Análise de interação genética entre mutantes de eIF5A e de fatores de degradação de mRNA e busca de supressores extragênicos em S. cerevisae

O provável fator de início de tradução 5A (eIF5A) é altamente conservado de arqueas a mamíferos e sofre uma modificação pós-traducional única e essencial chamada hipusinação. Este fator já foi relacionado ao transporte nucleocitoplasmático, à degradação de mRNA e à proliferação celular. Dados recentes restabelecem uma função para eIF5A na tradução e sugerem a sua atuação na etapa de elongação ao invés de início, como originalmente proposto. Uma vez que o envolvimento de eIF5A com a degradação de mRNA ainda não foi elucidado, tornou-se interessante estudar qual a natureza desta relação. O metabolismo de mRNA é um processo complexo que envolve as etapas da tradução, repressão da tradução e degradação de mRNA. Na primeira parte deste trabalho, foi avaliada a existência de interação genética sintética entre os mutantes tif51A-1 e tif51A-3 e mutantes de fatores envolvidos com a repressão da tradução e/ou degradação de mRNA. Foi revelada uma supressão parcial do fenótipo de termossensibilidade com nocautes dos genes SBP1, DHH1 e PAT1, que codificam fatores ativadores da remoção do capacete de metilguanosina e repressores da tradução. Por outro lado, uma interação sintético doente (“synthetic sick”) entre os mutantes tif51A-1 e xrn1Δ foi observada.Os dados obtidos reforçam o envolvimento de eIF5A com a elongação da tradução, mostram que o efeito de eIF5A na degradação de mRNA é secundário e sugerem uma função para eIF5A como ativador da tradução. Na segunda etapa são apresentados os resultados do rastreamento de supressores extragênicos do mutante tif51A-1 através de deleções genômicas induzidas por transposon. Foram rastreados aproximadamente 2,2x105 transformantes... (Resumo completo, clicar acesso eletrônico abaixo)

Caracterização funcional da proteína XAC1201 envolvida na patogenicidade de Xanthomonas citri subsp. citri

Pós-graduação em Agronomia (Genética e Melhoramento de Plantas) - FCAV

Identification and characterization of ISXax2, a TN3-like transposable element potentially related with the virulence and pathogenicity of Xanthomonas citri subsp. citri

Pós-graduação em Agronomia (Genética e Melhoramento de Plantas) - FCAV

A Tale of transposition: tn3-like transposons play a major role in the spread of pathogenicity determinants of xanthomonas citri and other xanthomonads

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Transposition burst of mariner-like elements in the sequenced genome of Rhodnius prolixus

Transposable elements (TEs) are widespread in insect´s genomes. However, there are wide differences in the proportion of the total DNA content occupied by these repetitive sequences in different species. We have analyzed the TEs present in R. prolixus (vector of the Chagas disease) and showed that 3.0% of this genome is occupied by Class II TEs, belonging mainly to the Tc1-mariner superfamily (1.65%) and MITEs (1.84%). Interestingly, most of this genomic content is due to the expansion of two subfamilies belonging to: irritans himar, a well characterized subfamily of mariners, and prolixus1, one of the two novel subfamilies here described. The high amount of sequences in these subfamilies suggests that bursts of transposition occurred during the life cycle of this family. In an attempt to characterize these elements, we performed an in silico analysis of the sequences corresponding to the DDD/E domain of the transposase gene. We performed an evolutionary analysis including network and Bayesian coalescent-based methods in order to infer the dynamics of the amplification, as well as to estimate the time of the bursts identified in these subfamilies. Given our data, we hypothesized that the TE expansions occurred around the time of speciation of R. prolixus around 1.4 mya. This suggestion lays on the Transposon Model of TE evolution, in which the members of a TE population that are replicative active are present at multiple loci in the genome, but their replicative potential varies, and of the Life Cycle Model that states that when present-day TEs have been involved in amplification bursts, they share an ancestral copy that dates back to this initial amplification.

Transposable elements as a potential source for understanding the fish genome

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

Isolamento de sequências repetitivas do genoma de espécies do gênero Ancistrus (Siluriformes: Loricariidae)

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Diversification of hAT transposase paralogues in the sugarcane genome

Transposons are abundant components of eukaryotic genomes, and play important role in genome evolution. The knowledge about these elements should contribute to the understanding of their impact on the host genomes. The hAT transposon superfamily is one of the best characterized superfamilies in diverse organisms, nevertheless, a detailed study of these elements was never carried in sugarcane. To address this question we analyzed 32 cDNAs similar to that of hAT superfamily of transposons previously identified in the sugarcane transcriptome. Our results revealed that these hAT-like transposases cluster in one highly homogeneous and other more heterogeneous lineage. We present evidences that support the hypothesis that the highly homogeneous group is a domesticated transposase while the remainder of the lineages are composed of transposon units. The first is common to grasses, clusters significantly with domesticated transposases from Arabidopsis, rice and sorghum and is expressed in different tissues of two sugarcane cultivars analyzed. In contrast, the more heterogeneous group represents at least two transposon lineages. We recovered five genomic versions of one lineage, characterizing a novel transposon family with conserved DDE motif, named SChAT. These results indicate the presence of at least three distinct lineages of hAT-like transposase paralogues in sugarcane genome, including a novel transposon family described in Saccharum and a domesticated transposase. Taken together, these findings permit to follow the diversification of some hAT transposase paralogues in sugarcane, aggregating knowledge about the co-evolution of transposons and their host genomes.

Molecular characterization of a mariner-like element in the Atta sexdens rubropilosa genome

Mobile elements are widely present in eukaryotic genomes. They are repeated DNA segments that are able to move from one locus to another within the genome. They are divided into two main categories, depending on their mechanism of transposition, involving RNA (class I) or DNA (class II) molecules. The mariner-like elements are class II transposons. They encode their own transposase, which is necessary and sufficient for transposition in the absence of host factors. They are flanked by a short inverted terminal repeat and a TA dinucleotide target site, which is duplicated upon insertion. The transposase consists of two domains, an N-terminal inverted terminal repeat binding domain and a C-terminal catalytic domain. We identified a transposable element with molecular characteristics of a mariner-like element in Atta sexdens rubropilosa genome. Identification started from a PCR with degenerate primers and queen genomic DNA templates, with which it was possible to amplify a fragment with mariner transposable-element homology. Phylogenetic analysis demonstrated that this element belongs to the mauritiana subfamily of mariner-like elements and it was named Asmar1. We found that Asmar1 is homologous to a transposon described from another ant, Messor bouvieri. The predicted transposase sequence demonstrated that Asmar1 has a truncated transposase ORF. This study is part of a molecular characterization of mobile elements in the Atta spp genome. Our finding of mariner-like elements in all castes of this ant could be useful to help understand the dynamics of mariner-like element distribution in the Hymenoptera.

Patologia ed epidemiologia molecolare delle infezioni associate all'impianto

Staphylococcus aureus and Staphylococcus epidermidis are leading pathogens of implant-related infections. This study aimed at investigating the diverse distribution of different bacterial pathogen factors in most prevalent S. aureus and S. epidermidis strain types causing orthopaedic implant infections. In this study the presence both of the ica genes, encoding for biofilm exopolysaccharide production, and the insertion sequence IS256, a mobile element frequently associated to transposons, was investigated in relationship with the prevalence of antibiotic resistance among Staphylococcus epidermidis strains. The investigation was conducted on 70 clinical isolates derived from orthopaedic implant infections. Among the clinical isolates investigated a dramatic high level of association was found between the presence of ica genes as well as of IS256 and multiple resistance to all the antibiotics tested. Noteworthy, a striking full association between the presence of IS256 and resistance to gentamicin was found, being none of the IS256-negative strain resistant to this antibiotic. This association is probably because of the link of the corresponding aminoglycoside-resistance genes, and IS256, often co-existing within the same staphylococcal transposon. Moreover we investigated the prevalence of aac(6’)-Ie-aph(2’’), aph (3’) IIIa, and ant(4’) genes, encoding for the three forms of aminoglycoside-modifying enzymes (AME), responsible for resistance to aminoglycoside antibiotics. All isolates were characterized by automated ribotyping, so that the presence of antibiotic resistance determinants was investigated in strains exhibiting different ribopatterns. Interestingly, combinations of coexisting AME genes appeared to be typical of specific ribopatterns. 200 S. aureus isolates, categorized into ribogroups by automated ribotyping, i.e. rDNA restriction fragment length polymorphism analysis, were screened for the presence of a panel of adhesins genes, accessory gene regulatory (agr) polymorphisms and toxins. For many ribogroups, characteristic tandem genes arrangements could be identified. Surprisingly, the isolates of the most prevalent cluster, enlisting 27 isolates, were susceptible to almost all antibiotics and never possessed the lukD/lukE gene, thus suggesting the role of factors other than antibiotic resistance and the here investigated toxins in driving the major epidemic clone to the larger success. Afterwards, .in the predominant S. aureus cluster, the bbp gene encoding bone sialoprotein-binding protein appeared a typical virulence trait, found in 93% of the isolates. Conversely, the bbp gene was identified in just 10% of the remaining isolates of the collection. In this cluster, co-presence of bbp with the cna gene encoding collagen adhesin was a pattern consistently observed. These findings indicate a crucial role of both these adhesins, able to bind the most abundant bone proteins, in the pathogenesis of orthopaedic implant infections, there where biomaterials interface bone tissues. Moreover a PCR screening for the ebpS gene, conducted on over two hundred S. aureus clinical isolates from implant related infections revealed the detection of six strains exhibiting an altered amplicon size, shorter than expected. In order to elucidate the sequence changes present in these gene variants, the trait comprised between the primers was analyzed in all six isolates bearing the modification and in four isolates exhibiting the regular amplicon size. From nucleotide translation, the corresponding encoded protein was found to lack an entire peptide segment of 60 amino acids. These variants, missing an entire hydrophobic region, could actually facilitate current structural studies, helping to assess whether the absent domain is strictly necessary for a functional adhesin conformation and its contribution to the topology of the protein. This study suggests that epidemic clones appear to pursue different survival strategies, where adhesins, when present, exhibit diverse importance as virulence factors. A practical message arising from the present study is that strategies for the prevention and treatment of implant orthopaedic infections should target adhesins conjointly present in epidemic clones. Furthermore, the choice of reference strains for testing the anti-infective properties of biomaterials should focus on a selection of the most prevalent clones as they exhibit distinct profiles of adhesins.

Molecular and biological analysis on the horizontal transfer of insect transposons in Baculoviruses

Summary During the infection of Lepidoptera larvae with baculoviruses the horizontal escape of Tc1-like transposons, termed TCl4.7 and TCp3.2, from the genome of the host Cryptophlebia leucotreta and Cydia pomonella into the genome of Cydia pomonella granulovirus was observed. In this study we addressed the question whether the transposon harboring viruses had a replication advantage over the wild-type and became dominant in the virus population or whether the activity of the host transposable elements is stimulated by virus infection. Biological characterization studies demonstrated that the transposon containing viruses killed C. pomonella larvae slower than CpGV-M. In co-infection experiments of C. pomonella larvae using a mixture of CpGV-M and mutant viruses as inoculum, it was shown that the transposon carrying mutants had a significant selection disadvantage compared to CpGV-M. Transcription levels of the transposase gene of TCp3.2 were investigated in virus infected and uninfected larvae. These experiments demonstrated that a higher level of transposase transcription was detectable in CpGV-M infected than in mock infected control larvae. This observation gave strong evidence that CpGV-M infection might trigger the activity of transposon TCp3.2 within the genome of Cydia pomonella. Our results suggest that the horizontal transfer of insect host transposons into baculovirus genomes might be induced by virus infection.

Approcci molecolari e bioinformatici volti alla caratterizzazione di Vgt1, QTL coinvolto nella regolazione dell'epoca di fioritura in Zea Mays

The genetic control of flowering time has been addressed by many quantitative trait locus (QTL) studies. A survey of the results from 29 independent studies reporting information on 441 QTLs led to the production of a QTL consensus map, which enabled the identification of 59 chromosome regions distributed on all chromosomes and shown to be frequently involved in the genetic control of flowering time and related traits. One of the major QTLs for flowering time, the Vegetative to generative transition 1 (Vgt1) locus , corresponds to an upstream (70 kb) non-coding regulatory element of ZmRap2.7, a repressor of flowering. A transposon (MITE) insertion was identified as a major allelic difference within Vgt1. One of the hypotheses is that Vgt1 might function by modifying ZmRap2.7 chromatin through an epigenetic mechanism. Therefore, the methylation state at Vgt1 was investigated using an approach that combines digestion with McrBc, an endonuclease that acts upon methylated DNA, and quantitative PCR. The analyses were performed on genomic DNA from leaves of six different maize lines at four stages of development. The results showed a trend of reduction of methylation from the first to the last stage with the exception of a short genomic region flanking the MITE insertion, which showed a constant and very dense methylation throughout leaf development and for both alleles. Preliminary results from bisulfite sequencing of a small portion of Vgt1 revealed differential methylation of a single cytosine residue between the two alleles. ZmRap2.7 expression was assayed in the four developmental stages afore mentioned for the six genotypes, in order to establish a link between methylation at Vgt1 and ZmRap2.7 transcription. To assess the role of Vgt1 as a transcriptional enhancer, two reporter vectors for stable transformation of plants have been developed.

Regelmechanismen und Determinanten der Transkription in Polytänchromosomen von Chironomus und Drosophila

Die kumulative Habil.‐Schrift gründet sich auf 6 Originalpublikationen, die beschreiben: [Sass, H. (1982), Cell 28: 269‐278]. RNA polymerase B in polytene chromosomes: Immunofluorescent and autoradiographic analysis during stimulated and repressed RNA synthesis. Elektronenmikroskopie charakterisierte das C. tentans Balbianiring BR2‐Gen von Speicheldrüsenchromosomen als hoch aktives 5‐6 μm langes single‐copy Gen, das 33/μm RNAPolymerasen B (Pol II) transkribieren (Diss., Sass, H., 1978, Univ. Tübingen). Diese Immunfluoreszenzstudie ortet Pol II in allen Interbanden von Region IV‐3B10‐3B5 des nichtinduzierten BR2. Prominente Fluoreszenz im BR2‐Genort 3B9/10 zeigt, das BR2‐Gen ist präaktiv, wie erwartet. 3H‐Autoradiogramme beweisen, in allen fluoreszierenden BR2, BR1, BR3, Puffs, aufgelockerten Banden, Interbanden und Loci ohne Puffing, synthetisiert Pol II RNA. Die genomweite ständige Pol II‐Präsenz zeigt, dass, wie beim nichtinduzierten BR2‐Gen, bereits schon gebundene Pol II wohl auch andere Gene präaktiviert. So erfolgt die Regulation der Transkription mehr über die transkriptionelle Elongation. Auch durch α‐Amanitin, oder Actinomycin D, oder Hitzeschock in vivo kollabierte BR2, BR1, BR3 besitzen Pol II. [Sass, H. (1984), Chromosoma 90: 20‐25]. Gene identification in polytene chromosomes: some Balbiani ring 2 gene sequences are located in an interband‐like region of Chironomus tentans. Immunfluoreszenz und 3H‐Autoradiographie zeigen, dass Injektionen von DRB in Larven die Balbianiringe (BR) sowie andere Puffs und deren Pol II‐Konzentration dramatisch reduzieren. Trotzdem zeigen 3H‐Uridin markierte Speicheldrüsenchromosomen, dass RNA‐Synthese doch in nichtinduzierten BR2, BR1, BR3 erfolgt, aber nur auf reduziertem Level. Das widerspricht der von Egyházi E. (1975, PNAS 73:947‐950) propagierten „Inhibition of Balbiani ring RNA synthesis at the initiation level“ durch DRB. Vielmehr sieht es so aus, DRB wirkt bei der transkriptionellen Elongation inhibierend. Durch in situ‐Hybridisierung von Sequenzen klonierter BR2‐DNA wurde in Speicheldrüsenchromosom IV das BR2‐Gen in Region 3B9/10 direkt identifiziert. [Sass, H. and Pederson, T. (1984), J. Mol. Biol. 180: 911‐926]. Transcription‐dependent localization of U1 and U2 small nuclear ribonucleoproteins at major sites of gene activity in polytene chromosomes. Immunolokalisation von Sm‐, U1‐ und U2snRNP‐spezifischen Antigenen in Speicheldrüsenchromosomen von C. tentans hat zur Entdeckung der beim Spleißen von prä‐mRNA beteiligten U1/U2snRNPs in Balbianiringen BR2, BR1, BR3 sowie anderen Puffs und aufgelockerten Banden geführt. Die überraschenden BR‐Daten zeigen erstmals: (i) Der Spleiß‐Apparat ist in Genloci mit intensiver RNA‐Synthese schon vorhanden. (ii) Immunfluoreszenz reflektiert den Exon‐Intron‐Bau dieser BR‐Gene. (iii) Transkription und spleißosomales Ausschneiden von Introns sind koordiniert. [Sass, H. (1989), Nucleic Acids Research 17: 10508]. Hsp82‐neo transposition vectors to study insertional mutagenesis in Drosophila melanogaster and tissue culture cells; [Sass, H. (1990), Gene 89: 179‐186]. P‐transposable vectors expressing a constitutive and thermoinducible hsp82‐neo fusion gene for Drosophila germline transformation and tissue‐culture transfection. Beschrieben sind Design, Konstruktion und Expression der Genfusion hsp82‐neo als ein in vivo selektierbares Reporter‐/Markergen, die Transposons P{hsp82‐neo/Adh} sowie P{hsp82‐neo} und Transformations‐Vektoren pHS22, pHS24, pHS85, pHS103 und pHS104. Sie stellen das von der Fliege gebildete Enzym bakteriellen Ursprungs, Neomycin‐Phosphotransferase II, für die G418‐Selektion bereit, um die Position, Struktur, Expression und Funktion von Genen mittels hsp82‐neo‐Mutagenese zu erforschen. [Sass, H. and Meselson, M. (1991), Proc. Natl. Acad. Sci. USA 88: 6795‐6799]. Dosage compensation of the Drosophila pseudoobscura Hsp82 gene and the D. melanogaster Adh gene at ectopic sites in D. melanogaster. Quantitative Unterschiede in der Dosiskompensation des X‐chromosomalen hsp82‐Gens von D. pseudoobscura und autosomalen Adh‐Gens von D. melanogaster wurden als Erhöhung der RNAMenge in D. melanogaster gemessen. Beide Transgene sind dosiskompensiert, sprang P{hsp82‐ neo/Adh} in euchromatische Regionen des D. melanogaster X‐Chromosoms. Beide Transgene sind nicht dosiskompensiert, insertierte P{hsp82‐neo/Adh} ins β‐Heterochromatin in Region 20 an der Basis des X. Keine der zehn autosomalen Insertionen ist dosiskompensiert. Die Ergebnisse lassen vermuten, dass X‐chromosomale regulatorische Sequenzen, die für die Verstärkung der Genaktivität um Faktor 2 in Männchen verantwortlich sind, gehäuft im X vorkommen, jedoch im β‐ Heterochromatin und den Autosomen fehlen. Das Kompensationsverhalten der transponierten Gene wird durch das neue chromosomale Milieu des Insertionsortes bestimmt.

Study of the genes involved in Naphthenic acids (NAs) degradation by Rhodococcus spp.

Naphthenic acids (NAs) are an important group of organic pollutants mainly found in hydrocarbon deposits. Although these compounds are toxic, recalcitrant, and persistent in the environment, we are just learning the diversity of microbial communities involved in NAs- degradation and the mechanisms by which NAs are biodegraded. Studies have shown that naphthenic acids are susceptible to biodegradation, which decreases their concentration and reduces toxicity. Nevertheless, little is still known about their biodegradability. The present PhD Thesis’s work is aimed to study the biodegradation of simple model NAs using bacteria strains belonging to the Rhodococcus genus. In particular, Rh. sp. BCP1 and Rh. opacus R7 were able to utilize NAs such as cyclohexane carboxylic acid and cyclopentane carboxylic acid as the sole carbon and energy sources, even at concentrations up to 1000 mg/L. The presence of either substituents or longer carboxylic acid chains attached to the cyclohexane ring negatively affected the growth by pure bacterial cultures. Moreover, BCP1 and R7 cells incubated in the presence of CHCA or CPCA show a general increase of saturated and methyl-substituted fatty acids in their membrane, while the cis-mono-unsaturated ones decrease, as compared to glucose-grown cells. The observed lipid molecules modification during the growth in the presence of NAs is suggested as a possible mechanism to decrease the fluidity of the cell membrane to counteract NAs toxicity. In order to further evaluate this toxic effect on cell features, the morphological changes of BCP1 and R7 cells were also assessed through Transmission Electron Microscopy (TEM), revealing interesting ultrastructural changes. The induction of putative genes, and the construction of a random transposon mutagenesis library were also carried out to reveal the mechanisms by which these Rhodococcus strains can degrade toxic compounds such as NAs.

Molekulare Analyse des Kolumnar-Gens beim Apfel (Malus x domestica)

Das Kolumnarwachstum beim Apfel (Malus x domestica) geht auf eine in den frühen 1960er Jahren entdeckte Zufallsmutation zurück. Die daraus resultierende Sprossmutante ist von großem wirtschaftlichem Interesse, da diese sehr kompakte Wuchsform unter anderem zu einer enormen Ertragssteigerung durch eine hohe Pflanzdichte der Bäume führt. Das Ziel der Arbeit ist die Entschlüsselung der molekularen Ursache dieser Mutation, die bisher weitgehend ungeklärt ist. Die Analyse wurde durch die Erstellung einer Referenzsequenz der Co-Zielregion einer kolumnaren Apfelsorte sowie durch die Konstruktion eng gekoppelter molekularer Marker realisiert. Durch die Konstruktion von genomischen Apfel-BAC-Bibliotheken mit mehrfacher Genomabdeckung und die Erstellung geeigneter Sonden wurde die Co-Region kloniert und deren Sequenz bestimmt. In Kombination zu dieser klassischen positionellen Klonierungsstrategie wurden genomische Illumina „mate pair“-Bibliotheken erstellt, sequenziert und bioinformatisch analysiert, um die genomische Region vollständig zu annotieren. Somit wurde eine vollständige genomische Referenz der Co-Region einer kolumnaren Apfelsorte erstellt, die die Grundlage für weitere Analysen bildet. Auf Basis dieser Referenz konnte die Co-Mutation in Form der Integration des LTR-Retrotransposons Gypsy-44 im kolumnaren Chromosom an Position 18,79 Mbp auf Chromosom 10 lokalisiert werden. Darüber hinaus konnten Transposon-basierende molekulare Marker erstellt werden, die eine verlässliche Genotypisierung von Apfelbäumen in Bezug auf das Kolumnarwachstum ermöglichen und dies unabhängig von der verwendeten Apfelsorte. Der genaue Wirkmechanismus von Gypsy-44, der zur Ausprägung dieses extremen Phänotyps führt, ist bislang unklar. Zusammenfassend lässt sich sagen, dass die molekulare Ursache für das kolumnare Wachstum aufgeklärt werden konnte und zudem die ersten molekularen Marker erstellt wurden, die eine sortenunabhängige Differenzierung zwischen kolumnaren und nicht kolumnaren Apfelbäumen ermöglichen.