Two libertarian educators : Elizabeth Byrne Ferm and Alexis Constantine Ferm (1857-1971).

Mark, Arthur,

January 1973

Thesis (Ed.D.)--Teachers College, Columbia University. / Typescript; issued also on microfilm. Sponsor: Arthur W. Foshay. Dissertation Committee: Maxine Greene. Includes bibliographical references.

Caractérisation des membres du clan arrestine chez l'amibe Dictyostelium discoideum : Etude de la protéine AdcA et de son partenaire FrmC / Characterization of arrestin clan members in Dictyostelium discoideum : study of the protein AdcA and its partner FrmC

Habourdin, Clemence

27 October 2014

Le clan « arrestine » est une superfamille de protéines adaptatrices regroupant les arrestines conventionnelles (β-arrestines et arrestines visuelles), bien décrites pour leur rôle dans la régulation des récepteurs membranaires couplés aux protéines G hétéro-trimériques et la signalisation associée et des protéines de type arrestin-like identifiées plus récemment, qui semblent partager des fonctions communes dans la régulation et le trafic de cargos membranaires. Ce travail de thèse a porté sur l'étude de la protéine arrestin-like AdcA de Dictyostelium discoideum dans l'objectif d'en définir le rôle fonctionnel. En plus de son module arrestine, caractéristique de cette famille de protéines, AdcA possède un domaine FYVE qui permet son association à la voie endocytaire, un domaine C-terminal riche en tyrosines et un domaine N-terminal riche en histidines impliqué dans son oligomérisation. Mes travaux ont permis d'établir que la protéine AdcA répond à des stress de natures diverses dont l'hyper-osmolarité, par une multi-phosphorylation massive, notamment au niveau du domaine N-terminal. La sensibilité d'AdcA à la dépolymérisation du réseau d'actine suggère un lien fonctionnel entre le cytosquelette d'actine et la cascade de signalisation menant à la phosphorylation de la protéine. En conditions de stress modéré, la phosphorylation d'AdcA est transitoire et sa déphosphorylation, en partie dépendante du facteur de transcription STATc, corrèle avec l'adaptation des cellules aux conditions de stress. Cette modification post-traductionnelle transitoire pourrait permettre de contrôler l'activité d'AdcA et d'optimiser la réponse des cellules au stress. Parallèlement, la caractérisation fonctionnelle d'un partenaire d'AdcA, la protéine FrmC, a été entreprise. FrmC est une nouvelle protéine, encore non caractérisée, présentant plusieurs domaines fonctionnels dont un domaine FERM capable de lier l'actine in vitro et un domaine à motifs LRR. Mes travaux ont notamment mis en évidence que FrmC est recrutée à la membrane plasmique et joue un rôle dans l'adhésion cellulaire. Par ailleurs, l'absence de FrmC affecte l'adaptation des cellules et la réponse d'AdcA en situation de stress hyper-osmotique. / The arrestin clan represents a large group of adaptor proteins which includes the canonical arrestins - β-arrestins and visual arrestins – well described for their role in the regulation of membrane receptors coupled to heterotrimeric G-proteins and associated signaling as well as arrestin-like proteins identified more recently that seem to share functions in the regulation and trafficking of membrane cargoes. This work focused on the study of the arrestin-like protein AdcA of Dictyostelium discoideum, to determine the functional role of this atypical member. In addition to the arrestin module common to all the members of the arrestin family, AdcA harbors a FYVE domain responsible for its association to the endocytic pathway, a C-terminal tyrosine-rich domain and an N-terminal extension rich in histidine residues mediating its oligomerization. I have established that AdcA responds to a variety of stresses such as hyperosmolarity by a massive multi-phosphorylation of the protein. Sensitivity of AdcA to changes in F-actin polymerization status suggests a link between the signaling cascade leading to AdcA phosphorylation and the actin cytoskeleton. In conditions of moderate stress, AdcA response is transient and its dephosphorylation depends on the transcription factor STATc and correlates with cell adaptation to the stress conditions. This post-translational modification of AdcA could modulate its activity and optimitize the cell response to stress. In parallel, the functional characterization of a partner of AdcA, the protein FrmC, has been undertaken. This so-far uncharacterized protein presents a multimodular structure with a FERM domain able to bind F-actin in vitro and several leucine-rich repeats (LRR). I have shown that FrmC is recruited to the plasma membrane and is involved in cell-substrate adhesion. In addition, disruption of FrmC affects cell adaptation and AdcA response in conditions of hyperosmotic stress.

Arrestines

Stress hyper-osmotique

Domaine FERM

Adhésion

AdcA

Dictyostelium

Arrestin

Hyeprosmotic stress

FERM domain

Adhesion

AdcA

Dictyostelium

570

A study of the behaviour and interactions of the novel FERM protein Willin

Herron, Lissa Rocha

January 2008

Willin is a novel member of the Four-point-one Ezrin Radixin Moesin (FERM) protein superfamily, containing an N-terminal FERM domain most like the Ezrin-Radixin-Moesin (ERM) family but also the closely related protein Merlin. Willin was initially discovered as a yeast two-hybrid binding partner of neurofascin155, and this interaction has now been confirmed by both co-localisation studies and the use of two different biochemical methods. Like neurofascin155, Willin also localises to detergent resistant membranes, and like the ERM family, it is able to bind to phospholipids. The expression of Willin appears to be toxic as the production of cell-lines stably expressing Willin proved to be not possible and this appears to be because it induces apoptosis in cultured cells. This is a proliferation control function consistent with the suggestion that Willin is the human homologue of the Drosophila tumour suppressor ‘Expanded’. Three antibodies to Willin were also characterised and a novel splice variant, Willin2, subcloned into a GFP-tagged plasmid for comparison with the original form.

572.6

Mutational Analysis of FERM Domain Proteins CG34347 and Cdep in Drosophila

Milic, Milos

02 August 2012

Crumbs is a transmembrane protein and apical determinant in Drosophila epithelial cells. Its cytoplasmic tail contains a PDZ and a FERM domain-binding site through which Crumbs interacts with the FERM proteins Yurt, Moesin and Expanded. Recent evidence suggests that Crumbs can also interact with the uncharacterised FERM proteins CG34347 and Cdep. The main objective of my thesis was to generate mutations in CG34347 and Cdep to facilitate the functional analysis of these genes. I generated a mutation for Cdep that remains to be characterised and two mutant lines for CG34347; one lacking the first exon and one lacking the entire gene, using a FRT-based recombination strategy. Both CG34347 mutants cause severe ovarian defects. The most consistent defect is a multilayering of the interfollicular stalk. These defects are also observed when Notch, Hippo, Wingless and Hedgehog signalling pathways are overactive in ovaries suggesting that CG34347 participates in one of those pathways.

Drosophila

Cell Signalling

Crumbs

Polarity

FERM

Cell Signalling

PatJ

Armadillo

Oogenesis

Interfollicular stalk

Notch

Wingless

Hedgehog

Hippo

Follicular epithelium

Cell division

Ovaries

Yurt

0369

0307

0379

Mutational Analysis of FERM Domain Proteins CG34347 and Cdep in Drosophila

Milic, Milos

02 August 2012

Crumbs is a transmembrane protein and apical determinant in Drosophila epithelial cells. Its cytoplasmic tail contains a PDZ and a FERM domain-binding site through which Crumbs interacts with the FERM proteins Yurt, Moesin and Expanded. Recent evidence suggests that Crumbs can also interact with the uncharacterised FERM proteins CG34347 and Cdep. The main objective of my thesis was to generate mutations in CG34347 and Cdep to facilitate the functional analysis of these genes. I generated a mutation for Cdep that remains to be characterised and two mutant lines for CG34347; one lacking the first exon and one lacking the entire gene, using a FRT-based recombination strategy. Both CG34347 mutants cause severe ovarian defects. The most consistent defect is a multilayering of the interfollicular stalk. These defects are also observed when Notch, Hippo, Wingless and Hedgehog signalling pathways are overactive in ovaries suggesting that CG34347 participates in one of those pathways.

Drosophila

Cell Signalling

Crumbs

Polarity

FERM

Cell Signalling

PatJ

Armadillo

Oogenesis

Interfollicular stalk

Notch

Wingless

Hedgehog

Hippo

Follicular epithelium

Cell division

Ovaries

Yurt

0369

0307

0379

Valorització d'escòries d'incineració de residus sòlids urbans en capes granulars del ferm. Aplicació al tram experimental de Tagamanent

Izquierdo Ramonet, Maria

28 February 2005

Les escòries són el subproducte més abundant que s'obté en el procés d'incineració de residus sòlids urbans; constitueixen al voltant del 90 % en pes del producte sòlid resultant de la combustió. La producció anual a Catalunya és d'unes 150000 tones d'escòries, generades en set plantes incineradores localitzades a Tarragona, Mataró, Sant Adrià de Besòs, Montcada i Reixac, Malla, Girona i Vielha. El seu destí final és l'abocament, juntament amb la utilització puntual en petites obres menors d'àmbit local i de manera poc regulada. Pel seu caràcter a primera vista inert i l'aspecte granular es considera que les escòries es podrien utilitzar en l'àmbit de la construcció. En aquest estudi es pretén avaluar la viabilitat de la valorització de les escòries d'incineració de residus sòlids urbans produïdes a Catalunya en capes granulars de ferms de carreteres, com a substitut d'àrids naturals. La valoració de la idoneïtat de les escòries ha de tenir en compte l'adequació a les normatives tècniques que regeixen aquesta possible aplicació: l'Ordre de 15 de febrer de 1996, sobre valorització d'escòries del Departament de Medi Ambient i l'article 510 sobre tot-u del PG-3 (2004). Més enllà de les prescripcions, tanmateix, s'ha considerat necessària una caracterització de les escòries des de diverses perspectives per tenir un coneixement integral del material que permeti gestionar-lo correctament. Finalment l'estudi es completa amb un tram experimental de camp a Tagamanent, amb l'objectiu de contrastar els resultats obtinguts al laboratori i al camp.A les escòries hi coexisteixen tres paragènesis: els constituents preexistents (preincineració) com el vidre domèstic; els productes de fusió (sinincineració), característics de les escòries i equiparables a una roca ultrabàsica, i la paragènesi postincineració, constituïda per productes de neoformació que es formen a causa de l'elevada reactivitat del residu en sortir del forn i posen de manifest que la mineralogia de les escòries és dinàmica. Les proporcions entre les tipologies de materials són diferents i variables segons la mida de partícula considerada; aquesta particularitat és la clau de l'heterogeneïtat de les escòries.Les escòries tenen una granulometria contínua, poden assolir alts graus de compactació i capacitats portants molt notables, comparables a les que mostren àrids naturals, mentre que són lleugerament menys denses, més poroses i més fràgils que aquests. Cal destacar l'escassa sensibilitat a l'aigua i l'elevada estabilitat volumètrica.Si bé s'han determinat els continguts de més de 50 elements a les escòries, el principal component és el SiO2 (45 %). La resta d'elements majoritaris són Ca, Fe, Al, Na, C, Mg i K, comuns a materials naturals. Entre els minoritaris, alguns també són comuns en àrids naturals com S, Ti, Ba i Mn, però en canvi les escòries estan molt enriquides en Cu, Zn i Pb. Pel seu interès ambiental destaquen els baixos continguts en Ni, Co, As, Se, Mo, Cd i Hg.El comportament ambiental de les escòries s'ha avaluat mitjançant els tests de laboratori DIN 38414, CEN 12457, NEN 7341 i els sots experimentals del tram de camp de Tagamanent. Els tests CEN permeten fer previsions realistes i ajustades de la fracció lixiviable de les escòries en un marc temporal relativament limitat. Les lixiviacions més elevades són les d'elements que constitueixen sals solubles; les de la resta d'elements són més baixes. L'aplicació del Decret de materials de construcció holandès indica que Cu, Mo, Se, Sb, Cl- i SO42- són els constituents potencialment conflictius a les escòries, amb immissions que farien necessàries algunes mesures de protecció en la valorització. La resta d'elements no han de suposar cap problema ambiental.Addicionalment es proposen algunes recomanacions sobre mesures correctores que incideixen tant sobre la millora de la qualitat del material com en el possible escenari d'aplicació, i es fa un breu comentari sobre aspectes metodològics de l'estudi de les escòries.

escòries

tot-v

lixiviació

ferm

valorització de residus

incineració der esidus sòlids urbans

504

55

624

Caracterização molecular de domínios funcionais de miosinas de drosophila melanogaster / Molecular characterization of drosophia melanogaster myosins functional domains

Polo, Carla Cristina, 1987-

04 August 2012

Orientador: Mário Tyago Murakami / Dissertação (mestrado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-20T10:58:02Z (GMT). No. of bitstreams: 1 Polo_CarlaCristina_M.pdf: 4286137 bytes, checksum: cf12a2b67d90255468d1906d719759a3 (MD5) Previous issue date: 2012 / Resumo: As miosinas pertencem a uma família de proteínas motoras que através da hidrólise de ATP são capazes de se movimentarem pelas fibras de actina. Sua estrutura é dividida em três domínios principais: motor, responsável pela hidrólise do ATP; regulador, envolvido na ligação de cadeias leves de calmodulina e a cauda, que tem papel essencial na mediação de interações com cargas celulares, como organelas, ácidos nucleicos e outras proteínas. O organismo modelo para insetos, Drosophila melanogaster, possui 11 miosinas pertencentes a 8 classes sendo que informações funcionais e bioquímicas são escassas, e estruturais, inexistentes. Apesar dos grandes avanços obtidos nos estudos de miosinas humanas, as miosinas de inseto ainda são pouco caracterizadas não havendo estudos comparativos, como por exemplo, para a determinação de conservação de parceiros moleculares entre os diferentes filos da classificação de Lineu. Neste contexto, foram selecionados os seguintes domínios de inseto para caracterização molecular: quinase da miosina III, cauda globular da miosina V e FERM da miosina XV. A partir do cDNA da pupa e adulto do inseto foram amplificados os fragmentos de genes de interesse e clonados em vetor de clonagem, pGEM T-easy, e posteriormente de expressão, pET28a e pET28aSUMO. Após testes em diversas condições no sistema bacteriano, as construções cauda globular da miosina V (GLOB_2 e GT-f) e domínio FERM-f da miosina XV foram obtidos na fração solúvel e com rendimento suficiente para estudos estruturais. O protocolo de expressão em larga escala assim como de purificação foram estabelecidos para cada uma dessas construções. Estudos biofísicos por aSEC, DLS, CD e SAXS foram realizados para a proteína GT-f da miosina V, mostrando a proteína monomérica com alto conteúdo de hélices-alfa corroborando as análises in silico e com as caudas globulares de miosinas ortólogas já descritas. Além disso, sua termoestabilidade foi avaliada com Tm de 46 ºC e que sua estabilidade é alterada pela adição de alguns ligantes, mas não pela força iônica como verificado para a cauda globular da miosina Va humana. A estrutura a baixa resolução da GT-f foi determinada pelos experimentos de SAXS, mostrou uma proteína monomérica com forma alongada (Dmax =100 Å). Para a construção FERM-f, apesar do sucesso alcançado no protocolo de expressão e purificação, a amostra permaneceu polidispersa e com uma estrutura random coil, inviabilizado futuros experimentos. Acredita-se que a ausência do domínio MyTH4, gerou a perda de estabilidade do domínio FERM-f e será necessária a clonagem dos dois domínios fusionados para garantir a estabilidade estrutural e funcional / Abstract: Myosins belong to a motor protein superfamily that uses the ATP hydrolysis to move along actin filaments. Its structural architecture comprises three main domains: motor, responsible for ATP hydrolysis; regulator, which binds calmodulin light chains; and tail, responsible for cellular cargoes binding. Drosophila melanogaster, an insect model, has 11 myosins belonging to 8 different myosin classes; however functional and biochemical data are scanty, and, structural, absent. Although the great advances on investigating human and yeast myosins with the elucidation of molecular partners and molecular mechanisms involved in signaling, there are no comparative studies among different phyla. Therefore, in order to gain insights into insect myosins, in silico analysis were performed and some domains like kinase (myosin III), globular tail (myosin V), and FERM (myosin XV) were selected for biophysical and structural studies. From pupa and adult cDNAs, the target genes were amplified and cloned into pGEM- T-easy, pET28a and pET28aSUMO vectors. After expressions tests, the myosin V globular tail constructs, GLOB_2 and GT-f, and myosin XV FERM-f were obtained in soluble fraction and in sufficient amounts for structural studies. aSEC, DLS, CD e SAXS biophysical studies were performed to myosin V GT-f, showing that the protein is monomeric with predominance of alpha-helix in accordance with the in silico atomic model. The stability of GT-f was assessed with a Tm of 46 ºC and some molecules are able to increase the stability, while the ionic strength has no difference like was observed for the human globular tail of myosin Va. The low resolution structure determined by SAXS experiments confirmed the monomeric state and its elongated molecular shape (Dmax = 100 Å). The FERM-f construct, although the purification and expression protocol were standardized, the sample remained polydisperse with a random coil structure, disabling other biophysical experiments. It is supposed that the absence of the MyTH4 domain in the FERM-f domain results in loss of stability, and cloning and expression of fused domains will be necessary to guarantee structural and functional stability / Mestrado / Bioquimica / Mestre em Biologia Funcional e Molecular

Drosophila melanogaster

Modelos biológicos

Miosina tipo V

Miosina tipo XV

Cauda globular

Drosophila melanogaster

Biological models

Myosin type V

Globular tail

Myosin type XV

FERM domain

Creation of a Unique GST-FAK Plasmid for Protein Expression

Salmonowicz, Daniel J.

06 May 2020

No description available.

Molecular Biology

Biology

Focal Adhesion Kinase

FAK

Focal Adhesion Targeting

Kinase

Ezrin Radixin Moesin

FERM

Nonreceptor Tyrosine Kinase

FAK Activation

phosphoinositol-4, 5-bisphosphate

PIP2

Expression Plasmid

FAK Pathophysiology

Cancer