Alternativ splicing: en process som medför att flera olika mRNA-transkript bildas från individuella gener / Alternative splicing: a process that leads to the formation of several different mRNA-transcripts from individual genes

Savas, Isabella

January 2010

This review article presents the splicing process during messenger RNA maturation and how it is regulated by different Cis-regulatory RNA-sequence elements and splicing factors. A more detailed description of the process alternative splicing and its importance to the function of genes from the model organism Arabidopsis thaliana is also given. A single eukaryotic gene can by the process alternative splicing (AS) give rise to a number of functionally mature mRNA-molecules, which in turn encodes for structurally and/or functionally different proteins. During the course of evolution, the process alternative splicing has thus shown to be effective in increasing transcriptome and proteome diversity of most eukaryotic organisms. This suggests therefore that the dominant theory in molecular biology, a gene encodes for a protein, needs to be corrected. A future challenge is to determine the function of the proteins obtained from a given gene by alternative splicing.

Alternative splicing

Arabidopsis

mRNA

proteome

RNA-splicing

transcriptome.

NATURAL SCIENCES

NATURVETENSKAP

Genetic mapping of nuclear suppressors of splicing-deficient chloroplast introns, and a novel rhodanese-domain protein required for chloroplast translation in Chlamydomonas

Luo, Liming, 1967-

27 January 2011

Although many group I (GI) introns can self-splice in vitro, their splicing is promoted by proteins in vivo. Only a few splicing factors that specifically promote GI intron splicing have been identified, however, none are from chloroplasts, which is the subject of this study. In previous work from our lab, a strategy was developed to identify splicing factors for chloroplast GI introns of Chlamydomonas by using suppressor genetics. A mutant with reduced splicing of the chloroplast 23S rRNA intron (Cr.LSU) was generated. Then, 3 nuclear suppressors (7120, 71N1 and 7151) with substantially restored splicing of Cr.LSU were isolated and partially characterized. However, the suppressor gene(s) were not identified. In this study, I have used genetic mapping to make a renewed attempt to isolate these genes. Using polymorphisms between the 137C strain that was used for suppressor isolation, and a new strain of C.reinhardtii (S1D2), the nuclear suppressor mutations in 7120 and 71N1 were mapped to a region on chromosome III that is essentially devoid of recombination. Based on the recombination maps, the suppressor gene in 7120 is located within a ~418-kb region from bp 2,473,064 to 2,891,232, whereas the suppressor in 71N1 is likely located within a ~236-kb subregion from bp 2,473,064 to 2,709,377. It is possible that these mutations are in the same gene; however, the maps could not be refined further due to the lack of recombination in this 418-kb region. I also attempted to compare the genomic sequence of the 7120 suppressor, which was obtained by next-generation sequencing, with the Chlamydomonas reference genome (JGI, v.4). Next-generation sequencing of 7120 revealed the existence of abundant repetitive sequences and transposable elements clustered in a ~40-kb subregion of the recombinationally suppressed 418-kb region on chromosome III. I suggest that the high frequency of repetitive sequences and transposable elements in this region may be the reason for the suppressed recombination. Searching for candidate genes in the mapped region led me to examine a novel protein that was predicted to have a putative chloroplast transit-peptide, and an RNA binding domain. Further bioinformatic analysis revealed a single rhodanese domain with an active-site cysteine. The protein was expressed in E.coli as the full-length and predicted mature forms, plus a small His-tag. The purified mature protein had rhodanese catalytic activity, based on the fact that it was able to transfer sulfur from thiosulfate to cyanide. Also, western blot analysis with a polyclonal antibody produced in rabbits showed that the cellular protein migrated on SDS gels close to the mature protein and faster than the full-length protein, indicative of an organelle-targeted protein. The antibody also showed that the cellular protein co-fractionated with chloroplasts. To gain insight into its in vivo function, the gene was knocked down using the tandem RNAi system (Rohr et al., 2004), which produced strains (5) with reductions of 31% to 76% in the mRNA level, and ~30% to ~60% in the protein level. These strains were sensitive to bright light, and had reduced rates of growth under all conditions, which are characteristics of chloroplast translation mutants. Thus, chloroplast protein synthesis was examined by radioisotope pulse-labeling in the presence of cycloheximide, which showed that the RNAi strains were broadly and negatively affected, and RT-PCR and northern blot revealed only normal chloroplast mRNA levels. These data have identified a new rhodanese-family enzyme that is required for chloroplast translation, which I have designated “CRLT”, for chloroplast rhodanese-like translation. / text

RNA splicing

Genetic mapping

Rhodanese, chloroplast

Chlamydomonas

Splicing factors

Suppressor genes

Chloroplast

Genome-wide analysis of mutually exclusive splicing

Hatje, Klas

29 January 2013

No description available.

570

Mutually exclusive splicing

Alternative splicing

Bioinformatics

Computational biology

Drosophila

Gene annotation

Gene prediction

Biologie (PPN619462639)

Experimental analysis of trans-splicing of an ascidian troponin I gene

Mortimer, Sandra, 1981-

January 2007

I investigated SL trans-splicing in the troponin I gene of Ciona intestinalis. Experimental mutation of the AG dinucleotide adjacent to the natural trans-splice acceptor site (-64) in CiTnI/nuclacZ constructs eliminated trans-splicing to that site in Ciona embryos but activated trans-splicing at cryptic acceptor sites at -76 and -39, adjacent to the nearest AG dinucleotides. However, not all AG dinucleotides specify cryptic acceptor sites because outron internal deletions or 3'truncation mutants were trans-spliced at a far-upstream AG-adjacent cryptic site (-346), leaving many AGs in the retained outron segments. Thus, additional sequence elements that are present only in the -346 and -76/-64/-39 regions are required for cryptic acceptor activity. All mutant constructs generated detectable beta-gal enzyme expression, although the mutant with the longest retained-outron segment appeared less active. Therefore, mRNA accumulation and translation do not require trans-splicing to the natural acceptor site, although they may be facilitated by the normal removal of the outron during trans-splicing.

Muscle proteins.

RNA splicing.

Ciona intestinalis -- genetics.

Troponin I -- genetics.

Trans-Splicing.

Characterization of U2AF26, a paralog of the splicing factor U2AF35

Shepard, Jeremiah Brian.

January 2004

Thesis (Ph. D.) -- University of Texas Southwestern Medical Center at Dallas, 2004. / Vita. Bibliography: 97-109.

Human carboxylesterase 2 splice variants expression, activity, and role in the metabolism of irinotecan and capecitabine /

Schiel, Marissa Ann.

January 2009

Thesis (Ph.D.)--Indiana University, 2009. / Title from screen (viewed on August 28, 2009). Department of Biochemistry and Molecular Biology, Indiana University-Purdue University Indianapolis (IUPUI). Advisor(s): William Bosron. Includes vita. Includes bibliographical references (leaves 102-111).

The effect of nutrients upon the activity of SR proteins

Walsh, Callee McConnell.

January 1900

Thesis (Ph. D.)--West Virginia University, 2009. / Title from document title page. Document formatted into pages; contains vii, 91 p. : ill. (some col.). Includes abstract. Includes bibliographical references.

Investigação de elementos regulatórios do éxon 14 do gene Fmr1 e análise de expressão de suas isoformas / Search for elements regulating FMR1 exon 14 alternative splicing and isoform analyses

Juliana da Cruz Corrêa

06 June 2014

A proteína do retardo mental do X frágil (FMRP), codificada pelo gene do Retardo Mental do X Frágil (do inglês, Fragile Mental Retardation 1, FMR1) associa-se a RNA e transita entre o núcleo celular, grânulos citoplasmáticos e polirribossomos. No SNC, tem um importante papel como reguladora traducional atuando na maturação e eliminação sináptica. A exclusão do éxon 14 de transcritos do FMR1, associada ao uso do terceiro sítio de splicing do éxon 15 do FMR1, acarreta mudança da fase de leitura dos códons subsequentes, produzindo potencialmente isoformas da FMRP com nova região C-terminal, sem o sinal de localização nuclear e o domínio RGG, principal efetor de sua associação a RNAs. Sua importância funcional ainda não foi estudada. Neste trabalho, avaliamos por RT-qPCR a expressão dos transcritos que incluem e excluem o éxon 14 do Fmr1 no SNC de ratos e identificamos o córtex cerebral no décimo nono dia embrionário (E19) e no segundo dia pós-natal (P2) como tecido e fases do desenvolvimento em que são observados transcritos do Fmr1 com junção entre o éxon 13 e o terceiro sítio de splicing do éxon 15. Demonstramos que transcritos com essa junção exônica associam-se à proteína 4E de iniciação da tradução de eucarioto (eIF4E), indicando sua estabilidade no citoplasma. Geramos um anticorpo que identifica proteína de fusão com nova região C-terminal da FMRP. Paralelamente, a triagem por elementos em cis (transcritos) e fatores proteicos em trans trouxeram candidatos a inibirem o splicing do éxon 14 do FMR1 / Fragile X Mental Retardation Protein (FMRP), encoded by the Fragile Mental Retardation 1 (FMR1) gene, is an RNA-binding protein with nucleus-to-cytoplasm shuttling, and polyribosome association. In the central nervous system (CNS), FMRP is a translation regulator with important roles in synaptic maturation and elimination. In primary FMR1 transcripts, exon 14 skipping followed by selection of the exon 15 third splicing acceptor site, shifts the open reading frame of the downstream codons creating a putative FMRP isoform with a novel C-terminus, which lacks the nuclear localization signal and the major RNA binding domain, RGG box. The relevance of such isoform is as yet unknown. In the present study, we assessed, by RT-qPCR, the expression of rat Fmr1 transcripts in the CNS, relative to the inclusion of exon 14. We identified the cerebral cortex in the nineteenth embryonic day (E19) and the second postnatal day (P2) as the most prominent sources of transcripts bearing a splicing junction between exon 13 and the third splicing acceptor site in exon 15. Those transcripts are associated with the eukaryotic translation initiation factor 4E (eIF4E), indicating its cytoplasmic stability. We generated an antibody that recognizes a fusion protein carrying the novel FMRP C-terminus. Concurrently, a search for ci (transcript) and trans (protein) elements identified putative inhibitors of FMR1 exon 14 splicing

Expressão gênica

Gene FMR1

Isoformas

Splicing

Gene expression

Gene FMR1

Isoform

Splicing

Isolamento, expressão, e caracterização de três variantes de splicing do gene supressor de tumor RECK em modelo de astrocitoma humano / Isolation, expression, and characterization of three alternatively spliced variants of the RECK tumor suppressor gene in the human astrocytoma model

Marina Trombetta Lima

14 April 2014

Glioblastoma multiforme (G BM), ou astrocitoma grau IV, é o tumor mais comum e letal do sistema nervoso central. Uma de suas características mais marcantes é seu alto potencial invasivo do tecido normal adjacente. Neste processo, o remodelamento da matriz extracelular, modulado por enzimas que degradam seus componentes e por inibidores destas enzimas, é crucial. Foi descrito que a expressão de MMP-2 e MMP-9, membros da família das metaloproteinases de matriz, aumentam conforme a progressão de astrocitomas. A variante canônica de RECK suprime a invasão tumoral e metástase através da inibição da atividade de, pelo menos, três MMPs: MMP-2, MMP-9 e MMP-14. Uma correlação positiva tem sido observada entre a abundância da expressão de RECK em amostras tumorais e um prognóstico mais favorável para pacientes com diversos tipos de tumores. Neste estudo, variantes de splicing do gene supressor de tumor RECK foram identificadas através da análise de Expressed sequenced Tags (ESTs), isoladas por RT-PCR, sequenciadas e clonadas. Três novas variantes de splicing do gene RECK foram identificadas e caracterizadas. O perfil de expressão dos transcritos de RECK foi determinado através de ensaios de RT-PCR quantitativo em um painel de tecidos normais e, também, durante a progressão de astrocitomas. Foram utilizadas, para esta análise, amostras macro dissecadas de tumores de pacientes com astrocitomas grau I (n=15), II (n=15), III (n=15) e GBMs (n=30). Os resultados mostram que maior expressão de RECK canônico, acompanhada de maior razão de expressão da variante canônica em relação às variantes de splicing alternativo, correlaciona positivamente com maior sobrevida global de pacientes com GBM, sugerindo seu papel como potenciais biomarcadores para o prognóstico destes pacientes. Análise funcional das isoform as de RECK em células U87 MG revelou que as células superexpressando as isoformas não apresentam inibição do processo de invasão celular, como observado para superexpressão da proteína canônica. Dentre as isoformas analisadas, destaca-se RECK-B, isoforma potencialmente ancorada à membrana plasmática por GPI, como a proteína canônica RECK, sugerindo uma possível colocalização destas variantes. Observa-se que células superexpressando RECK-B apresentam maior capacidade tumorigênica. Os resultados indicam que as variantes de RECK e o balanço entre a expressão destas variantes, apresentam um papel importante no comportamento e na agressividade de GBMs, tendo potencial valor na clínica. Além disso, para abrir perspectivas para o estudo das variantes de RECK, o balanço de expressão dos transcritos canônico e alternativos deste gene foi explorado durante os processos de diferenciação osteogênica e adipogênica. Os resultados indicam que a expressão da variante canônica é mais abundante em relação à expressão de suas isoformas em estágios tardios da adipogênese, sendo que o perfil inverso é observado em relação à isoforma B durante a osteogênese, sugerindo que o balanço entre os níveis de expressão das isformas de RECK possui um potencial papel biológico que deve ser explorado durante esses processos. Em conjunto, os resultados demonstram a existência de, pelo menos, três variantes de splicing do gene supressor de tumor RECK com envolvimento na tumorigênese e na diferenciação celular, abrindo novas perspectivas para o estudo e a aplicação do gene RECK na clínica. / Glioblastoma multiforme (GBM) or grade IV astrocytoma is the most common and lethal tumor of the central nervous system. One of the most striking features of GBMs is their invasive potential of the normal surrounding brain tissue. It has been described that MMP-2 and MMP-9 expression levels increase during astrocytoma progression. Canonical RECK suppresses tumor invasion and metastasis by negatively regulating at least three matrix metalloproteinases, namely: MMP-9, MMP-2 and MT1-MMP. A positive correlation has been observed between the abundance of RECK express ion in tumor samples and a more favorable prognosis for patients with several types of tumors. In this study, splice variants of the RECK tumor suppressor gene were identified by Expressed Sequence Tag (EST) analysis, isolated by RT-PCR, sequenced and cloned. Three novel alternatively spliced variants of the RECK tumor suppressor gene were identified and characterized. The RECK transcripts expression profiles were investigated using quantitative RT-PCR assays in a normal tissue RNA panel and, also, during astrocytoma progression in macrodissected tumor samples of patients with astrocytoma grades I (n=15), II (n=15), III (n=15) and IV/GBM (n=30). The results show that higher canonical RECK expression, accompanied by a higher ratio of canonical to alternative transcript expression, positively correlated with higher overall survival rate after chemotherapeutic treatment of GBM patients. Our findings suggest that these RECK transcript variants may potentially be used as biomarkers for prognosis of GBM patients. U87 MG cells overexpressing each RECK alternative variant were generated and found to lack the supressive role of cellular invasion processes found upon overexpressing the canonical protein. Among the characterized isoforms, RECK-B stands out, since this isoform is potentially anchored to the cell membrane by a GPI anchor, exactly as the canonical RECK and, also, since cells overexpressing RECK-B display greater tumorigenic capacity. The results indicate that RECK variants and the balance between the expressions of these variants, play an important role in the behavior and aggressiviness of GBMs, therefore have a potential translational application. In addition, in order to investigate new perspectives for the analysis of these isoforms, the expression balance of RECK transcripts was assessed during osteogenesis and adipogenesis, by qRT - PCR. The results show that the expression of the canonical RECK variant is more abundant that that of its alternative isoforms in later stages of adipogenic differentiation. The opposite profile is found regarding RECK-B during osteogenesis, suggesting that the balance between the expressions of these transcripts may have a potential role during these processes. Taken together, the results show the existence of, at least, three alternatively spliced variants of the RECK tumor suppressor gene, which are involved in tumogigenesis and cellular differentiation, o pening new perspectives for studies and clinical application of the RECK gene.

Biomarcador

Câncer

Glioblastoma

Matriz-extracelular

RECK

Splicing-alternativo

Alternative-splicing

Biomarker

Cancer

Extracelular-matrix

Glioblastoma

RECK

Caracterização molecular de UsnRNAs em trypanosoma cruzi

Ambrósio, Daniela Luz [UNESP]

24 February 2005

Made available in DSpace on 2014-06-11T19:23:01Z (GMT). No. of bitstreams: 0 Previous issue date: 2005-02-24Bitstream added on 2014-06-13T20:29:39Z : No. of bitstreams: 1 ambrosio_dl_me_arafcf.pdf: 2442154 bytes, checksum: cc3386b51bef3a73071ee6043f88fc0e (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Universidade Estadual Paulista (UNESP) / Alguns fatores importantes no funcionamento das células eucarióticas correspondem à pequenos complexos de RNA e proteínas; essas partículas de ribonucleoproteínas (UsnRNPs) têm um papel essencial no processamento do pré-mRNA, principalmente durante o splicing (corte de íntrons e união de éxons). Embora as snRNPs estejam definidas em mamíferos, ainda não estão bem caracterizadas em certos tripanosomatídeos como o Trypanosoma cruzi. Assim, este trabalho propôs a caracterização molecular dos snRNAs (U2, U4, U5 e U6), por PCR e RT-PCR de formas epimastigotas de T. cruzi (cepa Y). Essas seqüências amplificadas foram clonadas, seqüenciadas e comparadas entre os tripanosomatídeos e o alinhamento múltiplo apresentou mais de 70% de identidade, exceto da U5 snRNA, que se mostrou menos conservada. Árvores filogenéticas mostraram a proximidade evolutiva dos snRNAs analisados em Trypanosoma brucei e Trypanosoma cruzi. As respectivas estruturas secundárias foram preditas, confirmando-se também as semelhanças com aquelas de T. brucei. O alinhamento das snRNAs de T. cruzi com as seqüências de Homo sapiens mostrou regiões únicas em U2, U4 e U5 snRNAs, nessa espécie, enquanto U6 mostrou-se fortemente conservada. Até o momento, ainda não foi possível a obtenção da seqüência completa de U1 snRNA de T. cruzi. / Some important factors in functioning of the eucariotic cells are the small complexes of RNA and proteins; these particles of ribonucleoproteins (UsnRNPs) have an essential role in the pre-mRNA processing, mainly during splicing (cut of introns and union of exons). Even though they are well defined in mammals, snRNPs are still not characterized in certain Trypanosomatids, as well, Trypanosoma cruzi. So, this work proposed the molecular characterization of the snRNAs (U2, U4, U5 and U6), by PCR and RT-PCR with T. cruzi epimastigote forms (Y strain). These amplified sequences were cloned, sequenced and compared among the Trypanosomatids and the multiple alignment presented more than 70% of identity, except for U5 snRNA, which showed less conserved. Phylogenetic trees showed the evolutionary proximity between the Trypanosoma brucei and Trypanosoma cruzi snRNAs analysed. The respective secondary structures were predicted and also confirmed similarity with T. brucei. The alignment of T. cruzi snRNAs with Homo sapiens sequences showed unique regions in U2, U4 and U5 snRNAs in this species, while U6 was strongly conserved. Until this moment, it was not still possible to obtain U1 snRNA of T. cruzi complete sequence.

Trypanosoma cruzi

Biologia molecular

Ribonucleoproteína

Trans-splicing

Trypanosoma cruzi

snRNA

Ribonucleoprotein

snRNP

Trans-splicing