Analysis of protein ions in the range 3000–12000 Th under partial (no discharge) atmospheric pressure chemical ionization conditions using ion trap mass spectrometry

Cristoni, Simone; Bernardi, L.; Biunno, Ida; Guidugli, Federico

doi:10.1002/rcm.693

Cited by 25 publications

(42 citation statements)

References 36 publications

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“…It must be emphasized that, in these conditions and in the case of proteins, the formation of doubly charged species is privileged and, considering their usefulness in further MS/MS studies (Cramer & Corless, 2001), the observed phenomenon was considered of high interest. Figure 13A,B (Cristoni et al, 2002b) shows the spectra of horse cytochrome c and horse myoglobin, obtained with that technique; in the case of horse cytochrome c, [MþH] ions were observed with good Signal/Noise ratios. The counts per second value of the most abundant signal was 2 Â 10 6 for horse cytochrome c and 5 Â 10 5 for horse myoglobin.…”

Section: Apci Without Corona Dischargementioning

confidence: 99%

“…TEA is used, as described in the ''Deprotonant Agents,'' in order to reduce the protein charge state. Figure 14A,B (Cristoni et al, 2002b) show the spectra obtained; the C-series corresponds to the m/z ions of horse cytochrome c, and the M-series correspond to the ions of horse myoglobin. Figure 14A shows the spectrum of the protein mixture acquired in the positive-ion mode in the m/z 3000-12,000 range without using TEA.…”

Section: Apci Without Corona Dischargementioning

confidence: 99%

“…Figure 14B (Cristoni et al, 2002b) shows the spectrum obtained with the proposed approach and adding 1%(v/v) TEA to the protein mixture solution; the multicharged signals due to horse cytochrome c and horse myoglobin are both clearly detected when acquiring the spectrum in the negative-acquisition mode.…”

Section: Analysis Of Macromoleculesmentioning

confidence: 99%

“…The method was also applied in the analysis of peptides obtained by enzymatic digestion of horse cytochrome c and horse myoglobin. The spectra of a mixture of the three standard peptides obtained by ESI and no-discharge APCI are shown in Figure 15A,B, respectively, (Cristoni et al, 2002b); in the case of ESI spectra [MþH] [MþH] þ ion is present. Good signal intensity was achieved (counts per seconds of the most abundant signals was 1 Â 10 6 ).…”

Section: Analysis Of Macromoleculesmentioning

confidence: 99%

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Development of new methodologies for the mass spectrometry study of bioorganic macromolecules

Cristoni

Bernardi

2003

Mass Spectrometry Reviews

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I. Introduction 370 II. Techniques That Are Usually Employed in the Study of Bioorganic Macromolecules 371 A. Proteins and Peptides 371 B. Oligonucleotides 374 C. Oligosaccharides and Glycoconjugates 375 D. Various Complexes (DNA–Protein, Antigen–Antibody, Macromolecules–Metals) 377 III. Common Problems and Developments in the Analysis of Bioorganic Macromolecules by Mass Spectrometry 377 A. Ionization Source Problems and Developments 377 1. Sensitivity 377 2. Problems with Buffers 379 3. Multicharge Effect 381 B. Mass Analyzer Problems and Developments 381 1. Linear Dynamic Range 381 2. Tandem Mass Spectrometry 382 3. Sensitivity 382 4. Resolution 383 5. Mass Accuracy 383 IV. New Promising Technologies 384 A. Interfaces and Ionization Sources 384 1. Improvements in the Coupling of Liquid‐Phase Separation Systems to Mass Spectrometry 384 2. AP‐MALDI 384 3. Deprotonant Agents 385 4. Sonic Spray Ionization 388 5. APCI without Corona Discharge 391 B. Mass Analyzers 393 1. Linear Quadrupole Ion Trap 394 2. TOF Analyzers with New Detectors 395 3. Multiple Mass Analyzers 396 V. Software for Data Treatment 397 VI. Conclusions and Future Developments 399 Acknowledgments 400 References 400 In recent years, mass spectrometry has been increasingly used for the analysis of various macromolecules of biological, biomedical, and biochemical interest. This increase has been made possible by two key developments: the advent of electrospray ionization (ESI) and matrix‐assisted laser desorption ionization (MALDI) sources. The two new techniques produce a significant increase in mass range and in sensitivity that led to the development of new applications and of new analyzer designs, software, and robotics. This review, apart from the description of the status of mass spectrometry in the analysis of bioorganic macromolecules, is mainly devoted to the illustration of the more recent promising techniques and on their possible future evolution. © 2003 Wiley Periodicals, Inc., Mass Spec Rev 22:369–406, 2003; Published online in Wiley InterScience (www.interscience.wiley.com). DOI 10.1002/mas.10062

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Section: Apci Without Corona Dischargementioning

confidence: 99%

Section: Apci Without Corona Dischargementioning

confidence: 99%

Section: Analysis Of Macromoleculesmentioning

confidence: 99%

Section: Analysis Of Macromoleculesmentioning

confidence: 99%

See 2 more Smart Citations

Development of new methodologies for the mass spectrometry study of bioorganic macromolecules

Cristoni

Bernardi

2003

Mass Spectrometry Reviews

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“…With such shortcomings, the ionization step may be considered the weakest link and the bottleneck in mass spectrometry at its current stage. Therefore, more vigorous research has been devoted to the study of ion generation in recent years, resulting in several new ionization techniques such as desorption electrospray ionization (DESI) [3], atmospheric pressure photoionization (APPI) [4], laser desorption atmospheric pressure chemical ionization (LD-APCI) [5][6][7], electrospray assisted laser desorption ionization (ELDI) [8,9], laser ablation electrospray ionization (LAESI) [10], no-discharge APCI [11,12], direct analysis in real time (DART) [13], desorption atmospheric pressure chemical ionization (DAPCI) [14], laser induced acoustic desorption (LIAD) [15,16], field-induced droplet ionization (FIDI) [17], and nanostructure-initiator ionization [18]. Among the techniques cited, APPI, ELDI, LAESI, LD-APCI, and LIAD are similar in the sense that they utilize a two-step approach in which desorption and ionization occur during two separate physical processes.…”

Section: Introductionmentioning

confidence: 99%

Charge assisted laser desorption/ionization mass spectrometry of droplets

Jorabchi

Westphall

Smith

2008

J. Am. Soc. Mass Spectrom.

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We propose and evaluate a new mechanism to account for analyte ion signal enhancement in ultraviolet-laser desorption mass spectrometry of droplets in the presence of corona ions. Our new insights are based on timing control of corona ion production, laser desorption, and peptide ion extraction achieved by a novel pulsed corona apparatus. We demonstrate that droplet charging rather than gas-phase ion-neutral reactions is the major contributor to analyte ion generation from an electrically isolated droplet. Implications of the new mechanism, termed charge assisted laser desorption/ionization (CALDI), are discussed and contrasted to those of the laser desorption atmospheric pressure chemical ionization method (LD-APCI). It is also demonstrated that analyte ion generation in CALDI occurs with external electric fields about one order of magnitude lower than those needed for atmospheric pressure matrix assisted laser desorption/ionization or electrospray ionization of droplets.

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Current Awareness in Mass Spectrometry

2002

J. Mass Spectrom.

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In order to keep subscribers up‐to‐date with the latest developments in their field, John Wiley & Sons are providing a current awareness service in each issue of the journal. The bibliography contains newly published material in the field of mass spectrometry. Each bibliography is divided into 11 sections: 1 Books, Reviews & Symposia; 2 Instrumental Techniques & Methods; 3 Gas Phase Ion Chemistry; 4 Biology/Biochemistry: Amino Acids, Peptides & Proteins; Carbohydrates; Lipids; Nucleic Acids; 5 Pharmacology/Toxicology; 6 Natural Products; 7 Analysis of Organic Compounds; 8 Analysis of Inorganics/Organometallics; 9 Surface Analysis; 10 Environmental Analysis; 11 Elemental Analysis. Within each section, articles are listed in alphabetical order with respect to author (4 Weeks journals ‐ Search completed at 3rd. July 2002)

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Analysis of protein ions in the range 3000–12000 Th under partial (no discharge) atmospheric pressure chemical ionization conditions using ion trap mass spectrometry

Cited by 25 publications

References 36 publications

Development of new methodologies for the mass spectrometry study of bioorganic macromolecules

Development of new methodologies for the mass spectrometry study of bioorganic macromolecules

Charge assisted laser desorption/ionization mass spectrometry of droplets

Current Awareness in Mass Spectrometry

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