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1 Edman analysis established their sequences as Val-Glu-As
2 Edman degradation analyses and co-migration of synthetic
3 Edman degradation analysis of a beta-arrestin 1 C-termin
4 Edman degradation analysis of aggregated proteins from t
5 Edman degradation analysis of collagen fiber degradation
6 Edman degradation and liquid chromatography of tryptic p
7 Edman degradation and mass spectrometric analyses of try
8 Edman degradation and mass spectrometry of V8 protease g
9 Edman degradation demonstrated a phosphotyrosine in a YX
10 Edman degradation failed to reveal N-terminal sequences,
11 Edman degradation gave a single amino-terminal sequence
12 Edman degradation of 32P-labeled protein identified seri
13 Edman degradation of MTPv1 isolated from transfected cel
14 Edman degradation of the F1 subunit yielded the sequence
15 Edman degradation of the larger amelogenin ran for 42 cy
16 Edman degradation of the purified protein determined the
17 Edman degradation remains the primary method for determi
18 Edman degradation revealed that each mutant protein was
19 Edman degradation revealed that Trp-6 and Trp-9 were cov
20 Edman degradation sequencing of radiolabeled cyanogen br
21 Edman degradation suggested that the radiolabeled phosph
22 Edman microsequence analysis of the subunits after impor
23 Edman sequencing and mass spectrometry results indicated
24 Edman sequencing of cell-associated Iga determined that
25 Edman sequencing of class I peptide pools generates "mot
26 Edman sequencing of the lectin-positive bands gave the A
27 Edman sequencing revealed that two of the major caspase-
28 Edman sequencing was used to assign structure to subsite
29 Edman sequencing, mass spectrometry, ultraviolet-visible
30 P and DPP, we performed a detailed analysis (Edman degradation and mass spectrometry) on selected try
31 conjunction with phosphoamino acid analysis, Edman degradation, and phosphopeptide mapping, demonstra
32 horesis (PAGE), Western immunoblot analysis, Edman degradation, circular dichroism spectroscopy, and
33 tic digestion of the heme-protein adduct and Edman sequencing and mass spectrometric analysis of the
35 confirmed by mass spectrometry analysis and Edman degradation sequencing of proteolytic products gen
39 tion ionization time-of-flight analysis, and Edman sequencing, demonstrated that NADH attachment occu
44 determined, by a combination of HPLC/MS and Edman sequencing, the glycosylation sites in the extrace
46 th kinases, and through both mutagenesis and Edman phosphate ((32)P) release sequencing, established
48 Characterization by mass spectrometry and Edman degradation demonstrated that both the N and C ter
50 e sequence analysis by mass spectrometry and Edman degradation revealed that RH70 is the previously r
52 sequences from de novo mass spectrometry and Edman degradation with an expressed sequence tag library
53 ions, with analysis by mass spectrometry and Edman degradation, both the heavy and light chains were
54 teine 8, combined with mass spectrometry and Edman degradation, showed that disulfide bonds link cyst
55 cing proteins, such as mass spectrometry and Edman degradation, suffer from short reads and lack sens
56 Using a combination of mass spectrometry and Edman degradation, we mapped the cleavage sites and char
59 cation was obtained by mass spectrometry and Edman sequencing in recombinant mouse PrP secreted from
60 Moreover, using tandem mass spectrometry and Edman sequencing, specific intramolecular sites of inter
63 lectrospray ionization-mass spectrometry and Edman-degradation of peptides derived from HNE-modified
66 tographic techniques, mass spectrometry, and Edman sequencing, a new hexapeptide (SSLSKL) from the Me
67 ectrospray ionization mass spectrometry, and Edman sequencing, we identified a single luciferase pept
70 me-of-flight mass spectrometry and automated Edman sequencing analysis unequivocally identified the p
73 no acid sequence was determined by automated Edman degradation analysis of proteolytic fragments of b
74 structure of CP2 was determined by automated Edman degradation of native CP2 and its proteolytic frag
76 ecreted prorenin was determined by automated Edman degradation to be Leu22 while the N-terminus of th
79 ity of the protein was revealed by automated Edman microsequencing and a computer database search.
80 was determined by a combination of automated Edman degradation, electrospray-ionization mass spectrom
82 ation on the purified fraction, by automatic Edman degradation and mass spectrometry analysis, identi
83 ation along with data derived from automatic Edman degradation of peptide fragments, the SmCI sequenc
86 rate analog covalently attached to Glu-68 by Edman sequencing and radioanalysis using C18 reverse pha
88 become phosphorylated; sequence analysis by Edman degradation established that threonine 753 became
93 nt both by ion trap mass spectrometry and by Edman degradation identified Asn346 and Asn347 of alphaO
94 was established, by mass spectroscopy and by Edman degradation, to be between a tryptophan at positio
95 both Asp and isoAsp, which were assigned by Edman degradation and by isoAsp detection using protein
99 ains the original amino acid as confirmed by Edman degradation analysis, suggesting that the mRNA but
101 versatility because it is not detectable by Edman sequencing and because it cannot be labeled with r
103 NH2-terminal sequences were determined by Edman degradation and compared with the genomic sequence
104 attachment to the protein was determined by Edman degradation of the resulting peptide-DNA complex t
105 rgan with [(14)C]halothane and determined by Edman degradation some of the photolabeled amino acids i
106 sequence of the precursor, we determined by Edman degradation the N-terminal amino acid sequences of
107 sequence EEDRD and so forth as determined by Edman degradation, demonstrating signal peptidase proces
111 The O-glycosylation site was determined by Edman sequencing of pronase-digested Ambn, which gave HP
113 sequence of halocin S8 was obtained first by Edman degradation of the purified protein and verified f
117 dioactive lysine residues were identified by Edman degradation and electrospray mass spectrometry fol
118 sidues in each M4 segment were identified by Edman degradation of isolated tryptic fragments and gene
119 the agonist binding sites were identified by Edman degradation of isolated, labeled subunit fragments
125 acid sequence was verified independently by Edman analysis and/or electrospray ionization-mass spect
126 This derivative was confirmed indirectly by Edman analysis and more directly by mass spectrometry.
127 se-3 cleavage site of O-GlcNAcase, mapped by Edman sequencing, is a noncanonical recognition site tha
128 Sequencing of peptide fragments from MtmB by Edman degradation and mass spectrometry revealed no chan
130 nal sequence of the MalH protein obtained by Edman degradation corresponded to the first 32 amino aci
131 acid sequences of these proteins obtained by Edman degradation were compared with sequences from the
132 -terminal residues of each mature protein by Edman degradation and confirmed the internal deletion in
135 ENAL, where X represents unknown residue) by Edman degradation, and a full-length cDNA of the enzyme
137 OOH-terminal fragment yielded no sequence by Edman degradation, indicating that parts of Ser-180 went
139 tide fragments, which were then sequenced by Edman degradation to determine the glycosylation sites.
140 er band was purified, partially sequenced by Edman degradation, and found to match rat IgG heavy chai
146 ns is important for amino acid sequencing by Edman degradation, protein identification by shotgun and
148 nce analysis; in these cases, sequencing (by Edman degradation or by mass spectrometry) confirmed tha
149 d Lys-92 and Lys-109 as acetylation sites by Edman degradation of peptides from [14C]acetate-labeled
152 to have the following primary structures by Edman microsequencing: IWLTALKFLGKHAAKHLAKQQLSKL-NH2 for
154 he primary structure of rPrP was verified by Edman sequencing and mass spectrometry, and secondary st
155 other Mel- strain (mel2), obtained from J.C. Edman (University of California at San Francisco, CA), p
156 n digestion, lectin affinity chromatography, Edman degradation amino acid sequence analysis, carbohyd
157 ucts by high pressure liquid chromatography, Edman degradation, and mass spectrometry suggests that m
158 00 fmol of an intact protein using classical Edman chemistry in combination with capillary-bore liqui
159 primary sequence was determined by combining Edman degradation/N-terminal sequencing and electrospray
162 ion analysis and exoglycosidase digestions), Edman degradation, and monosaccharide composition analys
164 named sublancin 168, and its behavior during Edman sequence analysis and its NMR spectrum suggested t
166 tosampler is used in combination with faster Edman cycles and a rapid 12-min PTH separation to signif
169 nts, with sample cleanup and preparation for Edman sequencing performed using a commercial cartridge
171 also produces signature ions resulting from Edman cleavage and facilitates peptide sequencing on lin
176 ion of the protein, based on blank cycles in Edman degradation and corresponding serine or threonine
177 ides by automated microsequencing and manual Edman degradation identified the sites in Mnk1 as Thr(22
179 ral rounds of HPLC, and gas-phase and manual Edman sequencing, is very tedious and requires about 10
181 eling with [(32)P]H(3)PO(4), modified manual Edman degradation, phosphoamino acid analysis, endoprote
183 ing a combination of phosphopeptide mapping, Edman degradation, and electrospray mass spectrometry, s
185 uestion remains, "What is self?" Analyses of Edman motifs and of small sets of individual peptides su
186 usly the frameshift through a combination of Edman degradation, MALDI-ToF mass fingerprint analysis o
194 olated and individually sequenced by partial Edman degradation and mass spectrometry (PED-MS) to reve
196 , and the peptides were sequenced by partial Edman degradation and matrix-assisted laser desorption i
198 were subjected to multiple cycles of partial Edman degradation (PED) by the treatment with a 15-30:1
199 P-like kinase, identified by "mixed-peptide" Edman sequencing after affinity purification, as the pre
200 yl isothiocyanate (PITC), promotes gas-phase Edman cleavage that yields abundant complementary b(1) a
202 ge of the sequence and reports the predicted Edman cycles in which radioactivity would be observed if
203 sitivity of tagged analytes, while promoting Edman fragmentation and maintaining other sequence fragm
204 ified proteins were determined by sequential Edman degradation and tandem mass spectrometry (MS/MS).
205 pt cysteine 211 was identified by sequential Edman degradation, implying that this was the amino acid
209 plex was characterized by mass spectrometry, Edman degradation, and amino acid composition analyses.
212 on can then be used for other analyses, such Edman sequencing, amino acid analysis, or proteolytic di
213 nsional gels and subjected to NH(2)-terminal Edman sequencing for identification and determination of
216 phosphoserine was defined by the N-terminal Edman degradation sequence analysis as being the fourth
217 amino acid composition analysis, N-terminal Edman degradation sequence analysis, and tandem mass spe
218 xylesterase ES-10 (EC 3.1.1.1) by N-terminal Edman sequencing and extensive LC-MS/MS sequence analysi
222 erized using gel electrophoresis, N-terminal Edman sequencing, matrix-assisted laser desorption ioniz
223 mass spectrometry (ESI-q-TOF-MS), N-terminal Edman sequencing, peptide mapping, and other techniques.
224 grated approach, combining MS and N-terminal Edman sequencing, was capable of assigning the disulfide
227 s could not be identified by analysis of the Edman degradation sequencer product because the palmitoy
235 The final candidate was also blocked to Edman degradation; as before, a duplex probe was PCR amp
236 (3-BP) blocks the amino terminus of 4-OT to Edman degradation and results in the disappearance of th
237 rger proteins, efficient deblocking prior to Edman sequencing is especially important to obtain quali
240 the tryptic peptides and subjecting them to Edman sequence analysis, the presence of repeating 3-hyd
244 ture for these peptides was determined using Edman degradation sequencing, and their cystine pairing
245 s determined to be LLNEVMCYPLFDGGNIGLR using Edman degradation and matrix-assisted laser desorption/i
247 equence of the truncated forms of TSLP using Edman protein sequencing and matrix-assisted laser desor
248 is on an isolated glycated peptide utilizing Edman degradation analysis and MALDI-TOF/TOF mass spectr
250 ith phenylisothiocyanate in combination with Edman sequencing, and matrix-assisted laser desorption m
252 Analysis of COOH-terminal peptides with Edman degradation and mass spectrometry revealed an amid
253 N-terminal derivatization of peptides with Edman's reagent, phenyl isothiocyanate (PITC), promotes
254 andom doedecamer peptide library screen with Edman sequencing of MMP-20 cleavage products revealed th
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