The mass spectrometric identification of chemically cross-linked peptides (CXMS) specifies spatial restraints of protein complexes; these values complement data obtained from common structure-determination techniques. Generic methods for determining false discovery rates of cross-linked peptide assignments are currently lacking, thus making data sets from CXMS studies inherently incomparable. Here we describe an automated target-decoy strategy and the software tool xProphet, which solve this problem for large multicomponent protein complexes
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
In shotgun proteomics, high-throughput mass spectrom-etry experiments and the subsequent data analys...
The mass spectrometric identification of chemically cross-linked peptides (CXMS) specifies spatial r...
Crosslinking-mass spectrometry (XL-MS) serves to identify interaction sites between proteins. Numero...
Chemical cross-linking analyzed by mass spectrometry (XL-MS) has become an important tool in unravel...
Chemical cross-linking analyzed by mass spectrometry (XL-MS) has become an important tool in unravel...
Cross-linking mass spectrometry maps the structural topology of protein complexes by usingthe distan...
International audienceThe cross-linking approach combined with MS for protein structure determinatio...
Cross-linking mass spectrometry (CLMS) provides distance constraints to study the structure of prote...
Chemical cross-linking mass spectrometry (XL-MS) provides protein structural information by identify...
Chemical cross-linking combined with mass spectrometric analysis has become an important technique f...
Tandem mass spectrometry is commonly used to identify peptides, typically by comparing their product...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
Cross-linking combined with mass spectrometry (XL-MS) provides a wealth of information about the thr...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
In shotgun proteomics, high-throughput mass spectrom-etry experiments and the subsequent data analys...
The mass spectrometric identification of chemically cross-linked peptides (CXMS) specifies spatial r...
Crosslinking-mass spectrometry (XL-MS) serves to identify interaction sites between proteins. Numero...
Chemical cross-linking analyzed by mass spectrometry (XL-MS) has become an important tool in unravel...
Chemical cross-linking analyzed by mass spectrometry (XL-MS) has become an important tool in unravel...
Cross-linking mass spectrometry maps the structural topology of protein complexes by usingthe distan...
International audienceThe cross-linking approach combined with MS for protein structure determinatio...
Cross-linking mass spectrometry (CLMS) provides distance constraints to study the structure of prote...
Chemical cross-linking mass spectrometry (XL-MS) provides protein structural information by identify...
Chemical cross-linking combined with mass spectrometric analysis has become an important technique f...
Tandem mass spectrometry is commonly used to identify peptides, typically by comparing their product...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
Cross-linking combined with mass spectrometry (XL-MS) provides a wealth of information about the thr...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
Lysine-specific chemical crosslinking in combination with mass spectrometry is emerging as a tool fo...
In shotgun proteomics, high-throughput mass spectrom-etry experiments and the subsequent data analys...