Characterization of the two genes encoding cytoplasmic ribosomal protein L23a in <i>Arabidopsis thaliana</i>

McIntosh, Kerri Bryn

23 November 2005

<p>RPL23a is one of the ~80 ribosomal proteins (r-proteins) of the cytoplasmic ribosome in the model plant <i>Arabidopsis thaliana</i>. The objectives of this research were to establish Arabidopsis RPL23a as a functional r-protein, characterize expression patterns for the two genes (RPL23aA and B) encoding RPL23a using reverse transcription PCR (RT-PCR), and identify regulatory elements controlling the expression of RPL23aA and B. Complementation of a yeast l25 mutant with AtRPL23aA demonstrated that AtRPL23aA can fulfill all the essential functions of L25 in vivo. A survey of various Arabidopsis tissue types showed that, while RPL23aA and B expression patterns both showed increased transcript abundance in mitotically active tissues, RPL23aB transcript levels were generally lower than those of RPL23aA and responded differently to abiotic stresses. In order to determine cis regulatory elements controlling RPL23aA and B expression, the 5 regulatory region (RR) of each gene was characterized via plants carrying a series of 5 RR deletion fragments upstream of a reporter. Transcript start sites and 5 untranslated regions (UTRs) for both RPL23aA and B were also characterized using primer extension, and transcripts from 5 deletion transgenics were amplified using RT-PCR. No correlation was observed between putative cis-acting elements and the expression patterns from the RPL23aA and B deletion transgenics, although a 102 bp sequence in the RPL23aB 5 RR was found to contain pollen-specific elements. 5 leader introns were found in each RPL23a gene, and amplification of transgene transcripts from deletion series plants indicated the importance of post-transcriptional and translational regulation in RPL23aA and B expression. This thesis work is the first demonstration of a plant RPL23a protein as a functional member of the L23/L25 (L23p) conserved r-protein family, and is one of the few in-depth studies of the regulation of r-protein genes in plants. While the majority of previous research on plant r-protein gene expression has focused solely on transcript levels, I show herein that post-transcriptional mechanisms have a critical role in regulating these genes, and thus plant r-protein genes more strongly resemble their mammalian counterparts than those of yeast in terms of structure and regulation.

regulatory region

yeast complemetation

ribosome

ribosomal protein

Arabidopsis

gene expression

Characterization of the two genes encoding cytoplasmic ribosomal protein L23a in <i>Arabidopsis thaliana</i>

McIntosh, Kerri Bryn

23 November 2005

<p>RPL23a is one of the ~80 ribosomal proteins (r-proteins) of the cytoplasmic ribosome in the model plant <i>Arabidopsis thaliana</i>. The objectives of this research were to establish Arabidopsis RPL23a as a functional r-protein, characterize expression patterns for the two genes (RPL23aA and B) encoding RPL23a using reverse transcription PCR (RT-PCR), and identify regulatory elements controlling the expression of RPL23aA and B. Complementation of a yeast l25 mutant with AtRPL23aA demonstrated that AtRPL23aA can fulfill all the essential functions of L25 in vivo. A survey of various Arabidopsis tissue types showed that, while RPL23aA and B expression patterns both showed increased transcript abundance in mitotically active tissues, RPL23aB transcript levels were generally lower than those of RPL23aA and responded differently to abiotic stresses. In order to determine cis regulatory elements controlling RPL23aA and B expression, the 5 regulatory region (RR) of each gene was characterized via plants carrying a series of 5 RR deletion fragments upstream of a reporter. Transcript start sites and 5 untranslated regions (UTRs) for both RPL23aA and B were also characterized using primer extension, and transcripts from 5 deletion transgenics were amplified using RT-PCR. No correlation was observed between putative cis-acting elements and the expression patterns from the RPL23aA and B deletion transgenics, although a 102 bp sequence in the RPL23aB 5 RR was found to contain pollen-specific elements. 5 leader introns were found in each RPL23a gene, and amplification of transgene transcripts from deletion series plants indicated the importance of post-transcriptional and translational regulation in RPL23aA and B expression. This thesis work is the first demonstration of a plant RPL23a protein as a functional member of the L23/L25 (L23p) conserved r-protein family, and is one of the few in-depth studies of the regulation of r-protein genes in plants. While the majority of previous research on plant r-protein gene expression has focused solely on transcript levels, I show herein that post-transcriptional mechanisms have a critical role in regulating these genes, and thus plant r-protein genes more strongly resemble their mammalian counterparts than those of yeast in terms of structure and regulation.

regulatory region

yeast complemetation

ribosome

ribosomal protein

Arabidopsis

gene expression

Análise do polimorfismo da região cis-reguladora do gene CCR5 em populações ameríndias / Signatures of natural selection and non-selective process in the 5´cis regulatory region of CCR5 gene of Amerindians from Brazilian Amazonian region

Ramalho, Rodrigo Fernandes

07 February 2008

Populações nativas da América do Sul apresentam diversidade genética reduzida em relação às demais populações do mundo e alta diferenciação interpopulacional dentro do continente. As pressões seletivas sobre a região cis-reguladora do CCR5 geram uma assinatura de diversidade oposta àquela esperada com base na história demográfica, reduzindo a variação interpopulacional e contribuindo para uma elevação das taxas de polimorfismo. No presente estudo investigamos a interação entre esses processos micro-evolutivos, analisando o polimorfismo da região cis-reguladora de ameríndios da América do Sul e comparando os resultados com aqueles obtidos em outras regiões do mundo. Sequenciamos 927 pares de base (pb) da região controladora do CCR5 em 7 tribos indígenas da região amazônica. Em ameríndios, nenhum haplótipo exclusivo foi encontrado em ameríndios e os dois haplogrupos mais comuns foram de diferentes clusters filogenéticos. A diversidade nucleotídica (&#960;) para a amostra total, foi a mais alta dentre todas as regiões do mundo já estudadas (&#960;=0,0027). A estimativa da diversidade genética populacional para ameríndios, baseada no número de sítios polimórficos (&#952;s), foi similar aos valores encontrados para as populações não-africanas, sendo que em africanos o valor foi praticamente o dobro. Conseqüentemente, foi observado um valor de D de Tajima positivo e estatisticamente significativo (D=2,82, p<0,01), maior do que aquele visto para outras regiões do mundo. Através de comparações empíricas e de simulações coalescentes verificamos que o alto valor de D de Tajima encontrado para ameríndios não é explicável por um recente modelo demográfico de evolução humana. O teste Ewens-Watterson indicou para a amostra ameríndia uma taxa de heterozigose maior do que esperada para um população neutra. O valor de Fst observado para comparação envolvendo asiáticos e ameríndios foi mais baixo que 1000 valores de Fst calculados a partir de 783 microssatélites genotipados em amostras de mesmo tamanho de regiões geográficas similares. Essas caraterísticas corroboram a hipótese de seleção balanceadora na região cis-reguladora do CCR5 de ameríndios da região amazônica brasileira. No presente estudo demonstramos também a existência de uma associação estatisticamente significativa (p<0,01) entre os alelos mantidos em freqüências intermediárias na população humana e regiões ativadoras de splicing localizadas em exons (ESEs). Finalmente, nós acreditamos que um modelo demográfico de evolução humana, complementar ao utilizado neste trabalho, deve ser testado para se refutar a hipótese de que a forte assinatura de seleção balanceadora observada em ameríndios não foi causada por seleção natural que atuou em população ancestral à de indígenas americanos / Native american populations show lower genetic diversity and higher interpopulational genetic differences than populations from other continents. Within South America groups from the non-andean geographic region shows extremely high genetic differentiation. The strong signature of balancing selection observed for 5\' cis-regulatory region of the CCR5 gene at the worldwide scale represents an opposite pattern of genetic variation to that expected by demographic process which acted in Amerindians. To evaluate the impact of complex demographic history on the 5\' cis-regulatory region of CCR5 we resequenced 927 bp of this locus in 62 individuals from different native groups located in the Brazilian Amazonian region. No new haplotype was detected and the two most common haplogroups observed were from different phylogenetic clusters, according with the pattern observed for other human populations. The level of heterozigosity of the total sample, measured by nucleotide diversity (&#960;) was the highest yet described for human populations (&#960;=0,0027) while values based on polymorphic sites (&#952;s) were similar among Amerindians and non-Africans populations. Consequently we observed a positive and significant Tajima\'s D value (D=2,82, p <0,01). This value was higher than all D values observed for the other human populations. Observed summary statistics (&#960; and D) were significantly higher than same statistics estimated from 2000 simulated samples assuming a recently proposed demographic model of human evolution. We also found significant deviations in Ewens-Watterson homozygosity test toward an excess of heterozygosity for Amerindian sample. Another striking feature of CCR5 cis-regulatory region was the low Fst value among populations. The Fst among Asians and Amerindians was an outlier among 1000 Fst values estimated by 783 microssatelites of samples from similar geographic regions and with the same sample sizes as those of the CCR5 5\' cis-regulatory data. These features corroborates the strong signature of balancing selection described for CCR5 5\'cis regulatory region. We also contributed to discussion about functional aspects of CCR5 cis-regulatory region demonstrating a significant association between intermediate frequency SNPs and exonic splicing enhancers (ESEs) regions (p<0,01). Finally, we believe that improved models of demographic human evolution must be tested to refute the hypothesis that the strong signature of balancing selection observed in Amerindians was not caused by a selection pressure which occurred in an ancestral population.

Amerindians

Ameríndios

CCR5 5´cis-regulatory region

Demografia

Demography

Natural selection

Região cis-reguladora do gene CCR5

Seleção natural

Genetic analysis of genes found on the 4th chromosome of Drosophila - emphasizing the developmental context of Pax6

Kronhamn, Jesper

January 2004

The small size and the lack of recombination set the fourth chromosome of Drosophila melanogaster apart from the other chromosomes. I have shown that the Minute gene on chromosome 4, earlier named Minute-4, encodes the ribosomal protein RpS3A. Two Pax6 genes, eyeless (ey) and twin of eyeless (toy) are also located on chromosome 4. Pax6 genes are important in head and eye development in both mammals and Drosophila. I have focused much of the study on ey and toy. The first mutant of toy that was characterized showed a headless phenotype. This indicates that Toy is important for the development of both the eye and antennal discs. The phenotype of the null mutation in toy is temperature sensitive due to that transcription of ey is temperature dependent in the eye-antennal primordium in absence of Toy. This temperature dependence was used to find out that the phenocritical period for ey in the adult head development is during embryonic stage 12-16 when ey first is expressed in the eye-antennal primordium. I also conclude that ey is activated by Toy in the eye-antennal primordium. The strong eyD mutation was molecularly characterized and it was finally settled that it is an allele in the ey locus. I also show that eyD homozygotes have a headless phenotype, much stronger than the earlier ey mutations.

Molecular genetics

Pax6

twin of eyeless

headless flies

head development

eye development

eyeless

Minute

RpS3A

regulatory region

Drosophila

Genetik

Genetics

Genetik

Análise do polimorfismo da região cis-reguladora do gene CCR5 em populações ameríndias / Signatures of natural selection and non-selective process in the 5´cis regulatory region of CCR5 gene of Amerindians from Brazilian Amazonian region

Rodrigo Fernandes Ramalho

07 February 2008

Populações nativas da América do Sul apresentam diversidade genética reduzida em relação às demais populações do mundo e alta diferenciação interpopulacional dentro do continente. As pressões seletivas sobre a região cis-reguladora do CCR5 geram uma assinatura de diversidade oposta àquela esperada com base na história demográfica, reduzindo a variação interpopulacional e contribuindo para uma elevação das taxas de polimorfismo. No presente estudo investigamos a interação entre esses processos micro-evolutivos, analisando o polimorfismo da região cis-reguladora de ameríndios da América do Sul e comparando os resultados com aqueles obtidos em outras regiões do mundo. Sequenciamos 927 pares de base (pb) da região controladora do CCR5 em 7 tribos indígenas da região amazônica. Em ameríndios, nenhum haplótipo exclusivo foi encontrado em ameríndios e os dois haplogrupos mais comuns foram de diferentes clusters filogenéticos. A diversidade nucleotídica (&#960;) para a amostra total, foi a mais alta dentre todas as regiões do mundo já estudadas (&#960;=0,0027). A estimativa da diversidade genética populacional para ameríndios, baseada no número de sítios polimórficos (&#952;s), foi similar aos valores encontrados para as populações não-africanas, sendo que em africanos o valor foi praticamente o dobro. Conseqüentemente, foi observado um valor de D de Tajima positivo e estatisticamente significativo (D=2,82, p<0,01), maior do que aquele visto para outras regiões do mundo. Através de comparações empíricas e de simulações coalescentes verificamos que o alto valor de D de Tajima encontrado para ameríndios não é explicável por um recente modelo demográfico de evolução humana. O teste Ewens-Watterson indicou para a amostra ameríndia uma taxa de heterozigose maior do que esperada para um população neutra. O valor de Fst observado para comparação envolvendo asiáticos e ameríndios foi mais baixo que 1000 valores de Fst calculados a partir de 783 microssatélites genotipados em amostras de mesmo tamanho de regiões geográficas similares. Essas caraterísticas corroboram a hipótese de seleção balanceadora na região cis-reguladora do CCR5 de ameríndios da região amazônica brasileira. No presente estudo demonstramos também a existência de uma associação estatisticamente significativa (p<0,01) entre os alelos mantidos em freqüências intermediárias na população humana e regiões ativadoras de splicing localizadas em exons (ESEs). Finalmente, nós acreditamos que um modelo demográfico de evolução humana, complementar ao utilizado neste trabalho, deve ser testado para se refutar a hipótese de que a forte assinatura de seleção balanceadora observada em ameríndios não foi causada por seleção natural que atuou em população ancestral à de indígenas americanos / Native american populations show lower genetic diversity and higher interpopulational genetic differences than populations from other continents. Within South America groups from the non-andean geographic region shows extremely high genetic differentiation. The strong signature of balancing selection observed for 5\' cis-regulatory region of the CCR5 gene at the worldwide scale represents an opposite pattern of genetic variation to that expected by demographic process which acted in Amerindians. To evaluate the impact of complex demographic history on the 5\' cis-regulatory region of CCR5 we resequenced 927 bp of this locus in 62 individuals from different native groups located in the Brazilian Amazonian region. No new haplotype was detected and the two most common haplogroups observed were from different phylogenetic clusters, according with the pattern observed for other human populations. The level of heterozigosity of the total sample, measured by nucleotide diversity (&#960;) was the highest yet described for human populations (&#960;=0,0027) while values based on polymorphic sites (&#952;s) were similar among Amerindians and non-Africans populations. Consequently we observed a positive and significant Tajima\'s D value (D=2,82, p <0,01). This value was higher than all D values observed for the other human populations. Observed summary statistics (&#960; and D) were significantly higher than same statistics estimated from 2000 simulated samples assuming a recently proposed demographic model of human evolution. We also found significant deviations in Ewens-Watterson homozygosity test toward an excess of heterozygosity for Amerindian sample. Another striking feature of CCR5 cis-regulatory region was the low Fst value among populations. The Fst among Asians and Amerindians was an outlier among 1000 Fst values estimated by 783 microssatelites of samples from similar geographic regions and with the same sample sizes as those of the CCR5 5\' cis-regulatory data. These features corroborates the strong signature of balancing selection described for CCR5 5\'cis regulatory region. We also contributed to discussion about functional aspects of CCR5 cis-regulatory region demonstrating a significant association between intermediate frequency SNPs and exonic splicing enhancers (ESEs) regions (p<0,01). Finally, we believe that improved models of demographic human evolution must be tested to refute the hypothesis that the strong signature of balancing selection observed in Amerindians was not caused by a selection pressure which occurred in an ancestral population.

Ameríndios

Demografia

Região cis-reguladora do gene CCR5

Seleção natural

Amerindians

CCR5 5´cis-regulatory region

Demography

Natural selection

The Aryl Hydrocarbon Receptor Regulates an Essential Transcriptional Element in the Immunoglobulin Heavy Chain Gene

Wourms, Michael J.

January 2013

No description available.

Immunology

Pharmacology

Toxicology

aryl hydrocarbon receptor

AhR

immune deficient

autoimmunity

TCDD

dioxin

ARNT

immunoglobulin regulatory region

immunoglobulin heavy chain

Cyp1A1

La cartographie des sites de régulation génétique à partir de données de débalancement allélique

Vello, Emilio D.

09 1900

En 1975, Wilson et King ont proposé que l'évolution opère non seulement via des changements affectant la structure des protéines, mais aussi via des mutations qui modifient la régulation génétique. L'étude des éléments régulateurs de l'expression génétique a un rôle important dans la compréhension de l'expression de différentes maladies et de la réponse thérapeutique. Nous avons développé un algorithme bio- informatique qui nous permet rapidement de trouver des sites de régulation génétique à travers tout le génome et pour une grande quantité de gènes. Notre approche consiste à trouver des sites polymorphes (SNPs) qui sont en déséquilibre de liaison avec le débalancement allélique (AI) afin de cartographier la région régulatrice et le site responsable. Notre méthode est avantageuse par rapport à d'autres méthodes, car elle n'a pas besoin des données « phasées». De plus, les données de débalancement allélique ne sont pas affectées par des facteurs externes étant donné qu'ils sont mesurés dans la même cellule. Nous avons démontré que notre approche est fiable et qu'elle peut détecter des sites loin du gène. De plus, il peut être appliqué à des données de génotypage sans avoir besoin de les « phaser » . / Wilson and King (1975) proposed that evolution frequently operates through mutations affecting genetic regulation. Likewise, it is expected that genetic variation responsible for inter-individual differences will be due to variation in regulatory sites. Identifying such sites is thus important in the genetic and medical research. We have developed a new bioinformatics algorithm to find genome-wide regulatory sites for a big number of genes. Individuals carrying different alleles at a regulatory site will exhibit allelic imbalance(AI) due to differential expression of the two copies the same locus. Our approach consists of searching polymorphic sites (SNPs) in linkage disequilibrium with AI in order to map regulatory regions. We have detected many SNPs associated to the regulation of different genes pointed in previous studies. We have also found regulatory regions far from the transcription start site (TSS). The major advantage of this method is that phased data is not needed. In addition, AI data has the benefit of not being affected by external factors since it is measured in the same cell. The results show that our approach is reliable and it can detect sites far from the gene.

SNP

Allelic imbalance

LD

Région régulatrice

Déséquilibre de Liaison

AI

Linkage disequilibrium

Regulatory Region

eQTL

Regulation

Analýza regulačních oblastí genů v genomu oxymonády Monocercomonoides / Analysis of gene regulatory regions in the genome of oxymonad Monocercomonoides

Brzoň, Ondřej

January 2016

iv Abstract Regulation of gene expression is a key ability of every single cell in its development, differentiation and homeostasis. On the other hand, rather sparse amount of information is available for protists and our understanding of regulation of gene expression in eukaryotes is limited to a few model organisms. Our research is aimed at oxymonads, poorly studied group of anaerobic protists, which inhabit digestive tract of some animals. In this study we focus on the genus Monocercomonoides. Gene expression is modulated at multiple levels by many mechanisms. This thesis is focused on structure of promoter regions, 5' untranslated regions and basal transcription and translation initiation factors. Our results are compared to the closest studied relatives of Monocercomonoides - Trichomonas vaginalis and Giardia intestinalis. We have identified several conserved motifs in promoter regions of Monocercomonoides, including TATA box and TATA-like motif. These motifs potentially play a role in the transcription regulation. 5' untranslated regions are relatively short (typically 20 - 30 nucleotides) and GC content in these regions is low compared to model organisms. In selected genes, the quality of the automatic prediction of UTR was verified by RACE. We have annotated sets of basic transcription (23 proteins)...

Studies on the Molecular Biology of the Mouse Pneumotropic Polyomavirus

Zhang, Shouting

January 2003

<p>The <i>Murine Pneumotropic Virus </i>(MPtV), in contrast to the other <i>MurinePolyomavirus</i> (MPyV), appears to be non-tumourigenic in its natural host. Instead, MPtV causes acute pneumonia and can serve as a model in studies of polyomavirus-induced disease. In initial experiments, MPtV large T-antigen (LT) was expressed in a heterologous system. LT was characterized with regard to its metabolic stability and cell immortalizing activity and, after purification, to its specific DNA binding. </p><p>The absence of permissive cell culture system for MPtV has hampered its study. We made attempts to widen the host range of the virus by modifying the regulatory and late regions of the genome. The enhancer substitution mutant (KVm1), having a transcriptional enhancer substituted with a corresponding DNA segment from MPyV, was able to replicate in mouse 3T3 cells and form virus particles that were infectious in mice. However, efficient infection of cells in vitro was not achieved with this mutant virus, possibly due to the absence of virus-specific receptors on the cells. The capsid protein substitution mutants, having capsid protein genes of MPyV, for which receptors are present on a variety of cell types, showed also no cytopathic effect, despite an enhanced viral DNA replication and assembly of virus particles. </p><p>MPtV-DNA extracted from virus in lung tissue of infected mice had a heterogeneous enhancer segment. A majority of the DNA molecules had a structure differing from the standard-type. A 220 base-pair insertion at nucleotide position 142 with a concomitant deletion of nucleotides 143 to 148 was a prominent variation. Other genome variants showed complete or partial deletions of the insertion and surrounding sequences in the viral enhancer. In relation to the standard-type, all variant genomes showed differences in the activities of transcriptional promoters and the origin DNA replication. Analysis by DNA reassociation showed that a large number of nucleotide sequences related to the 220 base-pair insert in the MPtV genome were present in mouse and human DNA, but not in <i>Escherichia coli</i> DNA. Together, the data suggest that the 220 base-pair insertion is related to a transposable element of a novel type.</p>

Molecular biology

murine pneumotropic virus

Kilham mouse polyomavirus

large T antigen

enhancer

regulatory region rearrangement

gene expression regulation

DNA replication

transposable elements

Molekylärbiologi

Molecular biology

Molekylärbiologi

Studies on the Molecular Biology of the Mouse Pneumotropic Polyomavirus

Zhang, Shouting

January 2003

The Murine Pneumotropic Virus (MPtV), in contrast to the other MurinePolyomavirus (MPyV), appears to be non-tumourigenic in its natural host. Instead, MPtV causes acute pneumonia and can serve as a model in studies of polyomavirus-induced disease. In initial experiments, MPtV large T-antigen (LT) was expressed in a heterologous system. LT was characterized with regard to its metabolic stability and cell immortalizing activity and, after purification, to its specific DNA binding. The absence of permissive cell culture system for MPtV has hampered its study. We made attempts to widen the host range of the virus by modifying the regulatory and late regions of the genome. The enhancer substitution mutant (KVm1), having a transcriptional enhancer substituted with a corresponding DNA segment from MPyV, was able to replicate in mouse 3T3 cells and form virus particles that were infectious in mice. However, efficient infection of cells in vitro was not achieved with this mutant virus, possibly due to the absence of virus-specific receptors on the cells. The capsid protein substitution mutants, having capsid protein genes of MPyV, for which receptors are present on a variety of cell types, showed also no cytopathic effect, despite an enhanced viral DNA replication and assembly of virus particles. MPtV-DNA extracted from virus in lung tissue of infected mice had a heterogeneous enhancer segment. A majority of the DNA molecules had a structure differing from the standard-type. A 220 base-pair insertion at nucleotide position 142 with a concomitant deletion of nucleotides 143 to 148 was a prominent variation. Other genome variants showed complete or partial deletions of the insertion and surrounding sequences in the viral enhancer. In relation to the standard-type, all variant genomes showed differences in the activities of transcriptional promoters and the origin DNA replication. Analysis by DNA reassociation showed that a large number of nucleotide sequences related to the 220 base-pair insert in the MPtV genome were present in mouse and human DNA, but not in Escherichia coli DNA. Together, the data suggest that the 220 base-pair insertion is related to a transposable element of a novel type.

Molecular biology

murine pneumotropic virus

Kilham mouse polyomavirus

large T antigen

enhancer

regulatory region rearrangement

gene expression regulation

DNA replication

transposable elements

Molekylärbiologi

Molecular biology

Molekylärbiologi