Biology Reference
In-Depth Information
mixtures using isotope-coded af
nity tags.
Nat Bio-
lysine 20 during the cell cycle.
Mol Cell Biol
2008;
28
:
:994
e
9.
116. Ross PL, Huang YN, Marchese JN, et al. Multiplexed
protein quantitation in Saccharomyces cerevisiae
using amine-reactive isobaric tagging reagents.
Mol
Cell Proteomics
2004;
technol
1999;
17
468
e
86.
130. Collier TS, Sarkar P, Rao B, Muddiman DC. Quanti-
tative top-down proteomics of SILAC labeled human
embryonic stem cells.
J Am Soc Mass Spectrom
2010;
21
:
:1154
e
69.
117. Thompson A, Schäfer J, Kuhn K, Kienle S, Schwarz J,
Schmidt G, et al. Tandem mass tags: a novel quanti-
3
879
e
89.
131.
Julka S, Folkenroth J, Young SA. Two dimensional
liquid chromatography-ultraviolet/mass spectro-
metric (2DLC-UV/MS) analyses for quantitation
of intact proteins in complex biological matrices.
J Chromatog B
2011;
fication strategy for comparative analysis of complex
protein mixtures by MS/MS.
Anal Chem
2003;
75
:
1895
e
904.
118. Gerber SA, Rush J, Stemman O, Kirschner MW,
Gygi SP. Absolute quanti
:2057
e
63.
132. Wiener MC, Sachs JR, Deyanova EG, Yates NA.
Differential mass spectrometry: a label-free LC-MS
method for
879
cation of proteins and
phosphoproteins from cell lysates by tandem MS.
Proc
Natl Acad Sci USA
2003;
cant differences in complex
peptide and protein mixtures.
Anal Chem
2004;
finding signi
:6940
e
5.
119. Neilson KA, Ali NA, Muralidharan S, et al. Less label,
more free: approaches in label-free quantitative mass
spectrometry.
Proteomics
2011;
100
76
:
6085
e
96.
133. Mazur MT, Cardasis HL, Spellman DS, Liaw A,
Yates NA, Hendrickson RC. Quantitative analysis of
intact apolipoproteins in human HDL by top-down
differential mass spectrometry.
Proc Natl Acad Sci
USA
2010;
:535
e
53.
120. Collier TS, Muddiman DC. Analytical strategies for
the global quanti
11
cation of
intact proteins.
Amino
:1109
e
17.
121. Boyne II MT, Pesavento JJ, Mizzen CA, Kelleher NL.
Precise characterization of human histones in the
H2A gene family by top down mass spectrometry.
J Proteome Res
2006;
Acids
2012;
43
107
:7728
e
33.
134.
Janke C, Bulinski JC. Post-translational regulation of
the microtubule cytoskeleton: mechanisms and func-
tions.
Nat Rev Mol Cell Biol
2011;
12
:773
e
86.
:248
e
53.
122. Garcia BA, Thomas CE, Kelleher NL, Mizzen CA.
Tissue-speci
5
135.
Jahn O, Tenzer S, Werner HB. Myelin proteomics:
molecular anatomy of an insulating sheath.
Mol
Neurobiol
2009;
c
expression
and post-translational
:55
e
72.
136. Lourette N, Smallwood H, Wu S, et al. A top-down
LC-FTICR MS-based strategy for characterizing
oxidized calmodulin in activated macrophages.
JAm
Soc Mass Spectrom
2010;
40
modi
cation of histone H3 variants.
J Proteome Res
:4225
e
36.
123. Pesavento JJ, Mizzen CA, Kelleher NL. Quantitative
analysis of modi
2008;
7
ed proteins and their positional
isomers by tandem mass spectrometry: human histone
H4.
Anal Chem
2006;
:930
e
9.
137. Dorrestein PC, Bumpus SB, Calderone CT, et al. Facile
detection of acyl and peptidyl intermediates on thio-
template carrier domains via phosphopantetheinyl
elimination reactions during tandem mass spectrom-
etry.
Biochemistry
2006;
21
:4271
e
80.
124. Thomas CE, Kelleher NL, Mizzen CA. Mass spectro-
metric characterization of human histone H3: a bird
78
'
s
:240
e
7.
125. Du Y, Parks BA, Sohn S, Kwast KE, Kelleher NL.
Top-down approaches for measuring expression ratios
of intact yeast proteins using Fourier transform mass
spectrometry.
Anal Chem
2006;
eye view.
J Proteome Res
2006;
5
:12756
e
66.
138. Twine SM, Reid CW, Aubry A, et al. Motility and
45
flagellar glycosylation in Clostridium dif
cile.
J Bacteriol
:7050
e
62.
139. Chamot-Rooke J, Rousseau B, Lanternier F, et al.
Alternative Neisseria spp. type IV pilin glycosylation
with a glyceramido acetamido trideoxyhexose residue.
Proc Natl Acad Sci USA
2007;
2009;
191
:686
e
94.
126. Krusemark CJ, Ferguson JT, Wenger CD, Kelleher NL,
Belshaw PJ. Global amine and acid functional group
modi
78
:713
e
20.
127. Collier TS, Sarkar P, Franck WL, Rao BM, Dean RA,
Muddiman DC. Direct comparison of stable isotope
labeling by amino acids in cell culture and spectral
counting for quantitative proteomics.
Anal Chem
2010;
82
cation of proteins.
Anal Chem
2008;
80
:14783
e
8.
140. Twine SM, Paul CJ, Vinogradov E, et al. Flagellar
glycosylation in Clostridium botulinum.
FEBS J
2008;
275
104
:4428
e
44.
141. Wagner-Rousset E, Bednarczyk A, Bussat MC, et al.
The way forward, enhanced characterization of ther-
apeutic antibody glycosylation: Comparison of three
level mass spectrometry-based strategies.
J Chromatog
B
2008;
:8696
e
702.
128. Waanders LF, Hanke S, Mann M. Top-down quanti-
tation and characterization of SILAC-labeled proteins.
J Am Soc Mass Spectrom
2007;
:2058
e
64.
129. Pesavento JJ, Yang H, Kelleher NL, Mizzen CA.
Certain and progressive methylation of histone H4 at
18
:23
e
37.
142. Reid GE, Stephenson JL, McLuckey SA. Tandem mass
spectrometry of
872
ribonuclease A and B: N-linked
Search WWH ::
Custom Search