Governo de esquerda e gasto público: um estudo a partir de Diadema (1983-2000)

Pinto, Daniela Cardoso

28 November 2008

Made available in DSpace on 2016-04-25T20:22:35Z (GMT). No. of bitstreams: 1 Daniela Cardoso Pinto.pdf: 571139 bytes, checksum: eed5232a8fad5067f55c20eacd950ee7 (MD5) Previous issue date: 2008-11-28 / This dissertation tries to evaluate if the expenditures on social policies introduced at the municipality of Diadema by left-wing parties from 1983 to 2000 differ from the expenditures at other municipalities of the same region of the Great ABC, which administrations were conducted by parties of both leftist and rightist parties. It intends to answer if the right-left ideological cleavage caused different patterns of public expenses, or if despite the ideological cleavages, diverse patterns of public expenditures could be caused by other reasons, such as: different kinds of policy demands at different municipalities the region; differences of style of the public managers; or if simply there were no differences of public expenditures between the municipalities. To frame de database of this research we used information from the account offices of each municipality and also information available at the internet pages of Seade Foundation, National Secretary of Treasure and Brazilian Institute of Geography and Statistics. Besides, we used interviews with some political actors in order to support our analysis / Esta dissertação busca avaliar se o volume de gastos em políticas sociais implantadas em Diadema no período de 1983 a 2000, por partidos de esquerda, difere do volume de gastos ocorridos nos demais municípios da região administrados por partidos ideologicamente distintos e similares. As hipóteses estudadas neste trabalho focaram responder se a clivagem ideológica direita esquerda reflete na importância de execução dos gastos públicos; se o diferencial dos gastos não estaria nas diversificadas demandas dos municípios que compõem a região; se o diferencial da política pública estaria na ideologia partidária ou no perfil do gestor público; se apesar de ideologicamente diferentes, os partidos políticos não gastam da mesma forma. Para tanto, utilizou-se como base de dados, além dos fornecidos diretamente pelos departamentos de contabilidade e orçamento de cada município, os constantes nos sites da Fundação Seade, Secretaria do Tesouro Nacional e Instituto Brasileiro de Geografia e Estatística sendo todos apresentados a valores constantes. Além disso, utilizou-se de entrevistas e suporte teórico para embasamento da análise de dados

Grande ABC

PT

PTB

PMDB

ABCD Paulista -- Politica e governo

Diadema, SP -- Politica e governo

Partido dos Trabalhadores (Brasil)

Great ABC area

Left politics faction

CNPQ::CIENCIAS SOCIAIS APLICADAS

Governo de esquerda e gasto público: um estudo a partir de Diadema (1983-2000)

Pinto, Daniela Cardoso

28 November 2008

Made available in DSpace on 2016-04-26T14:57:25Z (GMT). No. of bitstreams: 1 Daniela Cardoso Pinto.pdf: 571139 bytes, checksum: eed5232a8fad5067f55c20eacd950ee7 (MD5) Previous issue date: 2008-11-28 / This dissertation tries to evaluate if the expenditures on social policies introduced at the municipality of Diadema by left-wing parties from 1983 to 2000 differ from the expenditures at other municipalities of the same region of the Great ABC, which administrations were conducted by parties of both leftist and rightist parties. It intends to answer if the right-left ideological cleavage caused different patterns of public expenses, or if despite the ideological cleavages, diverse patterns of public expenditures could be caused by other reasons, such as: different kinds of policy demands at different municipalities the region; differences of style of the public managers; or if simply there were no differences of public expenditures between the municipalities. To frame de database of this research we used information from the account offices of each municipality and also information available at the internet pages of Seade Foundation, National Secretary of Treasure and Brazilian Institute of Geography and Statistics. Besides, we used interviews with some political actors in order to support our analysis / Esta dissertação busca avaliar se o volume de gastos em políticas sociais implantadas em Diadema no período de 1983 a 2000, por partidos de esquerda, difere do volume de gastos ocorridos nos demais municípios da região administrados por partidos ideologicamente distintos e similares. As hipóteses estudadas neste trabalho focaram responder se a clivagem ideológica direita esquerda reflete na importância de execução dos gastos públicos; se o diferencial dos gastos não estaria nas diversificadas demandas dos municípios que compõem a região; se o diferencial da política pública estaria na ideologia partidária ou no perfil do gestor público; se apesar de ideologicamente diferentes, os partidos políticos não gastam da mesma forma. Para tanto, utilizou-se como base de dados, além dos fornecidos diretamente pelos departamentos de contabilidade e orçamento de cada município, os constantes nos sites da Fundação Seade, Secretaria do Tesouro Nacional e Instituto Brasileiro de Geografia e Estatística sendo todos apresentados a valores constantes. Além disso, utilizou-se de entrevistas e suporte teórico para embasamento da análise de dados

Grande ABC

PT

PTB

PMDB

ABCD Paulista -- Politica e governo

Diadema, SP -- Politica e governo

Partido dos Trabalhadores (Brasil)

Great ABC area

Left politics faction

CNPQ::CIENCIAS SOCIAIS APLICADAS

Translational Control Of p53 And Its Isoform By Internal Initiation

Grover, Richa

01 January 2008

Tumor suppressor p53, the guardian of the genome, has been intensely studied molecule owing to its central role in maintaining cellular integrity. While the level of p53 protein is maintained low in unstressed conditions, there is a rapid increase in the functional p53 protein levels during stress conditions. It is now well documented in literature that p53 protein accumulates in the cells following DNA damage by posttranslational modifications leading to increased stability and half life of protein. Additionally, recent studies have also highlighted the significance of increased p53 translation during stress conditions. Interestingly, an alternative initiation codon has been shown to be present within the coding region of p53 mRNA. Translation initiation from this internal AUG results in an N-terminally truncated p53 isoform, described as ΔN-p53. However, the mechanisms underlying co-translational regulation of p53 and ΔN-p53 are still poorly understood. Studies have suggested that synthesis of both p53 and its ΔN-p53 isoform is regulated during cell cycle and also stress and cell-type specific manner. Interestingly, reports also demonstrate continued synthesis of both p53 isoforms during stress conditions. In contrast, global rates of cap-dependent translation initiation are shown to be reduced during stress conditions. This translation attenuation is observed mainly due to restricted availability of critical initiation factors. Interestingly, preferential synthesis of a vital pool of survival factors persists even during these circumstances. Studies have suggested that this selective translation is mediated via alternative mechanisms of translation initiation. One of the important mechanisms used for protein synthesis during these conditions is internal initiation. In this mechanism, the ribosomes are recruited to a complex RNA structural element known as ‘Internal Ribosome Entry Site (IRES)’, generally present in the 5’ untranslated region (UTR) of mRNA. Therefore, it is possible that the translation of p53 and ΔN-p53 could also be regulated by IRES mediated translation, especially during stress conditions. In this thesis the role of internal initiation in translational control of p53 and ΔN-p53 has been investigated. Additionally, the putative secondary structure of p53 IRES RNA has been determined. Further, it has been shown that polypyrimidine tract binding (PTB) protein acts as an important regulator of p53 IRES activities. The probable mechanism of action of PTB protein has also been investigated. The results suggest that interaction with PTB alters the p53 IRES conformation which could facilitate translation initiation. Finally, the possible physiological significance of existence of p53 IRES elements has been addressed. In the first part of the thesis, the presence of internal ribosome entry site within p53 mRNA has been investigated. As a first step, the 5’UTRs mediating the translation of both p53 and ΔN-p53 were cloned in the intercistronic regions of bicistronic constructs. Results of in vivo transfection of these bicistronic constructs suggested the presence of two IRES elements within p53 mRNA, with activities comparable to known viral and cellular IRESs. The IRES directing the translation of p53 is in the 5'-untranslated region of the mRNA, whereas the IRES mediating the translation of ΔN-p53 extends further into the protein-coding region. To further validate, stringent assays were performed to rule out the possibility of any cryptic promoter activity, re-initiation/scanning or alternative splicing in the p53 mRNA. Transfection of in vitro synthesized bicistronic RNAs confirmed the presence of IRES elements within p53 mRNA. Incidentally, this constitutes the first report on translational control of p53 by internal initiation. In the second part of the thesis, the secondary structure of p53 IRES RNA has been investigated. Structural analysis of p53 RNA was performed using structure-specific nucleases and modifying chemicals. The results obtained from chemical modification and nuclease probing experiments were used to constrain Mfold predicted structures. Based on this, a putative secondary structure model for p53 IRES RNA has been derived. Sequence alignment suggested that the p53 IRES RNA showed significant sequence conservation across mammalian species. To study the effect of mutations on the IRES structure, mutant p53 IRESs were used that harbor silent mutations at critical locations within the p53 IRES element. Incidentally, one of the mutant constructs used in the study was observed to be a naturally occurring mutation in a chronic lymphocyte leukemia patient. RNA structure analyses of these two mutant p53 IRES RNAs were performed. The nuclease mapping data suggested conformational alteration in these mutant RNAs with respect to wild type. Consistently, a comparative Circular-Dichroism spectroscopy of the Wt and mutant RNAs also validated the conformational alteration of the mutant RNAs. This also suggested that the presence of mutations in p53 IRES might result in decreased induction of p53 protein following DNA damage due to altered RNA structure. This might constitute as one of the mechanisms leading to tumor development in some types of cancers. In the third part of the thesis, the role of important cellular proteins that might modulate p53 IRES mediated translation has been studied. These cellular proteins act as IRES interacting trans-acting factors (ITAFs). Polypyrimidine tract binding (PTB) protein is an important ITAF implicated in regulating IRES mediated gene expression during apoptosis. It was observed that PTB protein specifically interacts with both the IRES elements within p53 mRNA. Interestingly, the affinity of interaction of PTB protein with both p53 IRES RNAs was observed to be significantly different. In order to determine the contact points of PTB on p53 IRES, a foot-printing assay using structure specific nuclease and recombinant-PTB protein was performed on p53 RNA. The data from foot-printing as well as primer extension inhibition assay (toe-printing analysis) suggested the presence of multiple PTB binding sites on p53 IRES RNA. Based on these results, a deletion mutant was generated that showed reduced PTB binding and also reduced IRES activity as compared to wild type. Further, to study the role of PTB in mediating p53 translation, the expression of PTB gene was partially silenced by using PTB specific siRNA. Partial depletion of endogenous PTB protein showed a significant decrease in the p53 IRES activities. These results suggest that PTB protein is essential for the p53 IRES activities. To understand the probable mechanism by which PTB regulates p53 IRES mediated translation, CD spectroscopy analysis of p53 IRES RNA was performed in the absence and presence of PTB protein. Interestingly, CD spectra analysis of the p53 RNA in the presence of PTB suggested a specific conformational change in p53 IRES, which might probably facilitate ribosome loading during internal initiation. This also suggests that abnormal expression of p53 ITAFs might lead to reduced p53 induction following DNA damage conditions. It could also be another event leading to malignant transformation of cells bearing wild type p53. It is highly tempting to speculate that the levels of p53 ITAFs could also be used as tumor biomarkers. In the fourth part of the thesis, the physiological relevance of existence of IRES elements within p53 mRNA has been investigated. The levels of p53 and ΔN-p53 proteins are known to be regulated in a cell cycle phase-dependent manner. The IRES activities of both p53 IRES elements were investigated at different phases of cell cycle. The activity of the IRES responsible for translation of p53 protein was found to be highest at G2-M transition and the maximum IRES activity corresponding to ΔN-p53 synthesis was observed at G1-S transition. These results suggested that the p53 IRES activities are regulated in a cell-cycle phase-dependent manner. Next, the regulation of p53 IRES mediated translation during stress conditions was studied. Human lung carcinoma cell line, A549 cells (that endogenously express both the p53 isoforms), were exposed to DNA damaging drug, doxorubicin. The level of p53 protein was observed to increase in a time-dependent manner. Interestingly, PTB protein, which is predominantly nuclear, was found to translocate to the cytoplasm during stress condition in a time-dependent manner. Under similar conditions, p53 protein was observed to reverse translocate from the cytoplasm to nucleus, probably to function as a transcription factor. Next, the influence of partial PTB silencing on p53 isoforms in the presence of cell stress (mediated by doxorubicin) was investigated. The data indicated reduced levels of both p53 and ΔN-p53 when PTB gene expression was partially silenced. These observations constitute “the proof of concept” that relative abundance of an ITAF, such as PTB protein, might contribute to regulating the coordinated expression of the p53 isoforms. The thesis reveals the presence as well as the physiological relevance of existence of IRES elements within p53 mRNA. The novel discovery of p53 IRES elements may provide new insights into the underlying mechanism of translational regulation. The modulation of the p53 IRES activities by PTB protein suggests that the regulated expression of p53 isoforms depends on the integrity of IRES elements and availability of cellular proteins that can serve as p53 ITAFs. Thus, studies pertaining to the identification of mutations within p53 IRES region as well as abnormal expression of p53 ITAFs such as PTB in cancer cells may have far reaching implications. These studies might lead to further advances in the field of cancer detection, prognosis and design of novel therapeutic strategies.

Ribonucleic Acid (RNA)

Proteins

RNA Viruses

p53 Protein

p53 Protein Isoforms

p53 RNA - Structural Analysis

Protein Translation

Polypyrimidine Tract Binding Protein

Protein Regulation

IRES RNA

PTB Binding

p53 mRNA

Biochemical Genetics

Posttraumatische Belastungsstörung: Stand und Perspektiven des Wissens über effektive Therapien

Maercker, Andreas

January 1999

Dieser Beitrag ist mit Zustimmung des Rechteinhabers aufgrund einer (DFG-geförderten) Allianz- bzw. Nationallizenz frei zugänglich.

info:eu-repo/classification/ddc/150

ddc:150

Protein-protein interactions involved in the signal transduction pathway of hPTP1E

Clark, Kristopher

07 1900

Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. / Protein-protein interactions are an integral component of signal transduction pathways. The interactions are mediated by modular domains which are present within the structure of the signalling molecule. These domains include PDZ, SH2, SH3, WW, PTB and LIM domains. hPTP1E is a protein-tyrosine phosphatase which contains within its primary structure a region with homology to Band 4.1 proteins, five PDZ domains and a catalytic domain. While the function of this PTPase remains unknown, the structure of hPTP1E suggest it may recruit several proteins into a multiprotein complex. In order to understand the role of hPTP1E, the protein interactions within its signalling cascade were examined. hPTP1E interacts with ZRP-1 and GEF-5.1 via its second PDZ domain and tuberin via its fourth PDZ domain in the yeast two-hybrid system. In order to characterize these proteins and their interactions, antibodies were generated against ZRP-1 and GEF-5.1. The antibodies which detected the antigen expressed in bacteria were purified by affinity chromatography. The antibodies raised against ZRP-1 and hPTP1E detected proteins of appropriate molecular weights in total cell extracts. HPTP1E is ubiquitously expressed whereas ZRP-1 is restricted to HeLa and MCF-7 cells among the cells tested. Unfortunately, antibodies against GEF-5.1 did not detect a protein of the predicted molecular weight in any of the cell extracts. Immunoprecipitation of hPTP1E fi-om cells overexpressing regions of ZRP-1 and tuberin with a hemaglutinin tag demonstrated the presence of an interaction between the phosphatase and tuberin in vivo. However, ZRP-1 and hPTP1E did not interact under these experimental conditions. Confirmation of the yeast two-hybrid results provides further support for a possible role of hPTP1E in the regulation of endocytosis. Additional molecules involved in the signalling pathways involving hPTP1E were identified by interaction trap. In one study, the proline rich amino terminus of ZRP-1 interacted with several clones encoding a segment of hCDC47 and NtZRP-p33, a clone containing an SH3 domain. The significance of these findings is unknown. HCDC47 is a minichromosome maintenance protein wich regulate DNA replication. Further, a clone called KIAA0769 containing the sequence of NtZRP-p33 depicts the typical structure for a scaffolding protein. Another yeast-two hybrid cDNA library screening using the CDC25 homology domain of GEF-5.1 did not detect an interaction with any GTPase but with 14-3-3E. 14-3-3 proteins are regulatory molecules which interact with various types of proteins by means of a phosphorylated serine residue. Mutational analysis demonstrated that the interaction is dependent on the second serine residue within the consensus sequence RSLSQG found in GEF-5.1. The primary structure of the open reading frame of GEF-5.1 was analyzed using profilescan. The software predicted the presence of several domains including a cNMP binding domain, a LTE domain, a PDZ domain, a rasassociated domain and a CDC25 homology domain. A family of guanidine nucleotide exchange factors may exist as clones KIAA0313 and T14G10 have the same structure. These results indicate a role for GEF-5.1 in Ras signalling pathways. Further, its activity may be regulated by the binding of cNMP molecules and 14-3-3E. The identification of ZRP-1 and GEF-5.1 interacting proteins as well as the analysis of the primary structure of GEF-5.1 have provided additional information about the function of hPTP1E. This cytoplasmic phosphatase may be involved in the regulation of processes such as transcription, DNA replication and. Further, an interaction between tuberin and hPTP1E suggests a role for this PTPase in the regulation of endocytosis. / La phosphorylation des protéines est une modification post-traductionelle fréquemment employée pour moduler la transmission des signaux intracellulaires. Il est nécessaire qu'un équilibre du niveau de phosphorylation soit maintenu pour le fonctionnement normal de la cellule sinon des maladies comme le cancer peuvent apparaître. Les enzymes responsables de la phosphorylation des protéines sont les protéines kinases tandis que les protéines phosphatases enlèvent les groupements phosphate. Les résidus phosphorylés dans les protéines sont certains résidus sérines, thréonines et/ou tyrosines. Les différentes enzymes sont classées en deux familles selon leur spécificité. Les protéine-tyrosine phosphatases (PTPase) sont elles-même regroupées dans deux familles selon leur localisation intracellulaire: les PTPases de type récepteur et les phosphatases cytoplasmiques. La structure des phosphatases de type récepteur inclus un domaine extracellulaire, un domaine transmembranaire et un (ou deux) domaine(s) catalytique(s). Les PTPases cytoplasmiques contiennent un domaine catalytique unique et généralement un/ ou des domaine(s) responsable(s) de leur localisation intracellulaire ou impliqué(s) dans des interactions protéine-protéine. Dans notre laboratoire, une phosphatase cytoplasmique dénommée liPTP1E par nous (et PTPL1, PTPBAS, FAP par d'autres) a été isolée. En plus de son domaine catalytique, cette protéine-tyrosine phosphatase contient 1 domaine de type "Band 4.1" qui est impliqué dans la localisation de la protéine à la membrane cellulaire via une interaction avec le cytoskelette, et 5 domaines PDZ. Ces domaines PDZ sont en général impliqués dans les interactions protéineprotéine. Plusieurs études récentes ont tenté de définir la fonction de hPTP1E. Sato et ses collègues ont isolé hPTP1E lors d'un criblage d'une librairie d'ADNc en utilisant le système des deux-hybrides dans la levure avec la partie cytoplasmique du récepteur Fas, comme appât. Ils ont aussi démontré que hPTP1E peut inhiber l'effet apoptotique de Fas. L'apoptose des cellules cibles qui est induit par les lymphocytes T cytotoxiques utiliserait le système Fas. De plus, Fas pourrait être associé à des maladies auto-immunes. En plus, hPTP1E pourrait jouer un rôle dans l'apparition de cellules resistantes aux effets de Fas tel que retrouvées dans les sarcomes de Kaposi chez les sidéens. Malgré des données convaincantes, il reste quand même des doutes quant à l'importance de hPTP1E dans ces maladies. Ainsi une étude publiée n'a pu démontrer une interaction entre les homologues de Fas et hPTP1E chez la souris. Depuis d'autres groupes étudiant les interactions de hPTP1E ont découvert plusieurs protéines qui interagissent avec celle-ci. La première, PARG, est membre de la famille des Rho-GAP, des protéines impliquées dans l'activation des GTPases de type Rho. L'interaction aurait lieu avec le 4ième domaine PDZ de hPTP1E. De plus, le domaine LEVI de RIL interagirait avec hPTP1E via ses 2ième et 4ième domaines PDZ. La fonction biologique de ces interactions n'a toutefois pas été déterminée à ce jour. Pour caractériser la fonction biologique de hPTP1E, nous avons utilisé le système des deux-hybrides de la levure pour identifier des protéines qui interagiraient avec les domaines PDZ de hPTP1E. J'ai ainsi identifié deux protéines nommés ZRP-1 et GEF-5.1, qui se lient à hPTP1E. ZRP-1 possède une structure semblable à celle de zyxin.Ces deux dernières protéines contiennent une région amino-terminale riche en résidus proline et 3 domaines de type LEM à l'extrémité carboxyl terminale. GEF-5.1, d'autre part démontre une homologie marquée aux GEFs de la famille CDC25 impliquées dans l'activation des GTPases de la famille Ras. Des anticorps ont été générés contre ZRP-1, GEF-5.1 et hPTP1E afin de fournir les outils nécessaires pour mieux caractériser ces différentes protéines. Ainsi, j'ai exprimé et purifié le troisième domaine LIM de ZRP-1 ainsi que le domaine PDZ de GEF-5.1, sous forme de protéines de fusion avec la glutathioneS-transferase (GST). Ces protéines ont servis d'antigène pour générer des anticorps chez le lapin. Des anticorps dirigés contre le deuxième domaine PDZ de hPTP1E étaient déja disponibles dans le laboratoire. Ces anticorps ont été purifiés sur une colonne d'affinité GST. Les anticorps anti-ZRP-1 et anti-hPTP1E détectent tous les deux des protéines du poids moléculaire attendu. HPTP1E est exprimé d'une facon ubiquitaire tandis que l'expression de ZRP-1 est plus restrainte parmi les cellules testées. Toutefois, les immunoglobulines dirigées contre GEF-5.1 ne détectent aucune protéine du poids moléculaire attendu dans un extrait cellulaire brut. Parallèlement, d'autres membres du laboratoire ont démontré une interaction entre la tuberine, le produit du gène TSC2, un oncogène impliqué dans la sclérose tubéreuse, et le quatrième domaine PDZ de hPTP1E. Afin de caractériser ces interactions in vivo, des immunoprécipitations de hPTP1E à partir de cellules dans lesquelles une région de ZRP-1 et/ou de la tuberine étaient surexprimé ont été conduites. Sous les conditions expérimentales utilisées, ZRP-1 n'a pas co-immunoprécipité avec hPTP1E. Cependant une interaction avec la tuberine a été détectée utilisant cette stratégie suggérant que HPTP1E pourrait jouer un rôle dans la modulation de l'endocytose. La structure de ZRP-1 inclus un domaine riche en proline qui n'est pas nécessaire pour son interaction avec hPTP1E mais qui pourrait interagir avec d'autres protéines en particulier avec des protéines contenant un/ ou des domaine(s) SH3. La moitié amino-terminale de ce domaine a été utilisé pour cribler une librairie d'ADNc par le système des deux-hybrides. Un clone appelé NtZRP-p33 contenant un domaine SH3 a été identifié. La conséquence biologique de cette interaction reste toutefois a être déterminée. Cependant, NtZRP-p33 possède une structure suggérant son implication dans la signalisation intracellulaire. Un deuxième criblage de la librairie d'ADNc a été initié pour caractériser les protéines impliquées dans le mécanisme de signalisation de hPTP1E. En utilisant le domaine de GEF-5.1 homologue à CDC25, des clones correspondants à la protéine 14-3-3 ont été isolés. Les protéines 14-3-3 forment une famille de protéines qui régularisent la fonction de plusieurs protéines. Leurs interactions se font via un residu sérine qui est phosphorylé. Des mutations du domaine catalytique ont démontré que l'interaction entre 14-3-3s et GEF-5.1 est dépendante du deuxième sérine de la séquence RSLSQG qui se retrouve immédiatement du coté carboxyl terminale du domaine GEF de la protéine GEF-5.1. Ces résultats suggèrent que l'activité de GEF-5.1 pourrait être modulée par la 14-3-38. En conclusion, les résultats expérimentaux présentés dans ce mémoire indique un rôle potentiel de hPTP1E dans plusieurs fonctions cellulaires. En s'associant à la tuberine, hPTP1E pourrait régulariser l'endocytose. Aussi, cette PTPase pourrait être impliquer dans le cycle cellulaire. Ras étant un activateur de la mitose, HPTP1E pourrait moduler l'activité de Ras par voie de GEF-5.1. Ainsi, hPTP1E pourrait agir comme proto-oncogène ou un gène suppresseur des tumeurs. Zyxin est une protéine qui se retrouve près des sites membranaires en association avec le cytoskelette. Puisque la structure de ZRP-1 et zyxin est semblable, ce dernier sert de modèle pour la fonction de ZRP-1. En collaboration avec hPTP1E, ces deux protéines pourrait régulariser la structure du cytoskelette.

Protein-protein interactions

Signal transduction pathways

Modular domains

PDZ domains

SH2 domains

SH3 domains

WW domains

PTB domains

LIM domains

Protein-tyrosine phosphatase

Phosphorylation

Protéines kinases

Protéines phosphatases

Régulation cellulaire

Domaines PDZ

Interactions protéine-protéine

hPTP1E

ZRP-1

GEF-5.1

Signalement cellulaire