHOL, Tim, HARRISON, Patrick L., STOCKLEY, I., TOWNSEND, R. and SMITH, Thomas (2015). Temocillin : a new candidate antibiotic for local antimicrobial delivery in orthopaedic surgery? The Journal of antimicrobial chemotherapy, 70 (3), 780-783.

file
NICHOL, Tim (2011). Mutagenic studies into the catalytic versatility of soluble methane monooxygenase. Doctoral, Sheffield Hallam University.

DODDS, Stephen, SMITH, Thomas Smith, AKID, Robert, STEPHENSON, J, NICHOL, Tim, BANERJEE, RD, STOCKLEY, I and TOWNSEND, R (2011). Contrasting effects of physical wear on elution of two antibiotics from orthopaedic cement. Antimicrobial Agents and Chemotherapy, 56 (3), 1471-1475.

This list was generated on Thu Mar 28 18:55:09 2024 UTC.