Lecture 1 - Introduction to soft ionisation mass spectrometry: ESI-MS and MALDI-MS
Lecture 2 - Isotopic distribution of signals in mass spectra and deconvolution of mass spectra
Lecture 3 - Resolution of mass spectra, accuracy in mass measurement and introduction of molecular medicine
Lecture 4 - Mass spectra of human hemoglobin and glycated hemoglobin, a diagnostic marker of diabetes mellitus and glutathionyl hemoglobin, a marker of oxidative stress
Lecture 5 - Mass spectrometry based quantification of oxidative stress in patients with chronic renal failure
Lecture 6 - Introduction to tandem mass spectrometry and principle of de novo sequencing
Lecture 7 - Chemical modification and enzyme digestion of a peptide: A step towards de novo sequencing
Lecture 8 - De novo sequencing of a peptide from chemical derivatization and tandem mass spectra
Lecture 9 - De novo sequencing: Identification of isobaric amino acid and disulfide connectivity
Lecture 10 - De novo sequencing of a tryptic peptide from tandem mass spectra
Lecture 11 - De novo sequencing from tandem-MS and SPITC derivatization to simplify tandem-MS
Lecture 12 - Routine diagnosis of Hemoglobinopathy: A disease caused by genetic variant of hemoglobin
Lecture 13 - Hemoglobinopathies: Identification and characterisation using bottom up proteomics approach - Part 1
Lecture 14 - Hemoglobinopathies: Identification and characterisation using bottom up proteomics approach - Part 2
Lecture 15 - A genetic variant of hemoglobin causing false elevation of HbA1c and hence false diagnosis of diabetes mellitus
Lecture 16 - Nano-LC-ESI-MS based analysis of a proteome - A bottom up proteomics approach
Lecture 17 - Iron salts as food fortificants to combat Iron Deficiency Anemia
Lecture 18 - Nano ferric pyrophosphate as a food fortificant in a rat model: Bioavailability and toxicity assessment
Lecture 19 - Nano ferric pyrophosphate as a food fortificant in a rat model: Toxicity assessment using biochemical, histopathological and proteomics approach
Lecture 20 - Nano ferric pyrophosphate as a food fortificant in a rat model: Exploring biomarker of nano particle induced toxicity in rat plasma
Lecture 21 - Biomarker of nano particles induced toxicity in a rat model: NanoLC-ESI-MS based plasma proteomics approach
Lecture 22 - Quantitative proteomics of rat plasma proteins: Absolute quantification of Fetuin B, a biomarker of nano particle toxicity
Lecture 23 - 2D gel electrophoresis based proteomics: principles and methods
Lecture 24 - Differential plasma proteomics: 2D gel electrophoresis based approach
Lecture 25 - Analysis of 2D gel spots followed by in-gel digestion to identify proteins usng MALDI-MS platform
Lecture 26 - Mass spectrometry based absolute quantification of human plasma proteins
Lecture 27 - Absolute quantification of plasma Apolipoprotein-AIV: A probale biomarker of attempted suicide
Lecture 28 - MALDI-MS based identification of microorganism in clinical samples
Lecture 29 - Native mass spectrometry using nano-ESI-MS platform
Lecture 30 - Analysis of an array of glycated hemoglobin in patients with poorly controlled diabetes mellitus
Lecture 31 - Molecular mechanism of sickle hemoglobin polymerisation
Lecture 32 - Inhibition of sickle hemoglobin polymerisation upon glutathionylation
Lecture 33 - Structural analysis of desorbed hemoglobin from nano particle surface
Lecture 34 - Functional assay of human hemoglobin and its variants
Lecture 35 - Application of native mas spectrometry to calculate equilibrium constant
Lecture 36 - Bioconjugation of para-benzoquinone of cigarette smoke with human hemoglobin
Lecture 37 - Bioconjugation of human hemoglobin with quinone as airborne enviroment pollutants
Lecture 38 - Ion mobility mass spectrometry
Lecture 39 - Introduction to hydrogen-deuterium-exchange mass spectrometry
Lecture 40 - Rate law of hydrogen-deuterium-exchange kinetics
Lecture 41 - Molecular insights in inhibition of HbS polymerisation upon oxygenation monitored by HDX-MS platform - Part I
Lecture 42 - Molecular insights in inhibition of HbS polymerisation upon oxygenation monitored by HDX-MS platform - Part II
Lecture 43 - Molecular insights in inhibition of HbS polymerisation upon oxygenation - Part III - and upon glutathionylation - Part I -monitored by HDX-MS platform
Lecture 44 - Molecular insights in inhibition of HbS polymerisation upon glutathionylation - Part II
Lecture 45 - N-acetyl cysteine as an antisickling agent in sickle cell disease
Lecture 46 - Effect of quinones on morphology of human RBC
Lecture 47 - Effect-of-NAC-to neturalise-quinone-and-in-vivo-HDX with human RBCs as a model system
Lecture 48 - Application of HDX-MS in structural analysis of human hemoglobin in vivo
Lecture 49 - Application of HDX-MS in structural analysis of hemoglobin in vivo-and-desorbed-hemoglobin from nano particle-surface
Lecture 50 - Application-of-HDX-MS-and -CD-spectroscopy-to-monitor-structural changes-of human hemoglobin from nano particle surface
Lecture 51 - Structure-function correlation of Hb Beckman, a genetic variant of human hemoglobin, using HDX-MS
Lecture 52 - Structure-function correlation of glutathionyl hemoglobin, a posttranslational variant of human hemoglobin, using HDX-MS
Lecture 53 - Imaging mass spectromery of biological tissue samples using MALDI mass spectrometry platform
Lecture 54 - Kidney tissue imaging in a nano particle exposed rat model
Lecture 55 - Imaging of kidney tissues of NP exposed rats and imaging of human prostate tissue
Lecture 56 - Imaging of human prostate cancer tissue using MALDI-MS
Lecture 57 - Imaging of human prostate cancer tissue using MALDI-MS and analysis of tissue proteomics data
Lecture 58 - Desorption Electrospary Ionisation based Mass Spectrometric Imaging of Prostate Cancer Tissue
Lecture 59 - Fast photochemical oxidation of protein combined to mass spectrometry for prtein footprinting both in vitro and in vivo
Lecture 60 - Biosimilar-monitored through mass spectrometric techniques
