Biomedical Engineering Reference
In-Depth Information
software platform for integration, visualiza-
tion and analysis of LC-MS/MS proteomics
data.
Bioinformatics (Oxford, England)
25
,
682-683.
97. Zhang, B., Chambers, M. C., and Tabb,
D. L. (2007) Proteomic parsimony through
bipartite graph analysis improves accu-
racy and transparency.
J. Proteome Res.
6
,
3549-3557.
98. Tabb, D. L., McDonald, W. H., and Yates,
J. R., 3rd (2002) DTASelect and Contrast:
tools for assembling and comparing protein
identifications from shotgun proteomics.
J.
Proteome Res.
1
, 21-26.
99. Askenazi,M.,Parikh,J.R.,andMarto,J.A.
(2009) mzAPI: a new strategy for efficiently
sharing mass spectrometry data.
Nat. Meth-
ods
6
, 240-241.
100. Slotta, D. J., McFarland, M., Makusky, A.,
and Markey, S. (2007) P18-T MassSieve: a
new tool for mass spectrometry-based pro-
teomics.
J. Biomol. Tech.
18
,7.
101. Hartler, J., Thallinger, G. G., Stocker, G.,
Sturn, A., Burkard, T. R., Korner, E.,
Rader, R., Schmidt, A., Mechtler, K., and
Trajanoski, Z. (2007) MASPECTRAS: a
platform for management and analysis of
proteomics LC-MS/MS data.
BMC Bioin-
formatics
8
, 197.
102. Hakkinen, J., Vincic, G., Mansson, O.,
Warell, K., and Levander, F. (2009) The
Proteios Software Environment: an extensi-
ble multiuser platform for management and
analysis of proteomics data.
J. Proteome Res
.
103. Andersen, J. S., Wilkinson, C. J., Mayor, T.,
Mortensen, P., Nigg, E. A., and Mann, M.
(2003) Proteomic characterization of the
human centrosome by protein correlation
profiling.
Nature
426
, 570-574.
104. Cox, J., Matic, I., Hilger, M., Nagaraj, N.,
Selbach, M., Olsen, J. V., and Mann, M.
(2009) A practical guide to the MaxQuant
computational platform for SILAC-based
quantitative proteomics.
Nat. Protoc
4
,
698-705.
105. Cox, J., and Mann, M. (2008) MaxQuant
enables high peptide identification rates,
individualized p.p.b.-range mass accuracies
and proteome-wide protein quantification.
Nat. Biotechnol.
26
, 1367-1372.
106. Shadforth, I. P., Dunkley, T. P., Lilley,
K. S., and Bessant, C. (2005) i-Tracker:
for quantitative proteomics using iTRAQ.
BMC Genomics
6
, 145.
107. Bouyssie, D., Gonzalez de Peredo, A.,
Mouton, E., Albigot, R., Roussel, L.,
Ortega, N., Cayrol, C., Burlet-Schiltz,
O., Girard, J. P., and Monsarrat, B.
(2007) Mascot file parsing and quantifica-
tion (MFPaQ), a new software to parse,
validate, and quantify proteomics data gen-
erated by ICAT and SILAC mass spec-
trometric analyses: application to the pro-
teomics study of membrane proteins from
primary human endothelial cells.
Mol. Cell.
Proteomics
6
, 1621-1637.
108. Polpitiya, A. D., Qian, W. J., Jaitly, N.,
Petyuk,V.A.,Adkins,J.N.,Camp,D.G.,
2nd, Anderson, G. A., and Smith, R. D.
(2008) DAnTE: a statistical tool for quanti-
tative analysis of -omics data.
Bioinformatics
(Oxford, England)
24
, 1556-1558.
109. Mason, C. J., Therneau, T. M., Eckel-
Passow, J. E., Johnson, K. L., Oberg, A. L.,
Olson, J. E., Nair, K. S., Muddiman, D. C.,
and Bergen, H. R., 3rd (2007) A method
for automatically interpreting mass spectra
of 18O-labeled isotopic clusters.
Mol. Cell.
Proteomics
6
, 305-318.
110. van Breukelen, B., van den Toorn, H. W.,
Drugan, M. M., and Heck, A. J. (2009)
StatQuant: A post quantification analysis
toolbox for improving quantitative mass
spectrometry.
Bioinformatics (Oxford, Eng-
land)
.
111. Potthast, F., Ocenasek, J., Rutishauser, D.,
Pelikan, M., and Schlapbach, R. (2005)
Database independent detection of iso-
topically labeled MS/MS spectrum peptide
pairs.
J. Chromatogr.
817
, 225-230.
112. Pevzner, P. A., Mulyukov, Z., Dancik, V.,
and Tang, C. L. (2001) Efficiency of
database search for identification of mutated
and modified proteins via mass spectrome-
try.
Genome Res.
11
, 290-299.
113. Maclean, D., Burrell, M. A., Studholme, D.
J., and Jones, A. M. (2008) PhosCalc: a tool
for evaluating the sites of peptide phospho-
rylation from mass spectrometer data.
BMC
Res. Notes
1
, 30.
114. Hernandez, P., Gras, R., Frey, J., and Appel,
R. D. (2003) Popitam: towards new heuris-
tic strategies to improve protein identifica-
tion from tandem mass spectrometry data.
Proteomics
3
, 870-878.
115. Taylor, J. A., and Johnson, R. S. (2001)
Implementation and uses of automated
de novo peptide sequencing by tan-
dem mass spectrometry.
Anal. Chem.
73
,
2594-2604.
116. Ma, B., Zhang, K., Hendrie, C., Liang, C.,
Li, M., Doherty-Kirby, A., and Lajoie, G.
(2003) PEAKS: powerful software for pep-
tide de novo sequencing by tandem mass
spectrometry.
Rapid Commun. Mass Spec-
trom.
17
, 2337-2342.
117. Fischer, B., Roth, V., Roos, F., Gross-
mann, J., Baginsky, S., Widmayer, P., Gruis-
Search WWH ::
Custom Search