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1                 P(f)(tiss) in AQP5-null mice was restored to 0.0015 cm/s after removal of the epithel
2         Adolescent anatomical plasticity can be restored to 1-year-old mice by conditional deletion o
3               The lytic activity of lysozyme was restored to 73.4+/-1.7%-92.5+/-1.2% during PEG chain
4                  Intriguingly, ATPase values were restored to ~73% of wild-type and actin-sliding vel
5 A-I[delta(1-41)] or apoA-I[delta(1-59)], and was restored to 75-80% of the wild-type apoA-I control v
6                                         This was restored to 86% of the original value (200 U/mg) by
7                 The expression of tdaC could be restored to 9 of the remaining 11 Tda(-) mutants-tdaA
8 roximately 50%, whereas the same interaction was restored to 90% of control when the DAX-1 transcript
9 at wild-type levels of coronatine production are restored to a DeltacmaL mutant when it is supplement
10 ACAM1 or form lumena when grown in Matrigel, are restored to a normal morphogenic program when transf
11           Human A3H protein expression could be restored to a normal level either by repairing this t
12 ons were hypersensitive to cocaine and could be restored to a normal locomotor response with GIRK2a e
13 , angiosperm chromosome numbers have usually been restored to a narrow range, as one element in a 'di
14           We found that long-term depression is restored to a normal level through inhibition of PI3K
15  absent in ankyrin-B-null cardiomyocytes and is restored to a normal striated pattern by rescue with
16 ned up or down so that the neuronal activity is restored to a physiological range.
17 iogenesis in isolated Deltapos5 mitochondria is restored to a significant extent by a small amount of
18 tion kinetics of CPY* in a hrd1 Delta strain is restored to a wild-type rate when CPY* is overexpress
19 -500 nm) observed between NAPc2 and bovine X was restored to a high affinity one in a recombinant chi
20 portant for flagellar function, and motility was restored to a LytC mutant by mutation of either lonA
21 V replication in FBP1-knockdown Huh7.5 cells was restored to a normal level by downregulation of eith
22 frequency trains was faster in old mice, but was restored to a normal time course by EGTA-AM treatmen
23 e of photoreceptor-BP connectivity, the ERG, was restored to a normal waveform.
24                 Consistent with this, growth was restored to a ymr1Delta sjl2Delta sjl3Delta triple m
25 e a variant nucleotide (G(6016)) in NIa that was restored to A(6016) in eight of nine lineages by pas
26 Physiological levels of cystine (100-300 nm) were restored to acute tissue slices from the nucleus ac
27                     Aggregation behavior can be restored to ahr-1-deficient animals by heat-shock ind
28 tingly, crossing over in mei-P22 mutants can be restored to almost 50% of wild-type by X irradiation.
29                     Enzymatic activity could be restored to almost parental levels when SOD1 concentr
30 rogram change during ESC differentiation and are restored to an ESC-like state during somatic reprogr
31 at all features of a differentiated cell can be restored to an embryonic level of pluripotency withou
32                        Processing efficiency is restored to an extent, but not completely, by the hig
33 s after infection with the P/V-CPI(-) mutant was restored to approximately 50% that of control HeLa c
34            In 86 limbs, straight inline flow was restored to at least one tibial vessel.
35            Monensin titers in the WD2 strain were restored to at least wild-type levels by plasmid-ba
36                                 Net GNG flux was restored to basal by 4 h, despite a substantial redu
37                                     When SNA was restored to baseline by blunting the cocaine-induced
38                            Ejection fraction was restored to baseline in cell-treated pigs, whereas p
39 dex, and normalized very-low-frequency power were restored to baseline in the hypothermia group.
40 our (p< 0.001) during radiation therapy that were restored to baseline levels at 6 months and 1 year
41                             EA, GQOL, and EM were restored to baseline levels during follow-up, where
42 ion, when absolute numbers of CD4(+) T cells were restored to baseline levels.
43                 Transplanted liver fragments were restored to confluent tissue with normal hepatic ar
44 ionally, the elevated RyR2 levels in AD mice are restored to control levels with dantrolene treatment
45 ncreased caspases as well as NF-kappaB could be restored to control level.
46 (-/-) cells is dramatically impaired and can be restored to control levels by expression of wild-type
47 sion level in PGI-overexpressing cells could be restored to control levels by treatment with proteaso
48 d metabolic (3.9 +/- 0.3 mm) responses could be restored to control levels during fetal treatment wit
49        cGMP content in GAL4/UAS-PDE5 tubules is restored to control levels by treatment with sildenaf
50  that was observed after 52 h of wakefulness was restored to control levels during a 14-h recovery sl
51 synaptic terminal of neuromuscular junctions was restored to control levels in SMA-PLS3 mice.
52 RL KO mice than in heterozygous controls and was restored to control values by infusion of PRL, sugge
53                                           BP was restored to control values with pertussis toxin Gi-s
54 antly reduced 10 days following vagotomy and were restored to control levels by 30 days and 60 days,
55 compared with controls), but these variables were restored to control levels by anti-TNF.
56        These effects of maternal allopurinol were restored to control levels during fetal NO blockade
57 lated in the liver of alcohol-fed mice, they were restored to control levels upon ChREBP silencing.
58  during hypoxia (all P < 0.05), effects that were restored to control levels with fetal NO blockade.
59 tuted ribosomes in which purified L7/L12 had been restored to core particles.
60 he chemokine receptor CCR2, wild-type growth was restored to DeltayopM Y. pestis in both organs.
61                         Significant activity is restored to E101A and E101A/H96A by adding the lipoph
62 dria in vitro, but full binding and activity was restored to each mutant by disrupting the disulfide
63                Cyclic beta glucan export can be restored to feuP mutant cells by constitutive express
64 substituted with alanine is inactive and can be restored to full activity by substitution of wild-typ
65 y synthesized DNA possessing discontinuities is restored to full size by a "copy choice" type of DNA
66 g Ile77 for Phe77), zolpidem sensitivity can be restored to GABAA receptors in chosen cell types.
67                                 When UL133/8 was restored to HCMV laboratory strain AD169, which othe
68         FimY production in this mutant could be restored to high levels when fimU was introduced on a
69 ontext was abolished by VTA inactivation but was restored to high control levels after saline microin
70        Acute rejection of cardiac allografts was restored to IgKO recipients by passive transfer of p
71                          Protective immunity was restored to immunized C3(-/-) mice by transferring u
72                         PS-direct and Zn(2+) were restored to inactive PS under mildly denaturing con
73                              Duplication can be restored to inhibited extracts by addition of CaMKII
74  levels of testosterone, evoked GnRH release was restored to intact levels.
75 hus persists with modified kinetics that can be restored to its normally complex waveform by perchlor
76 er, it has not been determined how chromatin is restored to its undamaged state when DSB repair is co
77 on the presence of an L domain when NC-p1-p6 was restored to its C terminus.
78 eficient cells, bipolar spindle assembly can be restored to Kif2b-deficient cells by simultaneous def
79 tablish that early events in T lymphopoiesis are restored to Lck-deficient mice by provision of a tra
80 rienes, whereas arthritis susceptibility can be restored to leukotriene-deficient mice by intravenous
81 that the expression of proinflammatory genes is restored to levels comparable to the acute response t
82 ion transport was rebalanced, and PCL volume was restored to levels adequate for lung defense.
83 eplication of 73.Stop in p53-deficient cells was restored to levels comparable to those of 73.MR.
84 lation in the distal gene 50 promoter, which was restored to levels similar to those of littermate co
85 ansion of LCMV-specific LTalpha(-/-) T cells were restored to levels comparable to those of +/+ T cel
86 , constitutive NOS activity, and cGMP levels were restored to levels found in the control rats.
87 n), Cx43 GJs reformed and intracellular Cx43 were restored to levels observed before treatment.
88              Conventional B cell populations were restored to levels similar to those in lyn(-/-) mic
89 ntegrin-dependent difference in angiogenesis was restored to LLC cells by expression of PLGF, strongl
90 after a mean of 6 years; 5 of these patients were restored to MFS by secondary surgery and 1 spontane
91  protein labeled when the GlcNAc-transferase was restored to mutant extracts, Skp1 apparently mediate
92                                       CL can be restored to near wild-type levels in stationary phase
93  activity levels in these former cells could be restored to near-normal levels by electroporation wit
94 ling human heart, (2) thin-filament function is restored to near normal levels after LVAD support, an
95 Sam-S) or the histone methyltransferase Set1 is restored to near normal levels when SIN3 is also redu
96                       Nucleosome positioning was restored to near wild-type levels with (CTG)(3), whi
97  is necessary for PARP-1-induced MPT, NAD(+) was restored to near-normal levels after PARP-1 activati
98 ome-wide reduction in DNA methylation, which was restored to near-normal levels in regenerated trees.
99                    Response to isoproterenol was restored to near-normal levels in the allopurinol gr
100 pression and RAI incorporation, all of which were restored to near basal levels upon discontinuation
101 ypic cultures was reduced and axonal lengths were restored to near normal by coculturing in the prese
102   Total myocardial NOS3 protein and activity were restored to near wild-type (WT) levels in NOS3(-/-)
103 cytes, as well as their excessive apoptosis, were restored to near-normal levels in the absence of ST
104 261 NMBA-dysregulated genes in rat esophagus were restored to near-normal levels of expression by BRB
105 lified at 50% phosphorylation of E1b, but it is restored to nearly half of the pre-phosphorylation le
106           Furthermore, the wall shear stress was restored to nearly homeostatic levels throughout mos
107 this mutant, the level of vir gene induction was restored to nearly wild-type level.
108 xidative stress conditions, and the activity was restored to nearly wild-type levels by adding Msr pl
109                         Protein A production was restored to nearly wild-type levels by complementati
110 sphorylation, and E2F target gene expression were restored to nearly normal levels, rendering cells r
111 d with wild-type or vhs rescue viruses, they were restored to nearly wild-type levels of replication
112      The process by which the proper pattern is restored to newly formed tissues during metazoan rege
113 ated MYPT1 in telokin-null ileum homogenates was restored to nonphosphorylated MYPT1 levels by additi
114      Elevated levels of CGRP during migraine are restored to normal coincident with headache relief a
115 nd 8 pair, and that the levels of both pairs are restored to normal in var1 plants that overexpress A
116                           Hematologic values are restored to normal levels and organ pathology is ame
117 in both wild-type and IGF-1 transgenic mice, are restored to normal levels at a faster rate in IGF-1
118 yocardial markers altered in Id mutant cells are restored to normal throughout the chimeric myocardiu
119  disease as an isolated abnormality that can be restored to normal form and function through medical
120     Of the five impaired alleles, four could be restored to normal functionality by elevating intrace
121           A manometrically defective LES can be restored to normal sphincter, whereas a normal LES re
122 ne myocytes remained evident, but this could be restored to normal upon direct application of poloxam
123       Sleep duration in qvr/sss-null mutants is restored to normal by a qvr/sss transgene that fully
124 dia mice, there is altered progression which is restored to normal by transferrin treatment which was
125 n is down-regulated in Tbx1(+/-) embryos and is restored to normal levels in Tbx1(+/-);Trp53(+/-) emb
126 creas development and islet differentiation, is restored to normal levels, and islet beta-cell prolif
127          In addition, when protein synthesis is restored to normal levels, Myc-overexpressing precanc
128  and defined by odorant receptor expression, is restored to normal or nearly so by 3 months after les
129 ormation was defective in C1qa(-/-) mice and was restored to normal after local application of C1q.
130 ardiomyocyte proliferation in mutant embryos was restored to normal at E14.5, concurrent with the est
131 ression in a mouse model of infection, which was restored to normal by an ectopic copy of rel(+) (Spn
132 OR, p-Raptor, and p-S6RP was observed, which was restored to normal by elevating ERK1/2 activity in t
133 e and cytotoxic T lymphocyte to Ld after DST was restored to normal by IL-2.
134 Inhibited cell motility as in i, iii, and iv was restored to normal level by addition of mAb 8E11, wh
135  culture, but the defect in Foxp3 expression was restored to normal levels after 60-72 hr.
136  had low baseline telomerase activity, which was restored to normal levels by exposure to androgens.
137      When myosin light-chain phosphorylation was restored to normal levels by phosphatase knockdown,
138 icit dramatically reduced endocytosis, which was restored to normal levels by PLS3 overexpression.
139                Cytokine production, however, was restored to normal levels by restimulation with phor
140 ion of the high affinity IgE receptor, which was restored to normal levels by the addition of soluble
141                   The salt tolerance of sos2 was restored to normal levels by wild-type SOS2, but not
142                         Maternal haematocrit was restored to normal levels only in animals given supp
143 y decreased in group 2 whereas in group 1 it was restored to normal levels.
144 ed ribosomes were eliminated and translation was restored to normal levels.
145 induced permeability transition pore opening was restored to normal levels.
146 ons of albumin, in which the ionized calcium was restored to normal plasma levels, had no significant
147                              The sinI mutant was restored to normal swarming by 5 nM C(16:1)-HSL.
148 rregulatory response in STZ-diabetic animals was restored to normal with either local blockade of GAB
149 HRG-deficient mice, and accelerated clotting was restored to normal with HRG reconstitution.
150                     Moreover, motor function was restored to normal within 1 month post-MPTP in BMT-t
151  that the recovery of the cone-driven a-wave was restored to normal, whereas recovery of the cone-dri
152 r ablation, although the activation sequence was restored to normal.
153 ense, but not by sense, ODN infusions, which were restored to normal after BDNF coinfusions.
154 responses to acetylcholine in basilar artery were restored to normal after treatment with a scavenger
155 en blood glucose levels of the diabetic rats were restored to normal by insulin treatments, the AQP9
156 rther increased in 2- and 4-week MR dogs but were restored to normal in 4-week MR+beta1-RB dogs.
157 potential, and electron transport activities were restored to normal in the cybrid cells.
158 onduction velocity), disrupted by IR injury, were restored to normal level and the induction of ventr
159 ree proteolytic activities of the proteasome were restored to normal levels 7 days post-partum.
160 of B cells in Mdm2+/-Emu-myc transgenic mice were restored to normal levels in ARF+/-Mdm2+/-Emu-myc t
161 ng entropies and oscillations in both nuclei were restored to normal levels in the large-graft group.
162 cpcBA) promoter, PS I content and activities were restored to normal levels, and cells again produced
163 n mice heterozygous for IL-7 expression, but were restored to normal numbers in mice also lacking Bim
164 tive of the siRNA or an irrelevant siRNA and were restored to normal when a human codon-optimized der
165 cells, low levels of messenger RNA for CIC-1 were restored to normal.
166 ontrol values 24 h after the DO in the tanks was restored to normoxic levels.
167                             NOR inducibility was restored to NorR null mutants by expressing NorR in
168 e-deficient mice in which dopamine signaling was restored to only the medial striatum by viral rescue
169 ntly higher energy output as soon as retinol was restored to physiological concentration, without the
170 eover, we find that end-joining activity can be restored to PNK-depleted extracts by addition of huma
171 serum urea nitrogen by -72.8%; these indices were restored to precastration levels by DHT.
172                               All parameters were restored to precooling levels on rewarming.
173 co-accumbens synaptic and glial transmission were restored to predrug parameters for at least 2 wk af
174  cortisol levels initially increase and then are restored to prestress levels within several days of
175 nd discuss how these protective brakes might be restored to prevent absence seizures.
176       Phosphatase activity must subsequently be restored to promote mitotic exit.
177 reased plasma estradiol levels following T-H were restored to sham levels in the flutamide-treated T-
178 eral blood lymphocytes (PBL) to expand could be restored to some extent by coculture of these cells w
179                      Dopamine production can be restored to specific brain regions by using adeno-ass
180 YF-); a mutant cell line, +Src, in which Src was restored to SYF- cells; and the mutant cell line (CS
181                      In vitro reactivity can be restored to T cells from patients with suppressed HBV
182 ission phenotype of the vaccine strain could be restored to that of the St.
183 ing capacity of a nonpolar altA mutant could be restored to that of the wild-type strain by adding pu
184 egenerative performance of adult neurons can be restored to that of young neurons by gene transfer-me
185 ith the pcDNA vector, the GM3 synthase level is restored to that of control cells, and the ability of
186             Long term after surgery, outcome is restored to that of similar MI without PMR.
187 synthesis is reduced in most COX mutants but is restored to that of wild type by the same mss51 mutat
188 artial hepatectomy, hepatocyte proliferation is restored to that seen in WT animals.
189             The level of entry in both hosts was restored to that in strain JR32 by plasmid copies of
190 o the mtaR mutant, its growth rate in plasma was restored to that of the wild-type strain.
191 hich point food intake and glucose tolerance were restored to that of WT mice.
192 intermediate in RNA proofreading and repair, are restored to the forward position by the activity of
193  functional properties of the wounded tissue are restored to the levels before injury.
194 herapy is optimal when C1INH activity levels are restored to the normal range.
195                              Tolerance could be restored to the CD1(-/-) hosts by infusing enriched T
196 d FDM biosynthesis, and FDM production could be restored to the fdmR1::aac(3)IV mutant by expressing
197  media or in Arabidopsis pop2-1 leaves could be restored to the gabT triple mutant by expression in t
198 D(-/-) mice to C. neoformans infection could be restored to the level of WT mice by increasing IL-5 a
199 rotein, as normal cell cycle progression can be restored to the mutant by expressing a mutant form of
200 t insights into how appropriate function can be restored to the nervous system after the critical per
201 and AT(1A)Rs with arginine substitutions can be restored to the plasma membrane by either using selec
202 e supports the notion that accommodation can be restored to the presbyopic eye, progress in this pote
203      Consequently, MHC class I molecules can be restored to the surface of DFTD cells in vitro by usi
204 artially stimulated by hMutSalpha but cannot be restored to the wild-type level.
205 of a derivative set of strains in which tetL is restored to the chromosome support earlier indication
206                           Cyanide production is restored to the FRD1aceA mutant by addition of glyoxy
207 herapeutically imposed, wherein blood supply is restored to the previously ischaemic tissue.
208                            Light sensitivity is restored to the resulting apo-opsin when it recombine
209  injury observed in RAG-1 knockout (KO) mice is restored to the wild-type (WT) level by adoptive tran
210 reduced in the ctbp-1 deletion mutant, which is restored to the wild-type level by RNAi inhibition of
211                                     Activity is restored to the wild-type level for Ycf1-S251E.
212                 Expression of p21(Cip1) mRNA was restored to the control level in all the fusion cell
213 a-coated microtiter assay, biofilm formation was restored to the DeltasigB mutant through the additio
214                           Cyanide production was restored to the FRD1dadA mutant by the addition of g
215  elastase removed 68% of MUC16, 78% of which was restored to the HCLE cell surface 24 hours after rel
216  protein level in PAX3-FKHR-expressing cells was restored to the level of control cells by treatment
217 h cognitive flexibility in abstinent smokers was restored to the level of nonsmokers following stimul
218 l markedly declined with age (P = 0.003) but was restored to the level seen in young rats when ALCAR+
219          Remarkably, virtually normal growth was restored to the mreB null mutant in the presence of
220                     The algXDelta::Gm mutant was restored to the mucoid phenotype with wild-type P. a
221 ne in either orientation and origin activity was restored to the mutant c-myc replicator.
222 activating these proteases, biofilm capacity was restored to the mutant, demonstrating they are respo
223 ence of the Gq-selective inhibitor YM-254890 was restored to the normal extent achieved by PAR agonis
224 urprisingly, wild-type-like TTSS functioning was restored to the pnp mutant strain by expressing just
225 ectively reestablished when GPR88 expression was restored to the striatum.
226                          The enzyme activity was restored to the wild-type levels when the mutant p66
227 The LOS structure of the kdtA::aphA-3 mutant was restored to the wild-type structure by complementati
228 , fruiting body formation and EPS production were restored to the levels observed in mutant strains l
229 rete CNF1 and invade HBMEC of the fdx mutant were restored to the levels of the parent strain by comp
230   In all cases, the double mutant phenotypes were restored to the luxS+ phenotype by the addition of
231 xception of dystrophin, other DGC components were restored to the sarcolemma including alpha-sarcogly
232 ent from IL-7(-/-) mice, TCRgammadelta cells were restored to the thymus and periphery by expression
233 but not ceramides and complex sphingolipids, were restored to the wild-type levels in the Cers2-rescu
234 s these ratchet-like epistatic substitutions are restored to their ancestral states, reversing the ke
235 d, the mechanisms by which its targets genes are restored to their preactivation state are less clear
236 6-fold; P < 0.01) that resolved when choline was restored to their diets.
237                          Moreover, fertility was restored to these promoter IR-containing plants by e
238 ent was immediately reversed when blood flow was restored to these regions, indicating that parts of
239                 However, functionality could be restored to this +1 leucine mutant by either insertin
240 embly and extracellular release of virus can be restored to this mutant with the addition of an N-ter
241 evels of GM3 synthase and corresponding mRNA are restored to those of control cells.
242 significantly enhanced ECCE rates that could be restored to those measured in wild-type cells after e
243 fibrosis observed in Kit(W-sh/W-sh) mice can be restored to those observed in WT mice after the adopt
244 heximide (CHX) or emetine, expression levels were restored to those observed in primary and immortal
245 ity to concentrate and organify iodide could be restored to TSHR-KO thyroids when cultured in the pre
246 isingly efficient class switch recombination is restored to ung(-/-) B cells through retroviral deliv
247 blasts, and also expression of MRPP1 protein was restored to values comparable to controls.
248 Molting after the normal first instar period was restored to various degrees by feeding the mutants t
249 e elevated salicylic acid (SA) levels, which are restored to wild-type levels by expressing nahG, bac
250 ity, and replication, and these deficiencies are restored to wild-type levels with the introduction o
251 in by MgCl2 was inhibited strongly but could be restored to wild type actin levels by phalloidin and
252 ns in the N-terminal half of the toxin could be restored to wild type secretion levels if cultured in
253                     The mutant phenotype can be restored to wild-type by the intact AtNAP, as well as
254 s diminished intramacrophage growth that can be restored to wild-type F. tularensis LVS levels by eit
255    We show that virions with nef deleted can be restored to wild-type infectivity by stimulating intr
256 usly shown that virions with nef deleted can be restored to wild-type infectivity by treatment to ind
257 bidopsis ipmdh1 T-DNA knock-out mutant could be restored to wild-type levels by constructs expressing
258 oliferation of the IMP1-null fibroblasts can be restored to wild-type levels by IGF2 in vitro or by r
259  reductase activity in the PrrA strain could be restored to wild-type levels by using nirK expressed
260 inished Env expression in cells, which could be restored to wild-type levels either by mutating the Y
261 a mir163 null mutant, but the repression can be restored to wild-type levels in complementation lines
262     Furthermore, transduction efficiency can be restored to wild-type levels in scid cells that are c
263 and attachment of a gcbA mutant strain could be restored to wild-type levels via overexpression of th
264 riable in a CpsA-dependent manner, but could be restored to wild-type levels when grown with lysozyme
265 d that sebaceous gland size and function can be restored to wild-type levels.
266 esults in a buildup of internal GroPCho that is restored to wild type levels by reintegration of GDE1
267 al development and iron content in Pcm brain is restored to wild-type levels by 7 weeks of age.
268       Growth of the triple mutant in culture is restored to wild-type levels by supplementation with
269 e in medium that contains trace zinc; growth is restored to wild-type levels by supplementing medium
270 CLN1, reduced nearly threefold in paf1Delta, is restored to wild-type levels in the rtf1Delta paf1Del
271 with 5-azacytidine, root growth of epi-lines is restored to wild-type levels, implicating hypermethyl
272 dified to contain an amber stop codon, which was restored to wild type by G to T transversion induced
273 ocyte recruitment and C1q-hemolytic activity was restored to wild type levels when CD93 was expressed
274 n grown on 1/2 MS medium lacking sugars, but was restored to wild-type (WT) levels by supplementation
275                           Nucleosome density was restored to wild-type level by re-expressing wild-ty
276 4, dynein activity in pf18 and pf15 axonemes was restored to wild-type level.
277 es and primary macrophages; virus production was restored to wild-type levels after reintroduction of
278 dulin knockdown neurons, presynaptic release was restored to wild-type levels by expression of consti
279 lfate or glycosaminoglycan synthesis, uptake was restored to wild-type levels by incubating target ce
280 oduced a phenotype of increased sleep, which was restored to wild-type levels by pharmacological trea
281 did not show any defect in vivo Colonization was restored to wild-type levels in a luxO opaR double m
282               The severity of joint swelling was restored to wild-type levels in mice infected with a
283 creased in the SM-B null mesenteric vessels, was restored to wild-type levels in the double knockout
284 lies fed food without doxycycline; virulence was restored to wild-type levels when the strain was inj
285                          Paraquat resistance was restored to wild-type levels, but zinc was not.
286                       By P21, MBP expression was restored to wild-type levels, demonstrating that the
287 ith a wild-type copy of the asd gene, growth was restored to wild-type levels.
288 ed using in vivo magnetic resonance imaging, was restored to wild-type levels.
289 noclonal antibodies, however, granuloma size was restored to wild-type levels; this finding revealed
290 ony morphology, and serum sensitivity, which were restored to wild type by trans-complementation with
291 cid or to air exposure, and these phenotypes were restored to wild-type (WT) attributes upon compleme
292 ally, tRNA maturation and 9S rRNA processing were restored to wild-type levels in each of the three s
293 ermates, but memory and synaptophysin levels were restored to wild-type levels in Tg19959-MnSOD litte
294 exhibited by the mutants were reversed; both were restored to wild-type levels.
295 stunted growth phenotype, and leaf ABA level were restored to wild-type values, pointing to the redun
296                      In contrast, lumbar BMD was restored to within 5% of pretransplant levels in the
297 vated [ATP] by 35%; both [ATP] and [5-InsP7] were restored to WT levels by overexpression of PPIP5K1,
298 TP were reduced in CD36-deficient hearts and were restored to WT levels by rescue of myocyte CD36.
299  cardiac infiltration of leukocytes after MI were restored to WT levels via lentiviral-mediated re-ex
300 is demonstrated that YopP and YspH secretion was restored to yopP mutants by complementation in trans

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