Immobilized pH gradients as a first dimension in shotgun proteomics and analysis of the accuracy of p I predictability of peptides
In this work, we demonstrate the potential use of immobilized pH gradient isoelectric focusing as a first dimension in shotgun proteomics. The high resolving power and resulting reduction in matrix ionization effects due to analyzing peptides with almost the exact same physiochemical properties, rep...
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| Veröffentlicht in: | Electrophoresis 2004-03, Vol.25 (6), p.936-945 |
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| creator | Cargile, Benjamin J. Talley, Dana L. Stephenson, James L. |
| description | In this work, we demonstrate the potential use of immobilized pH gradient isoelectric focusing as a first dimension in shotgun proteomics. The high resolving power and resulting reduction in matrix ionization effects due to analyzing peptides with almost the exact same physiochemical properties, represents a significant improvement in performance over traditional strong cation‐exchange first‐dimensional analysis associated with the shotgun proteomics approach. For example, using this technology, we were able to identify more than 6000 peptides and > 1200 proteins from the cytosolic fraction of
Escherichia coli
from approximately 10 μg of material analyzed in the second‐dimensional liquid chromatography‐tandem mass spectrometry experiment. Sample loads on the order of 1 mg can be resolved to 0.25 isoelectric point (p
I)
units, which make it possible to analyze organisms with significantly larger genomes/proteomes. Accurate p
I
prediction can then be employed using currently available algorithms to very effectively filter data for peptide/protein identification, and thus lowering the false‐positive rate for cross‐correlation‐based peptide identification algorithms. By simplifying the protein mixture problem to tryptic peptides, the effect of specific amino acids on p
I
prediction can be evaluated as a function of their position in the peptide chain. |
| doi_str_mv | 10.1002/elps.200305722 |
| format | Article |
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Escherichia coli
from approximately 10 μg of material analyzed in the second‐dimensional liquid chromatography‐tandem mass spectrometry experiment. Sample loads on the order of 1 mg can be resolved to 0.25 isoelectric point (p
I)
units, which make it possible to analyze organisms with significantly larger genomes/proteomes. Accurate p
I
prediction can then be employed using currently available algorithms to very effectively filter data for peptide/protein identification, and thus lowering the false‐positive rate for cross‐correlation‐based peptide identification algorithms. By simplifying the protein mixture problem to tryptic peptides, the effect of specific amino acids on p
I
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Escherichia coli
from approximately 10 μg of material analyzed in the second‐dimensional liquid chromatography‐tandem mass spectrometry experiment. Sample loads on the order of 1 mg can be resolved to 0.25 isoelectric point (p
I)
units, which make it possible to analyze organisms with significantly larger genomes/proteomes. Accurate p
I
prediction can then be employed using currently available algorithms to very effectively filter data for peptide/protein identification, and thus lowering the false‐positive rate for cross‐correlation‐based peptide identification algorithms. By simplifying the protein mixture problem to tryptic peptides, the effect of specific amino acids on p
I
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Escherichia coli
from approximately 10 μg of material analyzed in the second‐dimensional liquid chromatography‐tandem mass spectrometry experiment. Sample loads on the order of 1 mg can be resolved to 0.25 isoelectric point (p
I)
units, which make it possible to analyze organisms with significantly larger genomes/proteomes. Accurate p
I
prediction can then be employed using currently available algorithms to very effectively filter data for peptide/protein identification, and thus lowering the false‐positive rate for cross‐correlation‐based peptide identification algorithms. By simplifying the protein mixture problem to tryptic peptides, the effect of specific amino acids on p
I
prediction can be evaluated as a function of their position in the peptide chain.</abstract><doi>10.1002/elps.200305722</doi><tpages>10</tpages></addata></record> |
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| ispartof | Electrophoresis, 2004-03, Vol.25 (6), p.936-945 |
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| language | eng |
| recordid | cdi_crossref_primary_10_1002_elps_200305722 |
| source | Wiley Online Library Journals Frontfile Complete |
| title | Immobilized pH gradients as a first dimension in shotgun proteomics and analysis of the accuracy of p I predictability of peptides |
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