Global ETD Search

91	The role of RhoA interacting proteins in the Nogo signalling pathway of axon outgrowth inhibition / Alabed, Yazan Z. January 2009 (has links) No description available. Nerve Regeneration -- physiology. Receptors, Cell Surface -- physiology. Neural Inhibition -- physiology. Axons -- physiology. Myelin Proteins -- physiology. rhoA GTP-Binding Protein -- metabolism.
92	Padronização das técnicas de PNA e PCR em tempo real para detecção das mutações ativadoras no GNAS na síndrome de McCune-Albright / Standardization of the PNA and real time techniques for the detection of activating mutations in the GNAS in McCune-Albright syndrome Mariani, Beatriz Marinho de Paula 05 October 2012 (has links) A síndrome de McCune Albrigth (SMA) é uma doença genética não hereditária, com incidência estimada entre 1/100.000 e 1/1.000.000 casos/ano. A SMA caracteriza-se clinicamente pela tríade: displasia óssea fibrosa (FD), manchas cutâneas café-com-leite e hiperfunção endócrina tais como: síndrome de Cushing, pseudo-puberdade precoce, hipertiroidismo, acromegalia. O diagnóstico da SMA clássica é usualmente baseado no quadro clínico associado a dosagens hormonais e exames de imagem, principalmente cintilografia do esqueleto. No entanto, quadros atípicos e formas parciais muitas vezes dificultam o diagnóstico preciso da síndrome. O objetivo deste estudo foi padronizar dentre as técnicas de PNA (peptide nucleic acid) e PCT em Tempo Real, para a detecção de polimorfismos de base única (SNPs), a técnica mais sensível para a discriminação das mutações ativadoras da subunidade da proteína G. Para este estudo foram selecionados 32 pacientes, 1 masculino e 31 femininos, com SMA, todos em seguimento no Hospital das Clínicas da Faculdade de Medicina da USP. Como resultado positivo, apresentamos nesse trabalho pela primeira vez o uso do RT-PCR genotipagem na detecção das mutações ativadoras da proteína G, em DNA extraído de tecidos afetados e em leucócitos de sangue periférico, sendo a técnica considerada sensível o suficiente para discriminar de forma simples e rápida as mutações ativadoras da PGs. Sugerimos nesse estudo o uso da técnica de discriminação alélica pelo sistema Taqman. Essa técnica possibilita a detecção destas mutações gsp no sangue periférico mesmo numa baixa porcentagem, uma vez que nem sempre o tecido afetado (gônada, osso, hipófise) é disponível. / The McCune-Albright Syndrome (MAS) is a genetic disease, with incidence estimated at 1/100.000 and 1/1000000 cases per year. MAS is clinically characterized by the triad: bone fibrous dysplasia (FD) café-au-lait skin spots and endocrine hyperfunction, such as: precocious puberty (PP), Cushing's syndrome, hyperthyroidism and acromegaly. The diagnosis of MAS is originally based on clinical characteristics associated with hormonal and imaging studies. However, atypical and partial forms often hamper the accurate diagnosis of the syndrome. For this study we selected 32 patients, 1male and 31 females, all being treated in Hospital das Clínicas, School of Medicine, University of São Paulo. As a positive result, we showed for the first time the use of Real Time PCR/genotyping for the detection of activating mutations of the stimulatory G protein, using blood leucocytes DNA. This technique was sensible and can bring fast results for the patient and the physician, making the diagnosis easier. Our study proposes the use of allelic discrimination by Taqman system, which can be used as a probe that allows the identification of specific genotypes. These techniques could help detect these mutations in peripheral blood when the affected tissue is not available. Fibrous dysplasia polyostotic GTP-binding protein alpha subunits Gs McCune-Albright syndrome Mutação puntual Point mutation Síndrome de McCune-Albright
93	Análise da expressão dos genes CRABP1, CRABP2, GRP e RERG em adenomas hipofisários funcionantes e clinicamente não funcionantes / Analysis of CRABP1, CRABP2, GRP and RERG gene expression in functioning and clinically nonfunctioning pituitary adenomas Chile, Thais 11 December 2009 (has links) Os tumores hipofisários representam cerca de 10% a 15% das neoplasias intracranianas. Embora a etiopatogenia ainda não seja plenamente caracterizada, muitos mecanismos moleculares envolvidos na tumorigênese hipofisária já foram desvendados. Utilizandose da metodologia de arranjos de cDNA contendo aproximadamente 20.000 genes, nosso grupo recentemente comparou a expressão de duas condições distintas: um pool de quatro adenomas hipofisários clinicamente não funcionantes e a metástase de um carcinoma hipofisário não funcionante. Vários genes mostraram-se diferencialmente expressos, entre eles, CRABP1 (cellular retinoic acid binding protein 1), CRABP2 (cellular retinoic acid binding protein 2), GRP (gastrin-releasing peptide) e RERG (RAS-like, estrogen-regulated, growth inhibitor). Este estudo visou avaliar a expressão desses quatro genes em uma série de 59 adenomas hipofisários (30 adenomas clinicamente não funcionantes, 13 somatotrofinomas, 8 corticotrofinomas e 8 prolactinomas), comparando cada grupo tumoral com um conjunto de tecidos hipofisários normais. Enquanto os prolactinomas demonstraram expressão reduzida do RNAm dos genes CRABP1 e CRABP2 quando comparados ao grupo de tecidos normais, os somatotrofinomas apresentaram expressão reduzida apenas do RNAm de CRABP2. Os adenomas clinicamente não funcionantes, por sua vez, demonstraram menor expressão do RNAm de GRP e maior expressão do RNAm de RERG quando comparados ao grupo de hipófises normais. Portanto, observou-se que tanto o gene CRABP1 quanto os genes CRABP2, GRP e RERG apresentaram diferenças na expressão do transcrito entre os grupos de adenomas de hipófise, contudo, seu papel na tumorigênese hipofisária permanece a ser investigado. / Pituitary tumors account for approximately 10%-15% of the intracranial neoplasms. Although the pathogenesis is not fully characterized, many molecular mechanisms involved in pituitary tumorigenesis have been unraveled. Using the methodology of cDNA microarray containing approximately 20000 genes, our group recently compared the expression of two distinct conditions: a pool of four clinically nonfunctioning pituitary adenomas and a spinal cord metastasis of a nonfunctioning pituitary carcinoma. Several genes were shown to be differentially expressed, among them, CRABP1 (cellular retinoic acid binding protein 1), CRABP2 (cellular retinoic acid binding protein 2), GRP (gastrin-releasing peptide) and RERG (RAS-like, estrogen-regulated, growth inhibitor). This study aimed to evaluate the expression of these four genes in a series of 59 pituitary adenomas (30 nonfunctioning, 13 GH-secreting, 8 ACTH-secreting and 8 PRL-secreting adenomas), comparing each tumor group with a set of normal pituitary tissues. While PRL-secreting adenomas showed lower expression of CRABP1 and CRABP2 mRNA when compared with normal tissues, GH-secreting adenomas had only lower expression of CRABP2 mRNA. Clinically nonfunctioning adenomas showed lower expression of GRP mRNA and higher expression of RERG mRNA when compared with the normal pituitary glands. Therefore, it was observed that not only the CRABP1 gene but also the CRABP2, GRP and RERG genes showed differences in transcript expression between the groups of pituitary adenomas. However, their role in pituitary tumorigenesis remains to be investigated. Expressão gênica Gastrin-releasing peptide Gene expression GTP-binding proteins Neoplasias hipofisárias Peptídeo liberador de gastrina Pituitary neoplasms Proteínas de ligação a GTP Retinoic acid binding proteins
94	Biochemical and Bioinformatics Analysis of CVAB C-Terminal Domain Guo, Xiangxue 12 January 2006 (has links) Cytoplasmic membrane proteins CvaB and CvaA and the outer membrane protein TolC form the bacteriocin colicin V (ColV) secretion system in Escherichia coli. CvaB functions as an ATP-binding cassette transporter with nucleotide-binding motifs in the C-terminal domain (CTD). To study the role of CvaB-CTD in the ColV secretion, a truncated construct of this domain was made and over-expressed. Different forms of CvaB-CTD were obtained during purification, and were identified as monomer, dimer, and oligomer on gel filtration. Nucleotide binding was shown critical for the CvaB-CTD dimerization: oligomers could be converted into dimers by nucleotide bindings; the removal of nucleotide from dimers resulted in transient monomers followed by CTD oligomerization and aggregation; no dimer form could be cross-linked from the nucleotide-binding deficient mutant D654H. The spatial proximity of the Walker A site and ABC signature motif in CTD dimer was identified through disulfide cross-linking of mixed CvaB-CTD with mutants A530C and L630C, while mutations did not dimerize individually. Those results indicated that the CvaB-CTD formed a nucleotide-dependent head-to-tail dimer. Molecular basis of differential nucleotide bindings was also studied through bioinformatics prediction and biochemical verification. Through sequence alignment and homology modeling with bound ATP or GTP, it was found that the Ser503 and Gln504 on aromatic stacking region (Y501DSQ-loop) of CvaB-CTD provided two additional hydrogen-bonds to GTP, but not to ATP. Site-directed mutations of the S503A and/or Q504L were designed based on the model. While site-directed mutagenesis studies of Walker A&B sites or the ABC signature motif affected little on the GTP-binding preference, the double mutation (S503A/Q504L) on the Y501DSQ-loop increased both ATP-binding and ATPase activity at low temperatures. The double mutant showed slight decrease of GTP-binding and about 10-fold increase of the ATP/GTP-binding ratio. Similar temperature sensitivity in nucleotide-binding and activity assays were identified in the double mutant at the same time. Mutations on the Y501DSQ-loop did not affect the ColV secretion level in vivo. Together, the Y501DSQ-loop is structurally involved in the differential binding of GTP over ATP. head-to-tail molecular modeling GTP-binding preference Y501DSQ-loop aromatic stacking region molecular basis colicin V secretion dimerization nucleotide-binding domain ABC transporter Biology, general
95	Structure-Function Correlative Studies On The Biochemical Properties (Polymerisation, GTP binding, GTPase) Of Mycobacterial Cytokinetic Protein FtsZ In Vitro Gupta, Prabuddha 02 1900 (has links) FtsZ, the principal cell-division protein, polymerizes in GTP-dependent manner in vitro (Bramhill and Thompson, 1994; Mukherjee and Lutkenhaus, 1994; Rivas et al., 2000). FtsZ polymerization at the mid-cell site of bacterium leads to formation of a guiding scaffold, the Z-ring, for bacterial cytokinesis (Bi and Lutkenhaus, 1991; Sun and Margolin, 1998). GTP-induced polymerization process of FtsZ can be monitored in vitro Using 90º light scattering (Mukherjee and Lutkenhaus, 1999) and polymers formed can be visualized using transmission electron microscopy (Lu and Erickson, 1998) or quntitated in terms of the amount of FtsZ polymer pelleted during ultracentrifugation (Mukherjee and Lutkenhaus, 1998). The research work presented in this thesis focused on structure-function correlative analysis of Mycobacterium tuberculosis FtsZ(MtFtsZ0 and FtsZ proteins of Mycobacterium leprae (M1FtsZ), Mycobacterium smegmatis(MsFtsZ), and Streptomyces coelicolor (ScFtsZ) (as it is from Actinomycetes family to which mycobacteria belong) in vitro. It was initiated with investigation on the biochemical properties of Mycobacterium leprae FtsZ (M1FtsZ) in vitro. In comparison with those of MtFtsZ. Subsequently, the role of C-terminal stretch of amino acid residues of MtFtsZ in polymerization was investigated. Finally, a comparative analysis of the biochemical properties of MtFtsZ, MsFtsZ, and ScFtsZ was carried out in order to find out whether a correlation exists between the time taken by the FtsZ of a bacterium to polymerise and the generation time of the organism. The thesis is presented in five chapters. First Chapter gives an exhaustive introduction on the structure-function aspects of FtsZ. Second Chapter deals with materials used in this research work and details of various experimental methods [cloning and expression of FtsZ (White et. Al., 2000), decision and point mutagenesis, preparation of His-tag free MtFtsZ and M1FtsZ by thrombin cleavage method, 90º light scattering (Mukherjee and Lutkenhaus, 1999), White, et al., 2000), transmission electron microscopy (Lu and Erickson, 1998), pelleting assay for polymeric FtsZ (Mukherjee and Lutkenhaus, 1998), GTP-binding by UV-crosslinking (RayChaudhuri and Park, 1992; de Boer et al.,) GTPase assay(RayChaudhuri and Park, 1992); de Boer et al., 1992), Circular Dichroism (Saxena and Wetlaufer, 1971) and ANS fluorescence emission spectroscopy (Semisotnov, et al., 1991)]. The Chapters three to five contain all the data related to the research work, the outlines of which are given below. Chapter 3. Biochemical Characterisation of FtsZ Protein of Mycobacterium leprae In Comparison with the Biochemical Properties of FtsZ Protein of Mycobacteriulm tulberculosis In Vitro The major finding in this part of thesis work is on the demonstration that single reciprocal point mutation partially revives polymerization-inactive M1FtsZ and Inactivates polymerization-active MtFtsZ in vitro. In brief, soluble, recombinant M1FtsZ did not show detectable polymerization in vitro, in contrast to MtFtsZ, which showed appreciable polymerization, under standard conditions, when monitored using 90º light scattering assay and transmission electron microscopy. This was a surprising result, as M1FtsZ and MtFtsZ has 96% protein sequence identity. Mutation f T172 in the N-terminal domain of M1FtsZ to A172, as it exists in MtFtsZ, showed dramatic levels of polymerization in vitro. Reciprocal mutation of A172 in MtFtsZ to T172, as it exists in M1FtsZ, abolished polymerization in vitro. Further, M1FtsZ showed weak GTPase activity, in contrast to MtFtsZ, which showed appreciable GTPase activity. While T172A mutation enhanced GTPase activity of MtFtsZ in vitro. Circular dichroism spectroscopy and ANS fluorescence emission spectroscopy showed that there were no major secondary or tertiary structural changes in these point mutants. These observations demonstrate that the residue at position 172 plays a critical role in the polymerization of M1FtsZ and MtFtsZ, without appreciably affecting their respective GTpPase activity. Further, this result might have implications on evolution of a slow polymerizing FtsZ in slow growing bacteria. Further details of evolution related questions are addressed in Chapter 5. Chapter 4. Role of Carboxy Terminal Residues in the Biochemical Properties of FtsZ Protein of Mycobacterium tuberculosis In Vitro The major finding in this part of thesis work is the demonstration that the C-terminal end residues are critically required for polymerization of MtFtsZ in vitro, which is in direct contrast to the dispensability of C-terminal residues of Escherichia coli FtsZ(EcFtsZ), Bacillus subtilis FtsZ (BsFtsZ), and Pseudomonas aeruginosa (PaFtsZ) for polymerization. FtsZ protein from several bacterial species namely, Methanococcus jannaschii (MjFtsZ), Bacillus subtillis(BsFtsZ), Pseudomonas aeruginosa (PaFtsZ), and Aquifex aeolicus (AaFtsZ) (Lowe and Amos, 1998; Oliva et al., 2007), and Mycobacterium tuberculosis H37Rv (mtFtsZl Leung et al., 2004), whose crystal structures have been solved so far, were found to possess an N-terminal domain and a C-terminal domain that were connected to each other through a helix. The extreme C-terminal portion of all these FtsZ proteins is constituted by an unstructured tail (Lowe and Amos, 1998; Oliva et al., 2007l Leung et al., 2004), which is not found in the respective crystal structure of the protein. We examined whether C-terminal residues of soluble recombinant FtsZ of Mycobacterium tuberculosis (mtFtsZ) have any role in MtFtsZ polymerization in vitro. Deletion of C-terminal 66 residues (313-379) was found to abolish polymerization. Replacement of the C-terminal 66 residues with the extreme C-terminal 13-residue stretch (DDDDVDVPPFMRR) did not restore polymerization. Although the terminal R in DDDDVDVPPFMRR is dispensable for full-length MtFtsZ polymerization, the terminal R in DDDDVDVPPFMR is indispensable for polymerization. Neither replacement of this R, in the terminal R deletion mutant DDDDVDVPPFMR, with K/H/D/A residues enabled polymerization. GTP binding and GTPase activities of the mutants were partially affected. The indispensable nature of C-terminal residues for MtFtsZ polymerization in vitro is contrary to the dispensability of the equivalent extreme C-terminal residues of Escherichi coli, Pseudomonas aeruginosa, and Bacillus subtilis FtsZ (Wang et. Al., 1997; Cordell et al., 2003; Singh et al., 2007) for in vitro polymerization. The essentiality of C-terminal extreme residues of BtFtsZ for polymerization offers direction to design anti MtFtsZ polymerization agents. Chapter 5. An attempt to find correlation between Biochemical properties of FtsZ and Generation Time of the Bacterium The clue that there might be a correlation between FtsZ polymeristion and generation time of the bacterium came from the observation mentioned in chapter 3. The presence of polymerization-aversive T172 in the FtsZ of extremely slow-growing M. leprae 913.5 days generation time, Levy, 1970) and polymerization-favouring A172 in the FtsZ of M. tuberculosis(18hrs generation time, Patterson and Youmans, 1970). For a bacterium, which has short generation time, it might be conducive to have an FtsZ that will also polymerise fast. Conversely, for a bacterium, which has long generation, it might be conducive to have an FtsZ molecule that will polymerise slow. In this respect, a preliminary comparative study was carried out between the generation time of bacterial species, E. coli, Mycobacterium smegmatis, Streptomyces coelicolor, M leprae, and M. tuhberculosis and their respective FtsZ (EcFtsZ, MsFtsZ, M1FtsZ and MtFtsZ). Detailed biochemical characterization of EcFtsZ and MtFtsZ has already been reported in the literature. In this thesis work, biochemical characterisation of M1FtsZ(Chapter 3), ScFtsZ and MsFtsZ (in this Chapter) were carried out. E. coli, which has a generation time of 18-55 min(labrum, 1953), possesses FtsZ (EcFtsZ) that reaches steady state of polymerization in about 10 sec under standard conditions in vitro (Beamhill and Thompson, 1994), using 90º light scattering assay (Mukherjee and Lukenhaus, 1999). On the other hand, M. tuberculosis, which has a generation time of 18hrs in vivo (Patterson and Youmans, 1970) and 24 hrs in vitro (Hiriyanna and Ramakrishnan, 1986) possesses FtsZ (MtFtsZ) that reaches steady state of polymerization in about 6 min post-addiction of GTP in vitro (White et al., 2000). Further, M. leprae, which takes 13.5 days tp divide once in vivo (levy, 1970), possesses an FtsZ (M1FtsZ) that does not even show polymerization under standard conditions in vitro (Chapter 3 of this thesis). The organisms Mycobacterium smegmatis and Streptomyces coelicolor have generation times that fall in between those of the other three organisms mentioned above. While M. smegmatis divides once in 2-3 hrs (Husson, 1998), S. coelicolor has a variable generation time depending on growth condition, which can be as fast as once in 2.31 hours, depending upon growth conditions (Cox, 2004). We found ScFtsZ and MsFtsZ takes around 4 min to reach polymerization saturation after addition of GTP, EcFtsZ( 10 sec), MtFtsZ (10 min) and M1FtsZ (dose not polymerise in vitro) seem to indicate that there exists a correlation between polymerization saturation after addition of GTP, EcFtsZ (10sec), MtFtsZ (10 min) and M1FtsZ (does not polymerise in vitro) seem to indicate that there exists a correlation between polymerization saturation time and the generation time of the respective bacterium. But when we compared polymerization time of ScFtsZ and MsFtsZ (4 min both case) with MtFtsZ ( 6 min), we found that there is no linear correlation with generation time of these bacteria and the time taken by their FtsZ to reach steady state of polymerization. Many more bacterial FtsZ proteins need to be characterized to conclusively state wthether there exist a correlation between generation time of bacteria and the time taken for their FtsZ to reach steady state of polymeristion. Such correlation would simply reveal the fact that the primary structure of an FtsZ protein might have evolved to suit the generation time of the bacterium. Protein Polymerisation GTP Binding GT Pase FtsZ Protein - Biochemical Properties Mycobacterium Leprae FtsZ Mycobacterium Tuberculosis FtsZ FtsZ-Mycobacterial Cytokinetic Protein Biochemistry
96	Gene Expression patterns in High-Altitude Pulmonary Edema: A Gene Microway Analysis Krause, Lauren Kendall 25 March 2008 (has links) Multiple modulating genes and environmental factors have been implicated in the pathogenesis of high-altitude pulmonary edema (HAPE). However, at the present time, there exists an incomplete understanding of the molecular mechanisms and pathways which underlie constitutional susceptibility. Genome-wide measurements of gene expression in peripheral blood mononuclear cells (PBMCs) were performed using microarray technology. Comparison of gene expression profiles of HAPE-susceptible and resistant individuals resulted in the identification of several previously undescribed candidate genes. RhoA and Rho-kinase (ROCK), regulators of vascular smooth muscle contraction, were differentially regulated in the HAPE-susceptible cohort, as compared to both HAPE-resistant patients with acute mountain sickness (AMS+) and healthy controls (p=0.0014; p=0.0020). Furthermore, biological pathways involving RhoA and Rho-kinase were strongly upregulated in subjects with HAPE. These findings represent the first description of the RhoA/Rho-kinase signaling pathway in HAPE. Currently, few pharmacologic therapies have been demonstrated to be effective in the prevention and treatment of HAPE. The results of this study provide early evidence that Fasudil, a selective Rho-kinase inhibitor, may represent a novel therapeutic intervention effective in the prevention and/or treatment of high-altitude pulmonary edema. protein kinase inhibitors drug therapy altitude respiratory system diseases rho-associated kinases rhoA GTP-binding protein Fasudil pulmonary edema altitude sickness
97	The role of RalA and RalB in cancer / Falsetti, Samuel C. January 2008 (has links) Dissertation (Ph.D.)--University of South Florida, 2008. / Includes vita. Also available online. Includes bibliographical references.
98	The role of RalA and RalB in cancer Falsetti, Samuel C. January 2008 (has links) Dissertation (Ph.D.)--University of South Florida, 2008. / Title from PDF of title page. Document formatted into pages; contains 187 pages. Includes vita. Includes bibliographical references.
99	Regulation of guanine nucelotide exchange in inhibitory G protein alpha subunit by activator of G protein signaling 3 and novel regulatory peptides Adhikari, Anirban. January 2005 (has links) Thesis (Ph.D.) -- University of Texas Southwestern Medical Center at Dallas, 2005. / Vita. Bibliography: References located at the end of each chapter.
100	Plasma Membrane Localization of Signaling Proteins in Yeast: a Dissertation Takahashi, Satoe 21 May 2008 (has links) In response to external stimuli, many intracellular signaling proteins undergo dynamic changes in localization to the plasma membrane. Using the Saccharomyces cerevisiaemating pathway as a model, I investigated the molecular interactions that govern plasma membrane localization of signaling proteins, and how the plasma membrane compartmentalization of a signaling complex influences the overall signaling behavior of the pathway. Signaling proteins often consist of multiple interaction domains that collectively dictate their localization and function. Ste20 is a p21-activated kinase (PAK) that functions downstream of the Rho-type GTPase Cdc42 to activate several mitogen-activated protein (MAP) kinase pathways in budding yeast, including the mating pathway. I identified a short domain in Ste20 that directly binds to membrane lipids via electrostatic interaction. A mutation in this domain abolishes both the localization and function of Ste20. Thus, the previously known Cdc42 binding is necessary but not sufficient; instead, direct membrane binding by Ste20 is also critical. By replacing this domain with heterologous membranebinding domains, I demonstrated that phospholipid specificity is not essential in vivo. Functionally important short membrane-binding domains were also found in the Cdc42 effectors Gic1 and Gic2, indicating that generic membrane binding can work in concert with the CRIB domain to regulate activation of Cdc42 targets. These results underscore the importance of cooperation between protein-protein and protein-membrane interaction in achieving proper localization of signaling proteins at the cell cortex. At the system level, MAP kinase cascades can be graded or switch-like. The budding yeast mating pathway exhibits a graded response to increasing levels of pheromone. Previously the scaffold protein Ste5 was hypothesized to contribute to this graded response. To test this idea, I activated the pathway in a variety of ways and measured the response at the single cell level. I found that the graded response is not perturbed by the deletion of negative regulators of the pathway whereas the response became switch-like when the pathway was activated by a crosstalk stimulus that bypasses the upstream components. Interestingly, activation of the pathway in the cytoplasm using the graded expression of MAPKKK resulted in an ultrasensitive response. In contrast, activation of the pathway at the plasma membrane using the graded expression of membranetargeted active pathway components remained graded. In these settings, the scaffold protein Ste5 increased ultrasensitivity when limited to the cytosol; however, if Ste5 was allowed to function at the plasma membrane, signaling was graded. The results suggest that, in the mating pathway, the inherently ultrasensitive MAPK cascade is converted to a graded system by the scaffoldmediated assembly of signaling complexes at the plasma membrane. Therefore, the plasma membrane localization of Ste5 helps shape the input-output properties of the mating MAPK pathway in a manner that is suitable for the biology of mating. Taken together, this thesis underscores the importance of plasma membrane localization during mating pathway signaling in yeast. The examples described here provide further appreciation of how multiple interaction domains can function together to achieve specific targeting of the signaling proteins, as well as advances in understanding the role of scaffold proteins in modulating signaling behavior to promote graded signaling at the plasma membrane. Cell Membrane Saccharomyces cerevisiae cdc42 GTP-Binding Protein MAP Kinase Signaling System Saccharomyces cerevisiae Proteins Signal Transduction Amino Acids, Peptides, and Proteins Cells Enzymes and Coenzymes Fungi

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