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Welcome!
Mass Spectrometry meets ChemInformaticsTobias Kind and Julie Leary
UC Davis
Course 3: Mass spectral and moleculardatabase search
Class website: CHE 241 - Spring 2008 - CRN 16583Slides: http://fiehnlab.ucdavis.edu/staff/kind/Teaching/PPT is hyperlinked – please change to Slide Show Mode
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Molecules and mass spectra
Close relationship between molecular structure and mass spectra
Molecular structure is reflected in mass spectral features (peaks, peak heights and peak combinations)
Mass spectra reflect a state of gas phase ion physics and chemistry(rearrangements, fragmentations, bond cleavages)
(mainlib) tert-Butylaminotrimethylsilane20 40 60 80 100 120 140 160
0
50
100
2945 58
73
84 100114
130
145
SiNH
(mainlib) N,N-Diethyl-1,1,1-trimethylsilylamine20 40 60 80 100 120 140 160
0
50
100
2945
59
73
86 100 114
130
145
Si N
(replib) Silanamine, N,1,1,1-tetramethyl-N-[1-methyl-2-phenyl-2-[(t20 40 60 80 100 120 140 160
0
50
100
4659
73
91 105
130
147160
O
N
Si
Si
Electron impact (70 eV) mass spectra; Source: NIST05
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Molecules and mass spectra
Similar structures may or may have not similar mass spectra
S ilanamine, N,1,1,1-tetramethyl-N-[1-methyl-2-phenyl-2-[(trimethyls ilyl)oxy] N-Methylphenylethanolamine, bis (trimethyls i lyl)-40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 290 300 310 320
0
50
100
50
100
44
47 59
5965
73
73
91
91 102
105 114
116
130
132
147
147
163
163179
179
188 204206
220
280
294
O
N
S i
S i
O
N
S i
S i
Electron impact (70 eV) mass spectra; Source: NIST05; Created using structure similarity search in NIST MS Search program
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Molecules and mass spectra
Similar mass spectra may or may have not similar structures
1-T etradecene Cyclotetradecane10 20 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210
0
50
100
50
100
15
27
27
29
29
32
41
4355
55
65
69
70 83
83
97
97
111
111
125
125139
140
153
154 168
168
196
196
Electron impact (70 eV) mass spectra; Source: NIST05; Created using spectral similarity search in NIST MS Search program
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Mass spectral databases I
Name Spectra count TypeNIST05 200,000 electron impact spectra (EI 70 eV)Wiley 8 400,000 electron impact spectra (EI 70 eV)Palisade 600K 600,000 electron impact spectra (EI 70 eV)
NIST MS/MS 5,200 MS/MS (ESI, +/-, 30-100V CID)MassFrontier 7,000 MSn, ESI, (Spectral Tree Library )
Important is data qualityAnnotation with CAS and Structure and FormulaLink to literature or publication usefulCurrently no large ESI,APPI,APCI libraries available (free or commercial)
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Mass spectral databases II
Smaller specialized librariesPfleger Maurer Weber (Drugs) MS+RI, 70eVMassFinder (Volatiles) MS+RI, 70eVRIZA DB (Toxicants) MS+RI, 70eVGolm DB (primary Metabolites) MS+RI, 70eVFiehnlib (primary Metabolites) MS+RI, 70eVMassBank (Metabolites) ESI, MSn , accurate massesAAFS (Drugs, Forensic,Toxicology), MS+RI, 70eVChemicalSoft (Drugs), MS/MS, MSE
_____________________________________________________________
In case of electron impact (EI) same GC-Column (DB-5, RTX-5, DB-1, OV-1)and temperature program must be used for matching retention indices
In case of ESI, APPI spectra (LC-MS) same mass spectrometer design and setup should be used (triple-quad, ion-trap, TOF, Q-TOF), collision energy
(riza_web) |R I|2583|K E Y|1596|CAS |2385-85-5|F R ML |E mpty|CMP D|Mirex230 250 270 290 310 330 350 370 390 410 430 450
0
50
100
237
272
332404
Cl
Cl
Cl
Cl
Cl
Cl
Cl
Cl
Cl
Cl Cl
Cl
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Mass spectral search algorithms
PBM - Probability Based Matching (McLafferty & Stauffer) – since 1976Dot Product (Finnigan/INCOS) – since 1978Weighted Dot Product (Stein) – since 1993Mass Spectral Tree Search (Mistrik) – since 21st century
Source: Stein S.E. see notes
Au and Ar: are the abundances of peaks in the user and reference mass spectram: m/z values w: weighting term
Weighted Dot Product:
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NISTMS mass spectral search
The NIST MS Search program is the “gold standard” for EI spectral searchUsed for all types of unit resolution spectra MS/MS, APCI, ESI-MS spectra
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NIST MS Search program 2.0
Search everything:A) Library Search: Reverse, Normal, Similarity, Neutral LossB) Structure Similarity Search: find molecules similar to C) Formula Search: find C11H13N3O3SD) Constrained peak search: find peaks with m/z 122 and 188 and 266E) Name search: find Stuntman (maleic hydrazide)
Search Connections:Import/Export molecular structures: (msp, hpj, sdf)Interpret Structures (MSInterpreter.exe)Find substructures (expert algorithm)Import spectra from other programs (AMDIS, Chemstation, ChromaTOF)
(mainlib) Maleic hydrazide10 30 50 70 90 110
0
50
100
12
2641
55
68
82
92
112
NH
O
NH
O
[Download] – freely available (NIST05 MS Library is licensed ~ $1200)
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Mass Spectral Trees in Mass Frontier
MassFrontier searches MSn and CID mass spectraSource: MassFrontier Helpfile
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Mass Frontier MS search
MS Tree
Hitlits
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Mass spectral search
Library search is always the first step during the identification process.Usually library search is not enough to assign unique isomer structures.
Mass spectra must be clean and background free before search.For LC-MS and GC-MS this requires peak picking and deconvolution.
Additional orthogonal information has to be used:
• restriction of compound space to certain species or material• use of isotope pattern information• use of retention index if derived from GC-MS data• use of retention – logp or logD correlations in case of LC-MS• additional fragmentation at different voltages (MSE)
Only certain mass spectra can be in-silico predicted (calculated)(peptides, lipids, carbohydrates) – this is not the rule for other molecules
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MALDI MS based proteomics
Clinical Science Clinical Science www.clinsci.orgwww.clinsci.org ClinClin. . SciSci. (2005) 108, 369. (2005) 108, 369--383 383
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LC-MS based proteomics approach
Source: Paul Rudnick / NIST
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Picture Source: Paul Rudnick / NIST
Proteomics data analysis (pipeline)
General approaches A) database search (Sequest, Mascot, OMSSA)B) de-novo sequencing (Peaks, Lutefisk, Pepnovo)C) hybrid methods (GutenTag, Popitam, Inspect)
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OMSSA- Open mass spectrometry search algorithm
Source: OMSSA (NCBI)
• submit spectra to MS/MS search• in-silico digestion of proteins• matching of experimental vs. calculated MSn
• hit score computation• inspection and review of results
Download OMSSA
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Mass spectral search of peptides (new)
Source: Paul Rudnick / NISTSee also ProMEX (MPIMP Golm)
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Conversion of mass spectral libraries
Usually a hassle. Keep a copy of libraries always in non-proprietary format.Request export functions or converters from your mass spec producer.
XCalibur LibraryManager.exe
Thermo Electron Fisher Finnigan MAT ICIS/GCQ/ITS 40 (*.lib, *.lbr)AutoMass (*.spr, *.prs, *.nam, *.hdr, *.fsf, *.cfs)MassLab (*.idb) to NIST and vice versa
NIST LIB2NIST.exe [LINK]
Spectral files *.msd, *.hpj, *.sdfHP LIB (*.LIB), NIST LIB, JCAMP-DX, (*.jdx *.hpj)
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How to search molecules
Exact search Substructure search Similarity search
NN
L[O,Cl]
Ligand search
R-group/Markush search
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NIST MS DB has structure similarity search
Good for comparing mass spectra of similar compounds (may have similar mass spectra)
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Searching Molecules on PubChem
Goto PubChem Structure Search
18 million compound DB (++)
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CAS SciFinder• 33 million molecules and 60 million peptides/proteins• largest reaction DB (14 million reactions) and literature DB• substructure and similarity search of structures• a must for chemists and biochemists/biologists• no bulk download, no good Import/ Export, no Link outs
Download Scifinder
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Structure search in SciFinder
Retrieved 4000 papers
(refine search only MS and MALDI)
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How scientist publish mass spectra (*)
OCR – optical character recognitionDB – database(*) – and structures and other spectral data
PDFPDF
AB
Scientist ARuns MS
Publication on paperas bitmap graphic
OCR DB Curation DB Creation Sell DBScientist BNeeds DB
A BDB
Better:
Central and Open RepositoryElectronic Publishing in XML
Computerized Free or Paid Curation
Today:
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DB
Open data repository for mass spectra
Submit spectra before publication (ticket system) No loss of information (high resolution spectra)No truncated data (report five peaks only)No hamburger to cow algorithm needed (OCR)Fast and instant use with no restrictionsNew synergism for data interpretation Can still cost money (curation)Works in genomic sciences (GenBank)Commercial use may be possible Central and Open
Repository
… checkout the BlueObelisk
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The Last Page - What is important to remember
There are different search types for mass spectral datasimilarity search, reverse search, neutral loss search, MS/MS search
There are large libraries for electron impact spectra (EI) from GC-MSThere are no large open/commercial libraries for spectra from LC-MS
For creation of mass spectral libraries a holistic approach is importantMass spectral trees can give further information (MSE or MSn)
There are different types of searching structuresExact search, similarity search, substructure search
Before you start a research project, create target lists of possible candidatesCollect mass spectra or structures in libraries with references
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Reading list (20 min)
Additional reading list for very diligent and interested pupils (30 min) (*)
An MS/MS Library on an Ion-Trap Instrument for Efficient Dereplication of Natural Products.Different Fragmentation Patterns for [M + H]+ and [M + Na]+ Ions
The History of the NIST/EPA/NIH Mass Spectral Database
(WO2006040622) DETERMINATION OF MOLECULAR STRUCTURES USING TANDEM MASS SPECTROMETRY [Link] [PDF]
Chemical derivatization and mass spectral libraries in metabolic profiling by GC/MS and LC/MS/MS
The critical evaluation of a comprehensive mass spectral library
Development and validation of a spectral library searching method for peptide identification from MS/MS
(*) Edison: “Two per cent is genius and 98 per cent is hard work”“Bah. Genius is not inspired. Inspiration is perspiration” [SOURCE]
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Tasks (7 min):Should be solved and may be graded
1) Goto PubChem [LINK] or Chemspider [LINK] and perform the 3 different structure searches using benzene; report on the number of results(use the sketch function to draw benzene (6 ring with 3 aromatic bonds))
2) Download NIST MS Search [LINK] and perform the 3 different mass spectral searches on cocaine (download JAMP-DX from NIST [link])
3) Use Instant-JChem [LINK] from last course session and create a local demo database with PubChem data.Perform 3 different structure searches with benzene by double-clickingon the structure search field. Report number of results.
Additional task for proteomics candidates:4) Download the NIST peptide search [LINK] and perform a search on the given examples
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Link Listhttp://www.google.com/search?hl=en&q=rearrangements%2C+fragmentations%2C+bond+cleavage&btnG=Search
High-resolution mass spectral database http://www.massbank.jp/
http://www.google.com/search?hl=en&q=mistrik+highchem&btnG=Search
http://www.google.com/search?hl=en&q=stein+se+peptide+search&btnG=Search
http://fields.scripps.edu/sequest/
http://books.google.com/books?lr=&as_brr=0&q=EDISON+Genius+++inspiration+++perspiration+++date%3A1800-1898&btnG=Search+Books
http://allured.stores.yahoo.net/idofesoilbyg.html (fragrances, terpenoid mass spectra SE-52 column + RIs)
http://kanaya.naist.jp/DrDMASS/DrDMASSInstruction.pdf
http://www.google.com/search?q=mass+spectral+libraries+NIST05&hl=en&start=10&sa=N
http://books.google.com/books?id=7IUVi06u0TQC&pg=PA114&lpg=PA114&dq=cid+mass+spectra
http://www.google.com/search?hl=en&q=cid+mass+spectra+library+pbm+dot+product&btnG=Google+Search
http://www.google.com/search?hl=en&q=%22similarity+search%22+Substructure+search%22+%22exact+search%22&btnG=Search
http://mmass.biographics.cz/
http://pubchem.ncbi.nlm.nih.gov/omssa/browser_help.htm#RunOMSSASearchLocalDialog
http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1906842
http://www.google.com/search?hl=en&q=proteomics+sequest+mascot++mudpit+OMSSA&btnG=Search
http://www.google.com/search?hl=en&q=de+novo+sequencing+peaks+sequit+lutefisk&btnG=Search