1 the structure of the protein as revealed by
molecular cloning.
2 hingosine 1-phosphate have been described by
molecular cloning.
3 lysophosphatidic acid have been described by
molecular cloning.
4 g and microsequencing, which was followed by
molecular cloning.
5 s isolated from a recombinant CHO library by
molecular cloning.
6 ples without separating them by culturing or
molecular cloning.
7 truct high-resolution haplotype maps without
molecular cloning.
8 te, 6 mammalian GRKs have been identified by
molecular cloning.
9 and keratocan) have been characterized using
molecular cloning.
10 d-based affinity purification and subsequent
molecular cloning.
11 xo32) were identified in Xenopus oocytes by
molecular cloning.
12 eptors for taste have been identified yet by
molecular cloning.
13 K isoforms were identified in human brain by
molecular cloning.
14 TCRs from PBMCs without cellular sorting or
molecular cloning.
15 DNA computing, biophysics and even standard
molecular cloning.
16 Here we identify by
molecular cloning a Drosophila cDNA encoding a protein (
17 the discovery of hepatitis C virus (HCV) by
molecular cloning almost a quarter of a century ago, unp
18 Our approach requires no
molecular cloning and allows a large number of cell line
19 Here, we report the
molecular cloning and biochemical characterization of Rh
20 This allowed for the
molecular cloning and biological analysis of transmitted
21 Molecular cloning and cDNA sequencing in human brain rev
22 We report the
molecular cloning and characterization of 4.1N, a novel
23 We report the
molecular cloning and characterization of a Histoplasma
24 Here, we describe the
molecular cloning and characterization of a human gene r
25 In this paper, we present the
molecular cloning and characterization of a murine homol
26 We report here the
molecular cloning and characterization of a new full-len
27 Here, we report the
molecular cloning and characterization of a novel AOS-en
28 Here we describe the
molecular cloning and characterization of a novel family
29 We describe the
molecular cloning and characterization of a novel giant
30 We report the
molecular cloning and characterization of a novel human
31 We describe the
molecular cloning and characterization of a novel myeloi
32 We report here the
molecular cloning and characterization of a recently ide
33 We report here the
molecular cloning and characterization of a t(1;14)(q21;
34 In this report, we describe the
molecular cloning and characterization of a third FOG-re
35 ORL-1) was discovered relatively recently by
molecular cloning and characterization of an orphan GPCR
36 The
molecular cloning and characterization of BUR2 presented
37 The
molecular cloning and characterization of BUR3 and BUR6
38 We report here the
molecular cloning and characterization of chicken and mo
39 Here, we report the
molecular cloning and characterization of hJNKK2 alpha,
40 Here, we describe the
molecular cloning and characterization of HOTHEAD (HTH),
41 We now describe the
molecular cloning and characterization of IKKbeta, a sec
42 We believe that the
molecular cloning and characterization of N-SMase cDNA w
43 Reported here is the
molecular cloning and characterization of rat CDO, a nov
44 We report the
molecular cloning and characterization of SMGC, a major
45 In this study, we report the
molecular cloning and characterization of the human 2B4
46 We report here the
molecular cloning and characterization of the mouse CysL
47 We present here the
molecular cloning and characterization of the mutator2 (
48 We report
molecular cloning and characterization of the rat PSGL-1
49 We describe the
molecular cloning and characterization of the unc-64 loc
50 Here we report the
molecular cloning and characterization of this enzyme.
51 athway is re-emerging as a powerful tool for
molecular cloning and DNA assembly.
52 In this study, we describe the
molecular cloning and expression analysis of a mouse pyg
53 Its suitability for genome-scale
molecular cloning and expression is demonstrated in this
54 We report the
molecular cloning and expression of a phosphatidic acid-
55 d a development of techniques leading to the
molecular cloning and expression of many hematopoietic g
56 Thus, further ongoing studies for
molecular cloning and expression of these genes with str
57 Here, we report the
molecular cloning and expression pattern of a new Paired
58 We describe the
molecular cloning and expression pattern of the CLV1 gen
59 ependent means including the autoantibodies'
molecular cloning and expression.
60 Toward this end, we report here the
molecular cloning and extensive structure-function analy
61 In this paper we document the
molecular cloning and functional analysis of the two uni
62 We report here the
molecular cloning and functional characterization of a n
63 We report here the
molecular cloning and functional characterization of a p
64 Here we describe the
molecular cloning and functional characterization of Ara
65 Here we describe the
molecular cloning and functional expression of a novel m
66 traightforward approach that resulted in the
molecular cloning and functional expression of CCH1 by e
67 We describe
molecular cloning and functional expression of the calci
68 The present work describes the
molecular cloning and functional identification of a uni
69 d cyclization is followed by a discussion of
molecular cloning and heterologous expression of terpeno
70 The
molecular cloning and identification of DNA-binding prot
71 Based on results of
molecular cloning and immunolocalization, it appears tha
72 Molecular cloning and Northern blot analyses reveal that
73 Here we report the
molecular cloning and nucleotide sequence of one of the
74 We report the
molecular cloning and nucleotide sequence of the mpt63 g
75 these preceding studies, we report here the
molecular cloning and recombinant expression in Escheric
76 Herein, we report the
molecular cloning and recombinant expression of both gen
77 bispecific binding modality was generated by
molecular cloning and recombinant protein expression.
78 Molecular cloning and sequence analysis of this genomic
79 Molecular cloning and sequence analysis showed that, rel
80 Molecular cloning and sequence comparison indicate that
81 Molecular cloning and sequence determination for 8822 bp
82 Molecular cloning and sequencing indicate that IKK-gamma
83 ed from purified p30 and p38 facilitated the
molecular cloning and sequencing of cDNAs coding for the
84 onors and 11 NHL biopsy samples by extensive
molecular cloning and sequencing.
85 Here, we used
molecular cloning and site-directed mutagenesis to ident
86 We report here the
molecular cloning and some properties of EI-C.
87 equencing technologies that do not depend on
molecular cloning and that produce very long reads.
88 In this report, we describe the
molecular cloning and the complete nucleotide sequence o
89 Here, we report the
molecular cloning and the functional characterization of
90 We report the
molecular cloning and tissue distribution of zebrafish t
91 ate additional protein methyltransferases by
molecular cloning and to characterize new methyltransfer
92 We report the purification,
molecular cloning,
and characterization of a 40-kDa glyc
93 We report the purification,
molecular cloning,
and expression of a novel cytosolic c
94 Here we describe the purification,
molecular cloning,
and expression of this vitamin D resi
95 We now report the identification,
molecular cloning,
and functional characterization of a
96 With RACE,
molecular cloning,
and long read sequencing, we found a
97 Through genetic mapping,
molecular cloning,
and RNA interference, we have demonst
98 using a HOS-CD4+ cell system, biological and
molecular cloning,
and sequencing the envelope gene V3 r
99 Recently, using
molecular cloning approaches, three new neuropeptide Y (
100 iated with a widely diverse microbiota using
molecular cloning approaches.
101 d for this approach require manipulation via
molecular cloning as well as in vitro transcription.
102 y effectively decreases the requirements for
molecular cloning,
because the nucleic acid sequence enc
103 tylcholine receptors have been discovered by
molecular cloning,
but their pharmacological similaritie
104 We now describe the
molecular cloning,
characterization and expression of Kr
105 Molecular cloning,
DNA sequencing and sequence analysis
106 were uncovered, the relatively new field of
molecular cloning enabled us and indeed, the entire comm
107 ptide sequence information which was used in
molecular cloning experiments.
108 In this report, we describe the
molecular cloning,
expression, and characterization of E
109 In this report we describe
molecular cloning,
expression, and characterization of h
110 Here we report the
molecular cloning,
expression, localization, and functio
111 Here we report on the
molecular cloning,
expression, localization, and pharmac
112 Over the last four decades,
molecular cloning has evolved tremendously.
113 Molecular cloning has identified two vesicular monoamine
114 Molecular cloning has isolated two subtypes of Na+-nucle
115 Molecular cloning has recently demonstrated that the ves
116 Molecular cloning has recently identified a vertebrate b
117 Molecular cloning has revealed a diverse family of genes
118 In tomato (Solanum lycopersicum),
molecular cloning has revealed that the underlying genes
119 Molecular cloning has revealed the presence of a large n
120 structural biology, molecular modelling and
molecular cloning have enabled the systematic functional
121 ecombination holds the potential for optimal
molecular cloning,
however, current strategies require s
122 d pXO2 of Bacillus anthracis was isolated by
molecular cloning in Escherichia coli and shown to repli
123 However, this approach relies on
molecular cloning in order to isolate and amplify indivi
124 With the availability of techniques of
molecular cloning in the early 1 980s, the first hematop
125 type 4 (GLUT4) protein in 1988 inspired its
molecular cloning in the following year.
126 Enabled by the tools of
molecular cloning,
initial experimental queries into the
127 Molecular cloning is a cornerstone of biomedical, biotec
128 Molecular cloning is an important procedure in molecular
129 Here we report the
molecular cloning of a cDNA encoding a human homologue o
130 We report here the
molecular cloning of a cDNA encoding MIH of the edible c
131 Here, we report the
molecular cloning of a cDNA encoding this antigen and sh
132 We report the purification and
molecular cloning of a cDNA for a 53-kDa beta1,3-glucan-
133 These results represent the first
molecular cloning of a cDNA for the lysosomal type Ca2+-
134 We report the
molecular cloning of a class of putative human receptors
135 Here, we report the
molecular cloning of a GATA-3 interacting protein, repre
136 We have recently reported the
molecular cloning of a gene, gspK, in Vibrio cholerae th
137 Molecular cloning of a HEV-expressed core1-beta 1,3-N-ac
138 report the identification, purification, and
molecular cloning of a human protein that promotes the f
139 Here, we report the
molecular cloning of a mouse gene encoding an Lc3 syntha
140 t of a transcription map will facilitate the
molecular cloning of a myeloid leukemia suppressor gene
141 tion of the smallest CDS will facilitate the
molecular cloning of a myeloid leukemia suppressor gene
142 commonly deleted segment will facilitate the
molecular cloning of a myeloid leukemia suppressor gene
143 Molecular cloning of a near full-length cDNA revealed th
144 Here we report the
molecular cloning of a new member of the mammalian MAP k
145 Here, we report the
molecular cloning of a novel human gene that shares sign
146 We report the
molecular cloning of a novel isoform of p38 MAP kinase,
147 We report here the
molecular cloning of a novel member of the triglyceride
148 In this report, we describe the
molecular cloning of a novel, low-molecular-weight antig
149 We describe the first isolation by
molecular cloning of a plant CPSase gene (CPAII) derived
150 This is the first report of the
molecular cloning of a plant LKR-SDH genomic and cDNA se
151 ched for oncogenes and recently reported the
molecular cloning of a potent oncogene (hPTTG) from huma
152 Here we describe the
molecular cloning of a putative molecular scaffold prote
153 mammary carcinoma cell lines resulted in the
molecular cloning of a receptor-like PTP, also known as
154 We report the
molecular cloning of a rice plant homolog of these anima
155 We describe here the mutant phenotype and
molecular cloning of a second maize gene that functions
156 Molecular cloning of a serotonin transporter from the ce
157 We describe here the isolation and
molecular cloning of Acanthamoeba MBP.
158 Molecular cloning of ADAMTS13 elucidates the structure o
159 soenzymes from Aspergillus fumigatus and the
molecular cloning of amadoriase II.
160 We report here the
molecular cloning of an approximately 1-Mb region of rec
161 The
molecular cloning of AXR5 revealed that the gene encodes
162 Here, we describe the purification and
molecular cloning of CA150, a nuclear protein that is as
163 Like many toxic genes, the
molecular cloning of CCH1 has been a major challenge; co
164 shed the relationship between p36 and p40 by
molecular cloning of cDNAs that encode both proteins and
165 Here we describe the
molecular cloning of CIKS (connection to IKK and SAPK/JN
166 Molecular cloning of corneal epithelial CAP37 indicated
167 Purification and
molecular cloning of ecto-ATPase and other canalicular p
168 Molecular cloning of eer1 reveals that its mutant phenot
169 Here we describe the identification and
molecular cloning of flotillin.
170 Here we report the
molecular cloning of GAI and a closely related gene GRS.
171 Since the
molecular cloning of GCS, much has been learned about th
172 We report here on the
molecular cloning of GLUCOSE INSENSITIVE1 (GIN1) and ABS
173 Molecular cloning of GPVI has revealed the presence of a
174 The
molecular cloning of HCA and the availability of recombi
175 Molecular cloning of hepatobiliary transport systems has
176 Molecular cloning of HIV-1 PCR products which might impr
177 Here we report the
molecular cloning of human and mouse orthologs of the ye
178 Molecular cloning of human RyR2 identified 2 alternative
179 r introgression mapping and, ultimately, for
molecular cloning of interacting genes that contribute t
180 Molecular cloning of low-voltage activated (LVA) T-type
181 Molecular cloning of Lr21 was facilitated by diploid/pol
182 t map provides an important resource for the
molecular cloning of Ltxs1.
183 With the
molecular cloning of many of the proteins and regulatory
184 The
molecular cloning of many of the transporter and regulat
185 Molecular cloning of membrane-spanning mammalian adenyly
186 Molecular cloning of mouse ADAMTS13 identified 2 truncat
187 Coincident with the
molecular cloning of NF-kappaB/RelA and identification o
188 ce in the study of axon regeneration was the
molecular cloning of Nogo.
189 We report the purification and
molecular cloning of NPA-binding PM APs and associated p
190 The
molecular cloning of nuclear genes that restore fertilit
191 Molecular cloning of p205 cDNA reveals a bipartite struc
192 Here we describe the
molecular cloning of p64H1, a p64 homolog, from both hum
193 Here we report the
molecular cloning of par-6 and the immunolocalization of
194 We report the
molecular cloning of PPcK from the facultative Crassulac
195 The
molecular cloning of Rgh3 suggests that alternative RNA
196 Molecular cloning of RRP6 revealed its homology to a 100
197 Molecular cloning of SGL1 revealed that it encodes the M
198 Here we describe the
molecular cloning of SLAP-130, a SLP-76-associated phosp
199 Molecular cloning of slp1+ revealed that slp1+ encodes a
200 dure we utilized shortens and simplifies the
molecular cloning of small double-stranded DNA viruses a
201 Molecular cloning of subunit 4 of the complex revealed t
202 We report here the identification and
molecular cloning of such a porin.
203 The
molecular cloning of tapasin revealed it to be a transme
204 Here we report the
molecular cloning of TGP3, an additional G-DNA-binding p
205 In this study, we likewise report the
molecular cloning of the 2-O-sulfatase from the same bac
206 Molecular cloning of the AVR-Pita and Pi-ta genes will a
207 We report the
molecular cloning of the binding protein that recognizes
208 Molecular cloning of the breakpoints of a t(1;10)(p22q21
209 Molecular cloning of the C3aR has facilitated studies to
210 The
molecular cloning of the CA125 antigen will lead to a be
211 Here we report the
molecular cloning of the cadherin-associated tyrosine ph
212 However,
molecular cloning of the cDNA encoding this protein (p22
213 We report the
molecular cloning of the complete ancestral TPC gene fam
214 al analysis of single and double mutants and
molecular cloning of the corresponding SEC genes, we est
215 We report here the
molecular cloning of the Delta4,5 glycuronidase gene fro
216 Recent
molecular cloning of the epithelial sodium channel (ENaC
217 ean (Glycine max) nodules, we now report the
molecular cloning of the first legume PpcK from a soybea
218 Molecular cloning of the full-length Stramonita NOS (Sh-
219 Molecular cloning of the gene encoding pp36 should facil
220 Molecular cloning of the gene shows that the inferred HI
221 We report here the
molecular cloning of the gene that encodes MKK7 and demo
222 (QTL) mapping is still too coarse to permit
molecular cloning of the genetic determinants.
223 ningoencephalitis in horses and sheep led to
molecular cloning of the genome of a novel, negative-str
224 Molecular cloning of the Hnrnph1 5' UTR containing all f
225 of cis-IPTase activity 40 years ago and the
molecular cloning of the human cDNA encoding the mammali
226 In this study we describe the
molecular cloning of the mRNA sequence encoding the chic
227 actor, followed by amino acid sequencing and
molecular cloning of the murine cDNA, the orthologue of
228 In the present study, we report the
molecular cloning of the myeloid DAP12-associating lecti
229 Recently, two groups have reported the
molecular cloning of the putative catalytic subunit (hES
230 Molecular cloning of the SCCA genomic region revealed th
231 Molecular cloning of the SPA1 gene indicates that SPA1 i
232 The
molecular cloning of the t(5;10)(q33;q22) associated wit
233 Before the
molecular cloning of the T1rs, it had been proposed that
234 sms of taste sensation have been gained from
molecular cloning of the transduction elements, biochemi
235 sients are absent in tre cardiomyocytes, and
molecular cloning of the tre mutation revealed that the
236 This study reports the
molecular cloning of the two Ppc genes in C. reinhardtii
237 The
molecular cloning of these novel WT-sensitive type III P
238 The purification and
molecular cloning of this cell surface receptor were fin
239 The
molecular cloning of this gene may lead to a better unde
240 The
molecular cloning of this region provides a valuable too
241 Here, we report the
molecular cloning of three Bla g 1 cDNA clones, which sh
242 The
molecular cloning of three high-affinity lysophosphatidi
243 We describe here the
molecular cloning of TTN5 using a T-DNA-tagged allele.
244 In this paper, we describe the
molecular cloning of two new protein components of CFP a
245 Here, we report
molecular cloning of two TRPV1 cDNA variants from dorsal
246 Molecular cloning of vesicular monoamine transporters sh
247 ture high-resolution mapping and ultimately,
molecular cloning,
of the interacting genes that contrib
248 eosporus was analyzed by Tn5099 mutagenesis,
molecular cloning,
partial DNA sequencing, and insertion
249 native plant membranes, we describe here the
molecular cloning,
physical mapping, and heterologous ex
250 need for enzymatic assembly and reduces all
molecular cloning procedures to a single-tube, single-st
251 In this study, we report the
molecular cloning,
promoter characterization, developmen
252 In the previous paper, we described the
molecular cloning,
recombinant expression, and prelimina
253 Molecular cloning results revealed that ovochymase is tr
254 From peptide sequence,
molecular cloning revealed a cDNA encoding a novel prote
255 Molecular cloning revealed four isoforms of the protein.
256 Molecular cloning revealed that LC1 is a member of the S
257 Molecular cloning revealed that teleosts have eight SCNA
258 Molecular cloning revealed that this phenotype is caused
259 Molecular cloning revealed the similarity of gephyrin to
260 Molecular cloning revealed the unique serpin endopin 2C
261 specifically to methylated DNA in vitro and
molecular cloning reveals a similarity to a known methyl
262 Molecular cloning reveals that dak and box encode ext2 a
263 Molecular cloning reveals that the heart and mind lesion
264 Using
molecular cloning,
RT-PCR, Western blotting, immunolocal
265 A more exact characterization through
molecular cloning showed that 97.7% of replicons contain
266 PKA assays and
molecular cloning showed that one suppressor mutation (s
267 Molecular cloning shows that she-1 encodes a novel F box
268 receptors of medical interest, it has eluded
molecular cloning since its discovery, and the gene that
269 cription-polymerase chain reaction (RT-PCR),
molecular cloning,
Southern hybridization, nucleotide se
270 posite nucleotide sequence, thereby forgoing
molecular cloning steps and the use of restriction enzym
271 A complete circumvention of
molecular cloning steps qualifies this method for sequen
272 Recent
molecular cloning studies have found several families of
273 Recent fluorescent in situ hybridization and
molecular cloning studies have identified several novel
274 Molecular cloning studies have identified three differen
275 Pharmacological and
molecular cloning studies have identified three opioid-r
276 Molecular cloning studies have revealed a large family o
277 Molecular cloning studies have revealed the existence of
278 Molecular cloning studies have shown that GPCRs form one
279 Evidence from pharmacological and
molecular cloning studies indicates the presence of mult
280 The emergence of
molecular cloning techniques and identification of fluor
281 re, we use biochemical, ultrastructural, and
molecular cloning techniques to obtain a comprehensive p
282 In addition,
molecular cloning techniques were used to clone and expr
283 Using standard
molecular cloning techniques, we identified and isolated
284 p through in vivo replication using standard
molecular cloning techniques.
285 Here we show by
molecular cloning that each catalytic subunit in amphibi
286 of Ramon y Cajal to the current advances in
molecular cloning,
the retina has served as an ideal mod
287 n, the discovery of oncogenes, the advent of
molecular cloning,
the search for human cancer viruses,
288 or function and that this method requires no
molecular cloning,
this method should be applicable for
289 alterations of the genome requires extensive
molecular cloning to build targeting vectors and DNA-bas
290 We employed
molecular cloning to examine how PTEN's stability, subce
291 boratory-based selection, the application of
molecular cloning to insecticide targets and to the meta
292 mass spectrometry sequencing techniques and
molecular cloning to isolate a unique melanoma Ag recogn
293 Evidence of emp4
molecular cloning was provided by the isolation of four
294 Molecular cloning was used to identify four novel mu-con
295 Using
molecular cloning,
we describe a family of potent small
296 Using
molecular cloning,
we have identified three separate dom
297 uorescence in situ hybridization (FISH), and
molecular cloning,
we show that 5 CEBP gene family membe
298 Using
molecular cloning,
we systematically studied the impact
299 After biologic and
molecular cloning,
we were able to identify a single fra
300 obacter baylyi ADP1 to create easy and rapid
molecular cloning workflows, including a Cas9-based sing