香蕉视频
Bacterial oxygenases
Bacteria that can grow using hydrocarbons as their sole source of carbon and energy produce oxygenases that have the ability to perform specific oxygenation of a wide range of hydrocarbons and chlorinated organic compounds, many of which are unreactive towards oxidation by chemical means. Bacterial oxygenases are thus potentially useful in bioremediation and, thanks to the remarkable stereo- and regio-selectivity that such enzymes can demonstrate, have potential applications in the synthesis of fine chemicals.
Soluble methane monooxygenase (sMMO) from methane-oxidising bacteria naturally oxidises methane to methanol, which is the first step in biological oxidation of the potent greenhouse gas methane. It also co-oxidises a wide range of hydrocarbon and chlorinated hydrocarbon substrates. We are using mutagenesis-based methods to investigate and manipulate the very wide substrate range of sMMO and to investigate the mechanism of oxidation of the enzyme's kinetically unreactive substrate methane. This work is currently funded by a grant from the Biotechnology and Biological Sciences 香蕉视频 Council (BBSRC) and is a collaboration with Professor J Colin Murrell at the University of East Anglia. We are also working with Professor John Lipscomb (University of Minnesota) to study reaction kinetics in sMMO.
We are performing structure-function studies on alkene monooxygenase (AMO), which is produced by the alkene-oxidising bacterium Rhodococcus rhodochrous B-276 and can be used to produce high-value chiral epoxides.
New expression systems for biocatalysts
In addition to the expression systems that have already been developed for AMO and sMMO, work is also underway exploring the expression of stereoselective oxygenases in a bacterium that grows using methanol as its carbon and energy source in order to produce high-value biocatalysts using methanol as the feedstock. This project is in collaboration with Dr C Míguez and co-workers at the Biotechnology 香蕉视频 Institute, Montreal.
Molecular environmental microbiology of the hospital ward environment
We are applying molecular microbial ecology methods, including the polymerase chain reaction (PCR) and denaturing gradient gel electrophoresis (DGGE) to study populations of microorganisms and resistance genes within the internal environment of hospital wards and other areas, as a new tool to study the role of the environment in hospital-acquired infections. This work is a collaboration with Dr Karen Stanley (Sheffield Hallam) and Mr Robert Kerry and Dr Robert Townsend (Sheffield Teaching Hospitals NHS Foundation Trust). It is funded by the Hospital Infection Society.
Microbiological applications in materials science
香蕉视频 is underway into applications of bacteria within materials science, including inhibition of corrosion and biofouling and development of biosensors. This work is in collaboration with Professor Bob Akid at the University of Manchester. Work on development of a novel coating containing 'good' bacteria for inhibition of biofouling and corrosion is currently supported by the Engineering and Physical Sciences 香蕉视频 Council (EPSRC).
Novel antimicrobial systems
Work is under way to develop a new controlled-release coating for local delivery of antibiotics and other therapeutic agents for use on orthopedic prostheses and other surgical implants. This work is a collaboration with Professor Bob Akid at the University of Manchester and Dr Robert Townsend and Professor Ian Stockley (Sheffield Teaching Hospitals NHS trust).
We are also working on isolation and characterisation of antimicrobial agents from natural products, including celery seeds. This work is a collaboration with Professor K D Rainsford (香蕉视频) and Dr Graham Stafford (School of Clinical Dentistry, University of Sheffield) and Dr Simon Jones (Department of Chemistry, University of Sheffield).
Bioremediation of heavy metal and organic pollutants
Microorganisms can be exploited to mitigate environmental pollution, by oxidising organic pollutants (such as hydrocarbons and chlorinated hydrocarbons) and by changing the speciation of heavy metals to make them less bioavailable. Work in collaboration with Dr Philip Gardiner investigates the potential of methane-oxidising and other environmental bacteria to remediate hexavalent chromium contamination. Other work is concerned with bioremediation of wastes from the petroleum industry.
Publications
Journal articles
Spatola Rossi, T., Tolmie, A.F., Nichol, T., Pain, C., Harrison, P., Smith, T.J., ... Kriechbaumer, V. (2023). . Scientific Reports, 13 (1).
Capper-Parkin, K.L., Nichol, T., Smith, T.J., Lacey, M.M., & Forbes, S. (2023). . The Journal of hospital infection, 134, 138-146.
Dawson, R.A., Crombie, A.T., Jansen, R.S., Smith, T., Nichol, T., & Murrell, C. (2023). . Environmental microbiology.
Karthikeyan, O.P., Smith, T.J., Dandare, S.U., Parwin, K.S., Singh, H., Loh, H.X., ... Kumaresan, D. (2021). . Microbiome, 9 (1).
Nichol, T., Callaghan, J., Townsend, R., Stockley, I., Hatton, P.V., Le Maitre, C., ... Akid, R. (2021). . The Bone & Joint Journal, 103-B (3), 522-529.
Henly, E.L., Norris, K., Rawson, K., Zoulias, N., Jaques, L., Chirila, P.G., ... Forbes, S. (2021). . Journal of Antimicrobial Chemotherapy.
Hufton, J., Harding, J., Smith, T., & Romero-Gonz谩lez, M.E. (2020). . Phys Chem Chem Phys.
Enbaia, S., Eswayah, A., Hondow, N., Gardiner, P., & Smith, T. (2020). . Applied and environmental microbiology.
Challa, S., & Smith, T. (2020). . Letters In Applied Microbiology.
Eswayah, A.S., Hondow, N., Scheinost, A.C., Merroun, M., Romero-Gonz谩lez, M., Smith, T.J., & Gardiner, P.H.E. (2019). . Appl Environ Microbiol.
Codjoe, F.S., Brown, C.A., Smith, T., Miller, K., & Donkor, E.S. (2019). . PLoS One, 14 (9), e0222168.
Codjoe, F.S., Donkor, E.S., Smith, T., & Miller, K. (2019). . Microbial drug resist.
Abu-Ali, H., Nabok, A., & Smith, T.J. (2019). . Chemosensors, 7 (2), e27.
Abu-Ali, H., Nabok, A., & Smith, T. (2019). . Analytical and Bioanalytical Chemistry.
Pakiet, M., Kowalczyk, I., Leiva Garcia, R., Moorcroft, R., Nichol, T., Smith, T., ... Brycki, B. (2019). . Bioelectrochemistry, 128, 252-262.
Herrero鈥怘ernandez, E., Greenfield, D., Smith, T., & Akid, R. (2019). . Electroanalysis.
Abu-Ali, H., Nabok, A., Smith, T., & Al-Shanawa, M. (2019). . BioNanoScience, 9 (2), 345-355.
Henly, E., Dowling, J., Maingay, J.B., Lacey, M., Smith, T., & Forbes, S. (2019). . Antimicrobial agents and chemothery.
Eyice, 脰., Myronova, N., Pol, A., Carri贸n, O., Todd, J.D., Smith, T., ... Sch盲fer, H. (2018). . The ISME journal, 1 (12), 145-160.
Abu-Ali, H.F., Nabok, A., Smith, T., & Al-Shanawa, M.A. (2018). . European Chemical Bulletin, 7 (10), 307-314.
Suleiman, R., Gittens, J., Khaled, M., Smith, T.J., Akid, R., El Ali, B., & Khalil, A. (2017). Assessing the Anticorrosion and Antifouling Performances of a Sol鈥揋el Coating Mixed with Corrosion Inhibitors and Immobilised Bacterial Endospores. Arabian Journal for Science and Engineering, 42 (10), 4327-4338.
Harrison, P., Harrison, T., Stockley, I., & Smith, T. (2017). The bone & joint journal, 99-B (9), 1153-1156.
Lock, M., Nichol, T., Murrell, J.C., & Smith, T. (2017). . FEMS microbiology letters, 364 (13), fnx137.
Eswayah, A., Smith, T., Scheinost, A., Hondow, N., & Gardiner, P. (2017). . Applied Microbiology and Biotechnology, 101 (17), 6713-6724.
Andrews, A.M., Haywood-Small, S., Smith, T., & Stafford, P. (2017). . Journal of Oral Microbiology, 9 (sup1), 1325245.
Frew, N.M., Cannon, T., Nichol, T., Smith, T., & Stockley, I. (2017). . The bone & joint journal, 98-B (1), 73-77.
Abu-Ali, H., Nabok, A., Smith, T., & Al-Shanawa, M. (2016). . Sensing and Bio-Sensing 香蕉视频, 13, 109-114.
Nichol, T., Smith, T., Townsend, R., Stockley, I., & Akid, R. (2016). . The Journal of antimicrobial chemotherapy, 72 (2), 410-416.
Eswayah, A., Smith, T., & Gardiner, P. (2016). . Applied and environmental microbiology, 82 (16), 4848-4859.
Cao, S.-.L., Yue, D.-.M., Li, X.-.H., Smith, T., Li, N., Zong, M.-.H., ... Lou, W.-.Y. (2016). . ACS Sustainable Chemistry and Engineering, 4 (6), 3586-3595.
Deng, X., Cao, S., Li, N., Wu, H., Smith, T., Zong, M., & Lou, W. (2016). . Chinese Journal of Catalysis, 37 (4), 584-595.
Salih, S., Paskins, A., Nichol, T., Smith, T., & Hamer, A. (2015). . The Bone & Joint Journal, 97-B (11), 1519-1524.
Eduok, U., Suleiman, R., Gittens, J., Khaled, M., Smith, T.J., Akid, R., ... Khalil, A. (2015). . RSC Advances, 5 (114), 93818-93830.
Nichol, T., Murrell, J.C., & Smith, T.J. (2015). . European Journal of Inorganic Chemistry, 2015 (21), 3419-3431.
Sigdel, S., Hui, G., Smith, T.J., Murrell, J.C., & Lee, J.-.K. (2015). . Bioorganic & Medicinal Chemistry Letters, 25 (7), 1611-1615.
Barker, S., Nichol, T., Harrison, P.L., Stockley, I., Townsend, R., & Smith, T.J. (2015). The Journal of antimicrobial chemotherapy, 70 (3), 780-783.
Al-Shanawa, M., Nabok, A., Hashim, A., Smith, T., & Forder, S. (2014). . BioNanoScience, 4 (2), 180-188.
Suleiman, R., Khaled, M., Wang, H., Smith, T.J., Gittens, J., Akid, R., ... Khalil, A. (2014). . Corrosion engineering science and technology, 49 (3), 189-196.
Hu, S., Smith, T.J., Lou, W., & Zong, M. (2014). Correction to Efficient Hydrolysis of Cellulose over a Novel Sucralose-Derived Solid Acid with Cellulose-Binding and Catalytic Sites. Journal of Agricultural and Food Chemistry, 62 (50), 12271.
Sow, S.L.S., Khoo, G., Chong, L.K., Smith, T.J., Harrison, P.L., & Ong, H.K.A. (2014). . World Journal of Microbiology and Biotechnology, 30 (10), 2645-2653.
Hu, S., Smith, T., Lou, W., & Zong, M. (2014). . Journal of Agricultural and Food Chemistry, 62 (8), 1905-1911.
Sow, S.L.S., Khoo, G., Chong, L.K., Smith, T.J., Harrison, P.L., & Ong, H.K.A. (2014). Molecular diversity of the ammonia-oxidizing bacteria community in disused tin-mining ponds located within Kampar, Perak, Malaysia. World journal of microbiology & biotechnology, 30 (2), 757-766.
Herrero-Hernandez, E., Smith, T., & Akid, R. (2013). . Biosensors and Bioelectronics, 39 (1), 194-198.
Gittens, J.E., Smith, T.J., Suleiman, R., & Akid, R. (2013). . Biotechnology Advances, 31 (8), 1738-1753.
Bansal, V., Hou, X.D., Liu, Q.P., Smith, T., Li, N., & Zong, M.H. (2013). . PLoS ONE, 8 (3), e59145.
Loh, J.Y., Ong, H.K.A., Hii, Y.S., Smith, T.J., Lock, M.M., & Khoo, G. (2013). Impact of potential food sources on the life table of the cladoceran, Moina macrocopa. Israeli Journal of Aquaculture - Bamidgeh, 65 (1).
Al-Shanawa, M., Nabok, A., Hashim, A., & Smith, T. (2013). . Sensors and Transducers, 149 (2), 179-186.
Chen, W.J., Lou, W.Y., Yu, C.Y., Wu, H., Zong, M.H., & Smith, T. (2012). . Journal of Biotechnology, 162 (2-3), 183-190.
Loh, J.Y., Ong, H.K.A., Yii, Y.S., Smith, T., Lock, M.W., & Khoo, G. (2012). . Israeli Journal of Aquaculture, 64, 637-645.
Hou, X.D., Smith, T., Li, N., & Zong, M.H. (2012). . Biotechnology and Bioengineering, 109 (10), 2484-2493.
Huang, C., Wu, H., Smith, T., Liu, Z., Lou, W.Y., & Zong, M. (2012). . Biotechnology Letters, 34 (9), 1637-1642.
Chen, X.-.H., Wang, X.-.T., Lou, W.-.Y., Li, Y., Wu, H., Zong, M.-.H., ... Chen, X.-.D. (2012). Immobilization of Acetobacter sp. CCTCC M209061 for efficient asymmetric reduction of ketones and biocatalyst recycling. Microbial cell factories, 11, 119.
Lou, W.-.Y., Guo, Q., Chen, W.-.J., Zong, M.-.H., Wu, H., & Smith, T. (2012). . ChemSusChem, 5 (8), 1533-1541.
Dodds, S., Smith, T.S., Akid, R., Stephenson, J., Nichol, T., Banerjee, R.D., ... Townsend, R. (2011). . Antimicrobial Agents and Chemotherapy, 56 (3), 1471-1475.
Chen, X.-.H., Lou, W.-.Y., Zong, M.H., & Smith, T.S. (2011). . BMC Biotechnology, 11, 110.
Akid, R., Wang, H., Gobara, M., Smith, T.J., & Gittens, J. (2011). Green coatings for industrial applications. Corrosion Management, (100), 11-14.
Smith, T.J., & Murrell, J.C. (2011). Mutagenesis of soluble methane monooxygenase. Methods in enzymology, 495, 135-147.
Al Hasin, A., Gurman, S.J., Murphy, L.M., Perry, A., Smith, T.J., & Gardiner, P.H.E. (2010). . Environmental science & technology, 44 (1), 400-405.
Jiang, H., Chen, Y., Jiang, P.X., Zhang, C., Smith, T.J., Murrell, J.C., & Xing, X.H. (2010). . Biochemical Engineering Journal, 49 (3), 277-288.
Li, N., Smith, T.J., & Zong, M.H. (2010). . Biotechnology Advances, 28 (3), 348-366.
Yang, R.-.L., Li, N., Li, R.-.F., Smith, T.J., & Zong, M.-.H. (2010). . Bioresource technology, 101 (1), 1-5.
Lou, W.-.Y., Wang, W., Smith, T.J., & Zong, M.-.H. (2009). . Green chemistry, 11 (9), 1377-1384.
Murrell, J.C., & Smith, T.J. (2009). . Microbial biotechnology, 2 (2), 142-143.
Lou, W.-.Y., Chen, L., Zhang, B.-.B., Smith, T.J., & Zong, M.-.H. (2009). . BMC biotechnology, 9 (90).
Zhou, Y., Taylor, B., Smith, T.J., Liu, Z.-.P., Clench, M., Davies, N.W., & Rainsford, K.D. (2009). . Journal of pharmacy and pharmacology, 61 (8), 1067-1077.
Akid, R., Wang, H., Smith, T.J., Greenfield, D., & Earthman, J.C. (2008). . Advanced functional materials, 18 (2), 203-211.
Zong, M.-.H., Duan, Z.-.Q., Lou, W.-.Y., Smith, T.J., & Wu, H. (2007). Preparation of a sugar catalyst and its use for highly efficient production of biodiesel. Green Chemistry, 9 (5), 434.
Borodina, E., Nichol, T., Dumont, M.G., Smith, T.J., & Murrell, J.C. (2007). . Applied and environmental microbiology, 73 (20), 6460-6467.
Perry, A., & Smith, T.J. (2006). . SLAS Discovery, 11 (5), 553-557.
Chongcharoen, R., Smith, T.J., Flint, K.P., & Dalton, H. (2005). Adaptation and acclimatization to formaldehyde in methylotrophs capable of high-concentration formaldehyde detoxification. Microbiology (Reading, England), 151 (Pt 8), 2615-2622.
Fosdike, W.L.J., Smith, T.J., & Dalton, H. (2005). Adventitious reactions of alkene monooxygenase reveal common reaction pathways and component interactions among bacterial hydrocarbon oxygenases. The FEBS journal, 272 (11), 2661-2669.
Adeosun, E.K., Smith, T.J., Hoberg, A.-.M., Velarde, G., Ford, R., & Dalton, H. (2004). Formaldehyde dehydrogenase preparations from Methylococcus capsulatus (Bath) comprise methanol dehydrogenase and methylene tetrahydromethanopterin dehydrogenase. Microbiology (Reading, England), 150 (Pt 3), 707-713.
Astier, Y., Balendra, S., Hill, H.A.O., Smith, T.J., & Dalton, H. (2003). Cofactor-independent oxygenation reactions catalyzed by soluble methane monooxygenase at the surface of a modified gold electrode. European journal of biochemistry, 270 (3), 539-544.
Smith, T.J., Slade, S.E., Burton, N.P., Murrell, J.C., & Dalton, H. (2002). . Applied and Environmental Microbiology, 68 (11), 5265-5273.
Callaghan, A.J., Smith, T.J., Slade, S.E., & Dalton, H. (2002). Residues near the N-terminus of protein B control autocatalytic proteolysis and the activity of soluble methane mono-oxygenase. European journal of biochemistry, 269 (7), 1835-1843.
Balendra, S., Lesieur, C., Smith, T.J., & Dalton, H. (2001). . Biochemistry, 41 (8), 2571-2579.
Smith, T.J., Blackman, S.A., & Foster, S.J. (2000). Autolysins of Bacillus subtilis: multiple enzymes with multiple functions. Microbiology (Reading, England), 146 ( Pt 2), 249-262.
Smith, T.J., Lloyd, J.S., Gallagher, S.C., Fosdike, W.L., Murrell, J.C., & Dalton, H. (1999). Heterologous expression of alkene monooxygenase from Rhodococcus rhodochrous B-276. European journal of biochemistry, 260 (2), 446-452.
Blackman, S.A., Smith, T.J., & Foster, S.J. (1998). The role of autolysins during vegetative growth of Bacillus subtilis 168. Microbiology (Reading, England), 144 ( Pt 1), 73-82.
Chen, C.C., Smith, T.J., Kapadia, G., W盲sch, S., Zawadzke, L.E., Coulson, A., & Herzberg, O. (1996). Structure and kinetics of the beta-lactamase mutants S70A and K73H from Staphylococcus aureus PC1. Biochemistry, 35 (38), 12251-12258.
Smith, T.J., Blackman, S.A., & Foster, S.J. (1996). Peptidoglycan hydrolases of Bacillus subtilis 168. Microbial drug resistance (Larchmont, N.Y.), 2 (1), 113-118.
Zawadzke, L.E., Smith, T.J., & Herzberg, O. (1995). An engineered Staphylococcus aureus PC1 beta-lactamase that hydrolyses third-generation cephalosporins. Protein engineering, 8 (12), 1275-1285.
Smith, T.J., & Foster, S.J. (1995). Characterization of the involvement of two compensatory autolysins in mother cell lysis during sporulation of Bacillus subtilis 168. Journal of bacteriology, 177 (13), 3855-3862.
Herzberg, O., Kapadia, G., Blanco, B., Smith, T.S., & Coulson, A. (1991). Structural basis for the inactivation of the P54 mutant of beta-lactamase from Staphylococcus aureus PC1. Biochemistry, 30 (39), 9503-9509.
Li, X.-.F., Lou, W.-.Y., Smith, T.J., Zong, M.-.H., Wu, H., & Wang, J.-.F. (n.d.). Efficient regioselective acylation of 1-尾-
Lou, W.-.Y., Zong, M.-.H., Smith, T.J., Wu, H., & Wang, J.-.F. (n.d.). Impact of ionic liquids on papain: an investigation of structure鈥揻unction relationships. Green Chem, 8 (6), 509-512.
Smith, T.J., & Foster, S.J. (n.d.). Autolysins during sporulation of Bacillus subtilis 168. FEMS Microbiology Letters, 157 (1), 141-147.
Conference papers
Abu-Ali, H., Nabok, A., Smith, T., & Al-Shanawa, M. (2017). . Procedia Technology, 27, 129-130.
Al-Ammar, R., Nabok, A., Hashim, A., & Smith, T. (2015). Microcystin-LR produced by bacterial algae: Optical detection and purification of contaminated substances. Sensors and Actuators B: Chemical, 209, 1070-1076.
Al-Ammar, R., Nabok, A., Hashim, A., & Smith, T. (2013). . Journal of Physics: Conference Series, 450 (1), 012006.
Al-Shanawa, M., Nabok, A., Hashim, A., Smith, T., & Forder, S. (2013). . Journal of Physics: Conference Series, 450 (1), 012025.
Gittens, J., Smith, T.J., Akid, R., Wang, H., & Greenfield, D. (2010). Biotic Sol-gel coating for the inhibition of marine corrosion and biofouling. Structural Engineer, 88 (21), 21-23.
Gittens, J.E., Wang, H., Smith, T.J., Akid, R., & Greenfield, D. (2009). . ECS transactions, 24 (1), 211-229.
Zhou, Y., Smith, T.J., & Rainsford, K.D. (2007). A novel component from celery seed with a bactericidal effect against Helicobacter pylori. ZOONOSES AND PUBLIC HEALTH, 54, 63.
Lou, W.-.Y., Zong, M.-.H., & Smith, T.J. (2006). Use of ionic liquids to improve whole-cell biocatalytic asymmetric reduction of acetyltrimethylsilane for efficient synthesis of enantiopure (S)-1-trimethylsilylethanol. Green Chemistry, 8 (2), 147.
Book chapters
Nichol, T., Murrell, J.C., & Smith, T.J. (2019). Biochemistry and Molecular Biology of Methane Monooxygenase. In Aerobic Utilization of Hydrocarbons, Oils, and Lipids. (pp. 99-115). Springer International Publishing:
Khmelenina, V.N., Colin Murrell, J., Smith, T.J., & Trotsenko, Y.A. (2019). Physiology and Biochemistry of the Aerobic Methanotrophs. In Aerobic Utilization of Hydrocarbons, Oils, and Lipids. (pp. 73-97). Springer International Publishing:
Smith, T.J., & Nichol, T. (2018). . In Kalyuzhnaya, M.G., & Xin-Hui, X. (Eds.) Methane biocatalysis: Paving the way to sustainability. (pp. 153-168). Springer International Publishing:
Jiang, H., Chen, Y., Murrell, J.C., Jiang, P., Zhang, C., Xing, X.-.H., & Smith, T.J. (2011). Methanotrophs. In Comprehensive Biotechnology. (pp. 249-262). Elsevier:
Murrell, J.C., & Smith, T.J. (2010). . In Timmis, K.N. (Ed.) Handbook of Hydrocarbon and Lipid Microbiology. (pp. 1045-1055). Springer:
Smith, T.J., Trotsenko, Y.A., & Murrell, J.C. (2010). . In Timmis, K.N. (Ed.) Handbook of Hydrocarbon and Lipid Microbiology. (pp. 765-779). Springer:
Smith, T.J., & Murrell, J.C. (2009). . In Schaechter, M. (Ed.) Encyclopedia of microbiology. (pp. 293-298). Elsevier:
Books
Smith, T.J., & Dalton, H. (2004). Chapter 6 Biocatalysis by methane monooxygenase and its implications for the petroleum industry. Elsevier.
Theses / Dissertations
Eswyah, A.S. (2018). . (Doctoral thesis). Supervised by Gardiner, P.
Codjoe, F.S. (2016). . (Doctoral thesis). Supervised by Miller, K., & Smith, T.
Al-Luaibi, Y.Y.Y. (2015). . (Doctoral thesis). Supervised by Smith, T., & Stanley, K.
Al-Shanawa, M. (2015). . (Doctoral thesis). Supervised by Nabok, A., Hashim, A., Smith, T., & Forder, S.
Challa, S. (2015). . (Doctoral thesis). Supervised by Smith, T.
Ismael, M.M. (2014). . (Doctoral thesis). Supervised by Smith, T., & Gardiner, P.
Bradshaw, C.E. (2013). . (Doctoral thesis). Supervised by Smith, T., & Stanley, K.
Omar, S.A.S. (2013). . (Doctoral thesis). Supervised by Clench, M., & Smith, T.
Nichol, T. (2011). . (Doctoral thesis). Supervised by Smith, T.
Kay, G.L. (2010). . (Doctoral thesis). Supervised by Smith, T., Stanley, K., & Mills, G.
Hamad, B.M.D. (2009). . (Doctoral thesis). Supervised by Gardiner, P., & Smith, T.
Zhou, Y. (2008). . (Doctoral thesis). Supervised by Rainsford, K., & Smith, T.
Gittens, J. (n.d.). corrosion. (Doctoral thesis). Supervised by Smith, T.
Postgraduate supervision
Hania Aween - Investigating the molecular basis of bioremediation by methane oxidising bacteria
Salaheldeen Enbaia - Bioremediation of heavy metal pollution using methane oxidising bacteria
Sophie Hutchinson - Investigation of plant products for the development of new antimicrobial drugs
Previous supervision:
Yasin Al-Luaibi - Molecular Genetics and Microbiology of Bioremediation using Methane-Oxidising Bacteria
Mariam Ismael - Bioremediation of Metals and Metalloids by Environmental Bacteria