UNIPROT:P06889 - FACTA Search

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In mitogenically stimulated cells, a specific complex forms between the Ras GTPase-activating protein (RasGAP) and the cellular protein p190. We have previously reported that p190 contains a carboxy-terminal domain that functions as a GAP for the Rho family GTPases. Thus, the RasGAP-p190 complex may serve to couple Ras- and Rho-mediated signalling pathways. In addition to its RhoGAP domain, p190 contains an amino-terminal domain that contains sequence motifs found in all known GTPases. Here, we report that p190 binds GTP and GDP through this conserved domain and that the structural requirements for binding are similar to those seen with other GTPases. While the purified protein is unable to hydrolyze GTP, we detect an activity in cell lysates that can promote GTP hydrolysis by p190. A mutated form of p190 that fails to bind nucleotide retains its RasGAP binding and RhoGAP activities, indicating that GTP binding by p190 is not required for these functions. The sequence of p190 in the GTP-binding domain, which shares structural features with both the Ras-like small GTPases and the larger G proteins, suggests that this protein defines a novel class of guanine nucleotide-binding proteins.
Mol Cell Biol 1994 Nov
PMID:p190 RhoGAP, the major RasGAP-associated protein, binds GTP directly. 793 32

The SH3 domain-containing protein Bem1p is needed for normal bud emergence and mating projection formation, two processes that require asymmetric reorganizations of the cortical cytoskeleton in Saccharomyces cerevisiae. To identify proteins that functionally and/or physically interact with Bem1p, we screened for mutations that display synthetic lethality with a mutant allele of the BEM1 gene and for genes whose products display two-hybrid interactions with the Bem1 protein. CDC24, which is required for bud emergence and encodes a GEF (guanine-nucleotide exchange factor) for the essential Rho-type GTPase Cdc42p, was identified during both screens. The COOH-terminal 75 amino acids of Cdc24p, outside of the GEF domain, can interact with a portion of Bem1p that lacks both SH3 domains. Bacterially expressed Cdc24p and Bem1p bind to each other in vitro, indicating that no other yeast proteins are required for this interaction. The most frequently identified gene that arose from the bem1 synthetic-lethal screen was the bud-emergence gene BEM2 (Bender and Pringle. 1991. Mol. Cell Biol. 11:1295-1395), which is allelic with IPL2 (increase in ploidy; Chan and Botstein, 1993. Genetics. 135:677-691). Here we show that Bem2p contains a GAP (GTPase-activating protein) domain for Rho-type GTPases, and that this portion of Bem2p can stimulate in vitro the GTPase activity of Rho1p, a second essential yeast Rho-type GTPase. Cells deleted for BEM2 become large and multinucleate. These and other genetic, two-hybrid, biochemical, and phenotypic data suggest that multiple Rho-type GTPases control the reorganization of the cortical cytoskeleton in yeast and that the functions of these GTPases are tightly coupled. Also, these findings raise the possibility that Bem1p may regulate or be a target of action of one or more of these GTPases.
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PMID:Interactions between the bud emergence proteins Bem1p and Bem2p and Rho-type GTPases in yeast. 796 98

Escherichia coli Rho factor is required for termination of transcription at certain sites by RNA polymerase. Binding to unstructured cytosine-containing RNA target sites, subsequent RNA-dependent ATP hydrolysis, and an RNA-DNA helicase activity that presumably facilitates termination, are considered essential for Rho function. Yet the RNA recognition elements have remained elusive, the parameters relating RNA binding to ATPase activation have been obscure, and the mechanistic steps that integrate Rho's characteristics with its termination function in vitro and in vivo have been largely undefined. Recent work offers new insights into these interactions with results that are both surprising and satisfying in the context of Rho's emerging structure. These include the requirements for binding and ATPase activation by a variety of RNA substrates, dynamic analyses of Rho tracking, helicase and termination activity, and the participation of a new factor (NusG) that interacts with Rho. Models for Rho function are considered in the light of these recent revelations.
Mol Microbiol 1994 Mar
PMID:Rho and RNA: models for recognition and response. 802 88

Expression of the virB gene, the transcriptional regulator for the invasion genes encoded by the large plasmid of Shigella flexneri, is temperature-regulated. virB transcription is under the control of VirF and H-NS, which act as positive and negative regulators, respectively, and is highly responsive to changes in DNA superhelicity. To further investigate the molecular mechanisms underlying the thermoregulation of virB transcription, a mutant which expressed an invasion phenotype at both 30 degrees C and 37 degrees C was isolated using miniTn10-kan (miniKAN) random insertion mutagenesis. The insertion site was mapped to the rho gene, and resulted in the addition of 11 amino acids to the C-terminus of the Rho protein. Consequently, decreased transcription termination activity at a rho-dependent terminator, lambda tL1, was observed. In the rho mutant, both the transcription of virB and expression of invasion genes were activated at 30 degrees C and were less responsive to changes in temperature. The deregulation of virB expression by the mutation was dependent upon the virB promoter, since the effects of the mutation on virB transcription were abolished when its promoter region was replaced by the tac promoter. Temperature-responsive changes in DNA topology, as determined by linking numbers of a reporter plasmid, showed that changes in DNA superhelicity in the rho mutant were smaller than that in the wild type. Furthermore, when the mutant was grown in medium containing novobiocin, an inhibitor of DNA gyrase, virB transcription at 30 degrees C as well as at 37 degrees C was greatly diminished. These results indicated that Rho protein could have a profound effect on topological temperature-dependent changes in DNA structure, thus contributing to thermoregulation of virB transcription.
Mol Microbiol 1994 Apr
PMID:Deregulation of temperature-dependent transcription of the invasion regulatory gene, virB, in Shigella by rho mutation. 805 51

Small-molecule inhibitors of the housekeeping enzyme farnesyltransferase (FT) suppress the malignant growth of Ras-transformed cells. Previous work suggested that the activity of these compounds reflected effects on actin stress fiber regulation rather than Ras inhibition. Rho proteins regulate stress fiber formation, and one member of this family, RhoB, is farnesylated in vivo. Therefore, we tested the hypothesis that interference with RhoB was the principal basis by which the peptidomimetic FT inhibitor L-739,749 suppressed Ras transformation. The half-life of RhoB was found to be approximately 2 h, supporting the possibility that it could be functionally depleted within the 18-h period required by L-739,749 to induce reversion. Cell treatment with L-739,749 disrupted the vesicular localization of RhoB but did not effect the localization of the closely related RhoA protein. Ras-transformed Rat1 cells ectopically expressing N-myristylated forms of RhoB (Myr-rhoB), whose vesicular localization was unaffected by L-739,749, were resistant to drug treatment. The protective effect of Myr-rhoB required the integrity of the RhoB effector domain and was not due to a gain-of-function effect of myristylation on cell growth. In contrast, Rat1 cells transformed by a myristylated Ras construct remained susceptible to growth inhibition by L-739,749. We concluded that Rho is necessary for Ras transformation and that FT inhibitors suppress the transformed phenotype at least in part by direct or indirect interference with Rho, possibly with RhoB itself.
Mol Cell Biol 1995 Dec
PMID:Evidence that farnesyltransferase inhibitors suppress Ras transformation by interfering with Rho activity. 852 26

The effect of premature stop codons in the nifL gene on the expression of nifA-lacZ operon and protein fusions in Klebsiella pneumoniae was analysed in detail. Our results revealed transcriptional polarity in this operon. By dissecting the operon, intragenic regions containing Rho-dependent transcription terminators have been identified. As shown for other Rho-dependent terminators, their cytosine content is much higher than the incidence of guanines. However, other regions of the operon that have this feature did not show termination activity, suggesting that, contrary to previous reports, a correlation between these parameters cannot readily be established. Some of our results alos suggested that, in addition to polarity, other mechanisms may prevent expression of nifA when translation of nifL is altered. Their importance for efficient regulation of nitrogen fixation genes is discussed.
Mol Gen Genet 1996 Mar 07
PMID:Transcription termination within the regulatory nifLA operon of Klebsiella pneumoniae. 860 62

Members of the Ras superfamily of proteins function as regulated GDP/GTP switches that cycle between active GTP-complexed and inactive GDP-complexed states. Guanine nucleotide exchange factors (GEFs) stimulate formation of the GTP-bound state, whereas GTPase activating proteins (GAPs) catalyze the formation of the GDP-bound state. We describe three studies that evaluate the mechanism of action of GEFs for Ras (SOS1 and RasGRF/CDC25) or Ras-related Rho (Dbl and Vav) proteins. Growth factor-mediated activation of Ras is believed to be mediated by activation of Ras GEFs (CDC25/GRF and SOS1/2). Although the mechanisms of Ras GEF regulation are unclear, recent studies suggest that translocation of SOS1 to the plasma membrane, where Ras is located, might be responsible for Ras activation. Our observation that the addition of the Ras plasma membrane-targeting sequence to the catalytic domains of CDC25 and SOS1 greatly enhanced their transforming and transactivation activities (10-50 fold and 5-10 fold, respectively) suggests that membrane translocation alone is sufficient to potentiate GEF activation of Ras. We have determined that two Ras-related proteins, designated R-Ras and R-Ras2/TC21, can trigger the malignant transformation of NIH 3T3 cells via activation of the Ras signal transduction pathway. Furthermore, like Ras and R-Ras, we observed that TC21 GTPase activity was stimulated by Ras GAPs. However, we observed that both SOS1 and CDC25 were activators of normal TC21, but not R-Ras, transforming activities. Therefore, TC21, but not R-Ras, may be activated by the same extracellular signaling events that activate Ras proteins. Dbl family proteins are believed to function as GEFs and activators of the Ras-related Rho family of proteins. However, one Dbl family oncogene, designated Vav, has been reported to be a GEF for Ras proteins. Therefore we were interested in determining whether Dbl family oncogenes cause transformation by triggering the constitutive activation of Rho or Ras proteins. Our results suggest that Dbl oncogenes cause transformation via a Ras-independent activation of MAP kinases and Rho family proteins.
Mol Reprod Dev 1995 Dec
PMID:Guanine nucleotide exchange factors: activators of Ras superfamily proteins. 860 78

Changes in cell morphology are essential in the development of a multicellular organism. The regulation of the cytoskeleton by the Rho subfamily of small GTP-binding proteins is an important determinant of cell shape. The Rho subfamily has been shown to participate in a variety of morphogenetic processes during Drosophila melanogaster development. We describe here a Drosophila homolog, DPAK, of the serine/threonine kinase PAK, a protein which is a target of the Rho subfamily proteins Rac and Cdc42. Rac, Cdc42, and PAK have previously been implicated in signaling by c-Jun amino-terminal kinases. DPAK bound to activated (GTP-bound) Drosophila Rac (DRacA) and Drosophila Cdc42. Similarities in the distributions of DPAK, integrin, and phosphotyrosine suggested an association of DPAK with focal adhesions and Cdc42- and Rac-induced focal adhesion-like focal complexes. DPAK was elevated in the leading edge of epidermal cells, whose morphological changes drive dorsal closure of the embryo. We have previously shown that the accumulation of cytoskeletal elements initiating cell shape changes in these cells could be inhibited by expression of a dominant-negative DRacA transgene. We show that leading-edge epidermal cells flanking segment borders, which express particularly large amounts of DPAK, undergo transient losses of cytoskeletal structures during dorsal closure. We propose that DPAK may be regulating the cytoskeleton through its association with focal adhesions and focal complexes and may be participating with DRacA in a c-Jun amino-terminal kinase signaling pathway recently demonstrated to be required for dorsal closure.
Mol Cell Biol 1996 May
PMID:A Drosophila homolog of the Rac- and Cdc42-activated serine/threonine kinase PAK is a potential focal adhesion and focal complex protein that colocalizes with dynamic actin structures. 862 56

The function of transcription termination factor Rho from Escherichia coli is dependent upon its ability to bind to specific sites on nascent RNA molecules. The roles of 19 individual amino acid residues (Ile49 to Ser67) in and near a phylogenetically conserved sequence segment of Rho that is similar to the RNP1 motif found in many RNA-binding proteins were examined by testing the phenotypic consequences of mutational changes that were introduced into rho by a random-sequence cassette mutagenesis procedure. The tests of each mutant included the ability of the cells to survive at 42 degrees C in the absence of wild-type rho, the efficiency of termination at a Rho-dependent terminator (lambdatR1) in vivo, the relative level of expression of the mutant protein, and the ability of some of the mutant proteins to bind RNA. The results revealed that residues in the RNP1-like sequence of DGFGFLR (residues 60 to 66) were more important than residues 49 to 59 for termination function and RNA binding, and identified three residues that were particularly sensitive to mutation: Asp60, Phe62 and Arg66. The properties of the mutants are consistent with a secondary structure model, derived from phylogenetic analysis, that has the RNP1-like sequence on one of the three beta-strands of an antiparallel beta-sheet with Asp60 and Gly61 in a turn and the side-chains of Phe62, Phe64 and Arg66 accessible on the same face of the beta-structure for interaction with RNA.
J Mol Biol 1996 Apr 19
PMID:Mutational analysis and secondary structure model of the RNP1-like sequence motif of transcription termination factor Rho. 863 73

The termination of transcription in Escherichia coli by action of Rho factor is dependent on the ability of this homohexameric protein to make productive interactions with the nascent RNA molecule to be terminated. The roles of two residues in a phylogenetically conserved sequence motif in the RNA-binding domain of Rho, Asp60 and Phe62, were analyzed by studies of the biochemical properties of pure mutant proteins. F62S Rho had greatly reduced affinity for lambda cro RNA, very poor ability to terminate transcription in vitro by itself and only partial termination activity (at a level consistent with its in vivo defect) in the presence of NusG. D60G Rho had a high affinity for lambda cro RNA but a much lower ability to discriminate against RNA molecules lacking cis-acting Rho-utilization sequences, and a reduced efficiency of termination that was not improved by NusG. These results indicate a major role for Phe62 in stabilizing the binding of Rho to RNA through hydrophobic interactions, while Asp60 provides an electrostatic repulsive force that allows a rapid dissociation of non-productive complexes with RNA.
J Mol Biol 1996 Apr 19
PMID:Residues in the RNP1-like sequence motif of Rho protein are involved in RNA-binding affinity and discrimination. 863 74

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