Etude de la régulation du métabolisme des ARN messagers chez la levure Saccharomyces cerevisiae / Study of the regulation of messenger RNA metabolism in the yeast Saccharomyces cerevisiae

Bretes Rodrigues, Hugo

25 September 2012

Au cours de la transcription, plusieurs facteurs sont assemblés sur les ARN messagers pour former des Ribonucléoparticules de messagers (mRNPs), et contrôler leur maturation, leur stabilité et leur devenir dans le cytoplasme. Afin d’assurer la production de protéines fonctionnelles, la cellule dispose de plusieurs mécanismes de régulation et de contrôle de qualité assurant la fidélité de l’information génétique transmise au niveau ARN messager et protéine.Chez la levure Saccharomyces cerevisiae, un ensemble de protéines associées au pore nucléaire, incluant la SUMO protéase Ulp1, a été impliqué dans un contrôle de qualité des mRNPs régulant leur export vers le cytoplasme. Ces données suggéraient que l’export des ARN messagers pourrait être contrôlé par la modification post-traductionnelle par le polypeptide SUMO d’un ou de plusieurs effecteurs au sein des mRNPs. Afin de mieux comprendre ces processus, nous avons combiné plusieurs approches visant à identifier ces protéines SUMOylées. En particulier, nous avons mis en place un crible protéomique visant à identifier les protéines dont l’association sur les mRNPs dépend d’Ulp1. Ce crible nous a permis de mettre en évidence une régulation par Ulp1 de l’assemblage du complexe THO sur les ARN messagers. Ce complexe, recruté sur les gènes et les mRNPs, est connu pour contribuer à l’efficacité de la transcription, prévenir l’instabilité génétique liée à la formation d’hybrides ADN matrice – ARN messager (dénommés R-loops) et permettre l’export des mRNPs. En combinant l’analyse biochimique de différentes catégories de mRNPs à des expériences d’immunoprécipitation de l’ARN, nous avons montré que l’activité de la SUMO-protéase Ulp1 est nécessaire à l’association du complexe THO sur différents ARN messagers. De plus, nous avons montré que le complexe THO est SUMOylé sur le domaine C-terminal de sa sous-unité Hpr1, et que Ulp1 régule cette modification. Enfin, cet événement de SUMOylation du complexe THO régule son association avec les mRNPs. L’analyse fonctionnelle de mutants affectant la SUMOylation du complexe THO révèle que des défauts de SUMOylation de ce complexe compromettent ses fonctions dans la transcription sans affecter l’export. De manière intéressante, nous avons observé que la présence d’un intron sur des rapporteurs LacZ diminue la sensibilité de leur expression à des inactivations ou des défauts de SUMOylation du complexe THO. Ce phénotype entraine une augmentation relative des niveaux d’ARN pré-messagers dans ces mutants, un phénomène rendant compte de la fuite cytoplasmique apparente d’ARN non épissés précédemment observée dans le mutant ulp1. L’ensemble de ces données caractérise pour la première fois un rôle de la SUMOylation dans le contrôle de l’assemblage et du devenir cellulaire des mRNPs. / During transcription, several factors associate with mRNA to form messenger Ribonucleoparticles (mRNPs), thereby controlling their processing, their stability, and their cytoplasmic fate. To ensure the production of functional proteins from these mRNAs, eukaryotic cells contain numerous regulatory and quality control systems in order to prevent aberrant mRNP accumulation and export.In the yeast Saccharomyces cerevisiae, several nuclear pore associated proteins, including the SUMO isopeptidase Ulp1, have been involved in a mRNP quality control regulating their nuclear export. These data suggested that post-translational modification by SUMO of one or several mRNP components could regulate mRNA export. In order to understand the molecular mechanisms underlying this process, we undertook several approaches to identify these SUMOylated factors. In particular, we have set up a proteomic screen to identify mRNP components whose assembly onto mRNPs depends on Ulp1 activity.This proteomic survey revealed an Ulp1-dependent regulation of THO complex assembly to mRNPs. This complex, recruited to transcribed genes and mRNPs, is known to regulate transcription elongation by preventing DNA-RNA hybrids formation (termed R-loops), and mRNP export. Through a combination of proteomic analysis of mRNPs assembled in Ulp1 mutant cells, with RNA / chromatin immunoprecipitation experiments, we demonstrate that Ulp1 controls specifically the recruitment of the THO complex within mRNPs. SUMOylation analysis further reveals that Ulp1 targets the THO complex subunit Hpr1 on its C-terminal domain for deSUMOylation. We further show that this SUMOylation event regulates THO complex association within mRNPs. Finally, functional analysis reveal that impaired deSUMOylation of the THO complex do not affect mRNP export, but disturbs expression of LacZ reporter genes, a phenotype classically associated with THO complex dysfunction. Intriguingly, the transcriptional effect of inactivation or impaired deSUMOylation of the THO complex on LacZ expression is alleviated by the presence of an intron, providing a molecular basis for previously reported pre-mRNA leakage phenotypes. Our data therefore unravels for the first time a function of SUMO in the control of mRNP assembly contributing to proper mRNP homeostasis.

SUMOylation

SUMO

Contrôle de qualité des mRNPs

Assemblage des mRNPs

Expression génique

Complexe THO

Ulp1

Hpr1

Yra1

Pml39

Intron

Pores nucléaires

SUMOylation

SUMO

MRNP quality control

MRNP assembly

Gene expression

THO complex

Ulp1

Hpr1

Yra1

Pml39

Intron

Nuclear pore complexes

Analysis of targets and functions of the chloroplast intron maturase MatK

Qu, Yujiao

30 June 2015

In Chloroplasten durchlaufen primäre Transkripte eine großen Anzahl von bzw. Reifungsprozesse. Diese Ereignisse spielen eine wichtige Rolle bei der Regulation der Genexpression und sind im Wesentlichen durch Proteinfaktoren, insbesondere RNA-Bindeproteine, reguliert. Der plastidäre Spleißfaktor MatK zählt zu den prokaryotischen Gruppe-II-Intron. MatK aus Nicotiana tabacum interagiert mit seinem Heimatintron trnK und sechs weiteren Gruppe IIA Introns. In dieser Untersuchung, MatK-Bindestellen konnten unterschiedlichen Regionen der Gruppe-II-Introns zugewiesen werden mit RIP-seq in Nicotiana tabacum. Die vorliegenden Ergebnisse zeigen, dass MatK im Vergleich zu seinen bakteriellen Vorfahren an Vielseitigkeit in der RNA-Erkennung gewonnen hat. MatK zeigt somit beispielhaft, wie eine Maturase die Fähigkeit erworben haben könnte, in trans auf mehrere Introns zu wirken. Quantitative Untersuchung und mathematische Modellierung der Expression von MatK und dessen Zielen offenbart ein komplexes Muster möglicher regulatorischer Feedback-Mechanismen. In dieser Studie konnte ein möglicher Feedback- Mechanismus durch Analyse von polysomal gebundenen Transkripten ausgeschlossen werden. Stabile Bindung von Proteinen an spezifische RNA-Bindestellen und anschließender Abbau der ungeschützten RNA kann zu Akkumulation von kleinen RNAs (sRNAs) führen. Solche Footprints von RNA-Bindeproteinen wurden durch die Untersuchung von Datensätzen kleiner RNAs in Chlamydomonas reinhardtii identifiziert. Zwei der sRNAs entsprechen den 5'' Enden der reifen psbB und psbH mRNAs. Beide sRNAs sind abhängig von Mbb1, einem TPR (Tetratrico-peptide repeat) Protein. Die beiden sRNAs besitzen eine hohe Ähnlichkeit in ihrer Primärsequenz und fehlen in der mbb1 Mutante. Dies legt nahe, dass auch andere der hier identifizierten sRNAs an 5'' Enden plastidärer mRNAs Protein-Bindestellen repräsentieren, die für die korrekte RNA-Prozessierung und RNA-Stabilisierung in Chlamydomonas Chloroplasten erforderlich sind. / In chloroplasts, primary transcripts are subjected to a number of processing events. These events play important roles in the regulation of gene expression and are extensively controlled by protein factors, especially by RNA-binding proteins. Chloroplast splicing factor MatK is related to prokaryotic group II intron maturases. Nicotiana tabacum MatK interacts with its home intron trnK and six additional group IIA introns. In this study, binding sites of MatK were narrowed down to varying regions of its group II targets by RIP-seq in Nicotiana tabacum. The results obtained demonstrate that MatK has gained versatility in RNA recognition relative to its bacterial ancestors. MatK thus exemplifies how a maturase could have gained the ability to act in trans on multiple introns during the dispersion of the group II introns through the eukaryotic genome early in the eukaryote evolution. Quantitative investigation and mathematical modeling of the expression of MatK and its targets revealed a complex pattern of possible feedback regulatory interactions. In this study, one possible feedback regulation mechanism was ruled out by the analysis of polysome associated transcripts. Stable binding of proteins to specific RNA sites and subsequent degradation of the unprotected RNA regions can result in small RNA, footprint of the RNA binding protein. Such footprints were identified by examining small RNA datasets of Chlamydomonas reinhardtii. Two of the sRNAs correspond to the 5’ ends of mature psbB and psbH mRNAs. Both sRNAs are dependent on Mbb1, a nuclear-encoded TPR (Tetratrico-peptide repeat) protein. The two sRNAs have high similarity in primary sequence, and both are absent in the mbb1 mutant. This suggests that sRNAs at the 5’ ends of chloroplast mRNAs identified here generally represent the binding sites of proteins, which function in RNA processing and RNA stabilization in Chlamydomonas chloroplast.

kleine RNA

Chloroplasten

Gruppe II Intron Maturase

RNA-bindende Protein

Chloroplast

small RNA

Group II intron maturase

RNA binding protein

570 Biowissenschaften, Biologie

32 Biologie

WG 2300

ddc:570

Histonmodifieringar och alternativ splicing / Histone modifications and alternative splicing

Berggren, Jenny

January 2011

Alternativ splicing av pre-mRNA ger upphov till proteindiversitet. Histonmodifieringar kopplas till den alternativa splicingens reglering genom adaptorsystem som overfor den epigenetiska informationen direkt till splicingfaktorerna. De cis- agerande RNA- elementen pa exoner och introner med tillhorande trans- reglerande splicingfaktorer paverkas darfor direkt av specifika histonmodifieringar. En sammankopplande integrerad modell over en rad DNA- baserade processer foreslas. Denna komplexa modell ger en bild av interaktioner och paverkan mellan dessa delar. Kromatin remodellering kravs for bildandet av eukromatin. Nukleosomers placering vid exonrika regioner med specifika modifieringsmonster pekar ut exonerna samt mojliggor inbindning av RNA polymeras II som med sin CTD doman rekryterar bade splicing- och modifieringsfaktorer. Transkriptionshastigheten paverkas av nukleosomplaceringen vilket i sin tur paverkar rekrytering av spliceosomens komponenter, andra trans- agerande regulatorer och aven pre-mRNA sekvensens sekundarstruktur. Kromatin- adaptorkomplex laser av specifika histonmodifieringar och overfor informationen till splicingapparaten. Detta skapar mojlighet till den viktiga cell- och vavnadsspecifika alternativa splicingens reglering. I den integrerade modellen blir komplexiteten tydligare dar alla dessa processer interagerar med varandra och de cis- regulatoriska sekvenserna pa premRNA transkriptet. / Alternative splicing of pre-mRNA generates protein diversity. Histone modifications are connected to the regulation of alternative splicing through adaptor systems that transfers the epigenetic information directly to the splicing factors. The cis- acting RNA elements on the exons and introns together with the trans- regulating splicing factors are therefore directly affected of specific histone modifications. An integrated model over several DNA process mechanisms is suggested. This complex model explains the interactions of the different parts and how they affect each other. Chromatin remodelers are required to obtain euchromatin. Nucleosome positioning at exon rich regions with a specific modification pattern point out where the exons are, and this enable the RNA polymerase II to find and bind to the DNA. It’s CTD domain recruits both splicing- and modifications factors. The transcription rate is also affected of the nucleosome positioning and that in turn affects the recruitment of the components of the spliceosomen, other trans- acting regulators and even the formation of the secondary structure of the pre-mRNA transcript. Chromatin- adaptor complex reads specific histone modifications and transfers this information to the splicing apparatus. All this creates the possibility to regulate important cell- and tissue specific alternative splicing patterns. The integrated model makes the complex processes more clearer when all these integrates with each other and the cis- acting regulating elements on the pre-mRNA transcript.

Alternative splicing

Histone modifications

exon

intron

pre-mRNA splicing

splicing regulation

chromatin- adaptor system

integrated model

Alternativ splicing

Histonmodifieringar

exon

intron

pre-mRNA splicing

splicing regulering

kromatin- adaptor system

integrerad modell

Biology

Biologi

Molecular evidence for the antiquity of group I introns inter-rupting transfer RNA genes in cyanobacteria / Molecular Bestätigung des hohes Alters von introns in Cyanobakterien

Fewer, David

31 January 2002

No description available.

32 Biologie

WU

WV

Mathematics and Natural Science

group I intron

tRNA Gene

evolutionär alt

Chloroplasten

Cyanobakterie

Bakterien

Chroococcidiopsis

Schwester-Gruppen.

group I intron

tRNA genes

ancient

chloroplast

cyanobacteria

bacteria

Chroococcidiopsis

sister taxa

42.21

42.13

42.30

42.50

Explorando a complexidade do transcriptoma humano / Exploring the Complexity of Human Transcriptome

Kroll, José Eduardo

12 December 2013

O splicing alternativo é um processo no qual moléculas idênticas de pré-mRNA são processadas de diferentes formas. Ele é fundamental em organismos complexos, pois é responsável por criar uma ampla diversidade de proteínas a partir de um número relativamente pequeno de genes. Contudo, poucas proteínas advindas do splicing alternativo já foram identificadas, visto que a maioria dos espectros de espectrometria de massa em tandem (MS/MS) não encontra sequências correspondentes nos diversos bancos de dados de proteínas disponíveis. Entre diversos fatores, isso ocorre porque um número reduzido de eventos de splicing alternativo (ASEs) são conhecidos e devidamente estudados. Nesse trabalho, o espectro de eventos observáveis foi ampliado por meio da análise de eventos complexos de splicing alternativo (CASEs), que consideram múltiplos ASEs em um ou diferentes transcritos. Foi desenvolvido um novo método de análise utilizando expressões regulares (regexes) associada a uma sintaxe baseada em caracteres intuitivos. O método de análise e a sintaxe foram implementados em uma ferramenta web denominada de SPLOOCE (http://www.bioinformatics-brazil.org/splooce) que também apresenta ferramentas extras de análise. Adicionalmente, os subestimados eventos do tipo retenção de íntron (IR) foram explorados em busca de evidências funcionais por meio de análises de MS/MS. Como resultado, eventos bastante incomuns foram observados no proteoma humano, sugerindo que muito pouco ainda é conhecido sobre a complexidade transcriptômica e proteômica humana. Portanto, com base nesses dados, esse trabalho representa um grande avanço no estudo de fenômenos de splicing alternativo ainda pouco explorados. / Alternative splicing is defined, basically, as a process in which identical pre-mRNA molecules are processed in different ways in terms of usage of exon/introns borders. It is a fundamental process in complex organisms, and is responsible for creating a large diversity of proteins from a relatively small number of genes. However, just a few proteins resulted from alternative splicing were already identified, since only a small part of \\emph mass spectrometry (MS/MS) spetras match proteins in sequence databases. Among different factors, it occurs because a reduced number of alternative splicing events (ASEs) are known and properly studied. In this work, the landscape of observable events was amplified through the analysis of complex alternative splicing events (CASEs), which consider different ASEs within the same or different transcripts. A method of analysis was developed using regular expressions (regexes) associated with a syntax composed of intuitive characters. Those features were implemented in a web tool called SPLOOCE (http://www.bioinformatics-brazil.org/splooce) that also has extra analysis tools.Furthermore, the understudied events known as intron retention (IR) were explored using MS/MS analyses as a strategy to identify functional roles. As result, very uncommon events were observed in human proteome, suggesting that little is currently known about the complexity of the human proteome and transcriptome. Based on those data, it can be concluded that this work represents a significant advance in the study of uncommon and understudied alternative splicing events.

alternative splicing

espectrometria de massa

intron retention

mass spectrometry

proteoma

proteome

retenção de íntron

splicing alternativo

SPLOOCE

SPLOOCE

transcriptoma

transcriptome

Molecular epidemiology of streptococcus agalactiae : mobile elements as genetic markers.

Luan, Shi-Lu

January 2006

<p>Streptococcus agalactiae, also designated group B streptococcus (GBS), is a Gram-positive coccus, and it is an important pathogen that causes invasive disease in neonates, pregnant adults, and non-pregnant adults with predisposing conditions. The group II intron GBSi1 is one of the major mobile genetic elements identified in S. agalactiae. The aim of this thesis was to characterize the GBSi1 distribution pattern, the population structure, and the influence of serotype- and clone-specific properties on the invasive capacity among clinical invasive and non-invasive isolates of S. agalactiae.</p><p>Two additional copies of GBSi1 were identified at sites different from the primarily identified scpB-lmb locus. The distribution of GBSi1 was uneven among different serotypes. Three intron copies were only found in isolates of serotype III, and these targeted all the three identified gene loci. In contrast, a single copy of GBSi1 was found in isolates of serotype II and V and only located at the scpB-lmb locus. Furthermore, at the 5′ flanking region of the scpB-lmb gene locus, a novel 2.1 kb DNA fragment with plasmid features was identified only in intron carrying isolates. This may suggest that GBSi1 once was brought into the S. agalactiae genome by an integrated plasmid.</p><p>Multilocus sequence typing was used to characterize totally 314 invasive and non-invasive S. agalactiae isolates collected in Northern and Western Sweden from the years 1988 to 2004. Five major genetic lineages (clonal complexes) were identified among both invasive and non-invasive isolates, including serotype Ia, Ib, and II to V, indicating a clonal population structure of S. agalactiae isolates. A number of genetically highly related isolates were found to express different capsular types, suggesting that capsule switching occurs rather frequently between isolates. Furthermore, non-invasive isolates belonging to the same clonal complexes displayed more heterogeneity in capsule expression as well as in the distribution patterns of mobile genetic elements than invasive isolates. This indicates that less variability is allowed in a highly selective environment such as the blood. All major clonal complexes and serotypes caused invasive disease, although their ability to do so varied greatly. CC17 was significantly associated with neonatal invasive disease; whereas CC19 was equally common among isolates from adult and neonatal disease, despite that both CC17 and CC19 expressed capsular type III. This striking difference seen between CC17 and CC19 suggests that clonal complex associated properties, in addition to capsular type, play important roles in the virulence of S. agalactiae. CC1, a new emerging clone since early 1990s, has caused substantial amount of disease among adults. In addition, mutually exclusive distribution of mobile elements GBSi1 and IS1548 was seen, and they were shown to constitute genetic markers for serotype III CC17 and CC19 isolates, respectively.</p>

Streptococcus agalactiae

group II intron (GBSi1)

multilocus sequence typing

capsular serotype

population structure

Clinical bacteriology

Klinisk bakteriologi

Molecular epidemiology of streptococcus agalactiae : mobile elements as genetic markers.

Luan, Shi-Lu

January 2006

Streptococcus agalactiae, also designated group B streptococcus (GBS), is a Gram-positive coccus, and it is an important pathogen that causes invasive disease in neonates, pregnant adults, and non-pregnant adults with predisposing conditions. The group II intron GBSi1 is one of the major mobile genetic elements identified in S. agalactiae. The aim of this thesis was to characterize the GBSi1 distribution pattern, the population structure, and the influence of serotype- and clone-specific properties on the invasive capacity among clinical invasive and non-invasive isolates of S. agalactiae. Two additional copies of GBSi1 were identified at sites different from the primarily identified scpB-lmb locus. The distribution of GBSi1 was uneven among different serotypes. Three intron copies were only found in isolates of serotype III, and these targeted all the three identified gene loci. In contrast, a single copy of GBSi1 was found in isolates of serotype II and V and only located at the scpB-lmb locus. Furthermore, at the 5′ flanking region of the scpB-lmb gene locus, a novel 2.1 kb DNA fragment with plasmid features was identified only in intron carrying isolates. This may suggest that GBSi1 once was brought into the S. agalactiae genome by an integrated plasmid. Multilocus sequence typing was used to characterize totally 314 invasive and non-invasive S. agalactiae isolates collected in Northern and Western Sweden from the years 1988 to 2004. Five major genetic lineages (clonal complexes) were identified among both invasive and non-invasive isolates, including serotype Ia, Ib, and II to V, indicating a clonal population structure of S. agalactiae isolates. A number of genetically highly related isolates were found to express different capsular types, suggesting that capsule switching occurs rather frequently between isolates. Furthermore, non-invasive isolates belonging to the same clonal complexes displayed more heterogeneity in capsule expression as well as in the distribution patterns of mobile genetic elements than invasive isolates. This indicates that less variability is allowed in a highly selective environment such as the blood. All major clonal complexes and serotypes caused invasive disease, although their ability to do so varied greatly. CC17 was significantly associated with neonatal invasive disease; whereas CC19 was equally common among isolates from adult and neonatal disease, despite that both CC17 and CC19 expressed capsular type III. This striking difference seen between CC17 and CC19 suggests that clonal complex associated properties, in addition to capsular type, play important roles in the virulence of S. agalactiae. CC1, a new emerging clone since early 1990s, has caused substantial amount of disease among adults. In addition, mutually exclusive distribution of mobile elements GBSi1 and IS1548 was seen, and they were shown to constitute genetic markers for serotype III CC17 and CC19 isolates, respectively.

Streptococcus agalactiae

group II intron (GBSi1)

multilocus sequence typing

capsular serotype

population structure

Clinical bacteriology

Klinisk bakteriologi

The Impact of Abiotic Stress on Alternative Splicing in Lipid Transfer Protein in Marchantia polymorpha

Fredén, Linnéa

January 2018

All plants have a protection against the surrounding environment called a cuticle coating. When this cuticle coating is constructed it is believed that the family of protein called lipid transfer proteins (LTPs) is involved. The LTPs are small and cysteine rich. In Marchantia polymorpha the groups of LTPs called LTPd and LTPg can be found. 8 and 4 in each group respectively. In the genes of LTPd there is an intron placed downstream of the start codon. Firstly, a sequence database search was performed and LTPd2 and LTPd3 were chosen for further experiments in this study. Secondly, a control that the intron was present in the samples were done by preforming a PCR reaction of cDNA from isolated RNA taken from untreated Marchantia polymorpha. A gel electrophoresis of the product was also performed. Lastly, the amount of alternative splicing in LTPd2 and LTPd3 from Marchantia polymorpha after treated with cold and dehydration were studied using quantitative PCR. For the qPCR MpACT and the exon of respective gene were used as references. The ΔCt values and the expression fold (2ΔΔCt) calculated from the qPCR results showed that most of the transcript with introns preserved were upregulated after subjected to stress. Only the intron in MpLTPd2 and MpLTPd3 with MpACT as reference showed a small downregulation after the cold treatment. The intron in MpLTPd3 with MpLTPd3s exon as reference didn’t show any difference. None of the intron transcript in any of the genes on the other hand showed any significant difference in the alternative splicing. This could be because of small sample groups when the test was performed. In conclusion, there were no significant difference in intron expression between treated and control samples. Therefore, nothing can be said about the change in alternative splicing in MpLTPds after cold and dehydration treatments.

Abiotic stress

Marchantia polymorpha

alternative splicing

intron

non-specific lipid transfer proteins

drought

cold

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Identification et caractérisation des orthologues du transporteur ABC humain ABBCC10 chez Catharanthus roseus et Arabidopsis thaliana / Identification and characterization of orthologs of human transporter ABCC10 in Catharanthus roseus and Arabidopsis thaliana

Ziri, Taissir

15 February 2014

Les transporteurs ABC sont les membres d'une superfamille de protéines qui utilisent l'hydrolyse de l'ATP pour déplacer une large gamme de substrats au travers des membranes biologiques. Les membres de la sous famille ABCC sont généralement caractérisés par un domaine transmembranaire supplémentaire en région N-terminal (TMD0). Dans cette étude, nous avons analysé deux gènes ABCC de plantes : CrABCC1 de Catharanthus roseus et AtABCC13 son orthologue chez Arabidopsis thaliana. L'analyse phylogénétique répartit les ABCC de plantes dans 3 clades distinctes. Les clades I et II sont spécifiques aux plantes tandis que le clade III est le seul associant des ABCC humains et de plantes. Le criblage de la base de données a permis d'identifier 16 séquences ABCC chez Catharanthus roseus parmi lesquelles 2 appartiennent à CrABCC. / ABC transporters are members of a large superfamily of proteins that utilize ATP hydrolysis to translocate a wide range of substrate across biological membranes. Members of C. subfamily (ABCC) are generally structurally characterized by an additional (N-Terminal) transmembrane domain (TMD0). In this study the analysed two plant ABCC : CrABCC1 from Catharanthus roseus and AtABCC13, it's ortholog in Arabidopsis thaliana. Phylogenetic analysis of plant ABCCs separates their protein sequences over three distinct clusters : I and II are plant specific whereas cluster III is the only gathering humain and plant ABCCs. Screening of plant database allowed us to identify 16 different ABCCs sequences in Catharanthus roseus.

Transporteurs ABCC

Sous famille ABCC

CrABCC1 de Catharanthus roseus

AtABCC13 d'Arabidopsis thaliana

Intron U12 de type AT-AC

Analyse histochimique

Explorando a complexidade do transcriptoma humano / Exploring the Complexity of Human Transcriptome

José Eduardo Kroll

12 December 2013

O splicing alternativo é um processo no qual moléculas idênticas de pré-mRNA são processadas de diferentes formas. Ele é fundamental em organismos complexos, pois é responsável por criar uma ampla diversidade de proteínas a partir de um número relativamente pequeno de genes. Contudo, poucas proteínas advindas do splicing alternativo já foram identificadas, visto que a maioria dos espectros de espectrometria de massa em tandem (MS/MS) não encontra sequências correspondentes nos diversos bancos de dados de proteínas disponíveis. Entre diversos fatores, isso ocorre porque um número reduzido de eventos de splicing alternativo (ASEs) são conhecidos e devidamente estudados. Nesse trabalho, o espectro de eventos observáveis foi ampliado por meio da análise de eventos complexos de splicing alternativo (CASEs), que consideram múltiplos ASEs em um ou diferentes transcritos. Foi desenvolvido um novo método de análise utilizando expressões regulares (regexes) associada a uma sintaxe baseada em caracteres intuitivos. O método de análise e a sintaxe foram implementados em uma ferramenta web denominada de SPLOOCE (http://www.bioinformatics-brazil.org/splooce) que também apresenta ferramentas extras de análise. Adicionalmente, os subestimados eventos do tipo retenção de íntron (IR) foram explorados em busca de evidências funcionais por meio de análises de MS/MS. Como resultado, eventos bastante incomuns foram observados no proteoma humano, sugerindo que muito pouco ainda é conhecido sobre a complexidade transcriptômica e proteômica humana. Portanto, com base nesses dados, esse trabalho representa um grande avanço no estudo de fenômenos de splicing alternativo ainda pouco explorados. / Alternative splicing is defined, basically, as a process in which identical pre-mRNA molecules are processed in different ways in terms of usage of exon/introns borders. It is a fundamental process in complex organisms, and is responsible for creating a large diversity of proteins from a relatively small number of genes. However, just a few proteins resulted from alternative splicing were already identified, since only a small part of \\emph mass spectrometry (MS/MS) spetras match proteins in sequence databases. Among different factors, it occurs because a reduced number of alternative splicing events (ASEs) are known and properly studied. In this work, the landscape of observable events was amplified through the analysis of complex alternative splicing events (CASEs), which consider different ASEs within the same or different transcripts. A method of analysis was developed using regular expressions (regexes) associated with a syntax composed of intuitive characters. Those features were implemented in a web tool called SPLOOCE (http://www.bioinformatics-brazil.org/splooce) that also has extra analysis tools.Furthermore, the understudied events known as intron retention (IR) were explored using MS/MS analyses as a strategy to identify functional roles. As result, very uncommon events were observed in human proteome, suggesting that little is currently known about the complexity of the human proteome and transcriptome. Based on those data, it can be concluded that this work represents a significant advance in the study of uncommon and understudied alternative splicing events.

espectrometria de massa

proteoma

retenção de íntron

splicing alternativo

SPLOOCE

transcriptoma

alternative splicing

intron retention

mass spectrometry

proteome

SPLOOCE

transcriptome