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1 el-retaining cell that undergoes predominant asymmetric cell division.
2 part of a signaling pathway that leads to an asymmetric cell division.
3 es from this rule, which invariably leads to asymmetric cell division.
4 s for other cell types, ciliary disease, and asymmetric cell division.
5 eir diminished ability to rejuvenate through asymmetric cell division.
6 s of clones indicates a preferential mode of asymmetric cell division.
7 ar, suggesting that enucleation is a form of asymmetric cell division.
8 ined through the regulation of symmetric and asymmetric cell division.
9 ts as a tumor suppressor in GBM by restoring asymmetric cell division.
10 r Sanpodo (Spdo) to regulate cell fate after asymmetric cell division.
11 ling forces that position the spindle during asymmetric cell division.
12 ture of DNA forms the primary determinant of asymmetric cell division.
13 lopmental biology addresses the mechanism of asymmetric cell division.
14 cell priming, founder cell establishment and asymmetric cell division.
15 n form without spindles, particularly during asymmetric cell division.
16 s the apical-basal polarity in epithelia and asymmetric cell division.
17 cell cortex underlies cell polarization and asymmetric cell division.
18 or proteins that position the spindle during asymmetric cell division.
19 ctate division axis and cleavage site during asymmetric cell division.
20 microtubules and position the spindle during asymmetric cell division.
21 lls, whereas PPAR-delta activation increased asymmetric cell division.
22 n of cell cycle subsystems and Caulobacter's asymmetric cell division.
23 ns epithelial tissue integrity and stem cell asymmetric cell division.
24 potentially useful models for understanding asymmetric cell division.
25 tenance of cell polarity and plays a role in asymmetric cell division.
26 the daughter cells a unique inheritance upon asymmetric cell division.
27 plant-specific solution to the challenge of asymmetric cell division.
28 l mechanism for creating such differences is asymmetric cell division.
29 differentiation of support cells rather than asymmetric cell division.
30 rnal sensory organ (ESO), a classic model of asymmetric cell division.
31 indle positioning is an essential feature of asymmetric cell division.
32 lls and that equalizing centrosomes disrupts asymmetric cell division.
33 iate signaling, cell fate specification, and asymmetric cell division.
34 ferential gene expression in daughters of an asymmetric cell division.
35 GSC-niche junctions, fusome localization and asymmetric cell division.
36 n neuronal migration, neuronal polarity, and asymmetric cell division.
37 rientation with cortical polarity to promote asymmetric cell division.
38 the chaperone that participates with GlsA in asymmetric cell division.
39 tem for studying the molecular mechanisms of asymmetric cell division.
40 ifferent fates of daughter cells produced by asymmetric cell division.
41 the Notch-mediated cell fate decision during asymmetric cell division.
42 l step for generating cell diversity through asymmetric cell division.
43 developmental disorders involving defective asymmetric cell division.
44 y and spindle orientation machineries during asymmetric cell division.
45 are positioned near the cortex to allow the asymmetric cell division.
46 rited equally by daughter cells following an asymmetric cell division.
47 emory precursors by favouring symmetric over asymmetric cell division.
48 ing of SYS-1 promotes its degradation during asymmetric cell division.
49 ched actin networks, in PAN polarization and asymmetric cell division.
50 entus, a model for cell cycle regulation and asymmetric cell division.
51 activated aPKC kinase and thought to promote asymmetric cell division.
52 extended G2-M phase and increased polarized asymmetric cell divisions.
53 paths are driven forward by a succession of asymmetric cell divisions.
54 r through a complex balance of symmetric and asymmetric cell divisions.
55 pensable for the production of self-renewing asymmetric cell divisions.
56 t is critical for the production of terminal asymmetric cell divisions.
57 and consider the implications of its role in asymmetric cell divisions.
58 t this domain is essential for repression of asymmetric cell divisions.
59 n and causes misorientation of symmetric and asymmetric cell divisions.
60 ain the activity of fate determinants during asymmetric cell divisions.
61 lls that are created during embryogenesis by asymmetric cell divisions.
62 active K-Ras also increased the frequency of asymmetric cell divisions.
63 poptosis and mitotic potential in C. elegans asymmetric cell divisions.
64 lopment to generate unequal daughters during asymmetric cell divisions.
65 o-dimensional (2D) plane through a series of asymmetric cell divisions.
66 and an intrinsic polarity mechanism ensures asymmetric cell divisions.
67 We did not observe regulated asymmetric cell divisions.
68 sitioning is critical for both symmetric and asymmetric cell divisions.
69 , where it was assigned a regulatory role in asymmetric cell divisions.
70 egulation and function in both symmetric and asymmetric cell divisions.
74 umor-initiating cell phenotype by regulating asymmetric cell division, a process necessary for tumor
75 on of genes involved in shoot patterning and asymmetric cell division accompanies the transition from
79 tem cell-intrinsic model of self-renewal via asymmetric cell division (ACD) posits that fate determin
88 his pattern is primarily driven by iterative asymmetric cell divisions (ACDs) in stomatal progenitors
90 of beta-catenin in regulating cell fates and asymmetric cell divisions along the entire anterior-post
92 enes, known to regulate embryonic neuroblast asymmetric cell division, also regulate neuroblast self-
94 lar processes ranging from cell migration to asymmetric cell division and axon and dendrite specifica
95 oes replicative aging (RA) that results from asymmetric cell division and causes phenotypic differenc
96 of proteins known to play a critical role in asymmetric cell division and cell polarization is the pa
100 ; this interaction is considered critical to asymmetric cell division and neuro-epithelium and epithe
101 coupled cell-cycle control system, including asymmetric cell division and responses to external starv
102 ke cells (TICs) are defective in maintaining asymmetric cell division and responsible for tumor recur
103 summarize the molecular mechanisms governing asymmetric cell division and review recent findings poin
104 phila brat and demonstrate its regulation of asymmetric cell division and stem cell properties of gli
105 ine nucleotide exchange factor RIC-8 in both asymmetric cell division and synaptic vesicle priming in
106 on neoplastic behavior, in part by governing asymmetric cell division and the balance between self-re
107 R) and SCARECROW (SCR), cooperatively direct asymmetric cell division and the patterning of root cell
108 feration and differentiation associated with asymmetric cell division and their broader implications
109 ulatory proteins that influence invertebrate asymmetric cell division and vertebrate neuroepithelium
110 prior to metaphase plate centering leads to asymmetric cell divisions and daughter cells of unequal
111 ing the CD70/CD27 interaction by mAb induced asymmetric cell divisions and differentiation in AML bla
112 pericycle cells is required to position the asymmetric cell divisions and generate a core of small d
113 of extracellular Wnt ligand is essential for asymmetric cell divisions and male differentiation durin
114 PCH controls key regulators of cell fate and asymmetric cell divisions and modulates responsiveness t
115 (a mobile transcription factor), they direct asymmetric cell divisions and patterning of cell types.
116 en-activated protein kinase cascades, orient asymmetric cell divisions and prevent overproduction and
117 KK4/MKK5-MPK3/MPK6 causes the suppression of asymmetric cell divisions and stomatal cell fate specifi
119 yeast Saccharomyces cerevisiae reproduces by asymmetric cell division, and has thus served as an attr
120 ions in transcription factor concentrations, asymmetric cell division, and Notch signalling--still of
121 haliana, stomatal development is preceded by asymmetric cell divisions, and stomatal distribution fol
122 h-mediated binary cell-fate decisions during asymmetric cell divisions, and what are the cellular mec
123 ependent mitotic spindle positioning during (asymmetric) cell division, and Galpha(olf)-dependent odo
124 nnected with processes including cell cycle, asymmetric cell division, apoptosis and actomyosin-regul
125 damage accumulation and partitioning through asymmetric cell division are essential in the determinat
129 e micromeres in a sea urchin that form by an asymmetric cell division at the 4(th) embryonic cleavage
131 e-specific symmetrization events of normally asymmetric cell divisions at the fourth larval stage, le
132 ze the effects of core cellular processes in asymmetric cell division based on Ace2 localization.
133 genitor cells and undergo multiple rounds of asymmetric cell division, ;budding off' smaller daughter
134 the heterogeneous tumor bulk, suggestive of asymmetric cell division, but an equally plausible expla
135 e cytoplasm, suggesting that MOM-5 regulates asymmetric cell division by controlling the localization
136 f brain tumor (brat) leads to loss of normal asymmetric cell division by developing neural cells and
137 us, the PopZ polar scaffold protein supports asymmetric cell division by recruiting distinct sets of
141 larity plays an important role in regulating asymmetric cell divisions by neural progenitor cells (NP
142 face receptors during mitosis could generate asymmetric cell divisions by yielding daughters with dif
143 are critically involved in processes such as asymmetric cell division, cell polarity and neuronal dif
144 tein implicated in apicobasal cell polarity, asymmetric cell division, cell shape and cell cycle exit
147 Sporulation in Bacillus subtilis requires asymmetric cell division, chromosome transfer into the s
149 reproducibility of embryonic geometries and asymmetric cell divisions, controlled by differential si
150 ings here and argue that one such mechanism, asymmetric cell division, creates an early divergence in
153 Acute exposure of GSCs to CBL0137 increased asymmetric cell division, decreased GSC marker expressio
155 cellular contexts, including embryogenesis, asymmetric cell division, directional migration, and epi
156 in the retina maintained the preference for asymmetric cell division during regenerative responses.
159 t alleles of insensitive, reported to affect asymmetric cell divisions during sensory organ developme
160 are required for proper specification of key asymmetric cell divisions during stem cell initiation an
161 ses in animal cells, such as cell migration, asymmetric cell division, epithelial barrier function, a
162 cg2 modulates CSP cell cycle progression and asymmetric cell division, establishing a mechanistic lin
163 oth jumu and CHES-1-like are required during asymmetric cell division for the derivation of two disti
170 l patterning events such as gastrulation and asymmetric cell division; however, little is known about
171 functions to orient mitotic spindles during asymmetric cell divisions; however, whether Ric-8A has a
172 cell-cycle kinetics and a premature shift to asymmetric cell divisions impairing progenitor cell pool
173 s process requires the tight coordination of asymmetric cell division in adjacent pericycle cells.
176 tic mechanisms might have evolved to dictate asymmetric cell division in diploid, higher eukaryotes a
177 endosomes to regulate signaling output after asymmetric cell division in Drosophila neural progenitor
179 MTOCs can be differentially inherited during asymmetric cell division in organisms ranging from yeast
183 nse systems that regulate the cell cycle and asymmetric cell division in the bacterium Caulobacter cr
185 whether such an epigenetic mechanism causes asymmetric cell division in the recently sequenced fissi
187 Cardioprotective kinase Pim-1 increases asymmetric cell division in vivo, but the ability of Pim
188 ictly controlled cell expansion is linked to asymmetric cell division in zygotes and stomatal lineage
189 derm, the regulation of axial properties and asymmetric cell divisions in a wide array of metazoans.
191 CYCD6;1, and regulates formative periclinal asymmetric cell divisions in endodermis and cortex/endod
192 eterminant and tumor suppressor Numb imposes asymmetric cell divisions in mammary stem cells by regul
193 l classes of molecules are known to regulate asymmetric cell divisions in metazoans, yet these molecu
194 ate segregation (NRTS) of chromosomes during asymmetric cell divisions in phylogenetically divergent
196 walls are often incorrectly oriented during asymmetric cell divisions in the leaf epidermis of maize
197 is thaliana) SPEECHLESS (SPCH) that initiate asymmetric cell divisions in the leaf protoderm layer an
198 echanism, that stratification occurs through asymmetric cell divisions in which the mitotic spindle o
199 owth of Candida albicans is characterized by asymmetric cell divisions in which the subapical mother
202 to mammals, cell-cycle progression during an asymmetric cell division is accompanied by precisely tim
208 rinting/segregation epigenetic mechanism for asymmetric cell division is evolutionary conserved.
212 es that the facultative use of symmetric and asymmetric cell division is orchestrated by a polarity c
218 polarization of intracellular components and asymmetric cell divisions is a fundamental part of metaz
219 trate that regulation of spindle orientation/asymmetric cell divisions is one mechanism that is used
220 ic centrosome maturation is not required for asymmetric cell division, it is required for proper cent
226 ini have a stereotyped cleavage pattern with asymmetric cell divisions, nuclear migrations, and cell
230 ral root organs requires tightly coordinated asymmetric cell division of a limited number of pericycl
231 f the ascidian larva to show that, following asymmetric cell division of common progenitors, NK4/NKX2
232 evious work has demonstrated that during the asymmetric cell division of Drosophila male germline ste
233 x and maintaining cell size asymmetry during asymmetric cell division of Drosophila neuroblasts (NBs)
234 ouple spindle orientation to polarity during asymmetric cell division of Drosophila neuroblasts.
235 the differentiating daughter cells upon the asymmetric cell division of interfollicular progenitor c
237 that increase in frequency by exploiting the asymmetric cell division of oogenesis--present a potent
238 veal a critical molecular pathway underlying asymmetric cell division of radial glial progenitors in
241 itiation of the root meristem occurs when an asymmetric cell division of the hypophysis forms the dis
242 n and histamine is postulated as is also the asymmetric cell divisions of precursor cells to produce
243 e after undergoing two consecutive cycles of asymmetric cell divisions: only one among four "granddau
244 We reveal that the function of CDKA;1 in asymmetric cell divisions operates through a transcripti
245 Surprisingly, APCs are not essential for asymmetric cell division or the stereotyped division axi
246 , such as mitotic spindle orientation during asymmetric cell division, or the establishment of apical
249 required for regulation of MAGUK function in asymmetric cell division, possibly through regulation of
250 retain preexisting canonical histones during asymmetric cell divisions, probably as a mechanism to ma
251 ife cycle stages typically occurs through an asymmetric cell division process, producing two morpholo
255 rulation in Bacillus subtilis begins with an asymmetric cell division producing two genetically ident
256 a decrease in the frequency of symmetric and asymmetric cell divisions producing daughter cells capab
260 hila, Brain Tumor (Brat), leads to disrupted asymmetric cell division resulting in dramatic neoplasti
261 chromosome number occurs through two highly asymmetric cell divisions, resulting in one large egg an
262 urchin AGS into the sea star embryo induces asymmetric cell divisions, suggesting that the molecular
264 ator of cell proliferation and the timing of asymmetric cell division that are important for final ro
266 mesoderm, this subdivision is a result of an asymmetric cell division that leads to the formation of
268 , but represses the subsequent, longitudinal asymmetric cell divisions that generate the two cell typ
269 y cell-fate decisions that take place during asymmetric cell divisions that give rise to the sensory
270 mal tissue homeostasis is maintained through asymmetric cell divisions that produce daughter cells wi
271 event in the preparation of mother cells for asymmetric cell divisions that produce daughters of dist
272 cellular diversity is often achieved through asymmetric cell divisions that produce two daughter cell
273 are key regulators of root growth and of the asymmetric cell divisions that separate the ground tissu
277 aromyces cerevisiae, are excellent models of asymmetric cell division, this phenotype occurs in all c
278 s breathing pores in the epidermis, requires asymmetric cell division to differentiate highly special
279 h the physical process of cytokinesis during asymmetric cell division to ensure the fidelity of daugh
282 in response to hormonal stimulation, undergo asymmetric cell division to produce a polar body and cle
283 ed by Muller Glia (MG) dedifferentiation and asymmetric cell division to produce multipotent progenit
286 A correct balance between proliferative and asymmetric cell divisions underlies normal development,
287 only exhibited by one daughter cell after an asymmetric cell division, we study how BASL differential
289 d pharmacologic experiments demonstrate that asymmetric cell divisions were increased in hyperprolife
291 Arabidopsis stomatal development requires asymmetric cell division, where the nucleus moves to the
293 their polarity to generate cell diversity by asymmetric cell division, whereas differentiated cells u
294 antigen-presenting cells (APCs), can undergo asymmetric cell division, wherein the daughter cell prox
296 partitioning of proteins in cells underlies asymmetric cell division, which is an important driver o
298 in which FGF generates suprabasal tissue by asymmetric cell division, while Shh triggers cell rearra
299 hrough a stereotyped series of symmetric and asymmetric cell divisions whose frequency and orientatio
300 ontrol of gene expression, culminating in an asymmetric cell division yielding distinct daughter cell