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1 ession of transcription factor E2F1-mediated cell cycle regulation.
2 n mechanical stresses and the key players of cell cycle regulation.
3 n previously shown to be responsible for its cell cycle regulation.
4 y toward understanding how ubiquitin governs cell cycle regulation.
5 protein MIF2, is involved in many aspects of cell cycle regulation.
6 taining genomic stability due to its role in cell cycle regulation.
7 le EspY1 appears to be involved in apoptosis/cell cycle regulation.
8 bserved for genes for hormonal signaling and cell cycle regulation.
9 ar whether p38IP or GCN5-SAGA is involved in cell cycle regulation.
10 osis, lipid metabolism, differentiation, and cell cycle regulation.
11 proteins involved in DNA damage response and cell cycle regulation.
12 pression, DNA damage response, apoptosis and cell cycle regulation.
13 role in both posttranscriptional control and cell cycle regulation.
14 s) that decreased p53 activity and perturbed cell cycle regulation.
15 ferating normal cells is coupled directly to cell cycle regulation.
16 ones involved in nucleic acid metabolism and cell cycle regulation.
17                Cyclin A2 plays a key role in cell cycle regulation.
18 ant cell identity is established upstream of cell cycle regulation.
19 (CDK) inhibitor p27 has an important role in cell cycle regulation.
20 way analysis, suggested that miR-494 impacts cell cycle regulation.
21 hed role is in the repair of damaged DNA and cell cycle regulation.
22 ion, morphogenesis and patterning as well as cell cycle regulation.
23 efense, extracellular matrix remodeling, and cell cycle regulation.
24 nd is therefore a useful tool for studies of cell cycle regulation.
25 ells in S phase, suggesting a role for it in cell cycle regulation.
26 evidence of enrichment for genes involved in cell cycle regulation.
27 on and argue against a physiological role in cell cycle regulation.
28 gnaling pathway that plays a crucial role in cell cycle regulation.
29 suggesting an additional mechanism involving cell cycle regulation.
30 dent of ROS and is a critical determinant of cell cycle regulation.
31 etails for how ZBTB33 mediates cell-specific cell cycle regulation.
32 four node core regulatory circuit underlying cell cycle regulation.
33 ting that InR signaling utilizes Dap for GSC cell cycle regulation.
34 rotein fusion that affects current models of cell cycle regulation.
35 Nek1) has established roles in apoptosis and cell cycle regulation.
36 nd invasion, protein secretion, motility and cell cycle regulation.
37 n-dependent kinases (CDKs) play key roles in cell cycle regulation.
38 ycle reporter for studies of cardiac myocyte cell cycle regulation.
39  conserved in eukaryotes and are involved in cell cycle regulation.
40 n of genes associated with morphogenesis and cell cycle regulation.
41 nvolved in the control of hematopoietic stem cell cycle regulation.
42 grate signals from various NRTK pathways and cell cycle regulation.
43  transcription, translation, metabolism, and cell cycle regulation.
44 floral organ development, phytohormones, and cell cycle regulation.
45  CDK1 inhibition), rather than physiological cell cycle regulation.
46 er function, including a significant role in cell cycle regulation.
47 erse cellular pathways such as chromatin and cell cycle regulation.
48 e dynamics, gene regulation, and mitotic and cell cycle regulation.
49 egradation of crucial substrates involved in cell cycle regulation.
50 scription regulation, membrane function, and cell cycle regulation.
51 , and pathways associated with apoptosis and cell-cycle regulation.
52  cells, including gamma-globin induction and cell-cycle regulation.
53  tool for quantitative studies of interphase cell-cycle regulation.
54  UHRF2 encodes a nuclear protein involved in cell-cycle regulation.
55  critically affects radiation sensitivity is cell-cycle regulation.
56 that Cdh1 has other functions in addition to cell-cycle regulation.
57  processes such as cytoskeleton assembly and cell-cycle regulation.
58 d fatty acid metabolism, insulin action, and cell-cycle regulation.
59 tochore-microtubule attachment dynamics, and cell-cycle regulation.
60  is a fundamental question for understanding cell-cycle regulation.
61 th functions related to particular phases of cell-cycle regulation.
62  of this transcriptional network involved in cell-cycle regulation.
63 ms among major cyclins and Cdks in mammalian cell-cycle regulation.
64 regulated genes with a strong correlation to cell-cycle regulation.
65 ct to orchestrate nitrogen (N) responses and cell-cycle regulation.
66 included to further facilitate comparison of cell-cycle regulation across species.
67 y involved in diverse biological signals and cell-cycle regulation although further replication in a
68 nsition, RAS and WNT signaling pathways, and cell cycle regulation, among others.
69                        Their crucial role in cell cycle regulation and aberrant expression in a broad
70 rformed microarray analysis using a targeted cell cycle regulation and apoptosis gene chip (GEArrayTM
71                       Because of its role in cell cycle regulation and apoptosis, p53 may be involved
72  implicated in other cellular processes like cell cycle regulation and apoptosis.
73 tors as multifunctional factors coordinating cell cycle regulation and cell differentiation is well d
74          miR-92 has target genes involved in cell cycle regulation and cell signaling.
75 nail1 has been linked to events ranging from cell cycle regulation and cell survival to epithelial-me
76 tory phosphorylation plays a similar role in cell cycle regulation and checkpoint responses at the st
77 ht different proteins, which are involved in cell cycle regulation and chromosome segregation.
78 se 6 (HDAC6) plays an important role in both cell cycle regulation and ciliary disassembly, we examin
79  review the core mechanisms of the change in cell cycle regulation and discuss advances in our unders
80 key regulator of Chk1 provides insights into cell cycle regulation and DNA damage response.
81      EBE activates several genes involved in cell cycle regulation and dormancy breaking, including D
82 ults from an activation of genes involved in cell cycle regulation and dormancy breaking.
83 consequence of p53 inhibition by E1B-55K for cell cycle regulation and drug sensitivity in tumor cell
84 inforce and broaden the role of RNase MRP in cell cycle regulation and help to identify new roles of
85  KU-0068650 significantly (P<0.05) inhibited cell cycle regulation and HIF1-alpha expression compared
86 e genes, particularly, those associated with cell cycle regulation and immunity.
87 articular has been linked to cell growth and cell cycle regulation and is therefore an attractive tar
88       Past Perspectives reviewed fundamental cell cycle regulation and its upstream regulation by ins
89 yclin-dependent kinase inhibitor involved in cell cycle regulation and monocyte differentiation and m
90  transactivates genes involved in apoptosis, cell cycle regulation and numerous other processes.
91 , we investigated the involvement of Brd4 in cell cycle regulation and observed aberrant chromosome s
92 KN1A (P = 2 x 10(-52)), suggesting roles for cell cycle regulation and peroxisome proliferator-activa
93 advances in stem cell biology, gene therapy, cell cycle regulation and pharmacotherapeutics to define
94  possible role for Ser108 phosphorylation in cell cycle regulation and promotion of pro-survival path
95 lass of proteins involved in many aspects of cell cycle regulation and response to DNA damage.
96 d for transcriptional regulation, apoptosis, cell cycle regulation and response to tumor cells.
97 4 is an important E2 with prominent roles in cell cycle regulation and signal transduction.
98  of genes involved in oncogenesis, including cell cycle regulation and signal transduction.
99 er nonhistone substrates and are involved in cell cycle regulation and stem cell maintenance.
100 or (FXR) target gene known to be involved in cell cycle regulation and that aging regenerating livers
101 d in embryonic development, is implicated in cell cycle regulation and the DNA damage response.
102 es of cyclins is fundamentally important for cell cycle regulation and tumor suppression, yet the und
103 ontains several residues required for normal cell-cycle regulation and cytokinesis, this transcript's
104 inds to HBXIP/Lamtor5, a protein involved in cell-cycle regulation and cytokinesis.
105 ecular mechanism underlying CDK2AP1-mediated cell-cycle regulation and epigenetic control will set an
106 s was sufficient to correct their defects in cell-cycle regulation and hemogenic endothelial cell dev
107 t least two molecular mechanisms: regulating cell-cycle regulation and integrating the activity of mu
108 GC1alpha and reveal a potential link between cell-cycle regulation and metabolic control of glucose h
109 nregulation of genes in pathways involved in cell-cycle regulation and nucleotide metabolism.
110  of pocket proteins and play a major role in cell-cycle regulation and suppression of human and mouse
111       HSCs depended more acutely on Lkb1 for cell-cycle regulation and survival than many other haema
112            E2F is best known for its role in cell-cycle regulation and triggering apoptosis.
113 e demonstrate that CARLo-5 has a function in cell-cycle regulation and tumor development.
114 study the effects of the microenvironment in cell-cycle regulation and tumour treatments.
115 ay multiple roles in cellular proliferation, cell cycle regulation, and carcinogenesis.
116 ates involved in transcription, translation, cell cycle regulation, and cell survival.
117 nvolved in intracellular signaling pathways, cell cycle regulation, and ciliogenesis, among others.
118 ichiometry of kinetochore components and its cell cycle regulation, and highlight how outer kinetocho
119 exposure, genes related to oxidative stress, cell cycle regulation, and inflammation are among those
120  of MMSET are implicated in the p53 pathway, cell cycle regulation, and integrin signaling.
121 iple pathways including ribosome biogenesis, cell cycle regulation, and mitochondrial DNA replication
122  regulation as part of the mediator complex, cell cycle regulation, and other functions previously as
123 in regulating HSC function that is linked to cell cycle regulation, and positions plzf as a key playe
124 luding differentiation, signal transduction, cell cycle regulation, and proliferation.
125 ority are involved in DNA damage, apoptosis, cell cycle regulation, and RNA processing.
126 optosis, viral infection, DNA damage repair, cell cycle regulation, and senescence.
127 ion and communications, metabolism pathways, cell cycle regulation, and signal transduction.
128 9 methylation in transcriptional regulation, cell cycle regulation, and the DNA damage response.
129 important roles in stress-induced apoptosis, cell cycle regulation, and tumor suppression.
130 gulated, such as transcription, endocytosis, cell cycle regulation, and ubiquitylation are associated
131 ontrol that couples cell wall integrity with cell cycle regulation, and uncover circuitry governing a
132 rams controlling cell growth, proliferation, cell-cycle regulation, and differentiation.
133 gnaling, the nonclassical NF-kappaB pathway, cell-cycle regulation, and DNA repair.
134 ar pathways, including lymphoid development, cell-cycle regulation, and tumor suppression; cytokine r
135 ressor gene with well-characterized roles in cell cycle regulation, apoptosis, and maintenance of gen
136 s with wide-ranging functions in DNA repair, cell cycle regulation, apoptosis, and other processes.
137 nd SAFB2 are paralogs, which are involved in cell cycle regulation, apoptosis, differentiation, and s
138 t regulator of cell-fate decision, including cell-cycle regulation, apoptosis, and stem cell renewal,
139                                     In part, cell cycle regulation appears to be dependent upon the a
140 nvolved in cardiac stress and remodeling and cell cycle regulation are also up-regulated in the mutan
141 veillance functions of p53 in cell death and cell cycle regulation are conserved in both DNA damage a
142 d miR-373 families, which are key players in cell cycle regulation as well as inflammation.
143 ons identified a number of genes involved in cell-cycle regulation as putative targets of miR-449a.
144 1-knockdown cells identified cell growth and cell-cycle regulation as the most significant biofunctio
145 e secondary events spanned genes involved in cell-cycle regulation as well as phosphatidylinositol-3
146 eric Cdk7.cyclin H.Mat1 complex functions in cell cycle regulation, as the Cdk-activating kinase, and
147 ans, mipAD159, causes defects in mitotic and cell cycle regulation at restrictive temperatures that a
148    As the influence of mRNA translation upon cell cycle regulation becomes clearer, we searched for g
149 isms, revealing differences in metabolic and cell-cycle regulation between HSCs and some other haemat
150 results show not only that cell type affects cell cycle regulation, but also that changes in the cell
151         Thus, Ki-67 expression varies due to cell-cycle regulation, but it remains a reliable readout
152 nal regulatory pathway plays a major role in cell-cycle regulation, but its role in invasion and meta
153 scriptionally silent chromatin formation and cell-cycle regulation, but the molecular basis underlyin
154 gly, the Cip/Kip CKRs play critical roles in cell cycle regulation by being intrinsically unstructure
155 05) tumor suppressor plays a pivotal role in cell cycle regulation by blockage of the G1-to-S-phase t
156 racterize the molecular mechanism underlying cell cycle regulation by GPC1, we systematically investi
157  modeling has proved to be a useful guide to cell cycle regulation by revealing the importance of bis
158  recently demonstrated a novel phenomenon in cell cycle regulation by showing that cyclin-dependent k
159 with high accuracy, but also new insights on cell cycle regulation by TFs and cis-regulatory elements
160 PRC1 to regulate hematopoiesis, and revealed cell cycle regulation by Usp16 as key for HSC differenti
161 a conserved eukaryotic protein implicated in cell cycle regulation by virtue of its interactions with
162 olymorphism in ZC3HC1 alters the dynamics of cell-cycle regulation by NIPA.
163 oietic stem cells exhibit sex differences in cell-cycle regulation by oestrogen.
164                                        While cell cycle regulation can guide these processes globally
165 ated protein kinase and G-protein signaling, cell cycle regulation, cell adhesion and cytoskeleton re
166 lular growth and proliferation modulation by cell cycle regulation, cell death and survival, and proi
167 crobial defense, including immunomodulation, cell cycle regulation, cell survival, and cell different
168  play decisive roles in chromatin silencing, cell cycle regulation, cellular differentiation, and met
169 ncluding DNA damage response, transcription, cell cycle regulation, cellular differentiation, senesce
170  embryonic stem (hES) cells show an atypical cell-cycle regulation characterized by a high proliferat
171 llular processes including growth, division, cell cycle regulation, chromosome segregation, different
172 ular genes involved with cellular processes, cell cycle regulation, death, and inflammation.
173 vel interaction between EKLF and the histone cell cycle regulation defective homolog A (HIRA) histone
174  role of the histone chaperone HIRA (histone cell cycle regulation-defective homolog A) from this per
175 dent on the histone chaperone, HIRA (histone cell cycle regulation-defective homolog A).
176 me altered with age, leading to aberrant HSC cell cycle regulation, degraded HSC function, and hemato
177 t is known to be critical for proliferation, cell cycle regulation, differentiation, and cell death.
178 o determine the effects of BRCA1 variants on cell cycle regulation, differentiation, and genomic stab
179 commonly affected cellular processes include cell cycle regulation, DNA repair, and response to oxida
180  of transcription factors and is involved in cell cycle regulation, DNA replication, and maintenance
181 led over-representation of genes involved in cell cycle regulation/DNA damage, cell migration and adh
182 of CDK2, making it an important component of cell cycle regulation during G(1)-to-S phase transition.
183  product of which plays an important role in cell-cycle regulation, during early wing disc developmen
184 P5, EPHX2, and FDPS), cell proliferation and cell-cycle regulation (eg, MIK67, TP53, and ALOX12), ang
185 isition of stem cell properties is linked to cell-cycle regulation emerged with the ability to genera
186 rocesses, such as chromosome segregation and cell cycle regulation, emphasizing the multitasking capa
187 ng for factors involved in transcription and cell cycle regulation exhibit an altered expression in R
188 odulate key biological pathways, principally cell-cycle regulation, extracellular matrix remodeling,
189 saccharomyces pombe predicts a novel role in cell cycle regulation for Gas1 (SPAC19B12.02c), a 1,3-be
190 stablishment of the proper somatic cell type cell cycle regulation for mESCs to enter into the differ
191 53 stabilization and for p53's apoptotic and cell cycle regulation functions, was increased in BCBL-1
192 devised a genomic screen, which identified a cell cycle-regulation gene as the cause of male inviabil
193 regulation of distinct gene sets involved in cell cycle regulation, germline development and embryoge
194  the molecular mechanism of CDK2AP1-mediated cell-cycle regulation have been documented over the year
195 e/mammalian target of rapamycin (PI3K/mTOR), cell-cycle regulation, heat shock protein, and epigeneti
196            Reduced cell adhesion and altered cell cycle regulation in 2-OST-deficient embryos are ass
197 le is known about its molecular mechanism of cell cycle regulation in cancer.
198 o uncover novel aspects of morphogenesis and cell cycle regulation in Caulobacter crescentus.
199 rement for Ilk during ureteric branching and cell cycle regulation in collecting duct cells in vivo A
200  S-phase duration emerges as major target of cell cycle regulation in cortical progenitors of this gy
201 and Dap are required for nutrition-dependent cell cycle regulation in GSCs and reduction of dap parti
202                                              Cell cycle regulation in hematopoietic stem cells (HSCs)
203 ome synthesis, the nucleolus is connected to cell cycle regulation in more subtle ways.
204        Thus, investigating the mechanisms of cell cycle regulation in neonatal cardiomyocytes may pro
205                         DNA mismatch repair, cell cycle regulation in post-mitotic neurons and neurog
206                                Understanding cell cycle regulation in postmitotic cardiomyocytes may
207                              We propose that cell cycle regulation in response to ER stress comprises
208 he importance of the CYB-3 B3-type cyclin in cell cycle regulation in the early embryo and suggest th
209            Thus Yox1 and Cdc10 couple normal cell cycle regulation in unperturbed conditions and the
210 nvolved with synaptic function/stability and cell-cycle regulation in both strains of NCL mice.
211 al and pluripotency are intimately linked to cell-cycle regulation in ES cells, although little is kn
212 inase inhibitor, plays a pivotal role in the cell-cycle regulation in response to stress stimuli.
213 letal organization, migration, adhesion, and cell-cycle regulation in the patients.
214 DNA damage checkpoint and shows differential cell-cycle regulation in yeast.
215 d transcription, adipocytokine signaling and cell cycle regulation, in diabetes pathogenesis.
216  concepts, such as T cell differentiation or cell cycle regulation, in existing biology courses.
217  This model represents a simple mechanism of cell cycle regulation, in which DNA-binding activity is
218 onverge on aspects of cell proliferation and cell cycle regulation, including DNA synthesis (NPAT), D
219 n pathways altered in both clusters included cell-cycle regulation, inflammatory and MAPkinase pathwa
220                                              Cell cycle regulation is a very accurate process that en
221 e postulate that the role of this adaptor in cell cycle regulation is conserved.
222                                              Cell cycle regulation is critical for chondrocyte differ
223   The possible cellular function of Ubp15 in cell cycle regulation is discussed in view of the specif
224 tic events, it was found that this effect on cell cycle regulation is followed by the induction of ap
225                          Rather, the link to cell cycle regulation is made through the formation of a
226                               Thus, accurate cell cycle regulation is of utmost importance to avoid t
227                                              Cell cycle regulation is pivotal for proper cell divisio
228 olecular circuitry governing cardiac myocyte cell cycle regulation is required.
229 hanges in multiple regulatory loops and that cell-cycle regulation is a favored target for evolutiona
230         Here we present evidence that formin cell-cycle regulation is conserved in vertebrates.
231               Cell proliferation governed by cell-cycle regulation is fundamental to growth and devel
232    Currently, it remains largely elusive how cell-cycle regulation is mechanistically linked to epige
233 ignificant anti-proliferative effect, due to cell-cycle regulation leading to the induction of apopto
234  included retinoid signaling and metabolism, cell-cycle regulation, lineage determination, cell adhes
235 s model, each cell is equipped with internal cell cycle regulation mechanisms, but it is also able to
236 e show that mammalian Cdc48, a key player in cell-cycle regulation, membrane fusion, and endoplasmic-
237  processes, including DNA repair, apoptosis, cell-cycle regulation, metastasis, angiogenesis, and tum
238          TGF-beta plays significant roles in cell-cycle regulation, modulation of differentiation, an
239 f ErbB2) gene family, has been implicated in cell cycle regulation, normal development, and possibly
240 re caused a consistent deviation from normal cell cycle regulation: nuclear and spindle cycles initia
241  work identifies fimbrin as a key target for cell cycle regulation of actin cable assembly in budding
242  findings provide critical insights into the cell cycle regulation of CD8 T-cell homeostasis and sugg
243 te a previously unrecognized role for Akt in cell cycle regulation of DNA repair and checkpoint activ
244                               To explore the cell cycle regulation of FoxM1, we examined the phosphor
245                 Consistent with differential cell cycle regulation of hTERT-hTR and TCAB1-hTR protein
246 ses annexin A2 to maintain the viability and cell cycle regulation of latently infected cells.
247 of Fun30 to DSBs is sufficient to bypass the cell cycle regulation of long-range resection, indicatin
248 lts demonstrate a critical role for MEF2D in cell cycle regulation of post-mitotic, neonatal cardiomy
249 cohesin association with chromosomes through cell cycle regulation of Scc2 cohesin deposition activit
250                 Thus, in mammalian cells the cell cycle regulation of the two main enzymes controllin
251 localization among divisome proteins and the cell cycle regulation of their transcript and protein le
252 nce per cell cycle, raising parallels to the cell-cycle regulation of DNA replication and centromere
253 earence of SAMHD1 accompanied by loss of the cell-cycle regulation of dNTP pool sizes and dNTP imbala
254 n characterized, still little is known about cell-cycle regulation of events that initiate cytokinesi
255 states at lysine 79 on histone H3 and showed cell-cycle regulation of K79 dimethylation on genes expr
256 trate a central role of CRL4(Cdt2)-dependent cell-cycle regulation of Set8 for the maintenance of a s
257     Here, we show that ATRX loss compromises cell-cycle regulation of the telomeric noncoding RNA TER
258 chieve these diverse cellular functions, the cell-cycle regulation of these functions, and the many u
259 l cycle regulator Cdc25a, suggesting altered cell cycle regulation on inhibition of Erbb2.
260 enesis, modulation of cancer stemlike cells, cell cycle regulation, oncolytic viruses, new radiothera
261 lution of multicellularity, the evolution of cell cycle regulation, one that may shed light on the ev
262                         Proteins involved in cell cycle regulation (p21, cyclin D1), proliferation (E
263 , to define the consequences of gene loss on cell cycle regulation, proliferation, death and aneuploi
264  document the involvement of beta-catenin in cell-cycle regulation, proliferation, and invasion contr
265                         Altered abundance of cell cycle regulation proteins and aberrant expression o
266  Azufrado Higuera modified the expression of cell cycle regulation proteins p21 and cyclin B1.
267 Furthermore, one pathway that is involved in cell cycle regulation, REACTOME_CHROMOSOME _MAINTENANCE,
268        However, the functions of PLK1 beyond cell cycle regulation remain poorly characterized.
269   These findings support a role for HDACs in cell cycle regulation, reveal a novel mechanism of HDAC1
270  Consistently with an involvement of RhoE in cell cycle regulation, RhoE and p27 levels decrease afte
271 enome wide alterations with major effects in cell-cycle regulation, signal transduction, bile acid an
272 in this program support oncogenic processes: cell-cycle regulation, signaling, metabolism, adhesion a
273 esses including gene regulation, DNA repair, cell-cycle regulation, stem cell homeostasis and develop
274  in cellular processes such as inflammation, cell-cycle regulation, stress response, differentiation,
275  include mRNAs encoding proteins involved in cell cycle regulation, such as spindle, kinetochore and
276 ient transport, carbohydrate metabolism, and cell cycle regulation, suggesting that FT1 might alter s
277  to ion transport, hypoxia-reoxygenation and cell cycle regulation, suggesting that KMT2D is importan
278           Overall, these findings revealed a cell cycle regulation that disables human telomerase ass
279  2 networks is cyclin D2, a key component of cell cycle regulation that shows increased expression in
280 c approaches and insights into Chlamydomonas cell-cycle regulation that have been enabled by a new ge
281 on of the SAC suggests that it is subject to cell-cycle regulation that is independent of bipolar spi
282 cient details accumulate, as for Caulobacter cell cycle regulation, the system design has been found
283                                              Cell cycle regulation therefore plays a critical role in
284 ovel insights into the roles of KAT6 HATs in cell cycle regulation through modulating PCNA levels on
285 ates metabolic status, mediated by AMPK, and cell-cycle regulation, through competitive regulation of
286 involved in various cellular functions, from cell cycle regulation to metabolism, suggesting that THC
287 pecific pathways and functions, ranging from cell cycle regulation to morphogenesis.
288  mutations involved in cell differentiation, cell cycle regulation, tumor suppression, drug responsiv
289                            Here we show that cell-cycle regulation underlies variable Ki-67 expressio
290                      As both are involved in cell cycle regulation we analyzed whether there was a di
291 s to understand the role of gamma-tubulin in cell cycle regulation, we have created functional fluore
292  as a modulator of thymocyte development and cell cycle regulation, we performed gene-profiling exper
293                     Key proteins involved in cell cycle regulation were dysregulated.
294 ne modification or chromatin remodeling, and cell cycle regulation were found in 68%, 73% and 59% of
295 kinase signaling pathway, axon guidance, and cell-cycle regulation were among the earliest targets of
296 e/threonine kinases with well-known roles in cell cycle regulation, were identified as hits in four d
297    Shp2 deletion disrupted ERK signaling and cell cycle regulation, which could be partially compensa
298 ibed divergent functions of ERK1 and ERK2 in cell cycle regulation, which may be due in part to the d
299 he nuclear factor-kappaB pathway, apoptosis, cell-cycle regulation, Wnt signaling, and histone modifi
300 e in the control of pluripotency, cell fate, cell cycle regulation, X chromosome inactivation and par

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