1 ypanosoma cruzi have been identified through
expression cloning.
2 (C)) as an amyloid-beta-oligomer receptor by
expression cloning.
3 in-dependent kinase (Cdk) complexes by using
expression cloning.
4 proteins in embryonic rat sensory neurons by
expression cloning.
5 strate the utility of phage display for cDNA
expression cloning.
6 oribosyl transferase (APRT), was isolated by
expression cloning.
7 acting regulators of alternative splicing by
expression cloning.
8 lated from a human pituitary cDNA library by
expression cloning.
9 tein and used it to screen a cDNA library by
expression cloning.
10 me HCC patient group, was identified by cDNA
expression cloning.
11 from a Jurkat cell cDNA library by COS cell-
expression cloning.
12 enes encoding these proteins using bacterial
expression cloning.
13 Using
expression cloning and binding studies with Fc fusion pr
14 The xylB gene was identified by
expression cloning and by sequence homology to known bet
15 We report the
expression cloning and characterization of GDNFR-alpha,
16 We isolated a human cDNA by
expression cloning and characterized its gene product as
17 tein recognised by UB25 has been isolated by
expression cloning and designated CIH1 (Colletotrichum I
18 date this prediction by conventional antigen
expression cloning and detection.
19 Rapid
expression cloning and differential RNA display detect a
20 Rapid
expression cloning and differential RNA display identifi
21 e KMC8.8-recognized molecule was isolated by
expression cloning and found to be identical in sequence
22 The importance of
expression cloning and functional analysis of newly iden
23 Using
expression cloning and functional analysis, we report he
24 Expression cloning and nucleotide sequence analysis of t
25 Expression cloning and sequencing of the cDNA obtained f
26 had been identified by B-cell receptor (BCR)
expression cloning and subsequent protein array screenin
27 ata from oriented peptide library screening,
expression cloning,
and in vitro binding experiments.
28 Here we report the
expression, cloning,
and characterization of a tumor-ass
29 Thus, the use of a proven T-cell
expression cloning approach and a mouse model of periodo
30 DNA (cDNA) from mouse epithelial cells in an
expression cloning approach and encodes a product relate
31 An
expression cloning approach and the GMD-deficient CHO ho
32 e T cell line in conjunction with the T cell
expression cloning approach resulted in the identificati
33 Here we used an
expression cloning approach to identify genes in human c
34 By using an
expression cloning approach to identify novel factors th
35 An
expression cloning approach was employed to identify the
36 Using an
expression cloning approach we have isolated a single cD
37 Using an iterative
expression cloning approach we identified claudin-1 (CLD
38 Through a functional
expression cloning approach, a gag-retinoid X receptor b
39 Using an in vitro
expression cloning approach, we have identified 40 human
40 Using an
expression cloning approach, we have unveiled a novel fu
41 Using a retroviral vector-mediated
expression cloning approach, we identified macrophage sc
42 Using a retrovirus-mediated cDNA
expression cloning approach, we identified the grainyhea
43 the gene encoding the Kdo kinase by using an
expression cloning approach.
44 as ACAT-1, was identified in 1993 through an
expression cloning approach.
45 ine fibroblasts and screened by a functional
expression cloning approach.
46 e (HuHAS1) cDNA was isolated by a functional
expression cloning approach.
47 Therefore, we used an
expression-cloning approach to identify novel factors pr
48 dentified a B cell receptor for BLyS through
expression cloning as TACI, an orphan TNF receptor homol
49 An
expression cloning assay enabled identification of a can
50 diotrophin-1 (CT-1) was recently isolated by
expression cloning based on its ability to induce an inc
51 By
expression cloning,
Bonzo (also known as STRL33 and TYMS
52 ilies that were isolated through serological
expression cloning by using a technique that we specific
53 hat our in vivo CTLA-4 blockade-based T cell
expression cloning can identify immunogenic cancer antig
54 ollection were used in a Drosophila in vitro
expression cloning ("
DIVEC") screen for substrates of PA
55 ion while addressing the major bottleneck of
expression cloning--
efficient candidate gene recovery.
56 While
expression-cloning enzymes involved in heparan sulfate b
57 Previously,
expression cloning for cDNAs whose overexpression confer
58 ified as decay-accelerating factor (CD55) by
expression cloning from a 1264 cDNA library.
59 This procedure is suitable for
expression cloning from retroviral libraries and should
60 We now describe the purification and the
expression cloning from tumor cells of a third VEGF rece
61 Expression cloning identified colony-stimulating factor-
62 Expression cloning identified glypican, a cell surface p
63 cal neurons via its C terminus, and unbiased
expression cloning identifies Sortilin (Sort1) as a bind
64 t hypertrophic factor discovered by coupling
expression cloning in a mouse embryonic stem cell-based
65 This identification was confirmed by
expression cloning in E. coli; we observed HA capsule fo
66 rio harveyi strain B392 has been isolated by
expression cloning in Escherichia coli.This enzyme catal
67 We applied
expression cloning in mouse ES cells to isolate a self-r
68 e the power, ease, speed, and flexibility of
expression cloning in the X. laevis embryo.
69 casein kinase I (CKI), which was isolated by
expression cloning in Xenopus embryos.
70 Expression cloning in Xenopus laevis oocytes was used to
71 Using
expression cloning in Xenopus oocytes coexpressing the c
72 transport (SFT) was identified by functional
expression cloning in Xenopus oocytes.
73 Functional
expression cloning is a powerful strategy for identifyin
74 ng an extensive substrate screen by in vitro
expression cloning (
IVEC).
75 To search for an efficient
expression cloning method, we mixed plasmid pmDATsv, whi
76 used mAb 3B3 in an immunofluorescence-based
expression-cloning method and isolated a cDNA clone conf
77 up C Fanconi anemia gene, FAC, identified by
expression cloning methods, encodes a protein of unknown
78 Expression cloning of a cDNA complementing the trf1 muta
79 We report the isolation by
expression cloning of a cDNA encoding a 17beta-HSD6 isoz
80 Here, we describe
expression cloning of a cell surface receptor for TALL-1
81 Here we report the
expression cloning of a liver cDNA encoding a unique pro
82 Expression cloning of a mouse kappa chain fragment has b
83 We report the
expression cloning of a novel leptin-binding protein of
84 Here we report the
expression cloning of a novel Y-type receptor from rat h
85 We now report the isolation by
expression cloning of a rat galanin receptor cDNA distin
86 in that it allows use of the frog oocyte for
expression cloning of an LPA receptor DNA, an assay syst
87 A encoding Bru using a novel approach to the
expression cloning of an RNA-binding protein, and the id
88 tify receptor-edited cells and combined with
expression cloning of B cell receptors, allowed us to an
89 Herein we report the
expression cloning of eight Leishmania: Ags using parasi
90 of TG2 by a panel of human mAbs generated by
expression cloning of Ig genes from single plasma cells
91 We have previously described the
expression cloning of nine Borrelia burgdorferi antigens
92 In this report, we present the cDNA
expression cloning of PREIIBF.
93 Expression cloning of the first inward rectifier K chann
94 Expression cloning of the gene encoding Pept-1 has predi
95 Expression cloning of the PIG-A gene has been followed b
96 These cells should now be useful for
expression cloning of the sterol-regulated S1P gene.
97 Here we describe the
expression cloning of three novel GalA transferases from
98 Here we report the
expression cloning of two murine ligands for the lectin-
99 Here we report the identification, following
expression cloning,
of a molecule (STING; stimulator of
100 Thus, phage library panning combined with
expression cloning permits identification of antibodies
101 n (IGRP) was cloned using a subtractive cDNA
expression cloning procedure from mouse insulinoma tissu
102 itors, used in conjunction with the in vitro
expression cloning procedure, led to the identification
103 leading to and since the cloning of NBC: NBC
expression cloning,
protein features, clone physiology,
104 b 50-6 was isolated by a modified eukaryotic
expression cloning protocol from a HEp-3 library.
105 Using an
expression cloning protocol, cDNA encoding NAG-2 was iso
106 Expression cloning reveals that the antigen on the exter
107 Expression cloning reveals that TM-1 binds CD44H.
108 ity to complement dominant suppression in an
expression cloning scheme.
109 gene twin (Xtwn), which was identified in an
expression cloning screen for molecules with dorsalizing
110 ansport protein (FATP1) was identified in an
expression cloning screen for proteins that facilitate t
111 In an
expression cloning screen in Xenopus embryos, we identif
112 We have conducted an
expression cloning screen of approximately 50, 000 cDNAs
113 An
expression cloning screen was used to isolate a novel ge
114 BF-2) as a potent neuralizing activity in an
expression cloning screen.
115 We conducted an
expression-cloning screen for modifiers of CARD11, a cri
116 We used an
expression-cloning screen to search for mouse proteins t
117 Using a Xenopus
expression-cloning screen, we have isolated Gremlin, a n
118 d proteomics provide correlative data, while
expression cloning screens can link genes directly to bi
119 Xie et al. identified a cDNA sequence in the
expression cloning search for the kappa opioid receptor.
120 Serologic identification by recombinant
expression cloning (
SEREX) has been demonstrated to be a
121 s described in this paper, SEM combined with
expression cloning,
should prove of wide utility for dev
122 Expression cloning showed that this antibody binds fucos
123 While
expression cloning signaling molecules downstream of TGF
124 d transport protein (FATP) was identified by
expression cloning strategies and shown by transfection
125 n has relied upon biochemistry, genetics and
expression cloning strategies.
126 We have used an
expression cloning strategy based on a cell-attachment a
127 We have used an
expression cloning strategy based on calcium influx to i
128 ral ligands of human HAVCR1/TIM1, we used an
expression cloning strategy based on the binding of dog
129 ein (CaT1) cloned from rat duodenum using an
expression cloning strategy in Xenopus laevis oocytes, w
130 An
expression cloning strategy in Xenopus laevis was used t
131 We have developed an
expression cloning strategy that can identify catalytic
132 We have utilized a modified
expression cloning strategy to identify a developmentall
133 We employed an
expression cloning strategy to identify a goldfish odora
134 In this study, we used an
expression cloning strategy to identify molecules that r
135 ein reporter for tau exon 10 skipping and an
expression cloning strategy to identify splicing regulat
136 In the present study, we used an
expression cloning strategy to identify transcription fa
137 repression by Msx2, we applied a Farwestern
expression cloning strategy to identify transcripts enco
138 Here we describe a novel
expression cloning strategy to rapidly isolate cDNAs enc
139 We have employed an
expression cloning strategy to search for axon repellent
140 GFR)-positive breast cancers, we utilized an
expression cloning strategy to seek gene products that m
141 As an indirect consequence of the
expression cloning strategy used, we have been able to i
142 An
expression cloning strategy was employed to identify cDN
143 Using an
expression cloning strategy we recently developed, we is
144 We describe an
expression cloning strategy whereby we isolated a novel
145 nerve cell model for oxidative stress and an
expression cloning strategy, a gene involved in oxidativ
146 Using an
expression cloning strategy, the cDNA encoding the human
147 In the present study using an
expression cloning strategy, the cDNA for the human mann
148 Through an
expression cloning strategy, we have identified a previo
149 Using an
expression cloning strategy, we identified transgelin (S
150 annotated as yfhB but renamed pgpC) using an
expression cloning strategy.
151 dentified a binding partner for P84 using an
expression cloning strategy.
152 ified two immunogenic LM proteins by a novel
expression cloning strategy.
153 tified in rat osteosarcoma (ROS) cells by an
expression cloning strategy.
154 ubunit as a novel caspase substrate using an
expression cloning strategy.
155 on, we developed a novel retrovirus-mediated
expression cloning strategy; and using this approach, we
156 how the feasibility of a modified functional
expression-cloning strategy to identify human cDNAs that
157 Here we use an
expression-cloning strategy to identify SIV receptors an
158 . trachomatis-specific murine T cells and an
expression-cloning strategy to show that CT442 from Chla
159 An
expression-cloning strategy was used to isolate a cDNA t
160 r define this receptor, we report results of
expression cloning studies from an MCF-7 cell library.
161 BZLF2.Fc was used in an
expression cloning system and found to bind to a beta-ch
162 he identification of drug targets, and as an
expression cloning system for the discovery of gene prod
163 fic diseases or organ adaptation, we used an
expression cloning system in Saccharomyces cerevisiae to
164 Using an
expression cloning system that identifies activating rec
165 Here, we have used a retrovirus-based
expression cloning system to clone a murine cDNA, LDLB,
166 Using an
expression cloning system to discover novel genes involv
167 ive of this study was to use a phage display
expression cloning system to identify novel autoantibody
168 ed by DX5 mAb by using a retrovirus-mediated
expression cloning system.
169 or such candidate proteins using an in vitro
expression cloning technique and biochemical reconstitut
170 r TIE2, termed Angiopoietin-1, using a novel
expression cloning technique that involves intracellular
171 Using an
expression cloning technique, we isolated cDNAs for eigh
172 Expression cloning techniques have identified a series o
173 The SEM-derived mAbs have been used for
expression cloning the gene encoding this human tumor an
174 We identified by
expression cloning the zinc finger protein RREB-1, also
175 By
expression cloning,
the carbohydrate recognition domain
176 d in cell cycle arrest by p53, was cloned by
expression cloning through cyclin-dependent kinase 2 (CD
177 Here, we have used cDNA
expression cloning to identify a novel human minor H ant
178 tion model in conjunction with direct T cell
expression cloning to identify Ags involved with the ear
179 tion model in conjunction with direct T-cell
expression cloning to identify bacterial antigens that i
180 We previously used
expression cloning to identify CAT4.5, a human cDNA that
181 We used
expression cloning to identify cDNAs encoding a wax synt
182 in integrin-mediated signaling, we have used
expression cloning to identify cDNAs that encode potenti
183 Here we used serological
expression cloning to identify commensal bacterial prote
184 We used
expression cloning to identify junction adhesion molecul
185 Using
expression cloning to identify novel components of the W
186 We used
expression cloning to isolate cDNAs encoding a microsoma
187 s pathway of cholesterol metabolism, we used
expression cloning to isolate cDNAs that encode murine a
188 We used
expression cloning to isolate cDNAs that prevent Ras sup
189 lication of the novel technique of serologic
expression cloning to murine models of colitis discovere
190 hat combines retroviral mutagenesis and cDNA
expression cloning to reveal proteins involved in the ex
191 Fine specificity was determined by
expression cloning using molecular libraries of viral DN
192 Expression cloning using the -186/-148 portion of the pr
193 tide/Kb MHC class I complex were isolated by
expression cloning using the BCZ39.84 T cell as a probe.
194 Mammalian cDNA
expression cloning was used to identify novel regulators
195 Functional
expression cloning was used to isolate a cDNA from a mac
196 Through
expression cloning we have isolated a cDNA-encoding SREB
197 By using an independent approach,
expression cloning,
we found that the Grb2 SH3 domains b
198 With the use of
expression cloning,
we have found that paired immunoglob
199 Using
expression cloning,
we have identified a 3.7-kilobase pa
200 Using
expression cloning,
we have identified an H2-M3-restrict
201 Using functional
expression cloning,
we have identified GAS5 (growth arre
202 By functional cDNA
expression cloning,
we have previously established that
203 Using cDNA
expression cloning,
we identified a 10-mer peptide (CT-R
204 Using
expression cloning,
we identified an accessory protein,
205 By using
expression cloning,
we identified human transferrin rece
206 Using TCR
expression cloning,
we identified novel conserved CD4+ T
207 Using
expression cloning,
we identified the first "late" T lym
208 By
expression cloning,
we identified the H13 locus, a class
209 homologous cDNAs were previously isolated by
expression cloning with a monoclonal antibody that recog
210 Expression cloning with a phage-displayed cDNA library y
211 solated from a rabbit bone marrow library by
expression cloning with the anti-APP-1 monoclonal antibo
212 for the ovarian cancer antigen CA125, using
expression cloning with the anti-CA125 Ig, OC125.
213 Expression cloning with this region of DNA now shows tha
214 By using
expression cloning with Xenopus laevis oocytes, we have