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1 nancy may have a longer evolutionary history than previously appreciated).
2 ncy organization of A1 is more heterogeneous than previously appreciated.
3 ed locomotion before theropod flight evolved than previously appreciated.
4 more physically and functionally intertwined than previously appreciated.
5 S1 may have a wider range of roles in plants than previously appreciated.
6 that strabismus impairs visual function more than previously appreciated.
7 d in rodents and are established far earlier than previously appreciated.
8 normal and transformed cells is more complex than previously appreciated.
9 tion with PG remodeling at the division site than previously appreciated.
10 y structures might be more severely affected than previously appreciated.
11 s likely to be more widespread in the genome than previously appreciated.
12 surface immune determinants, is more complex than previously appreciated.
13 y revealed that the human proteome is larger than previously appreciated.
14 Enhanced S-cone syndrome has more pleiotropy than previously appreciated.
15 er 'regulatory say' over the immune response than previously appreciated.
16 emory B cell pool is much more heterogeneous than previously appreciated.
17 , such as those of LMP1, may be more diverse than previously appreciated.
18 aturation of these lineages are more complex than previously appreciated.
19 iciency and autoimmunity in STIM1 deficiency than previously appreciated.
20 isparity between I. latidens and I. sinensis than previously appreciated.
21 nulocytes are far more expansive and complex than previously appreciated.
22 synthetic machinery, and producing organisms than previously appreciated.
23 otic gene expression might be more prominent than previously appreciated.
24 virus families are older and more ubiquitous than previously appreciated.
25 ls and a more significant therapeutic target than previously appreciated.
26 f RecB and AddAB nucleases even more closely than previously appreciated.
27 cer-predisposing mutations and in more genes than previously appreciated.
28 of prokaryotes are more diverse and complex than previously appreciated.
29 iate, is more prevalent in bacterial glycans than previously appreciated.
30 ich BoNT/G and BoNT/B bind Syt diverges more than previously appreciated.
31 ibitor, and found that it is far more potent than previously appreciated.
32 t, LafK controls a more diverse set of genes than previously appreciated.
33 ve population sizes are considerably greater than previously appreciated.
34 sting that retinal injury is more widespread than previously appreciated.
35 ay be a more widespread feature of membranes than previously appreciated.
36 pendent signaling processes are more diverse than previously appreciated.
37 roughout the genome to a much greater extent than previously appreciated.
38 much more widely distributed among bacteria than previously appreciated.
39 regulators of protein activity and function than previously appreciated.
40 se two structures may be more closely linked than previously appreciated.
41 ave a much wider role in cellular metabolism than previously appreciated.
42 is governed by more diversified requirements than previously appreciated.
43 s in the transport of Ags to lymphoid organs than previously appreciated.
44 two pathways are more intricately connected than previously appreciated.
45 r contribution toward NAE catabolism in vivo than previously appreciated.
46 nt role in cortical physiology and pathology than previously appreciated.
47 r function of Snail-type TFs is more plastic than previously appreciated.
48 by a larger network of biological processes than previously appreciated.
49 ll-based vaccines may have greater potential than previously appreciated.
50 is more redundancy in the retinal color code than previously appreciated.
51 rats possess more advanced visual abilities than previously appreciated.
52 larly iTreg and Th17 cells, are more plastic than previously appreciated.
53 evealing a more complex network architecture than previously appreciated.
54 ch larger spectrum of vitreal growth factors than previously appreciated.
55 e more rearrangements in some breast cancers than previously appreciated.
56 iate from membranes on more rapid timescales than previously appreciated.
57 for GGAA-microsatellites in EWS/FLI function than previously appreciated.
58 at commitment to these fates is more plastic than previously appreciated.
59 t roles in early development of soft embryos than previously appreciated.
60 s have more divergent biogeographic lineages than previously appreciated.
61 on on genome size appears to be much greater than previously appreciated.
62 es on a broader and more comprehensive scale than previously appreciated.
63 ay have more complex effects on inflammation than previously appreciated.
64 viral reactivation may occur more frequently than previously appreciated.
65 that paternal effects may be more pervasive than previously appreciated.
66 re complex mixture of hydroperoxide products than previously appreciated.
67 that the yeast transcriptome is more complex than previously appreciated.
68 specialized role in the factor binding cycle than previously appreciated.
69 at earlier stages and in a different fashion than previously appreciated.
70 nescence on hematopoiesis are more extensive than previously appreciated.
71 ral role in governing metazoan transcription than previously appreciated.
72 res of cyanobacterial and plant phytochromes than previously appreciated.
73 s and instability 20-100 times more potently than previously appreciated.
74 structures is more extensive and predictable than previously appreciated.
75 ubtle differences in their natural histories than previously appreciated.
76 d cleave a far wider range of human proteins than previously appreciated.
77 ted with pejvakin mutations are more diverse than previously appreciated.
78 bit a greater degree of specificity in vitro than previously appreciated.
79 c development of plants, animals, and humans than previously appreciated.
80 ptor signaling in leukocytes is more diverse than previously appreciated.
81 fact has a much wider substrate specificity than previously appreciated.
82 e more functional KH domains in the proteome than previously appreciated.
83 cific CD8(+) T-cell response is more complex than previously appreciated.
84 itional helical hairpin that makes it larger than previously appreciated.
85 ays a more complicated role in Shh signaling than previously appreciated.
86 sts a broader role for DO in immune function than previously appreciated.
87 luble mimetics of CCR5 can be more effective than previously appreciated.
88 ng a higher rate of exposure to the parasite than previously appreciated.
89 onse in the infected population were greater than previously appreciated.
90 anscription may be more common in eukaryotes than previously appreciated.
91 e of the H(3)O(+) ion are much more exacting than previously appreciated.
92 and a greater source of genomic instability than previously appreciated.
93 gests that tRNA function may be more diverse than previously appreciated.
94 indicate that this mechanism is more common than previously appreciated.
95 dominant role in the selection of GC B cells than previously appreciated.
96 ve parasites in the footpad are even greater than previously appreciated.
97 play a larger role in the host range of MVM than previously appreciated.
98 higher metabolic activity in malignant cells than previously appreciated.
99 organelle's behavior are more sophisticated than previously appreciated.
100 ignalling by AKAP proteins is more intricate than previously appreciated.
101 complex and actin filaments is more dynamic than previously appreciated.
102 SNF associate with many more genomic targets than previously appreciated.
103 minent role in metazoan cell differentiation than previously appreciated.
104 stantially broader spectrum of retroelements than previously appreciated.
105 demonstrating a deeper population structure than previously appreciated.
106 e that NK cell biology is more sophisticated than previously appreciated.
107 genitors and branching morphogenesis earlier than previously appreciated.
108 role in the function of P. fluorescens SBW25 than previously appreciated.
109 opoietic systems may be more closely related than previously appreciated.
110 s more prevalent in asymptomatic individuals than previously appreciated.
111 omal membranes in Drosophila embryos earlier than previously appreciated.
112 ad and morphologically heterogeneous changes than previously appreciated.
113 ivated by Fgfs may therefore be more complex than previously appreciated.
114 range of proteins may influence Ubx function than previously appreciated.
115 2 possess much broader substrate specificity than previously appreciated.
116 and are much more efficient killers in vivo than previously appreciated.
117 l parallelism might therefore be more common than previously appreciated.
118 th-dependent phenomenon and more complicated than previously appreciated.
119 otential for experience-dependent plasticity than previously appreciated.
120 itions and with greater spatial localization than previously appreciated.
121 n epithelial carcinogenesis are more complex than previously appreciated.
122 ection, indicating a wider host tissue range than previously appreciated.
123 ns and the broader evolutionary conservation than previously appreciated.
124 ore broadly represented in mammalian species than previously appreciated.
125 n of these two enzymes appears to be greater than previously appreciated.
126 s this curable condition is much more common than previously appreciated.
127 r degree of evolutionary conservation of NMD than previously appreciated.
128 nce to defense of the murine host is greater than previously appreciated.
129 n the generation of optimal immune responses than previously appreciated.
130 omplex relationship between BP and cognition than previously appreciated.
131 e system has more self-regulatory capability than previously appreciated.
132 embly of heparan sulfate is much complicated than previously appreciated.
133 may play a greater role in GPCR endocytosis than previously appreciated.
134 which bacteria engage the host immune system than previously appreciated.
135 be beneficial to a broader group of subjects than previously appreciated.
136 play a wider role in translation regulation than previously appreciated.
137 osely resembles that of neuroendocrine cells than previously appreciated.
138 th tetraplex-forming potential may be larger than previously appreciated.
139 to chronic infection were more heterogeneous than previously appreciated.
140 ciated with acute HIV-1 infection is greater than previously appreciated.
141 e genital mucosa occurs much more frequently than previously appreciated.
142 rejection, or tolerance are more complicated than previously appreciated.
143 oglobulin gene rearrangement is less precise than previously appreciated.
144 eater role in bacterial population structure than previously appreciated.
145 halves derived from the majority of tRNAs - than previously appreciated.
146 nfluences the trade-off in more nuanced ways than previously appreciated.
147 sembles the cell cycle of certain eukaryotes than previously appreciated.
148 more diverse radiation in the early Cenozoic than previously appreciated.
149 the possibility of a more widespread disease than previously appreciated.
150 es found in patients with multiple sclerosis than previously appreciated.
151 efore, is more important for MHV replication than previously appreciated.
152 in a wider range of glycosylation processes than previously appreciated.
153 revealed a much greater metabolic diversity than previously appreciated.
154 iseases in diabetes may be more interrelated than previously appreciated.
155 e important role in the global silicon cycle than previously appreciated.
156 y a more important role in initial infection than previously appreciated.
157 thin the human body is substantially broader than previously appreciated.
158 F binding is more dynamic during development than previously appreciated.
159 and splicing activities to be more intricate than previously appreciated.
160 in viperin is far more ancient and conserved than previously appreciated.
161 sion during infection in hematopoietic cells than previously appreciated.
162 e Drosophila Y chromosome to be more dynamic than previously appreciated.
163 a greater role in regulating host responses than previously appreciated.
164 of the motor aspects of RTT syndrome earlier than previously appreciated.
165 small RNA-guided cleavage is more widespread than previously appreciated.
166 as may play a larger role in health outcomes than previously appreciated.
167 ust be provided is more dynamic and flexible than previously appreciated.
168 er architectural and functional organization than previously appreciated.
169 n-coupled receptors is markedly more complex than previously appreciated.
170 ractions within a plant cell is much broader than previously appreciated.
171 hysiological function and response to injury than previously appreciated.
172 oles for these cells in infection and injury than previously appreciated.
173 ggests that strain mixtures are more dynamic than previously appreciated.
174 years ago (Ma), which is considerably older than previously appreciated.
175 lay a broader regulatory role in translation than previously appreciated.
176 aled that the EPEC pathotype is more diverse than previously appreciated.
177 derably greater heterogeneity across tissues than previously appreciated.
178 etween host sex and UTI that is more complex than previously appreciated.
179 lution is likely to be substantially greater than previously appreciated.
180 has much more liquid-alkane-like properties than previously appreciated.
181 ater role for regulatory mutations in cancer than previously appreciated.
182 prevalent and widespread across vertebrates than previously appreciated.
183 in other cell types may also be more complex than previously appreciated.
184 nce of more replication origins in T. brucei than previously appreciated.
185 rica and carries a higher case fatality rate than previously appreciated.
186 to the burden of human disease more broadly than previously appreciated.
187 disease progression to a far greater extent than previously appreciated.
188 r may be a more general component of mitosis than previously appreciated.
189 at conditioned fear behavior is more diverse than previously appreciated.
190 am20C exhibits broader substrate specificity than previously appreciated.
191 isms suggest a higher complexity in function than previously appreciated.
192 d TGF-beta superfamily receptors are broader than previously appreciated.
193 a population at higher risk of osteoporosis than previously appreciated.
194 -specific antibodies, and hence much greater than previously appreciated.
195 nd innate CD8(+) T cells may be more similar than previously appreciated.
196 be effective on a wider spectrum of diseases than previously appreciated.
197 on revealed vocal behaviors far more complex than previously appreciated.
198 of the phosphoserine residue is much higher than previously appreciated.
199 f antisense lncRNAs is far more broadly used than previously appreciated.
200 ssarily mutagenic, and may be more prevalent than previously appreciated.
201 in cell motility appears to be more complex than previously appreciated.
202 orders may therefore be substantially higher than previously appreciated.
203 more widely distributed in the United States than previously appreciated; 212 cystic fibrosis patient
204 swap errors are considerably more prevalent than previously appreciated (accounting for more than a
205 5, although it is substantially more complex than previously appreciated, allowing DH10B biology to b
206 or at an earlier stage of B cell development than previously appreciated and 2) NF-kappaB down-regula
207 indicate that CPE action is more complicated than previously appreciated and also provide additional
208 cological complexity and bacterial diversity than previously appreciated and can serve as a model sys
209 mutations in the AIRE locus are more common than previously appreciated and cause more variable auto
210 t cell arteritis (GCA) may be more extensive than previously appreciated and clinicians should be awa
211 C. parvum infection was much more widespread than previously appreciated and confirm that infection w
212 anciently related sequences is more frequent than previously appreciated and creates functional mitoc
213 mmon property of G protein-coupled receptors than previously appreciated and demonstrate that such a
214 that whole-genome KSHV diversity is greater than previously appreciated and differential phylogeneti
215 of type II secretion is greater in magnitude than previously appreciated and includes previously unde
216 ater functional and structural heterogeneity than previously appreciated and indicate that specialize
217 f Tcf3 in cell-fate decision is more complex than previously appreciated and is highly dependent on c
218 , Bax and Bak play wider roles in cell death than previously appreciated and may be optimal therapeut
219 red for thermodynamic self-sorting is larger than previously appreciated and potentially quite broad.
220 n structure is more similar to other myosins than previously appreciated and provide a molecular expl
221 terplay between metal ion and ligand binding than previously appreciated and provide evidence for a t
222 ation of HAP1 and huntingtin is more similar than previously appreciated and provide further evidence
223 larger role in gammadelta T cell development than previously appreciated and represents a critical ch
224 lular Legionella replication is more complex than previously appreciated and requires both Ipaf-depen
225 rchitecture of the Il2 locus is more complex than previously appreciated and suggest a novel molecula
226 ndicate that Cdc25A turnover is more complex than previously appreciated and suggest roles for an add
227 tal role in modulating behavioral plasticity than previously appreciated and suggest that increasing
228 sings by soaring migrants may be more common than previously appreciated and suggest the delineation
229 sition of glomerular ECM is far more complex than previously appreciated and suggests that many more
230 ifferentiation are considerably more complex than previously appreciated and that a greater number of
231 C. famata in fungal infections is much lower than previously appreciated and that commercial systems
232 ition of substrates by HDAC6 is more complex than previously appreciated and that domains outside the
233 e genesis and progression of prostate cancer than previously appreciated and that epigenetic changes
234 Dvl distribution is more subtle and dynamic than previously appreciated and that in vertebrate mesod
235 licase plays a wider role in DNA replication than previously appreciated and that it likely functions
236 nts in HSV-2 are significantly more variable than previously appreciated and that they can impact spe
237 xons are more widespread in the human genome than previously appreciated and that they may play a maj
238 ge NADW disruptions are more easily achieved than previously appreciated and that they occurred in pa
239 ulmonary lymphangioleiomyomatosis is broader than previously appreciated and the degree of pulmonary
240 l significance of ADARs is much more diverse than previously appreciated and this gene regulatory fun
241 eostasis of the NK pool is much more dynamic than previously appreciated and this may be relevant to
242 ave a greater influence on methane emissions than previously appreciated and, further, that changes i
244 mit the caste of eggs may be more widespread than previously appreciated, and can have some odd conse
245 ning a wider range of developmental programs than previously appreciated, and describe a novel instan
246 is a more common cause of heart failure (HF) than previously appreciated, and novel treatments for am
247 GluT2 cells may be more prevalent in the ARC than previously appreciated, and play predominantly an a
248 imply a far greater abundance of PH domains than previously appreciated, and suggest that intermolec
249 significant role in ovomucoid allergenicity than previously appreciated, and that carbohydrate moiet
250 1s are more abundant in the human population than previously appreciated, and that ongoing L1 retrotr
251 ave more predominant roles in cell migration than previously appreciated, and their cooperation with
252 mice more closely resemble human MAIT cells than previously appreciated, and this provides the found
253 are more heterogeneous at a molecular level than previously appreciated, and while we find that ther
254 egulation of the secretome is more extensive than previously appreciated, as both genetic and pharmac
255 signals arise at an earlier processing stage than previously appreciated, as even so-called monocular
256 to nutrient limitation is much more complex than previously appreciated, as there is not simply one
257 2 mutations can result in a milder phenotype than previously appreciated, but whether I33M retains a
259 ulation in airway epithelium appears broader than previously appreciated, coordinating numerous infla
260 itor ecotropic MLV genome are more extensive than previously appreciated, covering 100% of the genome
261 latory actions of beta-arrestins are broader than previously appreciated, extending to the TGF-beta r
263 human pathogen, was found to be more complex than previously appreciated for the nonsegmented negativ
264 the spliceosome possesses far lower fidelity than previously appreciated, highlighting the potential
265 was found to dissociate to dimers much less than previously appreciated, i.e. about 70 times less th
266 atients with AIRE-deficiency is much broader than previously appreciated; ii) neutralizing autoantibo
267 We recently identified many more taste buds than previously appreciated in chickens using molecular
268 ecological role for unicellular opisthokonts than previously appreciated in marine environments, both
269 results suggest that H2-O has a broader role than previously appreciated in regulating Ag presentatio
270 gest that CNV changes may play a larger role than previously appreciated in the acquisition of drug r
271 al plasticity occurs on a much greater scale than previously appreciated in the mammalian auditory mi
272 te that this element plays a much wider role than previously appreciated in the regulated tissue-spec
273 complexity in the CD8(+) T cell compartment than previously appreciated, including a nearly combinat
274 ead impairment of B cells in HIV-1 infection than previously appreciated, including antigen-inexperie
276 g of a much larger repertoire of transcripts than previously appreciated, including HNRNPD and HNRNPD
277 xpanded and more diverse clinical expression than previously appreciated, including occurrence in you
278 g and more diverse cardiovascular conditions than previously appreciated, including valvular heart di
279 ep to be phylogenetically far more pervasive than previously appreciated; it is possible that the ver
280 CP12 in cyanobacteria is likely more complex than previously appreciated, possibly involving other si
281 volume of surface electrodes may be smaller than previously appreciated, possibly leading to the det
282 gle-synapse AMPA conductance was much larger than previously appreciated, producing saturation effect
283 rt that ipRGCs are more abundant and diverse than previously appreciated, project more widely within
284 in neuronal compartments suggests a greater than previously appreciated role for this peptide in neu
285 Solid-state C60 is more sensitive to oxygen than previously appreciated such that contamination with
286 eal more widespread and diverse L5 efferents than previously appreciated, suggesting a generalizable
287 downregulate a far greater number of targets than previously appreciated, thereby helping to define t
289 nd that the effects of H2-O are more complex than previously appreciated; thus, while only minor infl
290 regulated in the heart and acts more broadly than previously appreciated to regulate growth of multip
291 of the SP-C-rtTA transgene contributed more than previously appreciated to the similarities seen in
292 tes is more precise and spatially segregated than previously appreciated, which may be a critical det
293 mationally dynamic at the membrane interface than previously appreciated, which may be important for
294 iral transcriptomes is significantly greater than previously appreciated with hundreds of viral long
295 rate that the impact of Hmx1 loss is greater than previously appreciated, with a variety of lateral c
296 rate that CTLA-4 cosignaling is more complex than previously appreciated, with an ability to differen
297 mplex model of NLRP3 inflammasome activation than previously appreciated, with at least two adapters
298 expression within the human body is broader than previously appreciated, with expression on mucosal
299 ulation and expression at earlier timepoints than previously appreciated, with implications for wheth
300 neurons are far more physiologically diverse than previously appreciated, with properties that depend