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1 target gene domains as well as DPP's role in growth control.
2 ge between the small GTPases RhoA and Rac in growth control.
3 nserved tRNA nucleotide modification in cell growth control.
4 previously unrecognized mechanism of cancer growth control.
5 lved in both pleiotropic drug resistance and growth control.
6 properties, which impacts on E2F-1-dependent growth control.
7 wound protection, tube expansion and larval growth control.
8 eostatic feedback so as to favor escape from growth control.
9 ormalization of both p57-Kip2 expression and growth control.
10 hormone pathways both contribute to diurnal growth control.
11 uperfamily, is known to play a major role in growth control.
12 urther dissect the molecular basis for tumor growth control.
13 idespread roles for promoter lncRNAs in cell-growth control.
14 f glucocorticoid biosynthesis improved tumor growth control.
15 ponent of the Hippo pathway in imaginal disk growth control.
16 wth, suggesting a unique function other than growth control.
17 gulated MAPK and Rho GTPase signaling in NF2 growth control.
18 TOR) plays a central role in eukaryotic cell growth control.
19 and cyclin D1 playing key roles in MRT cell growth control.
20 ient availability, Ribi gene regulation, and growth control.
21 te immunity and deregulate p53-mediated cell growth control.
22 as uncovering a function for Smad8 in normal growth control.
23 at the interface between differentiation and growth control.
24 by 28%, suggesting a role for IGF-1 in brain growth control.
25 s but has not been shown to function in cell-growth control.
26 strain-mediated effects on endothelial cell growth control.
27 bstrates of AMPK that mediate its effects on growth control.
28 late insulin signaling and thus exert global growth control.
29 tory pathways that are critical for cellular growth control.
30 which JunD exerts a pivotal role in cellular growth control.
31 ulation of ErbB2-dependent Src signaling and growth control.
32 XW8-CUL7 complex plays a significant role in growth control.
33 utant have normal intestines without loss of growth control.
34 ed TSC signalling as a conserved pathway for growth control.
35 ic link between cell fate, proliferation and growth control.
36 s screening strategy for studying epithelial growth control.
37 llular programs, such as differentiation and growth control.
38 Warts and the significance of these links to growth control.
39 erse array of processes involved in cellular growth control.
40 an important role in host defense and tumor growth control.
41 ctor proteins in TGFbeta-mediated pancreatic growth control.
42 rete cellular signaling pathways involved in growth control.
43 rial calcification, signal transduction, and growth control.
44 h and Wnt signaling pathways in keratinocyte growth control.
45 s development, differentiation, and cellular growth control.
46 roles in inhibiting other proteinases and in growth control.
47 emonstrated a critical role for dMyc in cell growth control.
48 to attention because of their role in tissue growth control.
49 esting a link between TAF9 function and cell growth control.
50 F9 involvement in cell cycle progression and growth control.
51 kinase that plays an essential role in cell growth control.
52 hway is essential for development and tissue growth control.
53 as a negative regulator of Fat signaling in growth control.
54 t should be 80% inhibition compared with the growth control.
55 chanistic descriptions of the cell cycle and growth control.
56 could provide a novel feedback mechanism for growth control.
57 fying the molecular mechanisms that underpin growth control.
58 tional phenotype, resulting in better tumour growth control.
59 bblestone appearance, Yap1 localization, and growth control.
60 the inherent limitations of surfactants for growth control.
63 ng to a functional equilibrium important for growth control, a reservoir of P-TEFb is maintained in a
64 at has important implications for studies of growth control and adult progenitor/stem cell population
66 ole of insulin-like growth factor (IGF)-1 in growth control and bone mineralization, circulating IGF-
67 ns of the observed difference between normal growth control and cancer for drug development, and the
68 potential master regulator in the events of growth control and cell survival required for the mainte
69 ach, we identified one gene involved in root growth control and characterized its function using micr
70 n > liposomal doxorubicin) of improved tumor growth control and decreased viable tumor compared with
71 es a homeostatic mechanism balancing HPC/HSC growth control and differentiation decisions in response
72 amily of transcription factors that regulate growth control and differentiation of various tissues.
74 that Zyx is a functional antagonist of Ex in growth control and establish a link between actin filame
75 omic cluster includes genes involved in cell growth control and extracellular matrix remodeling [e.g.
77 ent mechanisms for mTOR-dependent glial cell growth control and gliomagenesis relevant to the design
79 ncRNA has been implicated in development and growth control and is associated with human genetic diso
80 hway signaling plays a critical role in cell growth control and is often upregulated in human cancer.
81 PIP(3) has many cellular roles, notably in growth control and macropinocytosis as well as cell moti
82 ides an improved theoretical basis for tumor growth control and may also find utility in therapeutic
84 raded will enhance our understanding of cell growth control and offer a basis for potential therapeut
85 F complexes, are important for developmental growth control and patterning, with direct function as a
91 ty comprises a novel regulatory link between growth control and the cholesterol/lipid homeostasis pat
92 y implications of these results for graphene growth control and their relevance to carbon nanotube gr
99 Y also coassociates with a select cluster of growth-controlling and oncogenic TFs, consistent with th
102 g is essential for tumor suppression, tissue growth control, and development, while stable MOB1/Hippo
104 e that is important for antiviral responses, growth control, and modulation of immune responses.
106 ly time points, often near genes involved in growth control, and several patients harbored expanded c
108 c-myc oncogene plays a key role in cellular growth control, and translation initiation factors are a
109 GADD45beta, which is known to influence cell growth control, apoptosis, and cellular response to DNA
111 We identified a factor contributing to root growth control: Arabidopsis Adenylate Kinase 6 (AAK6).
112 possible roles of toxin-antitoxin modules in growth control are explored, as well as other mechanisms
113 ption of epithelial organization and loss of growth control are universal features of carcinomas, yet
114 mic models that show how self-monitoring and growth control arise from the synthesis of cellular acti
115 Consistent with a role for these changes in growth control, artificially increasing extracellular pH
116 hoprotein that plays a critical role in cell growth control as the central regulator of RNA polymeras
119 We thus link a morphological transition in growth control between allometric and isometric growth m
120 ss response, such as defense against phages, growth control, biofilm formation, persistence, and prog
121 from test bottles and 96.9% of strains from growth control bottles (no antibiotic added), and the BA
126 ts provide fresh insight on the mechanism of growth control by androgens and the progression of prost
128 eregulate host antiviral innate immunity and growth control by incorporating four viral homologs (vIR
132 ce between calcite dissolution and cerussite growth controlled by adjusting the Pb(2+) concentration
133 balance between positive regulators of tumor growth controlled by E2F, MYC, SREBP1 and AKT3 pathways
134 Prostate organogenesis involves epithelial growth controlled by inductive signalling from specialis
135 spinal neuron, we build models of their axon growth controlled by simple chemical gradients and physi
138 gical functions, including organogenesis and growth control, cell adhesion, signaling, inflammation,
139 en shown to play important roles in cellular growth control, cell cycle progression, and cancer devel
140 coded by an imprinted gene that has roles in growth control, cellular proliferation, and insulin sign
141 connected pathways suggests that the loss of growth-control checkpoints and promotion of cell surviva
148 We have revealed a critical transition in growth control during zebrafish caudal fin development,
149 hway is essential for development and tissue growth control, encompassing a core cassette consisting
150 structures provide great flexibility through growth-controlled 'engineering' of electron and hole wav
151 ncluding increased angiogenesis, deregulated growth control, enhanced cellular survival, epithelial-t
154 ed by perturbations of renal epithelial cell growth control, fluid transport, and morphogenesis.
158 argely autonomous behavior of another tested growth-control gene, we find that KLUH activity extends
159 TBX2 has previously been shown to repress growth control genes such as p14(ARF) and p21(WAF1/cip1)
160 ntify coordinately expressed prostate cancer growth control genes that may be regulated by WT1, we us
161 pediments to axon regrowth, we analyzed cell growth control genes using a virus-assisted in vivo cond
163 nerally attributed to mutations in essential growth control genes, but tumor cells are also affected
164 of chromosomes, with some located in or near growth control genes, including the c-myc protooncogene
166 ycomb 2 protein (Pc2) controls relocation of growth-control genes between Polycomb bodies (PcGs) and
167 st that transcriptional deregulation of G1/S growth-control genes, mediated in large part through blo
168 /T-cell factor interaction and alteration of growth-controlling genes such as c-MYC and cyclin D1.
169 f epigenetic defects as well as mutations in growth-controlling genes that seem to tip the proliferat
172 ignaling pathway plays a major role in organ growth control, how it senses and responds to increased
173 the BH3 mimetic obatoclax improves lymphoma growth control in a primary PTCL ex vivo culture and in
174 ere determined as potential mediators of Mtb growth control in AMs and AM/CD8 and AM/CD4 cocultures.
177 ed an alternative pathway for PARPi-mediated growth control in BRCA1/2-intact breast cancer cells inv
179 of its signaling pathway result in a loss of growth control in chronically stimulated mucosal GCs.
180 etases (aaRSs) as essential mediators of Myc growth control in Drosophila and found that their pharma
181 e FAK overexpression-induced growth, loss of growth control in FAK-/- or FRNK-expressing cells increa
191 lipid-based signaling, energy metabolism and growth control in the plant response to ROS and water st
192 atory conditions may give insight into their growth control in the wild, this is less apparent for st
193 ROCK inhibition rescued adhesion-dependent growth control in these cells, and expression of constit
194 hat T. congolense exhibits density-dependent growth control in vivo and conserves QS regulatory genes
195 To directly test the role of Sulfs in tumor growth control in vivo, a human myeloma cell line was tr
196 ether it makes a significant contribution to growth control in vivo, and how it is modulated and expe
197 These data describe a novel mechanism of growth control in which a ligand-receptor system generat
198 cancer cells and functions in bypassing cell growth control, including the repression of the cell cyc
199 packaging, Csk is dispensable for ring canal growth control, indicating that distinct mechanisms cont
200 that the downregulation of p53-mediated cell growth control is a common characteristic of the four KS
203 IBPs are useful in applications where ice growth control is necessary, such as cryopreservation, f
207 demonstrate that the Sse1 chaperone and the growth control kinase Sch9 independently contribute to r
209 se with an important role in regulating cell growth, controls lipid biosynthesis through various mech
211 y mTOR and autophagy is a novel mechanism of growth control, matching YAP activity with nutrient avai
214 nistic links between cellular metabolism and growth control may ultimately lead to better treatments
215 piration, which suggest that a Fat1-mediated growth control mechanism is intrinsic to mitochondria.
216 r regeneration, and this suggests a critical growth control mechanism mediated by these transcription
219 ate that TBX2 promotes suppression of normal growth control mechanisms through recruitment of a large
220 w these photosensory pathways integrate with growth control mechanisms to achieve the appropriate deg
222 may reflect the actions of vision-dependent, growth-control mechanisms operating over a wide area of
223 cells retain at least some of the essential growth-control mechanisms used by wild-type germ cells.
225 on and highlight the importance of DRAM-1 in growth control, metabolic homeostasis, and differentiati
228 TOR protein kinase has emerged as a critical growth-control node, receiving stimulatory signals from
229 Unexpectedly, PMN recruitment and tumor growth control occurred independently of lymphocytes and
230 microdomains plays an essential role in the growth control of epidermal cells, including cancer cell
231 0 chaperones as signal transducers mediating growth control of G1 cyclin abundance and activity.
232 sor genes that have fundamental roles in the growth control of hematopoietic stem/progenitor cells (H
233 r the cell cycle inhibitor p21(Waf1/Cip1) in growth control of HMECs and extend the repertoire of miR
234 olved mechanisms that can interfere with the growth control of infected cells and force them into DNA
235 nhanced antitumor CD8 T responses leading to growth control of injected and contralateral tumors in m
241 fficient to regulate flowering time and root growth; control of cotyledon and hypocotyl growth requir
242 e cancers often have activating mutations in growth-controlling oncogenes and inactivating mutations
243 Our theory delineates the geometric and growth control parameters that determine the shape space
244 otein 4.1B/DAL-1 regulation of this critical growth control pathway in meningioma cells requires the
245 latory mechanisms of mTORC1 signaling, a key growth control pathway that senses diverse metabolic sta
247 esults suggest the manipulation of intrinsic growth control pathways as a therapeutic approach to pro
248 le is presently known about the dysregulated growth control pathways involved in their formation and
249 ne kinase signaling, intracellular mitogenic growth control pathways, or adherens junction organizati
253 1 (mTORC1) pathways are the two predominant growth-control pathways that dictate proper organ develo
255 tional negative regulator of Ft signaling in growth control, PCP, and appendage patterning, the Appro
256 It is possible that deregulation of cellular growth control plays a more important role in epilepsy t
258 ta1, in addition to its role in homoeostatic growth control, plays a complex role in regulating respo
259 photosynthesis form an integral part of this growth control process, acting as both an energy source
260 c program of messenger RNAs involved in cell growth control processes, including cell cycling, differ
262 al cues to elicit critical outputs including growth control, protein synthesis, gene expression, and
263 d rat and included genes encoding cell-cycle/growth control proteins, transcription factors, signal t
264 h rate could be dictated by the abundance of growth-controlling proteome and growth-pertinent proteom
266 , the feather provides a rich model to study growth control, regeneration, and morphogenesis in vivo.
268 Despite its importance in cell polarity and growth control, relatively little is known about how aPK
274 Consistent with a negative role in cell growth control, Rga4p protein localizes to the cell side
275 lyze cell-autonomous and non-cell-autonomous growth control roles of NS3 in Drosophila and demonstrat
276 tion channels play an important role in cell growth control, secretion and embryonic development.
278 nderstanding of endogenous and environmental growth-controlling signals and their signaling networks,
279 t work on p21 has illuminated basic cellular growth control, stem cell phenotypes, the physiology of
282 nd IL-17A affected significantly greater LVS growth control than treatment with either cytokine alone
283 proliferation is an essential part of organ growth control; the transcription coactivator Yes-associ
284 mammalian D-type cyclins participate in cell growth control through negative regulation of TSC1-TSC2
285 it is required to maintain cell polarity and growth control through PAR-1 and AMPK, respectively.
286 uppressor that couples bioenergetics to cell-growth control through regulation of mammalian target of
288 a central regulator of tumor metabolism and growth control through the regulation of HIF-1alpha-depe
289 of the signaling pathways important for size/growth control, together with the identification of dise
290 tributions of Fos to the cell cycle and cell growth control using Drosophila imaginal discs as a gene
291 propose that the lack of chlorophyll exerts growth control via energy balance sensing, which is upst
294 e size in ROS generation for cancerous tumor growth control was elucidated, and an optimal size was p
296 ture of human overgrowth syndromes and human growth control, we performed experimental and bioinforma
300 quence of cumulative disruptions to cellular growth control with Darwinian selection for those herita