Characterization of substrate specificity and amino acid editing by human ProXp-ala

Abid, Jawad

06 September 2022

No description available.

Biochemistry

Chemistry

Characterization of GTP and aminoacyl-tRNA binding to eukaryotic initiation factor 2 and elongation factor 1

Kinzy, Terri Goss

January 1991

No description available.

Chemistry, Biochemistry

Determining the mechanism of elongation factor P -dependent regulation of gene expression

Elgamal, Sara

January 2015

No description available.

Microbiology

Genetics

Biochemistry

Elongation factor P

Ribosome profiling

Protein Translation

pausing

Proline

Roles of EEF1A2 & PTK6 in breast cancer

Fida, Mariam

January 2011

Eukaryotic Translation Elongation Factor 1 Alpha (EEF1A) exists as two forms with different tissue specificities and encoded by separate loci: eEF1A1 on 6q13 and eEF1A2 on 20q13.3. eEF1A1 is ubiquitously expressed whereas eEF1A2 expression is normally limited to the heart, brain and skeletal muscles. eEF1A proteins are GTP-binding proteins that recruit an amino-acylated tRNA to the ribosome during the elongation phase of protein translation. eEF1A2 mRNA and protein are highly expressed in 50–60% of primary human breast tumors and metastases but not in normal breast epithelium. Since it is also overexpressed in 30% of primary human ovarian tumors, transforms rodent fibroblasts and increases their tumorigenicity in nude mice, eEF1A2 is considered to be a potential human oncogene. The mechanism of eEF1A2 expression is yet to be determined. Studies showed no gene mutation and no correlation between locus amplification or methylation and gene expression. Phosphate Tyrosine Kinase-6 (PTK6) is also located on 20q13.3. It is 48kb upstream of EEF1A2. PTK6 is a non-receptor tyrosine-kinase that is normally expressed in epithelial linings, prostate, skin and oral epithelium but it is not detected in the normal human mammary epithelium. PTK6 has been found to be expressed in many breast cancer cell lines and in approximately 60% of primary human breast tumors but it has not been detected in normal human breast tissue nor in fibroadenomas. Like other tyrosine kinases, PTK6 phosphorylates and activates downstream substrates that would be predicted to lead to increased transcriptional activity and therefore mediates proliferation of breast cancer cells. PTK6 is considered a prognostic marker of metastasis-free survival in breast cancer independent of the classical markers of tumor size, lymph node involvement and HER2 status. The aim of this project was to characterize for the first time the genomic region containing the two mentioned breast cancer oncogenes and understand their various roleswhether they act in tandem or independently in breast tumorigenesis. Immunohistochemistry was performed on tissue microarrays from 300 breast cancer patients to detect the expression levels of eEF1A2 and PTK6. Tumors that showed a high co-expression were analyzed for the genes’ copy number. An increased copy number of PTK6 was detected but not of eEF1A2 nor of adjacent genes on the 20q13.3 amplicon. To understand the effect of EEF1A2 expression on other genes, microarray analysis was performed on NIH-3T3 cells stably transfected with EEF1A2. Many upregulated genes were associated with different types of cancers. This was further confirmed by real-time PCR. However, when the NIH-3T3 cells were transiently transfected with EEF1A2, the genes that were upregulated in the microarray study showed no change in expression. In conclusion, EEF1A2 and PTK6 act independently and each acts through a different mechanism in breast tumorigenesis.

616.99

Etude biochimique, structurale et fonctionnelle du complexe chaperonne d'histone/facteur d'élongation Spt6/Iws1 / Biochemical, structural and functionnal studies of the histone chaperone / elongation factors SPT6/IWSI

Diebold, Marie-Laure

26 March 2012

Les ARN messagers (ARNm) fonctionnels sont produits au cours d'un mécanisme complexe qui allie la transcription, qui permet la synthèse d'un pré-ARNm, la maturation de ce transcrit et son export. De plus, ces différentes machineries vont devoir faire face à la structure compacte de la chromatine, nécessitant une activité de décondensation/recondensation de la chromatine qui est notamment régulée par les mécanismes épigénétiques. Un très grand nombre de facteurs sont donc requis pour la production des ARNm fonctionnels . Parmi ces facteurs, les protéines Spt6 et Iws1 sont impliquées dans le mécanisme général de la transcription, dans la modulation de la structure de la chromatine et la maturation et l'export des ARNm. Ces travaux de thèse ont permis de caractériser biochimiquement, structuralement et fonctionnellement ces deux protéines, leur complexe et leur interaction avec d'autres effecteurs de la transcription. Ces travaux ont notamment permis de comprendre en termes moléculaires et fonctionnels (i) comment Spt6 est recrutée par l'ARN polyméraseII au cours de la transcription et (ii) comment le complexe Spt6/Iws 1 est formé. Ils ont également permis d'identifier de nouveaux interactants potentiels de Spt6, et notamment le facteur d'élongation de la transcription TFIIS. Ces travaux ont ainsi permis de révéler le rôle essentiel et extrêmement complexe joué par Spt6 et Iws1 lors de la production d'un ARNm, mais également de permettre l'étude future de leur interaction avec d'autres facteurs transcriptionnels. / Production of functional messenger RNA (mRNA) requires a complex mechanism that couples transcription with maturation and export of the mRNA. In addition to this mechanism, chromatin needs to be unwound to allow the transcription machinery access the DNA, this unwinding being also highly regulated. Thus, production of a functional mRNA requires a huge number of factors implicated in these different processes. Among these proteins Spt6 and Iws1 are participating in the mechanism of transcription, chromatin unwinding, and maturation and export of the mRNA. The work carried out during this thesis has enabled the biochemical, structural and functional characterization of these proteins, their complex and their interaction with other effectors of transcription. This work has specifically enabled the molecular and functional characterization (i) of the recruitment of Spt6 by RNA polymerase II and (ii) of the formation of the Spt6/Iws1 complex. Moreover, this work has identified putative new partners of Spt6, not ably the elongation factor TFIIS. Thus, our work has highlighted the essential and complex role of Spt6 and Iws1 during the production of functional mRNA, and has also enabled future studies of the complexes formed by these two proteins with other transcriptional factors.

Transcription

ARN polymérase II

Élongation

Épigénétique

MRNA export

Histones

Transcription

RNA polymerase

Elongation factor

Epigenetic

Functional messenger RNA

Histones

571.8

Avaliação da expressão dos genes que codificam a proteína RAS e o fator de elongação EF1α em ectomicorrizas de Scleroderma laeve e Eucalyptus grandis / Expression analysis of the genes that code for RAS and the elongation factor EF1α in Scleroderma laeve and Eucalyptus grandis ectomycorrhizas

Pereira, Maíra de Freitas

18 July 2011

Made available in DSpace on 2015-03-26T13:51:53Z (GMT). No. of bitstreams: 1 texto completo.pdf: 4350402 bytes, checksum: bd6bf9393be337ef287514591c95188f (MD5) Previous issue date: 2011-07-18 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / The ectomycorrhizal association is a mutualistic interaction between plant roots and soil fungi that causes morphophysiological changes in the plant root system. The nutritional benefits result from the capacity of the fungus to increase the uptake of mineral nutrients by the host plant in exchange for photoassimilates. For the ectomycorrhizal association between Scleroderma laeve and Eucalyptus grandis, there is no information on which genes are decisive for the symbiosis and how they relate to the formation of ectomycorrhizas. Transcripts of the genes ras and ef1α were dentified as differentially expressed in many symbiotic associations and are related to signal transduction pathways and protein synthesis, respectively. Thus, the objectives of this work were to establish the ectomycorrhizal association between S. laeve and E. grandis in vitro, to isolate partial sequences of the genes ras and ef1α of S. laeve, and to evaluate the functional expression of these genes during ectomycorrhizal formation. Our works demonstrates the ectomycorrhizal association between S. laeve and E. grandis in vitro for the first time. The typical structures of ectomycorrhizas, such as the mantle and the Hartig net, were observed. At three days of contact between S. laeve and E. grandis roots the beginning of mantle formation could be observed. At 15 days, the mantle was completely formed, the epidermal cells were elongated, and the Hartig net formation was in progress. At 30 days, the ectomycorrhizas presented all the typical morphological structures fully developed. To evaluate gene expression during the association, partial sequences of ras and ef1α were isolated and the transcripts evaluated at the pre-symbiotic phase and at 3, 15 and 30 days after physical contact of the fungus with the plant roots. The transcripts of the gene ef1α were expressed at all evaluated times. Transcripts of ras were only detected in the ectomycorrhizas after three, 15, and 30 days of contact. These results are fundamental for a better understanding of the ectomycorrhizal association between S. laeve and E. grandis and suggest that ras-mediated signal transduction pathways may be functional during the establishment of the symbiosis between the fungus and the host roots. / A associação ectomicorrízica é uma interação mutualista entre raízes de plantas e fungos do solo, resultando em mudanças morfofisiológicas do sistema radicular das plantas. Os benefícios nutricionais advêm da capacidade do fungo em aumentar a absorção de nutrientes minerais pelas plantas, recebendo em troca os fotoassimilados. Na associação entre Scleroderma laeve e Eucalyptus grandis ainda não se tem informações de quais genes são decisivos e estão relacionados a este processo. Transcritos dos genes ras e ef1α foram identificados durante a formação da simbiose e sendo diferencialmente expressos na associação ectomicorrízica, e estão relacionados a vias de transdução de sinal e atuando na síntese protéica, respectivamente. Assim, os objetivos deste trabalho foram estabelecer a associação ectomicorrízica in vitro entre S. laeve e E. grandis, isolar sequências parciais dos genes ras e ef1α do fungo ectomicorrízico S. laeve, e avaliar a expressão funcional destes genes durante as fases de formação das ectomicorrizas. Este trabalho comprova a associação in vitro entre S. laeve e E. grandis, sendo registrada pela primeira vez. As estruturas típicas das ectomicorrizas, como a formação do manto fúngico e da rede de Hartig foram observadas. Nos tempos avaliados, em três dias de contato já havia a formação do manto fúngico. Aos 15 dias, o manto fúngico estava completamente formado, as células da epiderme alongadas e a rede de Hartig, em formação. Aos 30 dias, as ectomicorrizas apresentavam todas as estruturas típicas desenvolvidas. Para avaliar a expressão dos genes durante a associação, sequências parciais dos genes ras e ef1α foram isolados, e os transcritos destes genes foram avaliados na fase pré-simbiótica e aos três, 15 e 30 dias após o contato físico. Os transcritos do gene ef1α foram expressos durante todos os tempos avaliados. Os transcritos do gene ras foram detectados nas ectomicorrizas após três, 15 e 30 dias. Estes resultados são fundamentais para uma melhor compreensão da associação ectomicorrízica entre S. laeve e E. grandis e sugerem que as vias de transdução de sinais mediada por ras podem ser funcionais durante o estabelecimento da simbiose entre os fungos e as raízes de plantas.

Scleroderma laeve

Proteína Ras

Fator de elongação EF1&#945

Ectomicorrizas

Expressão gênica

Scleroderma laeve

Ras protein

Elongation factor EF1&#945

Ectomycorrhizas

Gene expression

CNPQ::CIENCIAS BIOLOGICAS::GENETICA

Regulation of Cellular and HIV-1 Gene Expression by Positive Transcription Elongation Factor B: A Dissertation

O'Brien, Siobhan

26 October 2010

RNA polymerase II-mediated transcription of HIV-1 genes depends on positive transcription elongation factor b (P-TEFb), the complex of cyclin T1 and CDK9. Recent evidence suggests that regulation of transcription by P-TEFb involves chromatin binding and modifying factors. To determine how P-TEFb may connect chromatin remodeling to transcription, we investigated the relationship between P-TEFb and histone H1. We show that P-TEFb interacts with H1 and that H1 phosphorylation in cell culture correlates with P-TEFb activity. Importantly, P-TEFb also directs H1 phosphorylation during Tat transactivation and wild type HIV-1 infection. Our results also show that P-TEFb phosphorylates histone H1.1 at a specific C-terminal site. Expression of a mutant H1.1 that cannot be phosphorylated by P-TEFb disrupts Tat transactivation as well as transcription of the c-fos and hsp70 genes in HeLa cells. P-TEFb phosphorylation of H1 also plays a role in the expression of muscle differentiation marker genes in the skeletal myoblast cell line C2C12. Additionally, ChIP experiments demonstrate that H1 dissociates from the HIV-1 LTR in MAGI cells, stress-activated genes in HeLa cells, and muscle differentiation marker genes in C2C12 cells under active P-TEFb conditions. Our results overall suggest a new role for P-TEFb in both cellular and HIV-1 transcription through chromatin.

RNA Polymerase II

Transcription Factors

HIV-1

Amino Acids, Peptides, and Proteins

Genetics and Genomics

Viruses

Studies of the impact of mycoflora associated with oryza sativa (rice) in South Africa

Hossain, Mohammed Tufazzal

17 March 2014

The objective of this research was to investigate the occurrence of mycoflora in rice plants and rice seeds in South Africa and their negative impact. A total of six species of Fusarium were isolated from diseased rice plants and rice seeds and identified as F. anthophilum, F. chlamydosporum, F. compactum, F. equiseti, F. fujikuroi and F. semitectum. In the translation elongation factor data set, Fusarium equiseti isolates grouped together within the F. incarnatum - equiseti Species Complex (FIESC). The isolates from rice clustered together in a single clade with the F. equiseti and F. incarnatum isolates forming two separate sub-clades.The isolates of F. equiseti present a new phylogenetically distinct species in FIESC. In the pathogenicity tests, isolates of both F. anthophilum and F. fujikuroi caused bakanae disease to rice plants. Fifty four rice cultivars and lines were tested by the standardized test tube inoculation method for resistance and susceptibility against bakanae isolate of F. anthophilum and the bakanae isolate of F. fujikuroi. None of the rice cultivars and lines was found to be resistant to bakanae isolates of Fusarium spp. The fungicide, benomyl was found to be most effective as a seed treatment for controlling bakanae disease of rice due to isolates of both F. anthophilum and F. fujikuroi. Thiram was found to be the least effective fungicide for controlling bakanae disease of rice caused by isolates of both the Fusarium spp. Apart from Fusarium species, other fungi that were also isolated from diseased rice plants and rice seeds were identified as Alternaria alternata, Alternaria longipes, Cochliobolus miyabeanus, Nigrospora sphaerica, Phoma eupyrena, Phoma jolyana, Phoma sorghina and Pithomyces sp. In mycotoxin tests, the isolates of both F. anthophilum and F. fujikuroi produced moniliformin. None of the isolates of F. anthophilum and F. fujikuroi produced fumonisins. This research is important as it identifies many fungal species in rice plants and seeds in South Africa for the first time. Currently, there is very little literature that makes reference to such findings under South African conditions. In addition, this investigation unravels previously unknown information on the resistance of rice to bakanese disease. Finally, information is provided on the effectiveness of commonly used fungicides (benomyl and thiram) to control rice diseases. This knowledge is crucial information that is useful to plant pathologists, the farming community and the scientists that are involved in strategies of fighting or reducing rice diseases so as to help contribute to food security. / Environmental Sciences / D. Phil. (Environmental Science)

Mycoflora

Oryza sativa

Fusarium species

Fungi

Translation elongation factor (TEF)

Pathogenicity

Disease control

Mycotoxins

Impact

633.1893

Mycotoxins -- South Africa

Fungicides -- South Africa

Habitat selection, cryptic diversity, phylogeny, and phylogeography of the European Lepidocyrtus lanuginosus species group (Collembola: Entomobryidae)

Zhang, Bing

14 December 2018

No description available.

570

DNA barcoding

genetic variation

mitochondrial genes

pigmentation

springtail

ribosomal subunit 28S rDNA D1–2 domain

elongation factor 1-α

cytochrome c oxidase subunit I

cytochrome c oxidase subunit II

Quaternary ice age

genetic structure

Biologie (PPN619462639)

Studies of the impact of mycoflora associated with oryza sativa (rice) in South Africa

Hossain, Mohammed Tufazzal

17 March 2014

The objective of this research was to investigate the occurrence of mycoflora in rice plants and rice seeds in South Africa and their negative impact. A total of six species of Fusarium were isolated from diseased rice plants and rice seeds and identified as F. anthophilum, F. chlamydosporum, F. compactum, F. equiseti, F. fujikuroi and F. semitectum. In the translation elongation factor data set, Fusarium equiseti isolates grouped together within the F. incarnatum - equiseti Species Complex (FIESC). The isolates from rice clustered together in a single clade with the F. equiseti and F. incarnatum isolates forming two separate sub-clades.The isolates of F. equiseti present a new phylogenetically distinct species in FIESC. In the pathogenicity tests, isolates of both F. anthophilum and F. fujikuroi caused bakanae disease to rice plants. Fifty four rice cultivars and lines were tested by the standardized test tube inoculation method for resistance and susceptibility against bakanae isolate of F. anthophilum and the bakanae isolate of F. fujikuroi. None of the rice cultivars and lines was found to be resistant to bakanae isolates of Fusarium spp. The fungicide, benomyl was found to be most effective as a seed treatment for controlling bakanae disease of rice due to isolates of both F. anthophilum and F. fujikuroi. Thiram was found to be the least effective fungicide for controlling bakanae disease of rice caused by isolates of both the Fusarium spp. Apart from Fusarium species, other fungi that were also isolated from diseased rice plants and rice seeds were identified as Alternaria alternata, Alternaria longipes, Cochliobolus miyabeanus, Nigrospora sphaerica, Phoma eupyrena, Phoma jolyana, Phoma sorghina and Pithomyces sp. In mycotoxin tests, the isolates of both F. anthophilum and F. fujikuroi produced moniliformin. None of the isolates of F. anthophilum and F. fujikuroi produced fumonisins. This research is important as it identifies many fungal species in rice plants and seeds in South Africa for the first time. Currently, there is very little literature that makes reference to such findings under South African conditions. In addition, this investigation unravels previously unknown information on the resistance of rice to bakanese disease. Finally, information is provided on the effectiveness of commonly used fungicides (benomyl and thiram) to control rice diseases. This knowledge is crucial information that is useful to plant pathologists, the farming community and the scientists that are involved in strategies of fighting or reducing rice diseases so as to help contribute to food security. / Environmental Sciences / D. Phil. (Environmental Science)

Mycoflora

Oryza sativa

Fusarium species

Fungi

Translation elongation factor (TEF)

Pathogenicity

Disease control

Mycotoxins

Impact

633.1893

Mycotoxins -- South Africa

Fungicides -- South Africa