889 resultados para Two-hybrid


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Dem Farinelli-Protein wird eine Funktion als hodenspezifisches VAP-Protein zugesprochen (Renner, 2001). Mit Hilfe des ER-Markers PDI konnte Fan eindeutig dem ER zugeordnet werden. Fan stellt dabei ein integrales Membranprotein dar, welches nur durch Detergenz- Behandlung in Lösung zu bringen war. Durch den Einsatz zweier Fragment-Konstrukte (fan∆MSP-GFP und fanMSP-GFP) von Fan wurde die Relevanz der MSP-Domäne für die männliche Fertilität dokumentiert. Das Fusionsprotein Fan∆MSP-GFP lag aufgrund der verbliebenen Transmembrandomäne weiterhin im ER vor. Dennoch konnte der sterile Phänotyp der fanJo-Männchen, die keinerlei Fan-Protein enthalten, durch das Einbringen des Fusionskonstrukts nicht gerettet werden. MSP-GFP für sich allein konnte keine Verbindung mit dem ER eingehen und zeigte eine diffuse Fluoreszenz. Im Rahmen der Dissertation wurden mehrere, durch das yeast two hybrid-System ermittelte, mögliche Interaktionspartner von Fan analysiert. Das Protein CG5194 konnte als einziges wie Fan dem ER zugeordnet werden. Seine Expression beschränkte sich aber auf die Spermatocytenphase und ist somit kürzer als die von Farinelli. Nach Einkreuzen der GFP-Fusionskonstrukte in die fan-Nullmutante konnte CG5194 nicht mehr am ER der Spermatocyten beobachtet werden, sondern lag innerhalb des Cytoplasmas diffus verteilt vor. Auch bei der Western Blot-Analyse konnte das Protein von CG5194 nur noch in der Überstand-Fraktion mit den ungebundenen Proteinen nachgewiesen werden. Lag in der fan-Nullmutante ausschließlich das Fan∆MSP-GFP-Fusionsprotein vor, konnte die ER-Lokalisation von CG5194 ebenfalls nicht beibehalten werden. Mit Hilfe einer Fragment-Analyse konnte gezeigt werden, dass in den männlichen Gonaden das erste Exon von CG5194 für die Interaktion mit Fan entscheidend ist. Innerhalb der Ovarien dagegen ist das zweite Exon für die Lokalisation im ER notwendig. Demzufolge ist neben einem anderen Interaktionspartner als Fan auch eine andere Domäne im Protein für die ER-Lokalisation in der weiblichen Keimbahn entscheidend. Durch den Einsatz von antisense- und RNAi-Konstrukten konnte ein steriler Phänotyp bei den Männchen erzeugt werden. Überraschenderweise zeigten die Tiere erst einen Defekt während der Spermatiden-Differenzierung. Bereits während der Diplomarbeit wurde 98A im Kopfbereich der elongierten Spermatiden nachgewiesen. Mittels einer DNA-Färbung sowie durch die Colokalisation mit dem Akrosom-Protein Sneaky wurde 98A dem Bereich des Akrosoms zugeordnet. Sneaky taucht jedoch bereits früher als 98A in den Keimzellen auf. Die Erzeugung eines sterilen Phänotyps durch den Einfluss eines RNAi-Konstrukts gelang nicht. Entweder ist 98A für die Fertilität von Drosophila nicht relevant oder aber seine Funktion kann von anderen Proteinen übernommen werden.

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ZUSAMMENFASSUNG: Proteinkinasen übernehmen zentrale Aufgaben in der Signaltransduktion höherer Zellen. Dabei ist die cAMP-abhängige Proteinkinase (PKA) bezüglich ihrer Struktur und Funktion eine der am besten charakterisierten Proteinkinasen. Trotzdem ist wenig über direkte Interaktionspartner der katalytischen Untereinheiten (PKA-C) bekannt. In einem Split-Ubiquitin basiertem Yeast Two Hybrid- (Y2H-)System wurden potenzielle Interaktionspartner der PKA-C identifiziert. Als Bait wurden sowohl die humane Hauptisoform Cα (hCα) als auch die Proteinkinase X (PrKX) eingesetzt. Nach der Bestätigung der Funktionalität der PKA-C-Baitproteine, dem Nachweis der Expression und der Interaktion mit dem bekannten Interaktionspartner PKI wurde ein Y2H-Screen gegen eine Mausembryo-cDNA-Expressionsbibliothek durchgeführt. Von 2*10^6 Klonen wurden 76 Kolonien isoliert, die ein mit PrKX interagierendes Preyprotein exprimierten. Über die Sequenzierung der enthaltenen Prey-Vektoren wurden 25 unterschiedliche, potenzielle Interaktionspartner identifiziert. Für hCα wurden über 2*10^6 S. cerevisiae-Kolonien untersucht, von denen 1.959 positiv waren (1.663 unter erhöhter Stringenz). Über die Sequenzierung von ca. 10% der Klone (168) konnten Sequenzen für 67 verschiedene, potenzielle Interaktionspartner der hCα identifiziert werden. 15 der Preyproteine wurden in beiden Screens identifiziert. Die PKA-C-spezifische Wechselwirkung der insgesamt 77 Preyproteine wurde im Bait Dependency Test gegen largeT, ein Protein ohne Bezug zum PKA-System, untersucht. Aus den PKA-C-spezifischen Bindern wurden die löslichen Preyproteine AMY-1, Bax72-192, Fabp3, Gng11, MiF, Nm23-M1, Nm23-M2, Sssca1 und VASP256-375 für die weitere in vitro-Validierung ausgewählt. Die Interaktion von FLAG-Strep-Strep-hCα (FSS-hCα) mit den über Strep-Tactin aus der rekombinanten Expression in E. coli gereinigten One-STrEP-HA-Proteinen (SSHA-Proteine) wurde über Koimmunpräzipitation für SSHA-Fabp3, -Nm23-M1, -Nm23-M2, -Sssca1 und -VASP256-375 bestätigt. In SPR-Untersuchungen, für die hCα kovalent an die Oberfläche eines CM5-Sensorchips gekoppelt wurde, wurden die ATP/Mg2+-Abhängigkeit der Bindungen sowie differentielle Effekte der ATP-kompetitiven Inhibitoren H89 und HA-1077 untersucht. Freie hCα, die vor der Injektion zu den SSHA-Proteinen gegeben wurde, kompetierte im Gegensatz zu FSS-PrKX die Bindung an die hCα-Oberfläche. Erste kinetische Analysen lieferten Gleichgewichtsdissoziationskonstanten im µM- (SSHA-Fabp3, -Sssca1), nM- (SSHA-Nm23-M1, –M2) bzw. pM- (SSHA-VASP256-375) Bereich. In funktionellen Analysen konnte eine Phosphorylierung von SSHA-Sssca1 und VASP256-375 durch hCα und FSS-PrKX im Autoradiogramm nachgewiesen werden. SSHA-VASP256-375 zeigte zudem eine starke Inhibition von hCα im Mobility Shift-Assay. Dieser inhibitorische Effekt sowie die hohe Affinität konnten jedoch auf eine Kombination aus der Linkersequenz des Vektors und dem N-Terminus von VASP256-375 zurückgeführt werden. Über die Wechselwirkungen der hier identifizierten Interaktionspartner Fabp3, Nm23-M1 und Nm23-M2 mit hCα können in Folgeuntersuchungen neue PKA-Funktionen insbesondere im Herzen sowie während der Zellmigration aufgedeckt werden. Sssca1 stellt dagegen ein neues, näher zu charakterisierendes PKA-Substrat dar.

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El marcaje de proteínas con ubiquitina, conocido como ubiquitinación, cumple diferentes funciones que incluyen la regulación de varios procesos celulares, tales como: la degradación de proteínas por medio del proteosoma, la reparación del ADN, la señalización mediada por receptores de membrana, y la endocitosis, entre otras (1). Las moléculas de ubiquitina pueden ser removidas de sus sustratos gracias a la acción de un gran grupo de proteasas, llamadas enzimas deubiquitinizantes (DUBs) (2). Las DUBs son esenciales para la manutención de la homeostasis de la ubiquitina y para la regulación del estado de ubiquitinación de diferentes sustratos. El gran número y la diversidad de DUBs descritas refleja tanto su especificidad como su utilización para regular un amplio espectro de sustratos y vías celulares. Aunque muchas DUBs han sido estudiadas a profundidad, actualmente se desconocen los sustratos y las funciones biológicas de la mayoría de ellas. En este trabajo se investigaron las funciones de las DUBs: USP19, USP4 y UCH-L1. Utilizando varias técnicas de biología molecular y celular se encontró que: i) USP19 es regulada por las ubiquitin ligasas SIAH1 y SIAH2 ii) USP19 es importante para regular HIF-1α, un factor de transcripción clave en la respuesta celular a hipoxia, iii) USP4 interactúa con el proteosoma, iv) La quimera mCherry-UCH-L1 reproduce parcialmente los fenotipos que nuestro grupo ha descrito previamente al usar otros constructos de la misma enzima, y v) UCH-L1 promueve la internalización de la bacteria Yersinia pseudotuberculosis.

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Identifying the genetic changes driving adaptive variation in natural populations is key to understanding the origins of biodiversity. The mosaic of mimetic wing patterns in Heliconius butterflies makes an excellent system for exploring adaptive variation using next-generation sequencing. In this study, we use a combination of techniques to annotate the genomic interval modulating red color pattern variation, identify a narrow region responsible for adaptive divergence and convergence in Heliconius wing color patterns, and explore the evolutionary history of these adaptive alleles. We use whole genome resequencing from four hybrid zones between divergent color pattern races of Heliconius erato and two hybrid zones of the co-mimic Heliconius melpomene to examine genetic variation across 2.2 Mb of a partial reference sequence. In the intergenic region near optix, the gene previously shown to be responsible for the complex red pattern variation in Heliconius, population genetic analyses identify a shared 65-kb region of divergence that includes several sites perfectly associated with phenotype within each species. This region likely contains multiple cis-regulatory elements that control discrete expression domains of optix. The parallel signatures of genetic differentiation in H. erato and H. melpomene support a shared genetic architecture between the two distantly related co-mimics; however, phylogenetic analysis suggests mimetic patterns in each species evolved independently. Using a combination of next-generation sequencing analyses, we have refined our understanding of the genetic architecture of wing pattern variation in Heliconius and gained important insights into the evolution of novel adaptive phenotypes in natural populations.

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Caliciviruses are a major cause of gastroenteritis in humans and cause a wide variety of other diseases in animals. Here, the characterization of protein-protein interactions between the individual proteins of Feline calicivirus (FCV), a model system for other members of the family Caliciviridae, is reported. Using the yeast two-hybrid system combined with a number of other approaches, it is demonstrated that the p32 protein (the picornavirus 2B analogue) of FCV interacts with p39 (2C), p30 (3A) and p76 (3CD). The FCV protease/RNA polymerase (ProPol) p76 was found to form homo-oligomers, as well as to interact with VPg and ORF2, the region encoding the major capsid protein VP1. A weak interaction was also observed between p76 and the minor capsid protein encoded by ORF3 (VP2). ORF2 protein was found to interact with VPg, p76 and VP2. The potential roles of the interactions in calicivirus replication are discussed.

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Follistatin is known to antagonise the function of several members of the TGF-beta family of secreted signalling factors, including Myostatin, the most powerful inhibitor of muscle growth characterised to date. In this study, we compare the expression of Myostatin and Follistatin during chick development and show that they are expressed in the vicinity or in overlapping domains to suggest possible interaction during muscle development. We performed yeast and mammalian two-hybrid studies and show that Myostatin and Follistatin interact directly. We further show that single modules of the Follistatin protein cannot associate with Myostatin suggesting that the entire protein is required for the interaction. We analysed the interaction kinetics of the two proteins and found that Follistatin binds Myostatin with a high affinity of 5.84 x 10(-10) M. We next tested whether Follistatin suppresses Myostatin activity during muscle development. We confirmed our previous observation that treatment of chick limb buds with Myostatin results in a severe decrease in the expression of two key myogenic regulatory genes Pax-3 and MyoD. However, in the presence of Follistatin, the Myostatin-mediated inhibition of Pax-3 and MyoD expression is blocked. We additionally show that Myostatin inhibits terminal differentiation of muscle cells in high-density cell cultures of limb mesenchyme (micromass) and that Follistatin rescues muscle differentiation in a concentration-dependent manner. In summary, our data suggest that Follistatin antagonises Myostatin by direct protein interaction, which prevents Myostatin from executing its inhibitory effect on muscle development. (C) 2004 Elsevier Inc. All rights reserved.

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RpfG is a paradigm for a class of widespread bacterial two-component regulators with a CheY-like receiver domain attached to a histidine-aspartic acid-glycine-tyrosine-proline (HD-GYP) cyclic di-GMP phosphodiesterase domain. In the plant pathogen Xanthomonas campestris pv. campestris (Xcc), a two-component system comprising RpfG and the complex sensor kinase RpfC is implicated in sensing and responding to the diffusible signaling factor (DSF), which is essential for cell-cell signaling. RpfF is involved in synthesizing DSF, and mutations of rpfF, rpfG, or rpfC lead to a coordinate reduction in the synthesis of virulence factors such as extracellular enzymes, biofilm structure, and motility. Using yeast two-hybrid analysis and fluorescence resonance energy transfer experiments in Xcc, we show that the physical interaction of RpfG with two proteins with diguanylate cyclase (GGDEF) domains controls a subset of RpfG-regulated virulence functions. RpfG interactions were abolished by alanine substitutions of the three residues of the conserved GYP motif in the HD-GYP domain. Changing the GYP motif or deletion of the two GGDEF-domain proteins reduced Xcc motility but not the synthesis of extracellular enzymes or biofilm formation. RpfG-GGDEF interactions are dynamic and depend on DSF signaling, being reduced in the rpfF mutant but restored by DSF addition. The results are consistent with a model in which DSF signal transduction controlling motility depends on a highly regulated, dynamic interaction of proteins that influence the localized expression of cyclic di-GMP.

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The PilZ protein was originally identified as necessary for type IV pilus (T4P) biogenesis. Since then, a large and diverse family of bacterial PilZ homology domains have been identified, some of which have been implicated in signaling pathways that control important processes, including motility, virulence and biofilm formation. Furthermore, many PilZ homology domains, though not PilZ itself, have been shown to bind the important bacterial second messenger bis(3`-> 5`)cyclic diGMP (c-diGMP). The crystal structures of the PilZ orthologs from Xanthomonas axonopodis pv Citri (PilZ(XAC1133), this work) and from Xanthomonas campestris pv campestris (XC1028) present significant structural differences to other PilZ homologs that explain its failure to bind c-diGMP. NMR analysis of PilZ(XAC1133) shows that these structural differences are maintained in solution. In spite of their emerging importance in bacterial signaling, the means by which NZ proteins regulate specific processes is not clear. In this study, we show that PilZ(XAC1133) binds to PilB, an ATPase required for TV polymerization, and to the EAL domain of FiMX(XAC2398), which regulates TV biogenesis and localization in other bacterial species. These interactions were confirmed in NMR, two-hybrid and far-Western blot assays and are the first interactions observed between any PilZ domain and a target protein. While we were unable to detect phosphodiesterase activity for FimXX(AC2398) in vitro, we show that it binds c-diGMP both in the presence and in the absence of PilZ(XAC1133). Site-directed mutagenesis studies for conserved and exposed residues suggest that PilZ(XAC1133) interactions with FimX(XAC2398) and PilB(XAC3239) are mediated through a hydrophobic surface and an unstructured C-terminal extension conserved only in PilZ orthologs. The FimX-PilZ-PilB interactions involve a full set of ""degenerate"" GGDEF, EAL and PilZ domains and provide the first evidence of the means by which PilZ orthologs and FimX interact directly with the TP4 machinery. (C) 2009 Elsevier Ltd. All rights reserved.

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The human protein Ki-1/57 was first identified through the cross reactivity of the anti-CD30 monoclonal antibody Ki-1; in Hodgkin lymphoma cells. The expression of Ki-1/57 in diverse cancer cells and its phosphorylation in peripheral blood leukocytes after mitogenic activation suggested its possible role in cell signaling. Ki-1/57 interacts with several other regulatory proteins involved in cellular signaling, transcriptional regulation and RNA metabolism, suggesting it may have pleiotropic functions. In a previous spectroscopic analysis, we observed a low content of secondary structure for Ki-1/57 constructs. Here, Circular dichroism experiments, in vitro RNA binding analysis, and limited proteolysis assays of recombinant Ki-1/57(122-413) and proteolysis assays of endogenous full length protein from human HEK293 cells suggested that Ki-1/57 has characteristics of an intrinsically unstructured protein. Small-angle X-ray scattering (SAXS) experiments were performed with the C-terminal fragment Ki-1/57(122-413). These results indicated an elongated shape and a partially unstructured conformation of the molecule in solution, confirming the characteristics of an intrinsically unstructured protein. Experimental curves together with ab initio modeling approaches revealed an extended and flexible molecule in solution. An elongated shape was also observed by analytical gel filtration. Furthermore, sedimentation velocity analysis suggested that Ki-1/57 is a highly asymmetric protein. These findings may explain the functional plasticity of Ki-1/57, as suggested by the wide array of proteins with which it is capable of interacting in yeast two-hybrid interaction assays.

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Two hybrid materials based on dodecatungstophosphoric acid (HPW) dispersed in ormosils modified with 3-aminopropiltrietoxysilane (APTS) or with N-(3-(trimethoxysilyl)-propyl)-ethylene-diamine (TSPEN) show reversible photochromic response induced by irradiation in the 200-390 nm UV range. A set of solid-state nuclear magnetic resonance (NMR) techniques was used to analyze the structural properties of the main components of these hybrids (the HPW polyanion, the inorganic matrix, and the organic functionalities). For the ormosils, the use of (29)Si NMR, {(1)H}-(29)Si cross-polarization, and {(1)H}-(29)Si HETCOR revealed a homogeneous distribution of silicon species Q ``, T(2), and T(3) for the APTS hybrid, contrasting with the separation of T(3) species in the TSPEN hybrid. The combination of (31)P NMR, {(1)H}-(31)P cross-polarization and (31)P-{(1)H} spin-echo double resonance (SEDOR) revealed the dispersion of the HPW ions in the ormosil, occupying sites with a high number of close protons (>50). Differences in the molecular dynamics at room temperature, inferred from SEDOR experiments, indicate a state of restricted mobility of the HPW ion and the surrounding molecular groups in the TSPEN hybrid. This behavior is consistent with the presence of more amino groups in the TSPEN, acting as chelating groups to the HPW ion. This hybrid, with the strong chelate interaction of the diamine group, shows the most intense photochromic response, in agreement with the charge transfer models proposed to explain the photochromic effect. Electronic reflectance spectroscopy in irradiated samples revealed the presence of one-electron and two-electron reduced polyanions. The one-electron reduced species could be detected also by (31)P NMR spectroscopy immediately after UV irradiation.

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Glycogenin acts in the initiation step of glycogen biosynthesis by catalyzing a self-glucosylation reaction. In a previous work [de Paula et al., Arch. Biochem. Biophys. 435 (2005) 112-124], we described the isolation of the cDNA gnn, which encodes the protein glycogenin (GNN) in Neurospora crassa. This work presents a set of biochemical and functional studies confirming the GNN role in glycogen biosynthesis. Kinetic experiments showed a very low GNN K-m (4.41 mu M) for the substrate UDP-glucose. Recombinant GNN was produced in Escherichia coli and analysis by mass spectroscopy identified a peptide containing an oligosaccharide chain attached to Tyr196 residue. Site-directed mutagenesis and functional complementation of a Saccharomyces cerevisiae mutant strain confirmed the participation of this residue in the GNN self-glucosylation and indicated the Tyr198 residue as an additional, although less active, glucosylation site. The physical interaction between GNN and glycogen synthase (GSN) was analyzed by the two-hybrid assay. While the entire GSN was required for full interaction, the C-terminus in GNN was more important. Furthermore, mutation in the GNN glucosylation sites did not impair the interaction with GSN. (c) 2005 Published by Elsevier B.V. on behalf of the Federation of European Biochemical Societies.

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Organic-inorganic hybrids were prepared using ureapropyltriethoxysilane, methacryloxypropyltrimethoxysilane and acrylic acid modified zirconium(IV) n-propoxide precursors and were characterized by small angle X-ray scattering, X-ray diffraction and photoluminescence spectroscopy. The results indicate an effective interaction between the zirconium-based nanoparticles and the siliceous nanodomains that induces changes in the hybrids' emission features. Planar waveguides were obtained by spin-coating of the prepared sols on sodalime and silica substrates. Refractive index, thickness, number of propagating modes, and attenuation coefficient were measured at 543.5, 632.8 and 1550 nm by the prism coupling technique. The synergism between the two hybrid precursors resulted in monomode planar waveguides with low losses in the infrared ( from 0.6-1.1 dB cm(-1)) which also support a number of propagating modes in the visible ( losses from 0.4-1.5 dB cm(-1)). Channel waveguides were also obtained by UV photopatterning using amplitude or phase masks and propagating modes were observed at 1550 nm.

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The eukaryotic translation initiation factor 2 (eIF2) binds the methionyl-initiator tRNA in a GTP-dependent mode. This complex associates with the 40 S ribosomal particle, which then, with the aid of other factors, binds to the 5' end of the mRNA and migrates to the first AUG codon, where eIF5 promotes GTP hydrolysis, followed by the formation of the 80 S ribosome. Here we provide a comparative sequence analysis of the β subunit of eIF2 and its archaeal counterpart (aIF2β). aIF2β differs from eIF2β in not possessing an N-terminal extension implicated in binding RNA, eIF5 and eIF2B. The remaining sequences are highly conserved, and are shared with eIF5. Previously isolated mutations in the yeast eIF2β, which allow initiation of translation at UUG codons due to the uncovering of an intrinsic GTPase activity in eIF2, involve residues that are conserved in aIF2β, but not in eIF5. We show that the sequence of eIF2B homologous to aIF2β is sufficient for binding eIF2γ, the only subunit with which it interacts, and comprises, at the most, 78 residues, eIF5 does not interact with eIF2γ, despite its similarity with eIF2β, probably because of a gap in homology in this region. These observations have implications for the evolution of the mechanism of translation initiation.

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The evolutionarily conserved factor eIF5A is the only protein known to undergo hypusination, a unique posttranslational modification triggered by deoxyhypusine synthase (Dys1). Although eIF5A is essential for cell viability, the function of this putative translation initiation factor is still obscure. To identify eIF5A-binding proteins that could clarify its function, we screened a two-hybrid library and identified two eIF-5A partners in S. cerevisiae: Dys1 and the protein encoded by the gene YJR070C, named Lia1 (Ligand of eIF5A). The interactions were confirmed by GST pulldown. Mapping binding sites for these proteins revealed that both eIF5A domains can bind to Dys1, whereas the C-terminal domain is sufficient to bind Lia1. We demonstrate for the first time in vivo that the N-terminal α-helix of Dys1 can modulate enzyme activity by inhibiting eIF5A interaction. We suggest that this inhibition be abrogated in the cell when hypusinated and functional eIF5A is required. © 2003 Published by Elsevier B.V. on behalf of the Federation of European Biochemical Societies.

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Background: The fungus Paracoccidioides spp is the agent of paracoccidioidomycosis (PCM), a pulmonary mycosis acquired by the inhalation of fungal propagules. Paracoccidioides malate synthase (PbMLS) is important in the infectious process of Paracoccidioides spp because the transcript is up-regulated during the transition from mycelium to yeast and in yeast cells during phagocytosis by murine macrophages. In addition, PbMLS acts as an adhesin in Paracoccidioides spp. The evidence for the multifunctionality of PbMLS indicates that it could interact with other proteins from the fungus and host. The objective of this study was to identify and analyze proteins that possibly bind to PbMLS (PbMLS-interacting proteins) because protein interactions are intrinsic to cell processes, and it might be possible to infer the function of a protein through the identification of its ligands. Results: The search for interactions was performed using an in vivo assay with a two-hybrid library constructed in S. cerevisiae; the transcripts were sequenced and identified. In addition, an in vitro assay using pull-down GST methodology with different protein extracts (yeast, mycelium, yeast-secreted proteins and macrophage) was performed, and the resulting interactions were identified by mass spectrometry (MS). Some of the protein interactions were confirmed by Far-Western blotting using specific antibodies, and the interaction of PbMLS with macrophages was validated by indirect immunofluorescence and confocal microscopy. In silico analysis using molecular modeling, dynamics and docking identified the amino acids that were involved in the interactions between PbMLS and PbMLS-interacting proteins. Finally, the interactions were visualized graphically using Osprey software. Conclusion: These observations indicate that PbMLS interacts with proteins that are in different functional categories, such as cellular transport, protein biosynthesis, modification and degradation of proteins and signal transduction. These data suggest that PbMLS could play different roles in the fungal cell. © 2013 de Oliveira et al.; licensee BioMed Central Ltd.