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1 he stratum corneum (e.g., corneodesmosin and plakoglobin).
2 tiple desmosomal proteins including Dsc3 and plakoglobin.
3  fewer desmosomes in cells expressing mutant plakoglobin.
4  residue at position 39 in the N-terminus of plakoglobin.
5 n due to post-translational stabilization of plakoglobin.
6  resulting in normal levels of the truncated plakoglobin.
7  implications for understanding the roles of plakoglobin.
8 ox is also found in the N-terminal domain of plakoglobin.
9 how mediates the distribution or function of plakoglobin.
10 uding desmoglein 1 and 2, plakophilin 2, and plakoglobin.
11 ical actin are enhanced by overexpression of plakoglobin.
12 wo Armadillo-like proteins, beta-catenin and plakoglobin.
13  5-fold more potently than wild type or S28A plakoglobin.
14 ns multiple desmosomal components, including plakoglobin.
15  adherens junction proteins beta-catenin and plakoglobin.
16 the cell adhesion cofactors beta-catenin and plakoglobin.
17 ine phosphorylation of both beta-catenin and plakoglobin.
18 ollins, that bind to the cytoplasmic protein plakoglobin.
19 lication as were "free," unfettered forms of plakoglobin.
20 ers by the chimera required co-expression of plakoglobin.
21 constructed two "membrane-anchored" forms of plakoglobin.
22 iate filaments and the catenin-family member plakoglobin.
23 LUG-high cancer cells elevated the levels of plakoglobin.
24  decreased the levels of mRNA and protein of plakoglobin.
25 ered to express the Naxos-associated form of plakoglobin.
26 earts, where they co-localized with PKP2 and plakoglobin.
27 uppressed canonical Wnt signaling by nuclear plakoglobin.
28  binds to desmoglein-1 more weakly than does plakoglobin.
29 have reduced migration due to restoration of plakoglobin.
30                               gamma-Catenin (Plakoglobin), a well-described structural protein functi
31                                              Plakoglobin, a member of the catenin family, is localize
32                In mouse models, knockdown of plakoglobin abrogates CTC cluster formation and suppress
33 st that insufficiency of the truncated Naxos plakoglobin accounts for disease manifestation.
34 ; after the midblastula transition exogenous plakoglobin accumulates in embryonic nuclei.
35 embrane-tethered beta-catenin or its paralog plakoglobin activates Wnt signaling, suggesting that nuc
36  of ARVC demonstrates for the first time how plakoglobin affects beta-catenin activity in the heart a
37 anize desmosomes; however, overexpression of plakoglobin, along with E-cadherin, did permit desmosome
38 d either to beta-catenin/alpha-catenin or to plakoglobin/alpha-catenin dimers.
39                                              Plakoglobin also forms distinct cytosolic protein comple
40 expression of the truncated Naxos-associated plakoglobin also results in an AC-like phenotype; theref
41               HEK293 cells expressing mutant plakoglobin also showed higher rates of proliferation an
42 eduction in immunoreactive signal levels for plakoglobin (also known as gamma-catenin), a protein tha
43 ratinocytes resulted in (i) glycosylation of plakoglobin and (ii) increased levels of plakoglobin due
44 clear localization of the desmosomal protein plakoglobin and a 2-fold reduction in canonical Wnt/beta
45 sed peroxovanadate to tyrosine phosphorylate plakoglobin and beta-catenin and to dissociate adherens
46                                              Plakoglobin and beta-catenin are homologous armadillo re
47                                              Plakoglobin and beta-catenin bind strongly and with simi
48                  Tyrosine phosphorylation of plakoglobin and beta-catenin resulted in their rapid tra
49 ucts were used to investigate the ability of plakoglobin and beta-catenin that had redistributed from
50                                   Binding of plakoglobin and beta-catenin to the intracellular region
51                          The distribution of plakoglobin and beta-catenin was determined by immunoflu
52 rmadillo protein gene family, which includes plakoglobin and beta-catenin, have important functions i
53 ween the adhesion and signaling functions of plakoglobin and beta-catenin.
54                                              Plakoglobin and Cx43 signals were also reduced in most f
55  translocation was associated with increased plakoglobin and decreased beta-catenin binding to nuclea
56  It is shown that the complex formed between plakoglobin and desmoglein 1 has an overall molecular we
57 olecular organization of complexes formed by plakoglobin and desmoglein 1, 2, or 3 are further examin
58 te filament cytoskeleton, presumably through plakoglobin and desmoplakin.
59                                              Plakoglobin and DP-NTP co-immunoprecipitated when extrac
60                                 In addition, plakoglobin and DP-NTP were recruited to cell-cell inter
61 ctivation on the subcellular distribution of plakoglobin and its association with its junctional bind
62 regulate the post-translational stability of plakoglobin and keratinocyte cell-cell adhesion.
63 alpha-catenin binds to both beta-catenin and plakoglobin and may link the cadherin/catenin complex to
64 lular catenins (alpha-, beta-, gamma-catenin/plakoglobin and p120CAs).
65 t bind the common desmosomal plaque proteins plakoglobin and plakophilin 1, is integrated into functi
66 ts with all four DSCR ligands, strongly with plakoglobin and plakophilin and more weakly with desmopl
67 esmoplakin, and the armadillo family members plakoglobin and plakophilin-1 were examined.
68 Our recent proteomics experiments identified plakoglobin and plakophilin-2 (PKP2) as putative K(ATP)
69           Thus, cleavage of beta-catenin and plakoglobin and shedding of VE-cadherin may act in conce
70           To begin to identify links between plakoglobin and the cortical actin polymerization machin
71             The relatively weak signaling by plakoglobin and the failure of the S28A mutation to enha
72 eveal that the effects of LMP1 on junctional plakoglobin and the initiation of a cadherin switch like
73 oreactive signals for the desmosomal protein plakoglobin and the major cardiac gap junction protein C
74  There was no detectable association between plakoglobin and the MUC1 CT.
75                                         Both plakoglobin and the related protein beta-catenin are pos
76 in, E-cadherin, alpha-catenin, beta-catenin, plakoglobin, and actin) and the proliferation marker Ki-
77 remains associated with its catenin partner, plakoglobin, and causes a reduction in the levels of end
78 , some cell junction proteins (beta-catenin, plakoglobin, and E-cadherin) were more phosphorylated in
79         PM proteins, such as beta1-integrin, plakoglobin, and major histocompatibility complex class
80                  Keratins K15, K19, and K20, plakoglobin, and MEOX1 were excluded as candidates by di
81 hile cadherin-binding proteins beta-catenin, plakoglobin, and p120(ctn) are members of the Armadillo
82 e show here that beta-catenin, gamma-catenin/plakoglobin, and p120-Cas are all significantly tyrosine
83 desmoglein 3, desmocolin A/B, desmoplakin I, plakoglobin, and plakophilin), indicating that desmosome
84 al molecules, VE-cadherin, beta-catenin, and plakoglobin, and reduced the ICAM-1-mediated phosphoryla
85 s of PKP2, the associated desmosomal protein plakoglobin, and the gap-junction protein connexin-43.
86 ined, including alpha-catenin, beta-catenin, plakoglobin, and zyxin, but none was identified at the h
87 s have suggested that both alpha-catenin and plakoglobin are important for the adhesive function of c
88 E-cadherin, beta-catenin, and gamma-catenin (plakoglobin) are all concentrated in caveolae membranes.
89        Catenins (alpha-, beta- and gamma- or plakoglobin) are cytoplasmic cadherin-associated protein
90 in sensitivity experiments indicate that the plakoglobin arm domain by itself is more flexible than t
91                 The crystal structure of the plakoglobin armadillo domain bound to phosphorylated E-c
92 y thus implicates SLUG-induced repression of plakoglobin as a motility determinant in highly dissemin
93 ples, identifies the cell junction component plakoglobin as highly differentially expressed.
94   In addition, we show that beta-catenin and plakoglobin associate only with phosphorylated proN-cadh
95                  Thus, a modest reduction of plakoglobin associated with E-cadherin is apparently not
96 y regulate desmosome assembly by controlling plakoglobin availability.
97 hesion molecule E-cadherin; beta-catenin and plakoglobin bind a carboxy-terminal region in a mutually
98                          Separate domains of plakoglobin bind to cadherin and alpha-catenin, suggesti
99                             beta-Catenin and plakoglobin bind with similar weak affinities to desmoco
100                Inhibition of Trim32 enhanced plakoglobin binding to PI3K-p85 and promoted PI3K-Akt-Fo
101 ein desmoplakin in a manner dependent on the plakoglobin-binding domain of the Dsg3 tail.
102                                   Absent the plakoglobin-binding site the chimeric molecule colocaliz
103           Deletion of the 87 amino acid long plakoglobin-binding site within the intracellular cadher
104                             In normal muscle plakoglobin binds the insulin receptor and PI3K subunit
105 not affect Tcf/Lef activity or the amount of plakoglobin bound to Tcf4.
106 ized from the cell surface in a complex with plakoglobin but not desmoplakin.
107 ysis indicated that DP-NTP binds directly to plakoglobin but not Dsg1.
108  LMP1 decreased overall levels of junctional plakoglobin but the remaining junctional plakoglobin was
109                                              Plakoglobin, but normally not beta-catenin, is also a st
110                          In one model, Naxos plakoglobin bypassed the nonsense-mediated mRNA decay pa
111                     These data indicate that plakoglobin can act cytoplasmically to generate a WNT-li
112    Similar results are observed with ectopic plakoglobin, casting doubt on a normal role for plakoglo
113                                  Ablation of plakoglobin caused increase beta-catenin stabilization a
114             Despite gap junction remodeling, plakoglobin CKO hearts were refractory to induced arrhyt
115 ent with altered desmosome ultrastructure in plakoglobin CKO hearts.
116                                              Plakoglobin CKO mice exhibited progressive loss of cardi
117 ibute to the cardiac hypertrophy response in plakoglobin CKO mice.
118 wn cells; levels of E-cadherin, desmoplakin, plakoglobin, claudin-4, occludin, zonula occludens 1, an
119 atenin and the remainder of beta-catenin and plakoglobin co-elute in a high molecular weight complex
120 cant fraction of alpha- and beta-catenin and plakoglobin co-elute with cadherin in a high molecular w
121 plakin in organizing the desmosomal cadherin-plakoglobin complex and provide new insights into the hi
122 lpha-catenin compete directly for binding to plakoglobin, consistent with the absence of alpha-cateni
123                   Three separate segments of plakoglobin containing various numbers of the so-called
124              In mice, cardiomyocyte-specific plakoglobin deficiency recapitulates many aspects of hum
125 G) and an NH(2)-terminally truncated form of plakoglobin (DeltaN80PG) in mouse epidermis and hair fol
126 of primary tumor cells held together through plakoglobin-dependent intercellular adhesion, and though
127 show that cdc42 cannot rescue the effects of plakoglobin depletion, showing that plakoglobin is requi
128 ed behavior in embryos, is also abrogated by plakoglobin depletion.
129 esmosomal components, including desmoplakin, plakoglobin, desmoglein 1 and 2, and desmocollin 1a and
130 moglein 3; however, the stoichiometry of the plakoglobin/desmoglein 1 complex does not appear to exce
131 verall molecular weight greater than that of plakoglobin/desmoglein 2 or plakoglobin/desmoglein 3; ho
132 ter than that of plakoglobin/desmoglein 2 or plakoglobin/desmoglein 3; however, the stoichiometry of
133 nd showed markedly decreased localization of plakoglobin, desmoplakin, and connexin43 at intercalated
134 report that the mechanical junction proteins plakoglobin, desmoplakin, and N-cadherin are also upregu
135 t of uncomplexed, monomeric beta-catenin and plakoglobin, detected both by affinity precipitation and
136 binding partners to plakoglobin, the loss of plakoglobin did not affect its association with Tcf4.
137    The resultant decreased levels of nuclear plakoglobin did not affect Tcf/Lef activity or the amoun
138  have studied the roles of alpha-catenin and plakoglobin directly, by depleting the maternal mRNAs co
139 ve the cortical actin skeleton, showing that plakoglobin does not mediate its effect by its known lin
140                                     However, plakoglobin does rescue the effect of cdc42 depletion, s
141 in-deleted cadherin, which is uncoupled from plakoglobin, does not impair adhesion, indicating that t
142 se uptake, and induced fiber growth, whereas plakoglobin down-regulation reduced PI3K-Akt-FoxO signal
143  of plakoglobin and (ii) increased levels of plakoglobin due to post-translational stabilization of p
144 E-cadherin, alpha-catenin, beta-catenin, and plakoglobin during transendothelial migration under phys
145           However, the mechanisms underlying plakoglobin dysfunction involved in the pathogenesis of
146                                          The plakoglobin:E-cadherin ratio decreased in Dsg1-expressin
147 h is caused by a 2-base pair deletion in the plakoglobin-encoding gene JUP that results in a truncate
148 sed in L-cells, the desmosomal cadherins and plakoglobin exhibited a diffuse distribution.
149 Akt and NF-kappaB and shows that the loss of plakoglobin expression by LMP1 is a significant factor i
150 growth, tight and gap junction formation and plakoglobin expression.
151 blocked tyrosine phosphorylation of Dsg2 and plakoglobin following epidermal growth factor stimulatio
152  cytoplasmic distribution and, together with plakoglobin, form detergent-insoluble aggregates.
153                                 In addition, plakoglobin functions as a signaling protein via its abi
154 ression of at least a subset of these genes, plakoglobin, galectin 7, sciellin, and SPRR3, was also d
155 ulation of the closely related family member plakoglobin (gamma-catenin) that maintained both adheren
156              In common with beta-catenin and plakoglobin (gamma-catenin), p120(ctn) contains a centra
157 beta-catenin but decreased nuclear levels of plakoglobin (gamma-catenin).
158 th a robust phosphorylation of beta-catenin, plakoglobin/gamma-catenin, and p120(cas) on tyrosine res
159 r the association of catenins (beta-catenin, plakoglobin/gamma-catenin, or p120(cas)) with E-cadherin
160 e found that SLUG inhibits the expression of plakoglobin gene directly in these cells.
161 cible cardiorestricted knockout (CKO) of the plakoglobin gene in mice.
162     A homozygous 2 base pair deletion in the plakoglobin gene was identified only in the 19 affected
163 gh the knockdown of the transcription of the plakoglobin gene.
164             Moreover, expression of anchored plakoglobins had no apparent effect on the cytoplasmic o
165 gration of epithelial cells, and the loss of plakoglobin has been identified as a contributing factor
166                                     In fact, plakoglobin has been proposed to suppress tumorigenesis.
167    A recessive mutation in the gene encoding plakoglobin has been shown to cause Naxos disease, a car
168 st that increasing levels of truncated or WT plakoglobin has potential as a therapeutic approach to N
169       Additionally, because beta-catenin and plakoglobin have both structural and regulatory function
170 tations in desmosomal genes, desmoplakin and plakoglobin, have been implicated in the pathogenesis of
171 me, a dominant mutation in the gene encoding plakoglobin in a German family with ARVC but no cutaneou
172                 The finding of a deletion in plakoglobin in ARVC suggests that the proteins involved
173                   To investigate the role of plakoglobin in ARVC, we generated an inducible cardiores
174 koglobin, casting doubt on a normal role for plakoglobin in axis specification and indicating that ec
175 ransgenic mice expressing desmosomal protein plakoglobin in myocyte lineages.
176 raction between K(ATP) channels and PKP2 and plakoglobin in rat heart.
177 tyrosine phosphorylation of beta-catenin and plakoglobin in regulating adherens junction mediated cel
178                         Forced expression of plakoglobin in SLUG-high cells had the reverse effects o
179                   To investigate the role of plakoglobin in these functions we expressed a full-lengt
180                                 Knockdown of plakoglobin in these low motility non-invasive breast ca
181 t desmoglein 1 binds to its catenin partner, plakoglobin, in an approximately 6:1 stoichiometry.
182 ion of the epithelial markers E-cadherin and plakoglobin, increased expression of the mesenchymal mar
183                            Overexpression of plakoglobin induces neural axis duplication in Xenopus a
184 To determine if the desmosomal cadherins and plakoglobin interact with the amino-terminal domain of d
185                   In contrast to desmoplakin-plakoglobin interactions, the interaction between desmop
186                                              Plakoglobin is a component of both desmosomes and adhere
187                                              Plakoglobin is a junctional protein that can also serve
188                                However, when plakoglobin is artificially engineered to restrict it to
189 rior to the midblastula transition exogenous plakoglobin is cytoplasmic and concentrated in the corti
190 ) to chromosome 17q21, in which the gene for plakoglobin is encoded.
191  that observed when expression of keratin or plakoglobin is inhibited.
192 xis duplication in Xenopus and the exogenous plakoglobin is localized to nuclei.
193                               We report that plakoglobin is modified by the addition of O-GlcNAc at a
194                                              Plakoglobin is not expressed in this region during stage
195                                              Plakoglobin is one of two vertebrate proteins closely re
196 cantly accumulate, whereas soluble wild type plakoglobin is readily detected.
197 fects of plakoglobin depletion, showing that plakoglobin is required for cdc42-mediated cortical acti
198  to test whether the nuclear localization of plakoglobin is required for its inductive effects.
199                                              Plakoglobin is the only protein that occurs in the cytop
200 ns junction and desmosome-associated protein plakoglobin is unknown.
201  canonical Wnt signaling, imposed by nuclear plakoglobin, is the responsible mechanism for the pathog
202 , DSG2 (n = 5), DSC2 (n = 3), and junctional plakoglobin (JUP) (n = 2).
203                             Mutations in the plakoglobin (JUP) gene have been identified in arrhythmo
204  homozygous loss-of-function mutation of the Plakoglobin (Jup) gene, which encodes a major component
205 g 4 encoding desmosomal proteins (Junctional plakoglobin (JUP), Desmoplakin (DSP), Plakophilin 2, and
206 dhesion proteins of the desmosome, including plakoglobin (JUP).
207 oth abundance of CTC clusters and high tumor plakoglobin levels denote adverse outcomes.
208     Moreover, we demonstrate that increasing plakoglobin levels rescues cadherin expression, desmosom
209 n the molecular and functional properties of plakoglobin, LMP1 was overexpressed in the NPC cell line
210 dherens junctions can form in the absence of plakoglobin, making use only of beta-catenin, such junct
211                                     However, plakoglobin may have other activities: it is expressed i
212  cells lacking Dsc but expressing myc-tagged plakoglobin (MPg).
213 binding of SLUG also increased the levels of plakoglobin mRNA, protein, and promoter activity in the
214 m loss or gain of function consequent to the plakoglobin mutation.
215 on to enhance its stability, may explain why plakoglobin mutations are infrequent in malignancies.
216 activity are found in many human tumors, but plakoglobin mutations are not commonly found.
217 es and cardiomyopathies seen with Trim32 and plakoglobin mutations.
218  DSP (desmoplakin) and JUP (junction protein plakoglobin) mutations are responsible for a subset of p
219    Mutant PKP2 iPSC-CMs demonstrate abnormal plakoglobin nuclear translocation and decreased beta-cat
220 To investigate the functional consequence of plakoglobin O-glycosylation, we cloned and overexpressed
221                                     Tethered plakoglobin or beta-catenin might signal on their own or
222 main interactions with the armadillo protein plakoglobin or coexpression of its companion suprabasal
223 t in the early Xenopus embryo, activation of plakoglobin (or beta-catenin) inhibits the activity of X
224  that mediates the interaction of Dsc1a with plakoglobin, or the CSI region that is involved in the b
225                                Surprisingly, plakoglobin overexpression alone enhanced PI3K-Akt-FoxO
226                      Unlike beta-catenin and plakoglobin, p120 does not interact with alpha-catenin,
227 rease in the cytoskeleton-associated pool of plakoglobin (Pg) and a corresponding increase in the cyt
228 h desmosomal cadherins, which interface with plakoglobin (PG) and desmoplakin (DP) to associate with
229 sion of the intercalated disc plaque protein plakoglobin (Pg) and direct phosphorylation at S665 by p
230                          We demonstrate that plakoglobin (Pg) in conjunction with lymphoid enhancer-b
231 ted signaling properties of junction protein plakoglobin (PG) in the pathogenesis of ARVC.
232                                              Plakoglobin (PG) is a major component of the intracellul
233                                              Plakoglobin (PG) is a member of the Armadillo family of
234                                              Plakoglobin (PG) is a member of the Armadillo family of
235                 The armadillo family protein plakoglobin (Pg) is a well-characterized component of an
236 iously reported that cardiac tissue-specific plakoglobin (PG) knockout (PG CKO) mice have no apparent
237                            Desmoplakin (DP), plakoglobin (PG), and plakophilin 1 (PP1) are desmosomal
238         The obligate desmosomal constituent, plakoglobin (PG), is involved in coupling transmembrane
239                           Thus, by promoting plakoglobin-PI3K dissociation, Trim32 reduces PI3K-Akt-F
240 2, encoding desmosomal proteins desmoplakin, plakoglobin, plakophilin 2 (PKP2), desmoglein 2 (DSG2),
241                      Thus, we speculate that plakoglobin plays a signaling role in desmosome organiza
242 l architecture in the early embryo, and that plakoglobin plays an essential role in the assembly, mai
243       We showed previously that depletion of plakoglobin protein during the egg to gastrula stages ca
244 to stably express either wild-type or mutant plakoglobin protein showed that the mutant protein was a
245                                              Plakoglobin provides a key linkage in protein chains tha
246                                              Plakoglobin regulates cell adhesion by providing a modul
247  junction in which adherens-junction-derived plakoglobin regulates nuclear transcription by antagoniz
248 a raise the possibility that beta-catenin or plakoglobin released from the adherens junctions by tyro
249                   These proteins, along with plakoglobin, remain equally distributed between detergen
250                                 Depletion of plakoglobin results in a partial loss of adhesion, and a
251 ot bind to endogenous alpha-catenin, whereas plakoglobin retains its binding capacity.
252 tion sequence" does not change the timing of plakoglobin's nuclear localization, suggesting that it i
253 ion S37A; however, the analogous mutation in plakoglobin (S28A) does not alter its half-life.
254 otein synaptophysin, with the complete human plakoglobin sequence, is sorted to small vesicles many o
255 ndent manner, leading us to hypothesize that plakoglobin sequestration by truncated Dsg1 destabilizes
256                   We propose a model whereby plakoglobin serves as a linker between the cadherins and
257                                          The plakoglobin signal level was reduced diffusely in ARVC s
258            To determine whether a diminished plakoglobin signal level was specific for ARVC, we analy
259    In every sample, levels of N-cadherin and plakoglobin signals at junctions were indistinguishable
260                          LMP1 did not affect plakoglobin stability but did decrease plakoglobin trans
261 patterns of alpha-catenin, beta-catenin, and plakoglobin suggest that these proteins are directly lin
262 esmoplakin and also interacted directly with plakoglobin, suggesting that p0071 may regulate desmosom
263 ions of cyclin D2, IGFBP-6, osteopontin, and plakoglobin, suggesting that these genes represent immed
264 ecipitated with E-cadherin, Desmoglein 1 and Plakoglobin, suggesting that they form a complex (es) th
265 horylated beta-catenin, and junction protein plakoglobin (the latter translocated from the junction).
266 n, a protein with common binding partners to plakoglobin, the loss of plakoglobin did not affect its
267 exhibits weak but specific interactions with plakoglobin, the plakin domain of desmoplakin, plakophil
268 or regulating the binding of beta-catenin or plakoglobin to (i) E-cadherin and (ii) alpha-catenin.
269 EF1 and TCF4 synergize with beta-catenin and plakoglobin to activate OT, both suppress the signaling
270                  We conclude that binding of plakoglobin to desmoglein 3 is an important step in desm
271  of tyrosine phosphorylated beta-catenin and plakoglobin to E-cadherin and to alpha-catenin was subst
272               Moreover, restoration of Naxos plakoglobin to WT levels resulted in normal heart functi
273 ffect plakoglobin stability but did decrease plakoglobin transcription.
274           In Wnt signaling, beta-catenin and plakoglobin transduce signals to the nucleus through int
275                                    Transgene plakoglobin translocated to nucleus, detected by immunob
276 g that the S39_K40insS mutation may increase plakoglobin turnover via proteasomal degradation.
277 sufficient to cause nuclear translocation of plakoglobin, upregulation of adipogenic genes in vitro,
278              beta-Catenin and gamma-catenin (plakoglobin), vertebrate homologs of Drosophila armadill
279                                              Plakoglobin was also ubiquitous.
280 tyrosine phosphorylation of beta-catenin and plakoglobin was associated with decreased cell-cell adhe
281 nal plakoglobin but the remaining junctional plakoglobin was found associated with the induced N-cadh
282              After short term EGF treatment, plakoglobin was rapidly phosphorylated, and tyrosine-pho
283  assess differences between beta-catenin and plakoglobin, we compared several of their biochemical pr
284 l cadherins (desmoglein and desmocollin) and plakoglobin, we have sought to identify the binding doma
285  negatively regulated by the catenin protein plakoglobin, we postulated that the transcriptional repr
286                                Low levels of plakoglobin were also detected in human NPC tissues.
287 gulation of cyclin D2 and down-regulation of plakoglobin were demonstrated in GLI1-amplified compared
288 ptide (DP-NTP), the desmosomal cadherins and plakoglobin were observed in punctate clusters that also
289 e cortical actin skeleton after depletion of plakoglobin, whereas the microtubule and cytokeratin ske
290         Vac8p is related to beta-catenin and plakoglobin, which connect a specific region of the plas
291                             beta-Catenin and plakoglobin, which form intracellular links between vasc
292                                              Plakoglobin, which functions in both cell-cell adhesion
293 lial cells) linked to either beta-catenin or plakoglobin, which is linked to alpha-catenin, which is
294                      These data suggest that plakoglobin, which is the only known common component to
295 creased expression of the junctional protein plakoglobin, which was shown to be partially responsible
296 mes (plakophilin (PKP) 1 and 2, desmoplakin, plakoglobin--which is also present in adherens junctions
297 y removal of phosphate from beta-catenin and plakoglobin with added tyrosine phosphatase, and (ii) ty
298 ar of cells in the tissue and association of plakoglobin with cadherin is diminished.
299 egulates the association of beta-catenin and plakoglobin with E-cadherin and alpha-catenin.
300     This increased association of junctional plakoglobin with N-cadherin was a distinguishing feature

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