What are the main parts of a mass spectrometer?
Ionizer
Mass Analyzer
Detector
What are isotopes used for?
Tracing and Labeling to study the movement of substances in systems
Radiometric Dating
Medical Diagnostics and Imaging
What is the standard bottom-up workflow for MS?
Protein extraction
Digestion of protein mixture
Peptide seperation
MS analysis
LC-MS
What is FDR and how to calculate it?
metric for global confidence assessment of a large-scale proteomics dataset.
FDR = (# Decoy Hits) / (# target hits)
How to use FDR with multiple experiments?
mulitple experiments -> errors accumulate, while correctly identified proteins stay the same
=> After combining, peptide-level and protein-level FDR filtering is necessary to maintain a desired FDR cutoff!
What error may happen when using database searching?
Which error do we want to avoid?
Type 1 - False positive (avoid this one)
Type 2 - False negative
How to perform a database search for mass spectrometry?
enter m/z values along with their relative abundance
How does a search engine work?
Calculate neutral peptide mass
Get all peptides which match this mass
Generate in-silico spectrum for all peptide candidates
Compare and score in-silico generated spectra against experimental spectrum
Select best peptide-spectrum-match
What is the basic concept of Tandem mass spectrometry?
Technique that use two or more mass analyzers in sequence => more detailed and specific information about molecules
Ionization
First Mass Analyzer (MS1)
Fragmentation
collision-induced dissociation (CID), electron capture dissociation (ECD), or infrared multiphoton dissociation (IRMPD)
Second Mass Analyzer (MS2)
How to calculate the peptide mass from a mass spectrometer graph?
mass of ion m = m/z value * charge state z
What is necessary for a basic mass spectrometer to work?
What is the job of the quadrupole
What is the difference between MS and MS/MS (tandem mass spectrometry)
What leads to peak convolution
Do multiply charged ions occur?
What can mass spectrometry be used for
What is an m/z value?
ratio of mass to charge
How can we tell the charge of a molecule in a mass spectrum?
isotope spacing
variation in the numbers of neutrons present in the atom
What is the reason for composite peak in mass spectrometry?
Molecules with same/similar mass produce a composite peak in low resolution
How can composite peaks be deconvoluted or avoided
Which questions can be addressed by Spectral similarity?
Are two spectra identical
Is the top spectrum contained in bottom one?
Is the bottom one contained in the top one?
How to compare spectra
peak = tupel (m/z & intensity) => spectrum = list of tupels
m/z of two spectra never the same -> use tolerance to align m/z
(Is one spectrum contained in another?)
Normalize: p2-norm - all vectors have the same length of 1
Similarity measurement: spectran angel, person correlation etc.
How to create decoys for Spectral library searching
for peptides:
use pre-identified spectra -> “move” annotated peaks arount, keep intensity and retention
for metabolite:
not as easy
List the computational problem in mass spectrometry when havin many proteins
Scalability: #proteins increase -> size and complexity increase -> more ressources
Ambiguity: proteins share peptide sequences -> difficult to assign unique protein ID
Combinatorial Complexity: complex mix of protein -> many possible combinations of peptides that explain given spectrum
Feauture Finding: Label-free quantification (LFQ)
Chromatography based -> LFQ intensity describes area under the peak
Feature Finding: in m/z + RT dimension
Feature: sum of all the MS signals caused by same analyte
Feature Finding: Finding set of features explaining much of signal as possible
Map: 2D-data set (RT, m/z) containing the MS signal from one LC MS run
Seeding -> peaks of high intensities
Extension -> add peaks arround the seeds
Modeling -> estimate parameters of a 2d-feature for the region
Refinement -> fit model to collected peaks, remove unmatching ones
Iterate until convergence
Feature Finding: other methods
Local Maxima/Minima -> peaks and bottoms
Fitting methods -> try to fit expected shape
convolution
What is the problem with Retention Time in Feature Finding
retention time of the same analyte will fluctuate across machines (slightly
different LCs) and over time
Use 2 analytes , one eluting rather early, the other rather late in the gradient
(LC), in praxis a known peptide is used
Dynamic time warping
measure similarity of two time series
calculate distance between two points (e.g. euclidean distance)
Bidirectional best hits
Identifying pairs of genes in two different genomes which are more similar to each other than either is to any other
-> used for matching peaks
can be used with dynamic time warping
How can you separate peptides with the same mass but different sequences/structure?
RetentionTime will differ
What is a Orbitrap?
mass analyser and detector in one
high resolution at low m/z
low resolution at high m/z
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