Variability of the conserved V3 loop tip motif in HIV-1 subtype B isolates collected from Brazilian and French patients

The diversity of the V3 loop tip motif sequences of HIV-1 subtype B was analyzed in patients from Botucatu (Brazil) and Montpellier (France). Overall, 37 tetrameric tip motifs were identified, 28 and 17 of them being recognized in Brazilian and French patients, respectively. The GPGR (P) motif was predominant in French but not in Brazilian patients (53.5% vs 31.0%), whereas the GWGR (W) motif was frequent in Brazilian patients (23.0%) and absent in French patients. Three tip motif groups were considered: P, W, and non-P non-W groups. The distribution of HIV-1 isolates into the three groups was significantly different between isolates from Botucatu and from Montpellier (P < 0.001). A higher proportion of CXCR4-using HIV-1 (X4 variants) was observed in the non-P non-W group as compared with the P group (37.5% vs 19.1%), and no X4 variant was identified in the W group (P < 0.001). The higher proportion of X4 variants in the non-P non-W group was essentially observed among the patients from Montpellier, who have been infected with HIV-1 for a longer period of time than those from Botucatu. Among patients from Montpellier, CD4+ cell counts were lower in patients belonging to the non-P non-W group than in those belonging to the P group (24 cells/µL vs 197 cells/µL; P = 0.005). Taken together, the results suggest that variability of the V3 loop tip motif may be related to HIV-1 coreceptor usage and to disease progression. However, as analyzed by a bioinformatic method, the substitution of the V3 loop tip motif of the subtype B consensus sequence with the different tip motifs identified in the present study was not sufficient to induce a change in HIV-1 coreceptor usage.

Cupin: A candidate molecular structure for the Nep1-like protein family

Background: NEP1-like proteins (NLPs) are a novel family of microbial elicitors of plant necrosis. Some NLPs induce a hypersensitive-like response in dicot plants though the basis for this response remains unclear. In addition, the spatial structure and the role of these highly conserved proteins are not known.Results: We predict a 3d-structure for the beta-rich section of the NLPs based on alignments, prediction tools and molecular dynamics. We calculated a consensus sequence from 42 NLPs proteins, predicted its secondary structure and obtained a high quality alignment of this structure and conserved residues with the two Cupin superfamily motifs. The conserved sequence GHRHDWE and several common residues, especially some conserved histidines, in NLPs match closely the two cupin motifs. Besides other common residues shared by dicot Auxin-Binding Proteins (ABPs) and NLPs, an additional conserved histidine found in all dicot ABPs was also found in all NLPs at the same position.Conclusion: We propose that the necrosis inducing protein class belongs to the Cupin superfamily. Based on the 3d-structure, we are proposing some possible functions for the NLPs.

Boron transport in Eucalyptus. 2. Identification in silico of a putative boron transporter for xylem loading in eucalypt

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Identification and characterization of novel mutations of the aspartoacylase gene in non-Jewish patients with Canavan disease

Canavan disease, an inherited leukodystrophy, is caused by mutations in the aspartoacylase (ASPA) gene. It is most common among children of Ashkenazi Jewish descent but has been diagnosed in many diverse ethnic groups. Two mutations comprise the majority of mutant alleles in Jewish patients, while mutations in the ASPA gene among non-Jewish patients are different and more diverse. In the present study, the ASPA gene was analysed in 22 unrelated non-Jewish patients with Canavan disease, and 24 different mutations were found. of these,14 are novel, including five missense mutations (E24G, D68A, D249V, C152W, H244R), two nonsense mutations (Q184X, E214X), three deletions (923delT, 33del13, 244delA), one insertion mutation (698insC), two sequence variations in one allele ([10T>G; 11insG]), an elimination of the stop codon (941A>G, TAG-->TGG, X314W), and one splice acceptor site mutation (IVS1 - 2A>T). The E24G mutation resulted in substitution of an invariable amino acid residue (Glu) in the first esterase catalytic domain consensus sequence. The IVS1 - 2A>T mutation caused the retention of 40 nucleotides of intron 1 upstream of exon 2. The results of transient expression of the mutant ASPA cDNA containing these mutations in COS-7 cells and assays for ASPA activity of patient fibroblasts indicated that these mutations were responsible for the enzyme deficiency. In addition, patients with the novel D249V mutation manifested clinically at birth and died early. Also, patients with certain other novel mutations, including C152W, E214X, X314W, and frameshift mutations in both alleles, developed clinical manifestations at an earlier age than in classical Canavan disease.

A new firefly luciferase with bimodal spectrum: Identification of structural determinants of spectral pH-sensitivity in firefly luciferases

Fireflies emit flashes in the green-yellow region of the spectrum for the purpose of sexual attraction. The bioluminescence color is determined by the luciferases. It is well known that the in vitro bioluminescence color of firefly luciferases can be shifted toward the red by lower pH and higher temperature; for this reason they are classified as pH-sensitive luciferases. However, the mechanism and structural origin of pH sensitivity in fireflies remains unknown. Here we report the cloning of a new luciferase from the Brazilian twilight active firefly Macrolampis sp2, which displays an unusual bimodal spectrum. The recombinant luciferase displays a sensitive spectrum with the peak at 569 nm and a shoulder in the red region. Comparison of the bioluminescence spectra of Macrolampis, Photinus and Cratomorphus firefly luciferases shows that the distinct colors are determined by the ratio between green and red emitters under luciferase influence. Comparison of Macrolampis luciferase with the highly similar North American Photinus pyralis luciferase (91%) showed few substitutions potentially involved with the higher spectral sensitivity in Macrolampis luciferase. Site-directed mutagenesis showed that the natural substitution E354N determines the appearance of the shoulder in the red region of Macrolampis luciferase bioluminescence spectrum, helping to identify important interactions and residues involved in the pH-sensing mechanism in firefly luciferases. © 2005 American Society for Photobiology.

Eucalyptus ESTs corresponding to the enzyme glutamine synthetase and the protein D1, sites of action of herbicides that cause oxidative stress

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Physical mapping of 18S rDNA and heterochromatin in species of family Lygaeidae (Hemiptera: Heteroptera)

Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq)

Detection of Shiga toxigenic (STEC) and enteropathogenic (EPEC) Escherichia coli in dairy buffalo

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Aberrant transcript produced by a splice donor site deletion in the TECTA gene is associated with autosomal dominant deafness in a Brazilian family

We ascertained a Brazilian family with nine individuals affected by autosomal dominant nonsyndromic sensorineural hearing loss. The bilateral hearing loss affected mainly mid-high frequencies, was apparently stable with an early onset. Microsatellites close to the DFNA8/DFNA12 locus, which harbors the TECTA gene, showed significant multipoint lod scores (32) close to marker D11S4107. Sequencing of the exons and exon-intron boundaries of the TECTA gene in one affected subject revealed the deletion c.5383 + 5delGTGA in the 5' end of intron 16, that includes the last two bases of the donor splice site consensus sequence. This mutation segregates with deafness within the family. To date, 33 different TECTA mutations associated with autossomal dominant hearing loss have been described. Among them is the mutation reported herein, first described by Hildebrand et al. (2011) in a UK family. The audioprofiles from the UK and Brazilian families were similar. In order to investigate the transcripts produced by the mutated allele, we performed cDNA analysis of a lymphoblastoid cell line from an affected heterozygote with the c.5383 + 5delGTGA and a noncarrier from the same family. The analysis allowed us to identify an aberrant transcript with skipping of exon 16, without affecting the reading frame. One of the dominant TECTA mutations already described, a synonymous substitution in exon 16 (c.5331 G<A), was also shown to affect splicing resulting in an aberrant transcript lacking exon 16. Despite the difference in the DNA level, both the synonymous substitution in exon 16 (c.5331 G<A) and the mutation described herein affect splicing of exon 16, leading to its skipping. At the protein level they would have the same effect, an in-frame deletion of 37 amino-acids (p.S1758Y/G1759_N1795del) probably leading to an impaired function of the ZP domain. Thus, like the TECTA missense mutations associated with dominant hearing loss, the c5383 + 5delGTGA mutation does not have an inactivating effect on the protein. (C) 2012 Elsevier B.V. All rights reserved.

Klonierung und Charakterisierung eines Konsensusgenoms des Hepatitis C Virus als Grundlage der Etablierung eines Zellkultursystems

Das Hepatitis C Virus (HCV) ist der Haupterreger der parenteral übertragenen non-A non-B Hepatitis. Bisher wurde die Erforschung der Replikation und Pathogenese des HCV durch das Fehlen eines effizienten und verläßlichen Zellkultursystems behindert.Virale RNA aus infizierten humanen Leberzellen wurde isoliert und kloniert. Mit Hilfe eines Vergleichs mehrerer Klone wurde eine isolatspezifische Konsensussequenz bestimmt, auf deren Basis ein Konsensusgenom konstruiert wurde. Mit dem Konsensusgenom als Grundlage wurden subgenomische RNA-Moleküle, sogenannte „selektionierbare Replikons“ hergestellt. Nach Transfektion der Replikons in humane HuH-7 Hepatoma-Zellen konnte gezeigt werden, daß die Replikons autonom und in hohem Maße in den Wirtszellen replizierten.Die Arbeit definiert die Struktur von HCV-Replikons, die in Zellkultur funktionell sind. Damit wird die Basis für ein lange gesuchtes HCV-Zellkultursystem geschaffen, welches das Studium der HCV-Replikation im Detail und die Entwicklung antiviral wirksamer Substanzen ermöglicht.

Transkriptionskontrolle des nuoA-N Operons (NADH-Dehydrogenase I) von Escherichia coli

Das Elektronentransportsystem von E. coli enthält zwei verschiedene NADH-Dehydrogenasen. Die NADH-DehydrogenaseI (nuoA-N) koppelt im Gegensatz zur NADH-DehydrogenaseII die Oxidation von NADH an eine Protonentranslokation und trägt zur Energiekonservierung bei. Die NADH-DehydrogenaseI wird über die Promotoren P1 und P2 exprimiert und besitzt mehrere Bindestellen für verschiedene Regulatoren.Die separate Klonierung der Promotoren, lacZ-Fusionen, Inaktivierung von Transkriptionsfaktoren, sowie die Nutzung mutierter Regulatorbindestellen in vivo zeigen, dass P1 im wesentlichen die Expressionshöhe bestimmt und ist unter aeroben und anaeroben Bedingungen aktiv. P2 trägt in wesentlich geringerem Maße als P1 zur Expression des Enzyms bei. Er ist stark abhängig von ArcA und IHF. Beide Promotoren wirken nicht additiv.Unter anaeroben Bedingungen wird die Transkription von nuo durch das Zweikomponenten-System ArcB/A reprimiert. ArcA bindet unabhängig und mit unterschiedlicher Affinität an die beiden Bindestellen arc1 und arc2. Von den 8 ArcA-Konsensussequenzen führen nur Mutationen der Konsensussequenzen arc1ab in vitro zu verminderter Bindungsaffinität von ArcA an die Bindestelle arc1. Dieselben führen in vivo unter anaeroben Bedingungen zur Derepression des Promotors P1 bzw. P1+P2. Unter aeroben Bedingungen zeigen nur Mutationen in arc2 eine Derepression, die nicht durch ArcA vermittelt wird. Der veröffentliche ArcA-Konsensus scheint deshalb hier in dieser einfachen Form nicht gültig zu sein.

Ursachen der unterschiedlichen Oligomerisierung von Lichtsammelproteinen

Die verschiedenen Lichtsammelproteine (Lhc-Proteine) höherer Pflanzen unterscheiden sich im Oligomerisierungsverhalten. Im Photosystem II existieren 6 Lhc-Proteine, die entweder die monomeren Lichtsammelkomplexe (LHC) CP24 (Lhcb6), CP26 (Lhcb5) und CP29 (Lhcb4) oder den trimeren LHCII (Lhcb1, Lhcb2 und Lhcb3) bilden. Im Photosystem I sind laut Kristallstruktur vier Lhc-Proteine lokalisiert, die als Heterodimere organisiert vorliegen. Der schwerpunktmäßig untersuchte LHCI-730 setzt sich aus Lhca1 und Lhca4 zusammen, während der LHCI-680 aus Lhca2 und Lhca3 besteht. Das Ziel der Arbeit bestand in der Identifizierung der für das unterschiedliche Oligomerisierungsverhalten verantwortlichen Proteinbereiche und Aminosäuren. Die für diese Arbeit generierten Consensussequenzalignments verschiedener Lhca- und Lhcb-Proteine vieler Arten unterstützen die Folgerungen aus Strukturdaten und anderen Sequenzalignments, dass den LHCs eine gemeinsame Monomerstruktur zu Grunde liegt. Die Helices 1 und 3 weisen weitgehend sehr hohe Sequenzidentitäten auf, während die N- und C-Termini, die zwei Schleifenregionen und die Helix 2 nur schwach konserviert sind. Falls die Bereiche mit hoher Sequenzübereinstimmung für das Zustandekommen ähnlicher monomerer LHC-Strukturen verantwortlich sind, könnten in den schwach konservierten Domänen die Ursachen für das unterschiedliche Oligomerisierungsverhalten lokalisiert sein. Aufgrund dessen wurden die schwach konservierten Domänen des monomerisierenden Lhcb4, des mit dem Lhca1 dimerisierenden Lhca4 und des Trimere bildenden Lhcb1 gegen die entsprechenden Domänen der anderen Proteine ausgetauscht und bezüglich ihres Oligomerisierungsverhaltens untersucht. Im Lhca4 konnten mit der Helix 2 und der stromalen Schleife zwei für eine Heterodimerisierung essentielle Domänen gefunden werden. Im Lhcb1 waren neben dem N-Terminus auch die 2. Helix und die stromale Schleifendomäne unentbehrlich für eine Trimerisierung. Zusätzlich waren Dimerisierung und Trimerisierung bei Austausch der luminalen Schleife beeinträchtigt. Ein geringer Beitrag zur Lhcb1-Trimerisierung konnte auch für den C-Terminus belegt werden. Ein zusätzliches Ziel der Arbeit sollte der Transfer der Oligomerisierungseigenschaften durch umfangreichen Domänentausch von einem auf ein anderes Protein sein. Der Transfer der Fähigkeit zur Dimerbildung durch Substitution gegen essentielle Lhca4-Domänen (50% luminale Schleife, 100% Helix 2 und 100% stromale Schleife) gelang beim Lhcb4, nicht aber beim Lhcb1. Der Transfer der Trimerisierungsfähigkeit auf Lhca4 und Lhcb4 scheiterte. Eine Lhca1-Mutante mit allen für eine Dimerisierung essentiellen Lhca4-Domänen, die durch Interaktion einzelner Moleküle untereinander multimere LHCs bilden sollte, war bereits in ihrer Monomerbildung beeinträchtigt. Eine Übertragung der Oligomerisierungsfähigkeit auf andere Proteine durch massiven Domänentransfer gestaltete sich somit schwierig, da vermutlich im mutierten Protein immer noch ursprüngliche Tertiärstrukturanteile enthalten waren, die nicht mit den transferierten Proteinbestandteilen kompatibel sind. Bei zukünftigen Experimenten zur Klärung der Transferierbarkeit der Oligomerisierungseigenschaft sollten deswegen neben dem unberücksichtigten 1. Teil der luminalen Schleife auch wenig konservierte Aminosäuren in der 1. und 3. Helix Beachtung finden. Ein weiteres Ziel dieser Arbeit war es, die LHCI-730-Dimerisierung im Detail zu untersuchen. Mutationsanalysen bestätigten den von früheren Untersuchungen bekannten Einfluss des Isoleucins 103 und Histidins 99. Letzteres geht möglicherweise durch sein gebundenes Chlorophyll eine Interaktion mit dem Lhca1 ein. Das Phenylalanin 95 stellte sich ebenfalls als ein wichtiger Interaktionspartner heraus und könnte in Wechselwirkung mit einem zwischen Lhca1 und Lhca4 lokalisierten Phosphatidylglycerin treten. Das ebenfalls an der Dimerbildung beteiligte Serin 88 des Lhca4 könnte auf Grund der räumlichen Nähe bei Modellierungen direkt mit dem am C-Terminus des Lhca1 lokalisierten Glycin 190 interagieren. Darüber hinaus wurde ein in der luminalen Lhca4-Schleife lokalisiertes Phenylalanin 84 als Interaktionspartner des Tryptophans 185 im C-Terminus von Lhca1 identifiziert. Der simultane Austausch des Isoleucins 109 und Lysins 110 in der stromalen Schleife des Lhca4, konnte deren Einfluss auf die Dimerisierung belegen. Nachdem bislang an der Dimerbildung beteiligte Aminosäuren am N- und C-Terminus des Lhca1 und Lhca4 identifiziert werden konnten, wurden in dieser Arbeit viele an einer Dimerbildung beteiligten Proteinbereiche und Aminosäuren in der Helix 2 und den Schleifenregionen des Lhca4 identifiziert. Um alle an der Lhca1-Lhca4-Interaktion beteiligten Aminosäuren aufzuklären, müssten durch Mutationsanalysen die in der stromalen Lhca4-Schleife vermuteten Interaktionspartner des für die Dimerisierung wichtigen Tryptophans 4 am N-Terminus von Lhca1 identifiziert, und die in der Helix 3 des Lhca1 vermuteten Interaktionspartner der Helix 2 des Lhca4 ermittelt werden.

An interferon regulatory factor element controls the major immune modulator of murine cytomegalovirus

Immune modulation by herpesviruses, such as cytomegalovirus, is critical for the establishment of acute and persistent infection confronting a vigorous antiviral immune response of the host. Therefore, the action of immune-modulatory proteins has long been the subject of research, with the final goal to identify new strategies for antiviral therapy.rnIn the case of murine cytomegalovirus (mCMV), the viral m152 protein has been identified to play a major role in targeting components of both the innate and the adaptive immune system in terms of infected host-cell recognition in the effector phase of the antiviral immune response. On the one hand, it inhibits cell surface expression of RAE-1 and thereby prevents ligation of the activating natural killer (NK)-cell receptor NKG2D. On the other hand, it decreases cell surface expression of peptide-loaded MHC class I molecules thereby preventing antigen presentation to CD8 T cells. Ultimately, the outcome of CMV infection is determined by the interplay between viral and cellular factors.rnIn this context, the work presented here has revealed a novel and intriguing connection between viral m152 and cellular interferon (IFN), a key cytokine of the immune system: rnthe m152 promoter region contains an interferon regulatory factor element (IRFE) perfectly matching the consensus sequence of cellular IRFEs.rnThe biological relevance of this regulatory element was first suggested by sequence comparisons revealing its evolutionary conservation among various established laboratory strains of mCMV and more recent low-passage wild-derived virus isolates. Moreover, search of the mCMV genome revealed only three IRFE sites in the complete sequence. Importantly, the functionality of the IRFE in the m152 promoter was confirmed with the use of a mutant virus, representing a functional deletion of the IRFE, and its corresponding revertant virus. In particular, m152 gene expression was found to be inhibited in an IRFE-dependent manner in infected cells. Essentially, this inhibition proved to have a severe impact on the immune-modulatory function of m152, first demonstrated by a restored direct antigen presentation on infected cells for CD8 T-cell activation. Even more importantly, this effect of IRFE-mediated IFN signaling was validated in vivo by showing that the protective antiviral capacity of adoptively-transferred, antigen-specific CD8 T cells is also significantly restored by the IRFE-dependent inhibition of m152. Somewhat curious and surprising, the decrease in m152 protein simultaneously prevented an enhanced activation of NK cells in acute-infected mice, apparently independent of the RAE-1/NKG2D ligand/receptor interaction but rather due to reduced ‘missing-self’ recognition.rnTaken together, this work presents a so far unknown mechanism of IFN signaling to control mCMV immune modulation in acute infection.rnrn

Identification of a highly conserved valine-glycine-phenylalanine amino acid triplet required for HIV-1 Nef function

Background The Nef protein of HIV facilitates virus replication and disease progression in infected patients. This role as pathogenesis factor depends on several genetically separable Nef functions that are mediated by interactions of highly conserved protein-protein interaction motifs with different host cell proteins. By studying the functionality of a series of nef alleles from clinical isolates, we identified a dysfunctional HIV group O Nef in which a highly conserved valine-glycine-phenylalanine (VGF) region, which links a preceding acidic cluster with the following proline-rich motif into an amphipathic surface was deleted. In this study, we aimed to study the functional importance of this VGF region. Results The dysfunctional HIV group O8 nef allele was restored to the consensus sequence, and mutants of canonical (NL4.3, NA-7, SF2) and non-canonical (B2 and C1422) HIV-1 group M nef alleles were generated in which the amino acids of the VGF region were changed into alanines (VGF→AAA) and tested for their capacity to interfere with surface receptor trafficking, signal transduction and enhancement of viral replication and infectivity. We found the VGF motif, and each individual amino acid of this motif, to be critical for downregulation of MHC-I and CXCR4. Moreover, Nef’s association with the cellular p21-activated kinase 2 (PAK2), the resulting deregulation of cofilin and inhibition of host cell actin remodeling, and targeting of Lck kinase to the trans-golgi-network (TGN) were affected as well. Of particular interest, VGF integrity was essential for Nef-mediated enhancement of HIV virion infectivity and HIV replication in peripheral blood lymphocytes. For targeting of Lck kinase to the TGN and viral infectivity, especially the phenylalanine of the triplet was essential. At the molecular level, the VGF motif was required for the physical interaction of the adjacent proline-rich motif with Hck. Conclusion Based on these findings, we propose that this highly conserved three amino acid VGF motif together with the acidic cluster and the proline-rich motif form a previously unrecognized amphipathic surface on Nef. This surface appears to be essential for the majority of Nef functions and thus represents a prime target for the pharmacological inhibition of Nef.

Allergen motifs and the prediction of allergenicity

We have recently shown that the majority of allergens can be represented by allergen motifs. This observation prompted us to experimentally investigate the synthesized peptides corresponding to the in silico motifs with regard to potential IgE binding and cross-reactions with allergens. Two motifs were selected as examples to conduct in vitro studies. From the first motif, derived from allergenic MnSOD sequences, the motif stretch of the allergen Asp f 6 was selected and synthesized as a peptide (MnSOD Mot). The corresponding full-length MnSOD was also expressed in Escherichia coli and both were compared for IgE reactivity with sera of patients reacting to the MnSOD of Aspergillus fumigatus or Malassezia sympodialis. For the second motif, the invertebrate tropomyosin sequences were aligned and a motif consensus sequence was expressed as a recombinant protein (Trop Mot). The IgE reactivity of Trop Mot was analyzed in ELISA and compared to that of recombinant tropomyosin from the shrimp Penaeus aztecus (rPen a 1) in ImmunoCAP. MnSOD Mot was weakly recognized by some of the tested sera, suggesting that the IgE binding epitopes of a multimeric globular protein such as MnSOD cannot be fully represented by a motif peptide. In contrast, the motif Trop Mot showed the same IgE reactivity as shrimp full-length tropomyosin, indicating that the major allergenic reactivity of a repetitive structure such as tropomyosin can be covered by a motif peptide. Our results suggest that the motif-generating algorithm may be used for identifying major IgE binding structures of coiled-coil proteins.