A study of developmentally-regulated mRNA populations in Physarum polycephalum

Michie, F. B.

January 1987

Methods for the isolation of pure, intact <i>Physarum</i> polysomal RNA have been employed to obtain polyadenylated RNA. <i>Physarum</i> polyadenylated RNA isolated by these methods has been demonstrated to be suitable for use as a template for the synthesis of <i>Physarum</i> single-stranded cDNA. These molecules ranged in size from 100--2000 nucleotides. The enzyme steps involved in the synthesis and cloning of double-stranded cDNA were investigated individually to determine the optimum reaction conditions. A globin mRNA template was employed to analyse conditions for single and double-stranded cDNA synthesis. It was demonstrated that synthesis of the second cDNA strand, S1 Nuclease treatment, and synthesis of homopolymer tracts are inefficient and variable features of the standard cDNA protocols employed at the time of the study. These difficulties have been reported by other workers, and it has been suggested as a result that alternative methods of cDNA synthesis and cloning should be employed. Several cDNA clones, obtained from a limited <i>Physarum</i> cDNA library, were analysed in detail. One, pPCF2, was demonstrated to hybridize to methylated, repetitive <i>Physarum</i> DNA by Southern hybridization. Therefore in this instance, methylation of CpG sequences, which has been implicated in the negative regulation of gene expression, did not inhibit transcription of DNA containing these sequences, as has been proposed. The DNA sequence which hybridized to pPCF2 contained internal, methylated sequences, and was not methylated at the flanking restriction endonuclease recognition sites. This is consistent with observations that methylation at the 5' promoter region of the gene, inhibits expression of that gene, while methylation of the structural region does not. Another <i>Physarum</i> cDNA clone, pPCF3, was demonstrated to hybridize exclusively to undermethylated, repetitive <i>Physarum</i> DNA sequences. A hypermethylated, highly repetitive, cloned <i>Physarum</i> DNA sequence, pPH29, was shown to hybridize to cytoplasmic and polysomal RNA. Recently, pPH29 has been identified as the middle sequence of a putative transposon-like element. Such elements are believed to transpose via an RNA intermediate, which is reverse-transcribed into cDNA. The demonstration that pPH29 hybridizes to <i>Physarum</i> RNA provides further evidence, in conjunction with structural information, that it may form part of a transposable element.

572.8

Cloning of Physarum cDNA

Identification and annotation of full-length genes in Atlantic salmon (Salmo salar)

Leong, Jong S.

18 October 2011

Large-scale expressed sequence tags (ESTs) in Atlantic salmon (Salmo salar) are examined to answer questions regarding salmonid transcriptomes. ESTs represent raw and incomplete gene sequences that need to be read, assembled and analyzed with computer software. The goal of this thesis was to develop an automatically curated and publicly accessible set of annotated full-length genes, representing a near-complete transcript set for Salmo salar. In turn, these genes provide the framework for studies in gene expression, conservation, and molecular evolution. The work presented here also touches on the results of a molecular evolution study, as an example of how full-length gene identification can be used to answer biological questions. Previous to this study, a limited number of Atlantic salmon cDNA libraries and ESTs were known. To further the goal of determining complete gene sequences, highly enriched full-length cDNA libraries and full-length libraries were created and sequenced, resulting in the ability to identify a large number of full-length reference genes. Together, all libraries represent a diverse pool of transcriptome sequences for Salmo salar. The goal of producing an accurate large-scale full-length gene set on a duplicated genome is not trivial. Complete systems for this objective do not readily exist. EST sequencing, EST assembly, and data storage, are just a few of the initial computational issues that are addressed. Once these issues are resolved, the multi-step workflow of full-length gene determination is described. The final challenge involving the development of a concise and universally accessible system for visualization is discussed. The resulting computational framework that has been developed is shown to be able to handle the intricacies and the size of a duplicated salmonid genome. It has been largely accepted that Atlantic salmon have undergone a recent genome duplication. Gene paralogs provide one source of evidence for this event. Analysis of paralogs revealed signatures of asymmetric evolution possibly due to relaxation of selective pressure. This thesis provides a complete Bioinformatics analysis pipeline to analyze and to visualize a set of full-length reference genes for Atlantic salmon. Using full-length genes as a framework, the topic of molecular evolution was addressed to show evidence of asymmetrical evolution among gene duplicates. The full-length reference genes, along with ESTs and all putative transcripts, have been made publicly available. These results serve as a valuable genomic resource for next-generation sequencing and for all other salmonid research endeavours. / Graduate

sequence tags

gene

cDNA

O papel modulador do gene Aire (autoimmune regulator) sobre redes de expressão gênica em células tímicas epiteliais medulares / Promiscuous gene expression in medullary thymic epithelial cells is connected in network where the Aire gene is an upstream modulator

Macedo, Claudia

28 March 2008

A expressão de antígenos restritos a tecidos (TRAs do inglês tissue restricted antigens) no timo pelas células epiteliais medulares (mTECs de medullary thymic epithelial cells) é essencial para a tolerância central das células T. Devido à sua heterogeneidade em termos de representação de autoantígenos, esse fenômeno foi denominado como expressão gênica promíscua (PGE de promiscuous gene expression), no qual o gene Aire (de autoimmune regulator) desempenha um papel como principal regulador transcricional positivo sobre um grande conjunto de TRAs dependentes de Aire. A proteína Aire tem a capacidade de interagir com seqüências específicas de DNA desempenhando um papel como regulador direto. Neste estudo utilizamos o método dos cDNA microarrays para acessar a PGE em células mTEC CD80+ murinas cultivadas in vitro. O agrupamento hierárquico dos dados permitiu a observação de que os genes de TRAs foram diferencialmente expressos. Para testar essa hipótese, inicialmente silenciamos o gene Aire pelo método de RNA interferente (RNAi) nas células mTEC. O agrupamento hierárquico dos dados de cDNA microarray mostrou um conjunto de genes de TRAs dependentes de Aire, os quais foram reprimidos após o silenciamento deste último. Redes gênicas reconstruídas desses dados permitiram a identificação de um nó gênico (Gucy2d) estabelecendo regulação positiva sobre genes downstream nas células mTEC normais. Entretanto, sob efeito do silenciamento de Aire, Gucy2d passou a ser um repressor. Esses resultados evidenciaram que genes da PGE estão conectados em rede, que um nó gênico pode atuar como intermediário no seu controle e que Aire na rede PGE desempenha seu controle como regulador upstream. / The expression of tissue restricted antigens (TRAs) in thymus by medullary thymic epithelial cells (mTECs) is essential for the central selftolerance of T cells. Due to heterogeneity of autoantigen representation this phenomenon has been termed promiscuous gene expression (PGE), in which the autoimmune regulator (Aire) gene plays a role as main positive transcriptional regulator on a large set of Aire-dependent TRAs. Aire protein is able in binding to specific DNA sequence motifs and plays a role as a direct regulator. Here we used the cDNA microarray method to access PGE in murine CD80+ mTECs cultured in vitro. Hierarchical clustering of the data allowed observation that TRA genes were differentially expressed. To further investigate the control of PGE, we hypothesize that TRA genes establish networks contributing it selves to modulate their transcriptional levels. Aire in this case plays a role as upstream positive modulator. To test this hypothesis, initially we silenced Aire by gene knockdown (RNA interference) in mTECs. Hierarchical clustering of cDNA microarray data showed a set of Airedependent TRAs genes, which were down regulated after Aire silencing. Gene networks reconstructed from these data allowed the identification of a gene node (Gucy2d) establishing positive regulation upon downstream genes in normal mTECs. Nevertheless, under silencing of Aire, Gucy2d has become a repressor. These finding evidentiate that, genes features in PGE are connected in network; a gene node may act as intermediate in their control and that Aire in PGE network plays a role as an upstream regulator.

cDNA Microarrays

cDNA Microarrays

Immune System

mTEC

mTEC

Sistema Imune

O papel modulador do gene Aire (autoimmune regulator) sobre redes de expressão gênica em células tímicas epiteliais medulares / Promiscuous gene expression in medullary thymic epithelial cells is connected in network where the Aire gene is an upstream modulator

Claudia Macedo

28 March 2008

A expressão de antígenos restritos a tecidos (TRAs do inglês tissue restricted antigens) no timo pelas células epiteliais medulares (mTECs de medullary thymic epithelial cells) é essencial para a tolerância central das células T. Devido à sua heterogeneidade em termos de representação de autoantígenos, esse fenômeno foi denominado como expressão gênica promíscua (PGE de promiscuous gene expression), no qual o gene Aire (de autoimmune regulator) desempenha um papel como principal regulador transcricional positivo sobre um grande conjunto de TRAs dependentes de Aire. A proteína Aire tem a capacidade de interagir com seqüências específicas de DNA desempenhando um papel como regulador direto. Neste estudo utilizamos o método dos cDNA microarrays para acessar a PGE em células mTEC CD80+ murinas cultivadas in vitro. O agrupamento hierárquico dos dados permitiu a observação de que os genes de TRAs foram diferencialmente expressos. Para testar essa hipótese, inicialmente silenciamos o gene Aire pelo método de RNA interferente (RNAi) nas células mTEC. O agrupamento hierárquico dos dados de cDNA microarray mostrou um conjunto de genes de TRAs dependentes de Aire, os quais foram reprimidos após o silenciamento deste último. Redes gênicas reconstruídas desses dados permitiram a identificação de um nó gênico (Gucy2d) estabelecendo regulação positiva sobre genes downstream nas células mTEC normais. Entretanto, sob efeito do silenciamento de Aire, Gucy2d passou a ser um repressor. Esses resultados evidenciaram que genes da PGE estão conectados em rede, que um nó gênico pode atuar como intermediário no seu controle e que Aire na rede PGE desempenha seu controle como regulador upstream. / The expression of tissue restricted antigens (TRAs) in thymus by medullary thymic epithelial cells (mTECs) is essential for the central selftolerance of T cells. Due to heterogeneity of autoantigen representation this phenomenon has been termed promiscuous gene expression (PGE), in which the autoimmune regulator (Aire) gene plays a role as main positive transcriptional regulator on a large set of Aire-dependent TRAs. Aire protein is able in binding to specific DNA sequence motifs and plays a role as a direct regulator. Here we used the cDNA microarray method to access PGE in murine CD80+ mTECs cultured in vitro. Hierarchical clustering of the data allowed observation that TRA genes were differentially expressed. To further investigate the control of PGE, we hypothesize that TRA genes establish networks contributing it selves to modulate their transcriptional levels. Aire in this case plays a role as upstream positive modulator. To test this hypothesis, initially we silenced Aire by gene knockdown (RNA interference) in mTECs. Hierarchical clustering of cDNA microarray data showed a set of Airedependent TRAs genes, which were down regulated after Aire silencing. Gene networks reconstructed from these data allowed the identification of a gene node (Gucy2d) establishing positive regulation upon downstream genes in normal mTECs. Nevertheless, under silencing of Aire, Gucy2d has become a repressor. These finding evidentiate that, genes features in PGE are connected in network; a gene node may act as intermediate in their control and that Aire in PGE network plays a role as an upstream regulator.

cDNA Microarrays

mTEC

Sistema Imune

cDNA Microarrays

Immune System

mTEC

Isolation, characterisation and induction of human cytochromes P450

Lindey, Susannah

January 1997

No description available.

572.8

cDNA cloning and the retina

Dent, C. L.

January 1988

No description available.

572

Retina cDNA cloning/synthesis

The structure and function of the human transcription factor GATA-6

Davies, Andrew James

January 2000

No description available.

572.8

cDNA clones; Proteins; Isoforms

Cloning, expression and inhibitor studies of organellar Ca'2'+-ATPase

Lockyer, Peter John

January 1997

No description available.

572

Calcium pump; cDNA cloning

The structure/function relationship of plant assimilatory nitrate reductase

Skipper, Lawrie

January 1999

No description available.

572

cDNA; Gene; Cloned; Protein

Gene expression in ripening melon (Cucumis melo L.)

Aggelis, Alexandros

January 1996

No description available.

572.8

cDNA clones; Ethylene; Wounding