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51.
p120-catenin and p190RhoGAP regulate cell-cell adhesion by coordinating antagonism between Rac and Rho 总被引:9,自引:0,他引:9
Wildenberg GA Dohn MR Carnahan RH Davis MA Lobdell NA Settleman J Reynolds AB 《Cell》2006,127(5):1027-1039
Integration of receptor tyrosine kinase, integrin, and cadherin activities is crucial for normal cell growth, motility, and adhesion. Here, we describe roles for p120-catenin (p120) and p190RhoGAP that coordinate crosstalk between these systems and regulate cadherin function. Surprisingly, PDGFR-induced actin remodeling in NIH3T3 cells is blocked in the absence of p120, and the cells are partially transformed via constitutive activation of Rho. We have traced the mechanism to unexpected codependent roles for p120 and p190RhoGAP in regulating Rac-dependent antagonism of Rho. Receptor-induced Rac activity causes translocation of p190RhoGAP to adherens junctions (AJs), where it couples to the cadherin complex via interaction with p120. AJ formation is dependent on this p120-p190RhoGAP interaction and fails altogether if either of these proteins are compromised. We propose that Rac activation links diverse signaling systems to AJ assembly by controlling transient p190RhoGAP interactions with p120 and localized inhibition of Rho. 相似文献
52.
53.
Xia X Carnahan RH Vaughan MH Wildenberg GA Reynolds AB 《Experimental cell research》2006,312(17):3336-3348
p120-catenin (p120) regulates cadherin turnover and is required for cadherin stability. Extensive and dynamic phosphorylation on tyrosine, serine and threonine residues in the N-terminal regulatory domain has been postulated to regulate p120 function, possibly through modulation of the efficiency of p120/cadherin interaction. Here we have utilized novel phospho-specific monoclonal antibodies to four major p120 serine and threonine phosphorylation sites to monitor individual phosphorylation events and their consequences. Surprisingly, membrane-localization and not cadherin interaction is the main determinant in p120 serine and threonine phosphorylation and dephosphorylation. Furthermore, the phospho-status of these four residues had no obvious effect on p120's role in cadherin complex stabilization or cell-cell adhesion. Interestingly, dephosphorylation was dramatically induced by PKC activation, but PKC-independent pathways were also evident. The data suggest that p120 dephosphorylation at these sites is modulated by multiple cell surface receptors primarily through PKC-dependent pathways, but these changes do not seem to reduce p120/cadherin affinity. 相似文献
54.
55.
Introns and reading frames: correlation between splicing sites and their codon positions 总被引:4,自引:1,他引:3
Computer analyses of the entire GenBank database were conducted to examine
correlation between splicing sites and codon positions in reading frames.
Intron insertion patterns (i.e., splicing site locations with respect to
codon positions) have been analyzed for all of the 74 codons of all the
eukaryote taxonomic groups: primates, rodents mammals, vertebrates,
invertebrates, and plants. We found that reading frames are interrupted by
an intron at a codon boundary (as opposed to the middle of a codon)
significantly more often than expected. This observation is consistent with
the exon shuffling hypothesis, because exons that end at codon boundaries
can be concatenated without causing a frame shift and thus are
evolutionarily advantageous. On the other hand, when introns interrupt at
the middles of codons, they exist in between the first and second bases
much more frequently than between the second and third bases, despite the
fact that boundaries between the first and second bases of codons are
generally far more important than those between the second and third bases.
The reason for this is not clear and yet to be explained. We also show that
the length of an exon is a multiple of 3 more frequently than expected.
Furthermore, the total length of two consecutive exons is also more
frequently a multiple of 3. All the observations above are consistent with
results recently published by Long, Rosenberg, and Gilbert (1995).
相似文献
56.
Clifford DL Folmes D Kent Arrell Jelena Zlatkovic-Lindor Almudena Martinez-Fernandez Carmen Perez-Terzic Timothy J Nelson Andre Terzic 《Cell cycle (Georgetown, Tex.)》2013,12(15):2355-2365
Nuclear reprogramming resets differentiated tissue to generate induced pluripotent stem (iPS) cells. While genomic attributes underlying reacquisition of the embryonic-like state have been delineated, less is known regarding the metabolic dynamics underscoring induction of pluripotency. Metabolomic profiling of fibroblasts vs. iPS cells demonstrated nuclear reprogramming-associated induction of glycolysis, realized through augmented utilization of glucose and accumulation of lactate. Real-time assessment unmasked downregulated mitochondrial reserve capacity and ATP turnover correlating with pluripotent induction. Reduction in oxygen consumption and acceleration of extracellular acidification rates represent high-throughput markers of the transition from oxidative to glycolytic metabolism, characterizing stemness acquisition. The bioenergetic transition was supported by proteome remodeling, whereby 441 proteins were altered between fibroblasts and derived iPS cells. Systems analysis revealed overrepresented canonical pathways and interactome-associated biological processes predicting differential metabolic behavior in response to reprogramming stimuli, including upregulation of glycolysis, purine, arginine, proline, ribonucleoside and ribonucleotide metabolism, and biopolymer and macromolecular catabolism, with concomitant downregulation of oxidative phosphorylation, phosphate metabolism regulation, and precursor biosynthesis processes, prioritizing the impact of energy metabolism within the hierarchy of nuclear reprogramming. Thus, metabolome and metaboproteome remodeling is integral for induction of pluripotency, expanding on the genetic and epigenetic requirements for cell fate manipulation. 相似文献
57.
58.
Gene flow among populations of the malaria vector, Anopheles gambiae, in Mali, West Africa 总被引:4,自引:0,他引:4
Taylor C Touré YT Carnahan J Norris DE Dolo G Traoré SF Edillo FE Lanzaro GC 《Genetics》2001,157(2):743-750
The population structure of the Anopheles gambiae complex is unusual, with several sibling species often occupying a single area and, in one of these species, An. gambiae sensu stricto, as many as three "chromosomal forms" occurring together. The chromosomal forms are thought to be intermediate between populations and species, distinguishable by patterns of chromosome gene arrangements. The extent of reproductive isolation among these forms has been debated. To better characterize this structure we measured effective population size, N(e), and migration rates, m, or their product by both direct and indirect means. Gene flow among villages within each chromosomal form was found to be large (N(e)m > 40), was intermediate between chromosomal forms (N(e)m approximately 3-30), and was low between species (N(e)m approximately 0.17-1.3). A recently developed means for distinguishing among certain of the forms using PCR indicated rates of gene flow consistent with those observed using the other genetic markers. 相似文献
59.
60.
Four proteins processed from the replicase gene polyprotein of mouse hepatitis virus colocalize in the cell periphery and adjacent to sites of virion assembly 总被引:3,自引:0,他引:3
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The replicase gene (gene 1) of the coronavirus mouse hepatitis virus (MHV) encodes two co-amino-terminal polyproteins presumed to incorporate all the virus-encoded proteins necessary for viral RNA synthesis. The polyproteins are cotranslationally processed by viral proteinases into at least 15 mature proteins, including four predicted cleavage products of less than 25 kDa that together would comprise the final 59 kDa of protein translated from open reading frame 1a. Monospecific antibodies directed against the four distinct domains detected proteins of 10, 12, and 15 kDa (p1a-10, p1a-12, and p1a-15) in MHV-A59-infected DBT cells, in addition to a previously identified 22-kDa protein (p1a-22). When infected cells were probed by immunofluorescence laser confocal microscopy, p1a-10, -22, -12, and -15 were detected in discrete foci that were prominent in the perinuclear region but were widely distributed throughout the cytoplasm as well. Dual-labeling experiments demonstrated colocalization of the majority of p1a-22 in replication complexes with the helicase, nucleocapsid, and 3C-like proteinase, as well as with p1a-10, -12, and -15. p1a-22 was also detected in separate foci adjacent to the replication complexes. The majority of complexes containing the gene 1 proteins were distinct from sites of accumulation of the M assembly protein. However, in perinuclear regions the gene 1 proteins and nucleocapsid were intercalated with sites of M protein localization. These results demonstrate that the complexes known to be involved in RNA synthesis contain multiple gene 1 proteins and are closely associated with structural proteins at presumed sites of virion assembly. 相似文献