Dr Cho Zin Soe

Postdoctoral Research Associate
School of Medical Sciences (Pharmacology)
Bosch Institute

Telephone 90366498

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Selected publications

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Journals

  • Soe, C., Pakchung, A., Codd, R. (2014). Dinuclear [(VVO(putrebactin))2(m-OCH3)2] formed in solution as established from LC-MS measurements using 50V-enriched V2O5. Inorganic Chemistry, 53(11), 5852-5861. [More Information]
  • Soe, C., Codd, R. (2014). Unsaturated Macrocyclic Dihydroxamic Acid Siderophores Produced by Shewanella putrefaciens Using Precursor-Directed Biosynthesis. ACS Chemical Biology, 9(4), 945-956. [More Information]
  • Ejje, N., Soe, C., Gu, J., Codd, R. (2013). The variable hydroxamic acid siderophore metabolome of the marine actinomycete Salinispora tropica CNB-440. Metallomics, 5(11), 1519. [More Information]
  • Soe, C., Pakchung, A., Codd, R. (2012). Directing the Biosynthesis of Putrebactin or Desferrioxamine B in Shewanella putrefaciens through the Upstream Inhibition of Ornithine Decarboxylase. Chemistry and Biodiversity, 9(9), 1880-1890. [More Information]
  • Hare, N., Soe, C., Rose, B., Harbour, C., Codd, R., Manos, J., Cordwell, S. (2012). Proteomics of Pseudomonas aeruginosa Australian Epidemic Strain 1 (AES-1) Cultured under Conditions Mimicking the Cystic Fibrosis Lung Reveals Increased Iron Acquisition via the Siderophore Pyochelin. Journal of Proteome Research, 11(2), 776-795. [More Information]
  • Pakchung, A., Soe, C., Codd, R. (2011). Complexes Formed in Solution Between Vanadium (IV)/(V) and the Cyclic Dihydroxamic Acid Putrebactin or Linear Suberodihydroxamic Acid. Inorganic Chemistry, 50(13), 5978-5989. [More Information]
  • Codd, R., Braich, N., Liu, J., Soe, C., Pakchung, A. (2009). Zn(II)-dependent histone deacetylase inhibitors: Suberoylanilide hydroxamic acid and trichostatin A. The International Journal of Biochemistry and Cell Biology, 41(4), 736-739. [More Information]
  • Pakchung, A., Soe, C., Codd, R. (2008). Studies of iron-uptake mechanisms in two bacterial species of the Shewanella Genus adapted to middle-range (Shewanella putrefaciens) or Antarctic (Shewanella gelidimarina) temperatures. Chemistry and Biodiversity, 5(10), 2113-2123. [More Information]

2014

  • Soe, C., Pakchung, A., Codd, R. (2014). Dinuclear [(VVO(putrebactin))2(m-OCH3)2] formed in solution as established from LC-MS measurements using 50V-enriched V2O5. Inorganic Chemistry, 53(11), 5852-5861. [More Information]
  • Soe, C., Codd, R. (2014). Unsaturated Macrocyclic Dihydroxamic Acid Siderophores Produced by Shewanella putrefaciens Using Precursor-Directed Biosynthesis. ACS Chemical Biology, 9(4), 945-956. [More Information]

2013

  • Ejje, N., Soe, C., Gu, J., Codd, R. (2013). The variable hydroxamic acid siderophore metabolome of the marine actinomycete Salinispora tropica CNB-440. Metallomics, 5(11), 1519. [More Information]

2012

  • Soe, C., Pakchung, A., Codd, R. (2012). Directing the Biosynthesis of Putrebactin or Desferrioxamine B in Shewanella putrefaciens through the Upstream Inhibition of Ornithine Decarboxylase. Chemistry and Biodiversity, 9(9), 1880-1890. [More Information]
  • Hare, N., Soe, C., Rose, B., Harbour, C., Codd, R., Manos, J., Cordwell, S. (2012). Proteomics of Pseudomonas aeruginosa Australian Epidemic Strain 1 (AES-1) Cultured under Conditions Mimicking the Cystic Fibrosis Lung Reveals Increased Iron Acquisition via the Siderophore Pyochelin. Journal of Proteome Research, 11(2), 776-795. [More Information]

2011

  • Pakchung, A., Soe, C., Codd, R. (2011). Complexes Formed in Solution Between Vanadium (IV)/(V) and the Cyclic Dihydroxamic Acid Putrebactin or Linear Suberodihydroxamic Acid. Inorganic Chemistry, 50(13), 5978-5989. [More Information]

2009

  • Codd, R., Braich, N., Liu, J., Soe, C., Pakchung, A. (2009). Zn(II)-dependent histone deacetylase inhibitors: Suberoylanilide hydroxamic acid and trichostatin A. The International Journal of Biochemistry and Cell Biology, 41(4), 736-739. [More Information]

2008

  • Pakchung, A., Soe, C., Codd, R. (2008). Studies of iron-uptake mechanisms in two bacterial species of the Shewanella Genus adapted to middle-range (Shewanella putrefaciens) or Antarctic (Shewanella gelidimarina) temperatures. Chemistry and Biodiversity, 5(10), 2113-2123. [More Information]

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