1 We present here the first in vitro
biochemical characterization of 13 missense mutations in
2 ctions within GH74, here we coupled in-depth
biochemical characterization of 17 recombinant proteins
3 of Moco pyranopterin backbone, we performed
biochemical characterization of 3',8-cH2GTP and function
4 Here, we combined
biochemical characterization of 39 DNTP derivatives with
5 Structural and
biochemical characterization of a 6X protease mutant ari
6 We now report the first
biochemical characterization of a bacterial vanadium-dep
7 Here, we report the functional and
biochemical characterization of a c-di-GMP PDE, PdcA, 1
8 The first
biochemical characterization of a chloroplastic disaggre
9 Here, we report the functional and
biochemical characterization of a Drosophila ortholog of
10 In addition, we present the first in-depth
biochemical characterization of a eukaryotic phycobilipr
11 This represents the first structural and
biochemical characterization of a family 17 polysacchari
12 We further provide the first
biochemical characterization of a flavoenzyme associated
13 Presented here is the structure and
biochemical characterization of a GE, TtCE15A, from the
14 Here we report the first
biochemical characterization of a headful nuclease from
15 Biochemical characterization of a library of 13 oxygenat
16 This work represents the first
biochemical characterization of a mannose-specific solut
17 We report the first
biochemical characterization of a Moco-free eukaryotic N
18 This is the first cloning and detailed
biochemical characterization of a monofunctional feedbac
19 Here we report the
biochemical characterization of a multidomain deubiquiti
20 optimized chemical synthesis and preliminary
biochemical characterization of a new oligonucleotide an
21 Here, we describe structural and
biochemical characterization of a novel c-di-GMP effecto
22 We report the
biochemical characterization of a novel NAL from a "GRAS
23 her, these findings demonstrate an extensive
biochemical characterization of a novel series of highly
24 Here we present the cloning and
biochemical characterization of a putative TrxR (Ta0984)
25 Here we describe the discovery and
biochemical characterization of a selective small-molecu
26 s report, we describe the identification and
biochemical characterization of a thiolase-ketoreductase
27 We report the
biochemical characterization of a tomato EGase, Solanum
28 Here we describe the discovery and
biochemical characterization of a unique glycosyltransfe
29 additional members of the AAD class, 2) the
biochemical characterization of AAD-2 from Bradyrhizobiu
30 production of recombinant ALDH16, the first
biochemical characterization of ALDH16, and the first cr
31 We undertook extensive
biochemical characterization of Aldh7a1-KO mice consumin
32 Here, we have performed a molecular and
biochemical characterization of an atovaquone-resistant
33 The
biochemical characterization of an intact animal polyket
34 e report the biotechnological generation and
biochemical characterization of an oligomer-specific ant
35 Here, we describe the structural and
biochemical characterization of an oxygen-sensitive enzy
36 Here we report the resurrection and
biochemical characterization of ancestral RuBisCOs, dati
37 iction factor, there has been no comparative
biochemical characterization of APOBEC3H haplotypes.
38 en relative to venous blood, a comprehensive
biochemical characterization of arteriovenous difference
39 This study describes the
biochemical characterization of AsbC, the first reported
40 Biochemical characterization of AtcpFHy/PyrP1 and AtPyrP
41 Biochemical characterization of B. subtilis RecD2 showed
42 Biochemical characterization of B5GLM7 reveals the major
43 ganism on which the overwhelming majority of
biochemical characterizations of bacterial RNA polymeras
44 Biochemical characterization of BER in the context of (C
45 This first
biochemical characterization of Bim1 shows that it is no
46 Histologic and
biochemical characterization of biopsied wound tissue, w
47 This study presents a biophysical and
biochemical characterization of CA-SP and its assembly b
48 The corresponding
biochemical characterization of CalS8 reveals CalS8 as o
49 However, the
biochemical characterization of CBL-CIPK complexes has s
50 Here, we present additional
biochemical characterization of CD1 and putative ortholo
51 Biochemical characterization of cell wall polysaccharide
52 Biochemical characterization of CENP-A associated RNAs r
53 Here, we report the genetic and
biochemical characterization of chloroplast-located rubr
54 Here we provide information on the
biochemical characterization of CMO2 of the ferret, a mo
55 We present the first
biochemical characterization of CNAbeta1, which is ubiqu
56 Biochemical characterization of CndF showed this enzyme
57 These data provide a new foundation for
biochemical characterization of COMMD proteins and for p
58 Our studies set the stage for the
biochemical characterization of communesin biosynthesis.
59 dentifying tissue heterogeneity and detailed
biochemical characterization of complex tissue samples.
60 itro phosphorylation assay for the efficient
biochemical characterization of COT kinase inhibitors an
61 Here we report the purification and
biochemical characterization of CTL4 and CTLMA2 from An.
62 Here we report
biochemical characterization of CYP76M5, -6, and -8.
63 Here we attempted
biochemical characterization of CYP99A2 and CYP99A3, whi
64 t experimental strategies: (1) isolation and
biochemical characterization of cytoplasmic vesicles tha
65 metabolites accumulated by the mutants, and
biochemical characterization of DH10 in vitro, using pol
66 udies highlight the essentiality of detailed
biochemical characterization of drug-target interactions
67 ncy and function, we leveraged the extensive
biochemical characterization of E26 transformation-speci
68 nction of the E3-10.9K ORF, we carried out a
biochemical characterization of E3-10.9K-encoded ortholo
69 Biochemical characterization of E6 and E6AP has suggeste
70 Biochemical characterization of each mutant revealed ste
71 In a
biochemical characterization of endogenous cytoplasmic a
72 Biochemical characterization of endomembrane fractions f
73 We present the crystal structure and
biochemical characterization of Escherichia coli YbiB, a
74 Here, we performed a
biochemical characterization of FAAH-2 and explored its
75 Biochemical characterization of FdmW in vitro confirmed
76 drug discovery, we report the synthesis and
biochemical characterization of first covalent ligands d
77 This study describes the first
biochemical characterization of flavivirus protease acti
78 here for the first time the identity and the
biochemical characterization of four GAG-specific sulfat
79 Detailed
biochemical characterization of four new enzymes reveale
80 This study shows how
biochemical characterization of functionally important o
81 We report the structural and
biochemical characterization of GLB-33, a putative neuro
82 nnotation, overexpression, purification, and
biochemical characterization of Gne were performed.
83 Biochemical characterization of gpA-DeltaN179, a constru
84 we present additional genetic studies and a
biochemical characterization of Grx3-Met43Val, the most
85 erest in this protein, there has been little
biochemical characterization of GSAP.
86 Biochemical characterization of heterologously expressed
87 Biochemical characterization of HjCel3A shows that the e
88 Biochemical characterization of HopM1 by mass spectromet
89 Here, we describe the
biochemical characterization of Hpa2 and Hpa3 as bona fi
90 The spectroscopic and
biochemical characterization of HydA(DeltaEFG) (the [FeF
91 We performed a molecular and
biochemical characterization of IFNlambda4 to determine
92 We report the
biochemical characterization of IGHMBP2 and the isolatio
93 Here we report the
biochemical characterization of influenza RdRP subcomple
94 Here we report the
biochemical characterization of IpoC and PurCD.
95 Here this hypothesis is supported by
biochemical characterization of isolated coiled-coil pep
96 Here, using
biochemical characterization of isolated yeast vacuolar
97 crystal structure of DUE-B and complementary
biochemical characterization of its biological activity.
98 These results are the first kinetic and
biochemical characterization of JNK1beta1 and uncover so
99 Here we report the
biochemical characterization of KedY4, confirming its pr
100 Here, we extend this knowledge through the
biochemical characterization of KLF16, unveiling novel m
101 As a proof of concept, we performed a
biochemical characterization of LipA from Xac306 and ver
102 In this paper we describe the
biochemical characterization of LmAQP1.
103 From a
biochemical characterization of M. thermautotrophicus Gl
104 In this study, we present our structural and
biochemical characterization of MAIT TCR engagement of M
105 The
biochemical characterization of mesophilic pAgo proteins
106 This study presents a
biochemical characterization of Methanocaldococcus janna
107 ms versus the relative slow influx of direct
biochemical characterization of microbes is limiting the
108 ssay will aid efforts toward a more detailed
biochemical characterization of MshB.
109 The
biochemical characterization of mutant assembly pathways
110 Here, we report the structural and
biochemical characterization of MXAN_7475 (BacM), one of
111 Biochemical characterization of NadD confirmed its funct
112 Here we report the
biochemical characterization of NcsB1, unveiling that: (
113 However, despite extensive
biochemical characterization of NF-kappaB signalling dur
114 Here we report the design, synthesis, and
biochemical characterization of novel, irreversible, sal
115 sect these activities through structural and
biochemical characterization of nuclear and cytoplasmic
116 Detailed
biochemical characterization of nucleic acid enzymes is
117 histologic assessment of amyloid burden and
biochemical characterization of oligomeric Abeta species
118 Here we present the first
biochemical characterization of one of the paralog prote
119 We performed preliminary
biochemical characterization of one of them, Brevibacill
120 Biochemical characterization of orthologs along the phyl
121 in Methanosarcina acetivorans to facilitate
biochemical characterization of oxygen-sensitive metallo
122 Here we present
biochemical characterization of P-gp from Caenorhabditis
123 Biochemical characterization of p.R125C in a heterologou
124 Here, we report the
biochemical characterization of p14ARF tumor suppressor
125 e undertook clinical, neurophysiological and
biochemical characterization of patients with mutations
126 s proven a major challenge toward a complete
biochemical characterization of PCSK9's proteolytic func
127 Herein, we examine the
biochemical characterization of PHD2 variants, Arg371His
128 In this study, extensive
biochemical characterization of plant AAADs was performe
129 The
biochemical characterization of point mutants in the GTP
130 Biochemical characterization of PolD1 and PolD2 shows th
131 Biochemical characterization of polV(R391) highlights th
132 Biochemical characterization of polyketide synthases (PK
133 Biochemical characterization of polymerase II isolated f
134 despread applications for the structural and
biochemical characterization of PP-IP signaling properti
135 Our study provides the first
biochemical characterization of prefibrillar myocardial
136 Here, we conducted phylogenetically informed
biochemical characterization of prephenate aminotransfer
137 Here, we performed
biochemical characterization of previously-reported paus
138 In this study, we carried out structural and
biochemical characterization of proNGF interactions with
139 Structural and
biochemical characterization of protein kinases that con
140 hat apply abundant structural information to
biochemical characterization of protein translation and
141 Genetic and
biochemical characterization of proteins bearing F231S a
142 Biochemical characterization of proteins that bind the T
143 formulation of protein pharmaceuticals, and
biochemical characterization of proteins.
144 Here we describe the
biochemical characterization of purified and complete Sa
145 Biochemical characterization of purified M. pneumoniae r
146 Biochemical characterization of purified, recombinant fo
147 and serve as a "translation method" for the
biochemical characterization of receptor-ligand interact
148 Here we present the
biochemical characterization of recombinant Arabidopsis
149 Biochemical characterization of recombinant nucleosomes
150 Biochemical characterization of recombinant NudP reveale
151 Biochemical characterization of recombinant PK50 and PK5
152 A comparative
biochemical characterization of rice (Oryza sativa) and
153 ithin LpxD and serves as a model for further
biochemical characterization of RJPXD33 binding to LpxD.
154 Biochemical characterization of RNA methyltransferase en
155 Recent advances in the structural and
biochemical characterization of RNAP explain the active
156 Recent progress in the structural and
biochemical characterization of RNAP illuminates this en
157 We report here the
biochemical characterization of ROS1 and the effect of i
158 We discuss the
biochemical characterization of RT in order to place emp
159 Here, we present the
biochemical characterization of several MspJI homologs,
160 d tumor suppressor gene in many cancers, yet
biochemical characterization of several of its reported
161 Biochemical characterization of SgcC has now revealed th
162 Biochemical characterization of SgcC3 unveiled the follo
163 Here, we report the
biochemical characterization of SgcC5, an NRPS condensat
164 e carried out an extensive spectroscopic and
biochemical characterization of site-specific PU.1 ETS c
165 onfirmed the roles of these residues through
biochemical characterization of site-specific variants.
166 Recent structural and
biochemical characterizations of Smoothened domains have
167 Here, we report the isolation and
biochemical characterization of spontaneously arising E.
168 Structural and
biochemical characterization of T. potens and E. coli Is
169 Here, we report the initial
biochemical characterization of TcuB.
170 Biochemical characterization of TgVP1 in enriched fracti
171 Biochemical characterization of the 2 evolved enzymes re
172 Additionally, we report the structural and
biochemical characterization of the A. variabilis PAL C5
173 r level through structural determination and
biochemical characterization of the aberrant enzymes.
174 The
biochemical characterization of the above events could l
175 Here we conducted a
biochemical characterization of the AdnAB motor, using a
176 In addition, the first
biochemical characterization of the advanced clinical co
177 present study, we performed a molecular and
biochemical characterization of the AI-2 system in Yersi
178 Biochemical characterization of the altered proteins imp
179 constitution of ABCB6 into liposomes allowed
biochemical characterization of the ATPase including (i)
180 ere, we present X-ray crystal structures and
biochemical characterization of the Bacillus megaterium
181 tructure at 1.71 angstrom resolution and the
biochemical characterization of the C-terminal domain of
182 Mutational analysis and
biochemical characterization of the conserved residues s
183 sistance, here we undertook a structural and
biochemical characterization of the CopG protein from Ps
184 Biochemical characterization of the corresponding recomb
185 Biochemical characterization of the corresponding recomb
186 Moreover,
biochemical characterization of the cyclase revealed an
187 Here, we report the
biochemical characterization of the direct interaction b
188 In this study, we describe the isolation and
biochemical characterization of the DNA primase complex
189 Here, we report the identification and
biochemical characterization of the Drosophila nicotinam
190 Here, we report
biochemical characterization of the encoded CPS and KS,
191 Despite resolved molecular structures and
biochemical characterization of the enzyme from multiple
192 e RNase II is not known despite the advanced
biochemical characterization of the enzyme.
193 This work completes the
biochemical characterization of the enzymes in this path
194 overy of new carbohydrate modifications, the
biochemical characterization of the enzymes involved in
195 Genetic and
biochemical characterization of the ErbB2DeltaEx16-deriv
196 Here, we describe the crystal structure and
biochemical characterization of the FNDC5 ectodomain, co
197 Our recent
biochemical characterization of the GDP-6-deoxy-D-manno-
198 ere, we present x-ray crystal structures and
biochemical characterization of the glutathione-dependen
199 nding we performed a detailed structural and
biochemical characterization of the guanosine cap-bindin
200 members is relatively low (34-37%), in vitro
biochemical characterization of the homologs involved in
201 Since then, the
biochemical characterization of the inflammasomes has le
202 Biochemical characterization of the inhibitor revealed t
203 action for a cytoskeletal drug and the first
biochemical characterization of the interaction between
204 we have performed a detailed functional and
biochemical characterization of the interaction between
205 Therefore, we have conducted detailed
biochemical characterization of the interactions between
206 Biochemical characterization of the IRF8(K108E) mutant i
207 The
biochemical characterization of the L. major phosphatase
208 Here we performed a
biochemical characterization of the ligand binding and c
209 In this study, we report the
biochemical characterization of the LSMT-like enzyme fro
210 First, the most recent developments in the
biochemical characterization of the many intracellular p
211 Here we report a detailed
biochemical characterization of the MsrQ protein from Es
212 Biochemical characterization of the mutant protein demon
213 Biochemical characterization of the mutant SecA proteins
214 The crystal structures and
biochemical characterization of the NAD-dependent dehydr
215 genetic manipulation, and provide the first
biochemical characterization of the oxidative cyclizatio
216 Biochemical characterization of the pomace extract showe
217 Here we describe the
biochemical characterization of the prodrug synthesis, e
218 We report here the
biochemical characterization of the product of sll0487,
219 Biochemical characterization of the protein encoded by t
220 83 (here designated CmtA) was reexamined via
biochemical characterization of the protein overproduced
221 AMY3 from Escherichia coli and carried out a
biochemical characterization of the protein to find fact
222 Biochemical characterization of the prototypic WrbA prot
223 s on both transfected and infected cells and
biochemical characterization of the purified complex.
224 orated using the bacterial two-hybrid assay,
biochemical characterization of the purified protein, an
225 Syt1 in insect cells along with an extensive
biochemical characterization of the purified protein.
226 Biochemical characterization of the purified recombinant
227 Transcript profiling,
biochemical characterization of the purified recombinant
228 Biochemical characterization of the purified RSH glycopr
229 Here we report a
biochemical characterization of the R- and N-proteins.
230 In vitro
biochemical characterization of the recombinant 267S + 3
231 Biochemical characterization of the recombinant AfSun1p
232 Biochemical characterization of the recombinant enzyme i
233 Biochemical characterization of the recombinant enzyme s
234 By in vivo gene inactivation and in vitro
biochemical characterization of the recombinant enzyme T
235 The isolation of the mimosinase cDNA and the
biochemical characterization of the recombinant enzyme w
236 The
biochemical characterization of the recombinant GH8ErCel
237 In vitro
biochemical characterization of the recombinant PDC1 enz
238 Biochemical characterization of the recombinant proteins
239 Biochemical characterization of the recombinant purified
240 d an extended substrate screen and extensive
biochemical characterization of the recombinantly expres
241 d based on Escherichia coli expression and a
biochemical characterization of the reconstituted channe
242 Here we undertook
biochemical characterization of the requirements for S1P
243 molecular view of this interaction through a
biochemical characterization of the respective protein c
244 Previous
biochemical characterization of the resting form of NspF
245 nesis of Lys-234 in SHV, microbiological and
biochemical characterization of the resulting beta-lacta
246 Comprehensive molecular and
biochemical characterization of the resulting lines expr
247 Biochemical characterization of the RT-QuIC product indi
248 Biochemical characterization of the single mutants revea
249 This work describes the
biochemical characterization of the single-stranded DNA
250 Biochemical characterization of the Sln9 thioesterase do
251 Here, we describe studies on the
biochemical characterization of the SNM1A and SNM1B prot
252 Further
biochemical characterization of the subcellular fraction
253 Here we report the
biochemical characterization of the temperate bacterioph
254 In addition, we report the purification and
biochemical characterization of the termination module o
255 Biochemical characterization of the TGiPLA2gamma protein
256 e cloning, overexpression, purification, and
biochemical characterization of the three central enzyme
257 In this work, we report the structural and
biochemical characterization of the trans-enoyl-CoA redu
258 at are delivered to embryos, followed by the
biochemical characterization of the transport of these c
259 Here, we describe the
biochemical characterization of the two-protein complex
260 Here, we report the isolation and initial
biochemical characterization of the type-I RC from Ca. C
261 present a novel system for the molecular and
biochemical characterization of the UPEC intracellular l
262 One reason for the paucity of structural and
biochemical characterization of the VDAC2 and -3 isoform
263 Structural and
biochemical characterization of the WT CYP105AS1 reveals
264 Further
biochemical characterizations of the automethylation-def
265 provements that should lead to more detailed
biochemical characterizations of the eyes of live animal
266 ble versions of hemojuvelin and neogenin for
biochemical characterization of their interaction and th
267 In this review, we summarize the
biochemical characterization of these 8 radical S-adenos
268 Biochemical characterization of these enzymes along with
269 Biochemical characterization of these enzymes over the p
270 to libraries of glycoside hydrolases but the
biochemical characterization of these enzymes remains ch
271 Genetic and
biochemical characterization of these FIP1C-proficient a
272 In this study, we performed functional and
biochemical characterization of these mutations in hENT3
273 Biochemical characterization of these potential sulfatas
274 Biochemical characterization of these proteins revealed
275 The
biochemical characterization of these SBPs provides the
276 Biochemical characterization of these variants revealed
277 yme as a protein kinase; however, a detailed
biochemical characterization of this activity is lacking
278 ase activity has been reported, but thorough
biochemical characterization of this activity is lacking
279 In line with this structural similarity,
biochemical characterization of this effector, termed Tn
280 Here we report the initial
biochemical characterization of this enzyme.
281 his study represents the first comprehensive
biochemical characterization of this important O-linked
282 Biochemical characterization of three single mutants and
283 ding the terpene synthase TPS2 with this QTL
Biochemical characterization of TPS2 verified that this
284 is study investigated the fine structure and
biochemical characterization of trypsin from the viscera
285 Here, we provide a
biochemical characterization of two ALDH12 family member
286 Here we report the genomic and
biochemical characterization of two amphibian hepcidins
287 Here, we present the molecular and
biochemical characterization of two cucumber copper ATPa
288 Herein, we report the isolation and
biochemical characterization of two O-methyltransferases
289 This study describes the extraction and
biochemical characterization of two proteases from the r
290 The
biochemical characterizations of two new classes of comp
291 We performed
biochemical characterization of UAP56's ATPase and helic
292 Despite structural and
biochemical characterization of UbiX as a flavin mononuc
293 Phenotypic and
biochemical characterization of various BamA L6 mutants
294 Herein, we report the
biochemical characterization of VolA.
295 cus we used a genetic approach with detailed
biochemical characterization of wax compounds.
296 Here, we report a
biochemical characterization of xanthine DNA glycosylase
297 mosomal dif site that binds Xer in vivo, and
biochemical characterization of Xer/dif recombination re
298 This report is the first
biochemical characterization of XPB homologues from bact
299 Biochemical characterization of ZmCtl1 overexpressing li
300 Molecular and
biochemical characterization of zmm28 transgenic plants