New Insights Into the Role of Equine Infectious Anemia Virus S2 Protein in Disease Expression

Covaleda Salas, Lina M.

2010 May 1900

Equine infectious anemia virus (EIAV) is an important animal model to study the contribution of macrophages in viral persistence during lentiviral infections. EIAV is unique amongst the lentiviruses in that it causes a rapid, rather than the very slow disease progression, characteristic of other lentiviral infections. The accessory gene, S2, unique to EIAV, is an important determinant in viral pathogenesis. A functional S2 gene is required to achieve high-titer viremia and the development of disease in infected horses. Despite its essential role, the mechanisms by which S2 influences EIAV pathogenesis remain elusive. The goal of this research was to gain insight into the role of S2 in pathogenesis. To accomplish this goal we: (i) Examined the effects of EIAV and its S2 protein in the regulation of the cytokine and chemokine responses in macrophages, (ii) Assessed the influence of EIAV infection and the effect of S2 on global gene expression in macrophages and (iii) Identified host cellular proteins that interact with S2 as a starting point for the identification of host factors implicated in S2 function. The results from this study provide evidence for a role of S2 in enhancing a proinflammatory cytokine and chemokine response in infected macrophages. Specifically, S2 enhances the expression of IL-1 alpha, IL-1 beta IL-8, MCP-2, MIP-1 beta, IP-10 and a newly discovered cytokine, IL-34. Involvement of S2 in cytokine and chemokine dysregulation may contribute to disease development by optimizing the host cell environment to promote viral dissemination and replication. Microarray analyses revealed an interesting set of differentially expressed genes upon EIAV infection. Genes affected by EIAV were involved in the immune response, transcription, translation, cell cycle and cell survival. Finally, we used the yeast two-hybrid system to identify S2 host cellular interacting proteins. We identified osteosarcoma amplified 9 (OS-9) and proteasome 26S ATPase subunit 3 (PSMC3) proteins as interacting partners of S2. Additional evidence is needed to demonstrate the physiological relevance of these interactions in vivo. In summary, the results from this study contribute towards our understanding of the role S2 in disease expression and allow the formulation of new hypotheses as to the potential mechanisms of action of S2 during EIAV infection.

EIAV

Cytokines

Chemokines

Macrophage

Gene expression

Dysregulation

Real-time PCR

Microarray, Yeast two-hybrid system

Etablierung eines Zwei-Hybrid-Screening-Systems zur Suche und Charakterisierung von Ras-Raf-Effektoren

Friese, Anke.

January 2002

Frankfurt (Main), Univ., Diss., 2002.

Entwicklung modifizierter Zweihybrid-Systeme zur effizienten Untersuchung multipler Protein-Protein-Interaktionen unter Verwendung fluoreszenzaktivierter Zellsortierung am Beispiel des humanen Cytomegalovirus

Fahr, Kristina.

Unknown Date

Universiẗat, Diss., 2002--Jena.

Untersuchungen zur funktionellen Charakterisierung von regulatory-protein T-lymphocyte-1 (rpt-1, Trim 30)

Späth, Kerstin.

Unknown Date

Universiẗat, Diss., 2005--Düsseldorf. / Erscheinungsjahr an der Haupttitelstelle : 2004.

Estudos estruturais e funcionais de septinas humanas: a ligação e hidrólise de GTP por SEPT3 e a busca de parceiros funcionais de SEPT1, SEPT5 e SEPT7 / Functional and structural studies of human septins: GTP hydrolyse and binding, and screening of functional partners to SEPT1, SEPT5 e SEPT7

Joci Neuby Alves Macêdo

24 September 2010

Septinas são proteínas que pertencem a super família das GTPases e que foram inicialmente identificadas em Saccharomyces cerevisae, mas logo em seguida, também em eucariotos superiores, exceto em plantas. Estas proteínas estão envolvidas em uma variedade de processos celulares tais como segregação de cromossomos, polaridade celular, dinâmica da membrana, tráfego de vesículas, exocitose, apoptose, entre outros. Mutações ou alterações no padrão de expressão de septinas são associadas com vários cânceres e doenças neurológicas. Objetivando contribuir com informações funcionais sobre tais proteínas, as septinas humanas 1, 5 e 7 foram usadas como iscas em ensaios de duplo híbrido em leveduras visando à identificação de seus parceiros protéicos. Após a varredura de bibliotecas de cDNA de leucócitos e cérebro fetal humano, os parceiros protéicos predominantemente encontrados foram outras septinas de grupos diferentes aos das iscas. As interações septina-septina envolveram o domínio de ligação a GTP. Ainda, outros parceiros, diferentes de septinas, foram também identificados nas bibliotecas e estes se mostraram funcionalmente relacionados à endocitose, à regulação da atividade de GTPases, ao tráfego intracelular, aos ciclos de sumoilação, à manutenção da placa metafásica e à maturação do centrossomo. Algumas destas funções são inéditas e foram pela primeira vez relacionadas às septinas. Este trabalho também esteve voltado à caracterização biofísica das septinas 3 e 5 (SEPT3 e SEPT5). Muitos protocolos diferentes foram desenvolvidos na tentativa de obter amostras homogêneas de SEPT5, mas não foram bem sucedidos. Por outro lado, SEPT3 recombinante, destituída do domínio amino-terminal (SEPT3GC) foi eficientemente produzida em E. coli. O estado monomérico de SEPT3GC em solução foi confirmado por cromatografia de exclusão molecular e espalhamento de raios-X a baixos ângulos (SAXS). SEPT3GC mostrou-se ativa e capaz de hidrolizar GTP in vitro. A afinidade de SEPT3GC por GTPγS e GDP foi avaliada por calorimetria de titulação isotérmica (ITC), sendo que o KD de SEPT3GC para GTPγS foi de 5,43 μM e a ligação para este nucleotídeo foi dependente de Mg2+. A ligação para GDP não foi detectável. Agregados de SEPT3GC induzidos por temperatura foram capazes de ligar a sonda fluorescente tioflavina-T, sugerindo uma natureza amilóide para tais estruturas. / Septins are proteins that belong to the superfamily of GTPases, which were initially identified in Saccharomyces cerevisiae, and then in higher eukaryotes, except plants. These proteins are involved in a variety of cellular processes such as chromosome segregation, cell polarity, membrane dynamics, vesicle trafficking, exocytosis, apoptosis, among others. Mutations or changes in the expression of septins have been associated with various cancers and neurological diseases. Aiming to provide functional information about these proteins, the human septins 1, 5 and 7 were used as baits in yeast two-hybrid assay in order to identify their protein partners. After screening cDNA libraries from human leukocytes and fetal brain, the protein partners predominantly found were septins from others groups. The septin-septin interactions involved the GTP binding domain. Others non-septins interactors have also been identified in the libraries and were functionally related to endocytosis, the regulation of the GTPase activity, intracellular trafficking, sumoylation, maintenance of metaphase plate and centrosome maturation. Some of these functions are new and were related to the septins for the first time. This work also focused on the biophysical characterization of the septins 3 and 5 (SEPT3 and SEPT5). Many different protocols were developed aiming to obtain homogeneous samples of SEPT5, but were not successful. On the other hand, recombinant SEPT3, without the amino-terminal domain (SEPT3GC), was produced in a homogeneous form in E. coli. SEPT3GC is monomeric in solution as confirmed by size exclusion chromatography and small-angle X-ray scattering (SAXS). Also, SEPT3GC has shown to be active and able to hydrolyze GTP in vitro. The SEPT3GC affinity by GTPγS and GDP were evaluated by isothermal titration calorimetry (ITC). The KD for GTPγS was about 5,43 μM and it was observed to be Mg2+ dependent. The binding to GDP was not detectable. SEPT3GC aggregates induced by temperature were able to bind the thioflavin-T fluorescent probe, suggesting an amyloid nature for such structures.

Atividade GTPásica

Septinas

Sistema do duplo híbrido em leveduras

GTPase activity

Septins

Yeast two hybrid system

Ανίχνευση νέων πρωτεϊνικών αλληλεπιδράσεων της μυοειδικής πρωτεΐνης δεσμίνης στα καρδιακά μυϊκά κύτταρα και προτάσεις νέων μηχανισμών δράσης της. / Novel protein-protein

Κυριακόπουλος, Ανδρέας

28 June 2007

Η μυο-ειδική πρωτεΐνη δεσμίνη, αποτελεί μέλος των πρωτεϊνών του κυτταροσκελετού των ενδιαμέσων ινιδίων και εκφράζεται στους λείους και τους γραμμωτούς μυς. Στους συσταλτούς μύες, το πλέγμα του κυτταροσκελετού της Δεσμίνης περιβάλλει τους Ζ-δίσκους διασυνδέοντάς τους, ενώ παράλληλα συνδέει μεταξύ τους τις συσταλτές περιοχές της μυικής ίνας με την σαρκοπλασματική μεμβράνη, με διάφορα οργανίδια και με τον πυρήνα. Για να προσδιορίσουμε τους ακριβείς μηχανισμούς δράσης της δεσμίνης χρησιμοποιήσαμε το σύστημα υβριδισμού των ζυμών – yeast two hybrid screen system – προκειμένου να ανιχνεύσουμε πρωτεΐνες που αλληλεπιδρούν με τη δεσμίνη. Χρησιμοποιήσαμε ως «δόλωμα» αλληλουχίες των άκρων του μορίου της δεσμίνης του αμινο-τελικού και το καρβόξυ-τελικού. Μελετώντας τις πρωτεΐνες που προέκυψαν, διαπιστώσαμε ότι το αμινο-τελικό άκρο της δεσμίνης αλληλεπιδρά με διάφορες μιτοχονδριακές πρωτεΐνες. Με το ίδιο σύστημα αποκαλύψαμε αλληλεπιδράσεις της δεσμίνης με λυοσωματικές πρωτεΐνες όπως η καθεψίνη D και η προσαποσίνη οι οποίες αλληλεπιδρούν με το αμινοτελικό άκρο της δεσμίνης. Η καθεψίνη D είναι μια λυοσωματική πρωτεάση, που οδηγείται και ωριμάζει πλήρως στα λυοσώματα ενώ η προσαποσίνη είναι ένα πρόδρομο λυοσωματικό μόριο με πρωτεόλυση του οποίου, εντός του λυοσώματος, προκύπτουν οι σαποσίνες Α έως D. Η καθεψίνη D αποτελεί δείκτη καταστάσεων αυτοφαγία και τελευταία φαίνεται ότι επεμβαίνει σε φαινόμενα απόπτωσης επάγωντάς την κατά περίπτωση. Η αλληλεπίδραση της δεσμίνης με την καθεψίνη D επιβεβαιώθηκε και με βιοχημικές τεχνικές (in vitro) όπως η συνεργιστική ανοσοκαθίζηση /ανοσοκατακρήμνιση (co-immuno-precipitation) και η τεχνική GST pull-down. Μετά και από αυτές τις in vitro αποδείξεις, φαίνεται πως μάλλον συμβαίνει ευθεία αλληλεπίδραση μεταξύ της δεσμίνης και της καθεψίνης D. Γι’ αυτό, και με βάση όσα είναι γνωστά για την καθεψίνη D, προτείνουμε μια νέα λειτουργία του κυτταροσκελετού της δεσμίνης πιθανόν στην μετακίνησης και τη δημιουργία των λυοσωμάτων αλλά και έναν νέο ρυθμιστικό ίσως ρόλο της, σε διαδικασίες αυτοφαγίας και απόπτωσης, μέσω της πρόσδεσής της με σημαντικά μόρια ρυθμιστές τέτοιων διαδικασιών.................... / Desmin is the muscle - specific member of the intermediate filament family of cytoskeletal proteins, expressed both in striated and smooth muscle tissues. In mature striated muscle fibers, the desmin filament lattice surrounds the Z-discs, interconnects them to each other and links the entire contractile apparatus to the sarcolemmal cytoskeleton, cytoplasmic organelles and the nucleus. In order to identify the exact mechanisms of desmin’s action, we performed a yeast two-hybrid screen for desmin-interacting proteins. For this purpose, we used as baits the two non helical terminal regions of the desmin molecule, the amino (head)- and the carboxy (tail)- terminal domain. We have found that the head domain of desmin potentially interacts with two new groups of proteins, mitochondria and lysosome related. Specifically, in the second category, we have revealed an association of the head domain of desmin with Cathepsin D (one of the lysosomal proteinases) and prosaposin (a single precursor which gives rise to Saposins A-D by proteolytic cleavage in lysosomes and is also referred to as sphigolipid activator proteins). In addition to its targeting to lysosomes, Cathepsin D is also involved in apoptosis and autophagy processes. This protein interaction result has been retested. The interaction between cathepsin D and desmin has also been further confirmed both with reverse yeast transformation as well as biochemical assays such as co-immunoprecipitation and GST pull down assay. The above described strong evidence of direct interaction between desmin and cathepsin D, has allowed us to propose a novel function of desmin IFs in lysosomal trafficking and/or as a new regulator of autophagy and apoptotic cell death.

Δεσμίνη

Κυτταροσκελετός

Καρδιομυοπάθεια

Κυτταρικός θάνατος

572.6

Desmin

Cytoskeleton

Cardiomyopathy

Protein-protein interactions

Yeast two hybrid system

Cell death

Analises estruturais e estudos das interações das proteinas INT6 e NY-REN-21 / Structural analysis and interaction studies of the INT6 and NY-REN-sa proteins

Carneiro, Flavia Raquel Gonçalves

30 May 2006

Orientador: Nilson Ivo Tonin Zanchin / Tese (doutorado) - Universidade Estadual de Campinas, Instituto de Biologia / Made available in DSpace on 2018-08-06T21:20:48Z (GMT). No. of bitstreams: 1 Carneiro_FlaviaRaquelGoncalves_D.pdf: 4565621 bytes, checksum: 26bdfc2a971d3837321625172c6745e8 (MD5) Previous issue date: 2006 / Resumo: O gene que codifica a proteína INT6 corresponde a um dos sítios de inserção do vírus de tumor de glândula mamária em camundongo (MMTV). Esta inserção pode levar à formação de proteínas truncadas sem a porção C-terminal e sem o domínio PCI, descrito como domínio de interação entre proteínas. Neste trabalho, realizamos 3 triagens para a identificação dos ligantes protéicos da proteína humana INT6 (hINT6) pelo método do duplo-híbrido de levedura. Embora interações específicas tenham sido identificadas, não foi possível a confirmação in vitro das novas interações isoladas. Para análises estruturais, usamos a proteína INT6 de Arabidopsis thaliana (AtINT6), visto que a proteína humana expressou em níveis muito baixos na fração solúvel do extrato de Escherichia coli. Análises de dicroísmo circular revelaram que a proteína AtINT6 é rica em estrutura do tipo a-hélice. A região que compreende os aminoácidos 172 a 415, incluindo o domínio PCI, foi identificada por proteólise parcial e espectrometria de massas como um domínio estrutural que após sua clonagem apresentou alto nível de expressão, solubilidade e estabilidade. Este trabalho envolveu também a caracterização da NY-REN-21, que foi isolada pelo duplo-híbrido para a identificação dos ligantes protéicos da proteína hINT6 e representa uma possível ortóloga para o fator de transcrição ZFP38 de camundongo. Ambas as proteínas apresentam um domínio de dimerização (SCAN), 7 domínios dedos de zinco tipo C2H2 na porção C-terminal e uma região central predita como desestruturada. A proteína NY-REN-21 se mostrou parcialmente desenovelada e sua estrutura secundária é afetada pela incubação com EDTA. Ensaios de proteólise limitada, dicroísmo circular e fluorescência confirmaram que sua região central é intrinsicamente desordenada, além de apresentar mobilidade anômala em gel de SDS-PAGE e representa uma fração flexível da proteína. Não foi possível a caracterização da região dos dedos de zinco, pois esta região se mostrou altamente instável. O domínio SCAN da NY-REN-21 é capaz de formar homodímeros e heterodímeros com a proteína SCAND1. Esta interação pode representar uma forma de regulação da atividade da proteína NY-REN-21 / Abstract: The INT6 gene was reported as a frequent genome integration site of Mouse Mammary Tumor Virus (MMTV). This integration may result in truncated forms of INT6 protein lacking its C-terminal region and the PCI domain. It has been reported that this domain is involved in protein-protein interaction. We performed 3 yeast two-hybrid screens in order to identify the human INT6 (hINT6) interaction partners. Although two previously described specific interactions were identified in these screens, it was not possible to confirm the new interactions by in vitro binding assays. The Arabidopis thalina INT6 ortholog (AtINT6) was used for structural analyses, since the hINT6 was insoluble following expression in Escherichia coli. AtINT6 showed CD spectra with high helical content. The region comprising amino acids 172 to 415 forms a compact protease resistant domain as determined by limited proteolysis and mass spectrometry analyses. This domain, comprising the PCI domain sequence, was cloned and expressed in E. coli and showed high solubility and stability. This recombinant protein has the potential to serve as a model protein for three-dimensional structure determination of the PCI domain. We also studied the NY-REN-21 protein, which was isolated as a potential hINT6 interaction partner and represents a putative ortholog of the mouse ZFP38 transcriptional factor. Both proteins are C2H2 type multifinger proteins, containing a conserved oligomerization domain (SCAN) in the N-terminal region and a predicted disordered central region. Our analyses showed that full-length NY-REN-21 is partially unfolded and its secondary structure content is affected by incubation with EDTA. The central region of NY-REN-21 shows an aberrant mobility on SDS-PAGE and is intrinsically unstructured as reveled by circular dichroism, fluorescence and limited proteolysis. The zinc finger region was not characterized because of its unstable nature. The recombinant SCAN domain of NY-REN-21 can form homodimers and heterodimers with the SCAND1 protein. This interaction may represent a novel regulatory mechanism of NY-REN-21 activity / Doutorado / Genetica Animal e Evolução / Doutor em Genetica e Biologia Molecular

INT6

NY-REN-21

Técnicas do sistema de duplo-híbrido

Dicroismo circular

Transcrição genética

Yeast two-hybrid system

Circular dichroism

Genetic transcription

Using the Yeast Two-Hybrid System to Determine the Function of Parkin E3 Ubiquitin Ligase

Nguyen, Vanessa

01 December 2014

Parkin is a cytosolic E3 ubiquitin ligase that is recruited to the mitochondria during cellular stress and has been suggested to be involved in a variety of biological processes such as mitophagy. The recruitment of Parkin (PARK2) to the mitochondria is dependent upon the kinase activity and the accumulation of PINK1 on damaged mitochondria. Mutations in either PINK1 or Parkin genes disrupt this protective pathway and lead to the accumulation of damaged mitochondria. From a clinical standpoint, mutations in the PARK2 gene have been associated with the progression and onset of autosomal recessive juvenile parkinsonism. Without the presence of a quality control system such as that of the PINK1/Parkin pathway, the accumulation of damaged mitochondria could lead to increased levels of oxidative stress, a decrease in ATP, and the progression towards cellular death. However, many of the details regarding the mechanism of Parkin-mediated ubiquitination and its involvement in mitophagy are not fully established. The intent of this thesis is to further explore the function of Parkin by utilizing the yeast-two hybrid system to identify novel Parkin interactors/substrates. A HeLa (cervical cell carcinoma) cDNA library was screened using Parkin124-465 as the "bait" protein. From this screening, six positive Parkin interactors were isolated and characterized. Using this approach it is possible to gain a better understanding of the function of Parkin in regulating cellular processes such as mitophagy.

Microbiology

Molecular Biology

Use of the yeast two-hybrid system to define the function of THAP5 protein

Popat, Paiyal V.

01 January 2009

THAP5 is a protein which was recently isolated in the Zervos Lab as an interactor of a pro-apoptotic protein, Omi/HtrA2. THAP5 is unique because it shares no homology with mouse or rat and can only be found in humans. The only homology it shares with any other protein is its THAP domain. THAP proteins are zinc-dependent sequence specific DNA-binding factors belonging to the zinc-finger family of proteins (2). There are 12 identified members of TIIAP proteins in humans, THAP0-THAP 11. The roles of these THAP proteins include proliferation, apoptosis, cell cycle, chromosome segregation, chromosome modification, and transcriptional regulation (2). The function of THAP5 is still unclear and thus, a Yeast Two-Hybrid experiment will be done to further determine its function. The Yeast Two-Hybrid System is a common molecular biology technique used to identify interactors of a certain protein of interest. By identifying the protein interactors of THAP5 and their functions, it is possible to further determine the function of THAP5.

Co immunoprecipitation

Molecular Biology

Caractérisation biochimique et moléculaire du complexe SCF (SKP1-CULLIN-FBOX) chez le blé tendre / Biochemical and molecular characterization of the SCF complex (SKP1-CULLIN-FBOX) in soft wheat

El Beji, Imen

18 July 2011

Les modifications post-traductionnelles des protéines constituent un niveau crucial de régulation de l’expression des gènes. Parmi elles, la conjugaison peptidique impliquant l’ubiquitine intervient entre autre dans la régulation de la stabilité protéique. La fixation de ce peptide de 76 acides aminés, extrêmement conservé, sous forme de chaîne de polyubiquitine, nécessite l’intervention de trois enzymes (E1, E2 et E3) et constitue un signal de dégradation de la protéine ainsi modifiée. Cette voie de régulation intervient dans de très nombreux processus biologiques. Les complexes SCF sont impliqués dans la voie de protéolyse ciblée. Ils représentent l' une des classes les plus fréquentes d'ubiquitine ligase E3 et ils sont composés de quatre sous-unités (Rbx, Cullin, SKP1, et F-box). La structure et la fonction des complexes SCF, ont été étudiées chez la levure, l’Homme et la plante modèle A. thaliana. Cependant, peu de travaux ont été réalisés chez des plantes cultivées, en particulier les céréales, telles que le blé. Cinq gènes codant pour la sous-unité Skp1 (TSK1, TSK3, TSK6, TSK11 et TSK16), cinq gènes codant pour la sous-unité F-box (ZTL, ATFBL5, EBF, TIR1 et ABA-T), un gène codant pour la sous-unité Cullin1 et un gène codant pour la protéine RBX du complexe SCF du blé, ont été isolés et clonés. Les différents tests d’interaction entre les quatre sous-unités du complexe SCF ont été réalisés par la méthode du double-hybride dans la levure en utilisant la technologie Gateway. Ces études ont montré que les deux protéines, TSK1 et TSK3, fixent spécifiquement différentes sous-unités F-box. Parallèlement, nous avons montré que la protéine TSK11 représente une structure particulière. Des études d’insertion/délétion sur la protéine TSK11 ont permis d’identifier un nouveau domaine indispensable à l’interaction. Les analyses par PCR semi-quantitative des différents gènes codant pour la sous-unité Skp1, dans trois tissus différents (feuille tige et racine), ont mis en évidence une expression constitutive des gènes TSK3, TSK6 et TSK11. Tandis que les gènes TSK1 et TSK16 sont exprimés préférentiellement dans les racines. Les analyses par PCR semi-quantitative sur des plantules de blé à différents stades de développement, ont mis en évidence une surexpression du gène TSK11 au moment de la floraison. Ce qui suggère que TSK11 est probablement un équivalent fonctionnel d’ASK1 chez Arabidopsis thaliana. / The selective degradation of proteins is an important means of regulating gene expression and plays crucial roles in the control of various cellular processes. The Ubiquitin (Ub)–Proteasome System (UPS) is the principal non-lysosomal proteolytic pathway in eukaryotic cells and is required for the degradation of key regulatory proteins. Ubiquitin is a 76-residue protein that can be attached covalently to target proteins through an enzymatic conjugation cascade involving three enzymes denoted, E1, E2 and E3.The SCF complex is a type of ubiquitin-protein ligase (E3) that acts as the specific factor responsible for substrate recognition and ubiquitination. Some polyubiquitinated proteins are then targeted to the 26S proteasome for degradation. The SCF complex consists of four components including SKP1, Cullin1, Rbx1 and a large gene family of F-box proteins. Twenty one SKP1-related genes have been described in the Arabidopsis genome and some of these genes have been analyzed genetically. By contrast, little is known about the function and structure of SKP1 homologues in wheat. Some of the Triticum SKP1-related protein (TSKs) have been characterized in this study. Five complete sequences of SKP1 (TSK1, TSK3, TSK6, TSK11 and TSK16), five F-box (ZTL, ATFBL5, EBF, TIR1 and ABA-T), one Cullin1 and one Rbx, were successfully cloned and biochemically characterized. Yeast two-hybrid analysis showed that TSK1 and TSK3 are capable of interacting with different F-box proteins. Furthermore, TSK11 contains an additional domain that changed its interaction capabilities. In vitro analysis using a chimeric protein showed that this additional domain could modify the interaction between a SKP-like protein and two F-box proteins. Expression analyses revealed that TSK1 and TSK16 were expressed predominantly in roots. While, TSK3, TSK6 and TSK11 were expressed in several wheat organs. In addition, the TSK11 was up-regulated in the leaves at the flowering stage.

Ubiquitine Ligase E3

Complexe SCF

Triticum aestivum

TSKs

F-box

Double-hybride dans la levure

E3 Ligase

SCF complexes

Triticum aestivum

TSK

F-box protein

Yeast two-hybrid system