SIMIN  MALEKNIA

Publications 

 Updates on ResearchGate & Academia 

 

Book Chapters

• Maleknia SD. (2012) Mass Spectrometry’s Role in Studies of Volatile Organic Pollutants, in Comprehensive Environmental Mass Spectrometry, editor, Lebedev AT, ILM Publications, Hertfordshire, UK, pp. 239 – 261.
• Maleknia, SD, Johnson R. (2012) Mass Spectrometry of Amino Acids and Proteins, in Hughes AB (ed.), Amino Acids, Peptides and Proteins in Organic Chemistry, 5, 1-50.
• Maleknia SD, Downard KM. (2007) Genesis and Application of Radical Probe Mass Spectrometry (RP-MS) to Study Protein Interactions, in Downard KM (ed.), Mass Spectrometry of Protein Interactions, ch6, 109-133.

 

Selected journal articles

Biological Sciences

• Downard KM, Maleknia SD, (2019) Mass spectrometry in structural proteomics: the case for radical probe footprinting, Trends in Analytical Chemistry, 110:293-302.
• Maleknia SD, Downard, KM. (2014) Advances in radical probe mass spectrometry for protein footprinting in chemical biology applications, Chemical Society Reviews, 43:3244-3258.
• Maleknia SD, Downard KM. (2016) New anthocyanins from black elderberry of inhibitory potential revealed by mass spectrometry, Natural Products Journal, 6:94 – 102.
• Downard KM, Maleknia SD, Akashi S. (2012) Impact of limited oxidation on protein ion mobility and structure of importance to footprinting by radical probe mass spectrometry, Rapid Communications in Mass Spectrometry, 26: 226-230.
• Brennan MR, Costello CE, Maleknia SD, Pettit GR, Erickson KL (2008) Stylopeptide 2, a Proline-Rich Cyclodecapeptide from the Sponge Stylotella sp. J. Nat. Prod. 71(3):453-456.

 

Environmental Sciences

• Maleknia SD, Berger J, Odermatt J, (2016) Identification of Volatile Organic Compounds of Solid Waste by Pyrolysis GC/MS for Environmental Impact and Green Manufacturing, Air Quality and Climate Change, 50:22 – 25.
• Emmerson KM, Galbally IE, Guenther AB, Paton-Walsh C, Guerette EA, Cope ME, Keywood MD, Lawson SJ, Molloy SB, Dunne E, Thatcher M, Karl T, Maleknia SD. (2016) Current estimates of biogenic emissions from Eucalypts uncertain for Southeast Australia, Atmospheric Chemistry and Physics, 16:6997-7011.
• Musah RA; Espinoza EO; Cody RB; Ashton D. Lesiak AD; Christensen ED; Moore HE; Maleknia SD, Drijfhout FP, (2015) A high throughput ambient mass spectrometric approach to species identification and classification from chemical fingerprint signatures, Nature Scientific Reports, vol. 5, Article number 11520.
• Maleknia SD, Parcsi G, Stuetz R, (2014) Analysis of volatile organic compounds from building materials for indoor air quality assessment, Air Quality and Climate Change Journal, 48(2):13 – 16.
• Maleknia SD. (2014) Environmental effects of wildfire emissions associated with changing climates, Air Quality and Climate Change Journal, 48(1):33 – 36.
• Maleknia SD, Vail TM, Cody RB, Sparkman DO, Bell TL, Adams MA (2009) Temperature Dependent Release of Volatile Organic Compounds of Eucalypts by Direct Analysis in Real Time (DART) Mass Spectrometry, Rapid Commun. Mass Spectrom. 23:2241-2246.
• Maleknia SD, Bell TL, Adams MA, (2009) Eucalypt Smoke and Wildfires: Temperature Dependent Emissions of Biogenic Volatile Organic Compounds, Intl. J. Mass Spectrom. 279:126-133.
• Maleknia SD, Adams MA (2008) Impact of Volatile Organic Compounds from Wildfires on Crop Production and Quality. Aspect. Appl. Biol. 88: 93-97.

 

Algorithms

• Maleknia SD, Green DC. (2010) eCRAM Computer Algorithm for Implementation of the Charge Ratio Analysis Method to Deconvolute Electrospray Ionization Mass Spectra, Intl. J. Mass Spectrom. 290:1-8.
• Maleknia SD, Downard KM. (2005) Charge Ratio Analysis Method to Interpret Electrospray FTICR Mass Spectra, Intl. J. Mass Spectrom. 246: 1-9.
• Maleknia SD, Downard KM (2005) Charge Ratio Analysis Method: Approach for the Deconvolution of Electrospray Mass Spectra, Anal. Chem. 77: 111-119.

For articles or information, please email to contact @ siminmaleknia.com