Mutagenesis and development of herbicide resistance in sorghum for protection against Striga.

Ndung'u, David Kamundia.

January 2009

Sorghum (Sorghum bicolor) is an important cereal crop in sub-Saharan Africa. The parasitic weed Striga hermonthica is a major biotic constraint to sorghum production. A novel technology where planting seeds are coated with herbicide to kill Striga that attach to the roots of the host has been shown to be effective in protecting the cereal crop from Striga damage. However, the host plant must have herbicide tolerance. This technology has not been tested in sorghum because there are no herbicide tolerant sorghum varieties available in Kenya and is, therefore, unavailable for subsistence farmers. One of the ways in which genetic variation can be enhanced and herbicide resistance developed is through chemical mutagenesis with ethyl methane sulfonate (EMS). The objectives of this project, therefore, were to: 1) identify sorghum production constraints through farmer PRA in order to determine breeding priorities.in two Striga endemic districts in western Kenya; 2) develop an EMS mutagenesis protocol for sorghum and to enhance the genetic variability of the crop using chemical mutagenesis; 3) evaluate EMS-derived sorghum mutants for improved agronomic performance; 4) develop acetolactate synthase (ALS) herbicide resistance in sorghum and to characterize the mode of inheritance of the trait; 5) determine the effect of herbicide coating of seed of herbicide tolerant sorghum on Striga infestation. In order to determine breeding priorities and constraints in sorghum production and the likelihood of adoption of herbicide seed coating technology, a survey involving 213 farmers was conducted in two Striga endemic rural districts of Nyanza province in Kenya. Results indicated that local landraces like Ochuti, and Nyakabala were grown by more farmers (> 60%) than the improved varieties like Seredo and Serena (48%). Popularity of the landraces was linked to Striga tolerance, resistance to drought, bird damage and storage pests, yield stability and high satiety value. Major constraints to sorghum production were drought, Striga weed, storage pests, bird damage and poverty among the rural farmers. Important characteristics farmers wanted in new varieties were Striga and drought resistance, earliness, resistance to bird and weevil damage and good taste. Striga infestations in sorghum fields were > 70%. Cultural Striga control options were considered inadequate while inorganic fertilization and chemical control were considered effective but unaffordable. Farmers’ willingness to pay a premium of over 30% for a Striga solution gave indication that herbicide seed coating if effective could be adopted by farmers. As a prerequisite to development of herbicide resistance, a comparative study was carried out to determine optimum conditions for mutagenesis and to induce genetic variation in the sorghum. Two sorghum varieties were mutagenized using varying concentrations (0.1 to 1.5% v/v) of EMS and two exposure times (6h and 12h). In laboratory and greenhouse experiments, severe reduction of sorghum root and shoot lengths indicated effective mutagenesis. The LD50 based on shoot length reduction was 0.35% and 0.4% EMS for 6h for Seredo and Kari/mtama-1, respectively. The highest mutation frequency based on chlorophyll abnormalities was 56% for 0.3% EMS for 6h. In the M2 generation, phenotypic variances for panicle characteristics were increased on treatment with EMS. However, significant effects of exposure time and variety indicated the necessity of genotype optimization for some traits. In order to determine the significance of mutation breeding in sorghum, 78 mutant lines derived from EMS mutagenesis, their wild type progenitor (Seredo) and two local checks (Kari/mtama-1 and Serena) were evaluated for agronomic performance in two locations in Kenya. There were significant (P = 0.05) effects among entries for grain yield, 1000-seed weight and visual scores for height uniformity, head exertion, head architecture and overall desirability. The highest yielding entry-mutant line “SB2M13” had a yield of 160% and 152% relative to the wild type (Seredo) and the best check Kari/mtama-1, respectively. Mutant line “tag27” had the highest 1000-seed weight which was 133% relative to the wild type. Seven mutant lines were rated superior to the wild type for panicle characteristics, head exertion and overall desirability. However, the majority of mutants were inferior to the wild type for most characteristics. Superior mutant lines may be developed into direct mutant varieties after multi-location trials or used as breeding material for sorghum improvement. In order to develop acetolactate synthase (ALS) herbicide resistance in sorghum, over 50,000 seeds of Seredo were mutagenized with 0.3% EMS. Over four million M2 plants were screened using 20g ha-1 of the ALS herbicide, sulfosulfuron. Five mutants (hb46 hb12, hb462, hb56 and hb8) survived the herbicide treatment and were confirmed to be tolerant. Mutant lines displayed differential herbicide tolerance, and the general order of tolerance after spray or seed coat application was hb46 > hb12 > hb462 ~ hb56 > hb8. The LD50 values for herbicide application as a spray, or seed coat, showed mutant lines to be up to 20 and 170 fold, respectively, more resistant than the wild type. Chi square analysis of data from herbicide screening of F2 generation of mutant X wild type crosses indicated no difference from the Mendelian segregation of 1:2:1 indicating the herbicide tolerance was inherited as a single semi-dominant gene. Mutant X mutant crosses did not show allelism indicating that the tolerance in all five mutants could be a result of the same gene mutation. To determine effect of herbicide seed coating on Striga infestation, the five herbicide tolerant mutant lines, hb46, hb12, hb462, hb56 and hb8 and the wild type progenitor Seredo were coated with varying concentrations (0.5-1.5% g ha-1) of sulfosulfuron and planted in a Striga endemic field. There were significant (P=0.05) effects of herbicide concentration on Striga density, Striga flowering and seed set, and sorghum plant stand and biomass. All treatments with herbicide coated on sorghum seeds had lower Striga emergence. Coating sorghum seed with 1g ha-1 sulfosulfuron reduced Striga infestation, Striga flowering and Striga seed set by 47%, 52% and 77%, respectively, and was considered the most effective rate as it did not result in sorghum biomass reduction. Mutants displayed differential herbicide tolerance and Striga resistance. Combining seed coating with high herbicide tolerance and inherent Striga resistance would be most effective for Striga control. Overall, the study showed that EMS mutagenesis is effective in inducing variation in sorghum for several traits including herbicide resistance. The mutants developed in this study will be important for sorghum breeding and for protection of sorghum against the Striga weed. / Thesis (Ph.D.) - University of KwaZulu-Natal, Pietermaritzburg, 2009.

Sorghum--Diseases and pests--Kenya.

Sorghum--Breeding--Kenya.

Sorghum--Kenya--Genetics.

Sorghum--Mutation breeding--Kenya.

Chemical mutagenesis--Kenya.

Plants--Herbicide tolerance--Kenya.

Striga.

Herbicide-resistant crops--Kenya.

Theses--Plant breeding.

Détection, caractérisation et visualisation des structures transitoires de protéines par sondage au tryptophane

Vallée-Bélisle, Alexis

January 2008

Thèse numérisée par la Division de la gestion de documents et des archives de l'Université de Montréal

Protéines

Proteins

Mécanisme de repliement

Folding mechanism

Ubiquitine

Ubiquitin

Structure d'intermédiaires transitoires

Transient intermediates state

Spectroscopie de fluoresence

Fluorescence spectroscopy

Mutagenèse dirigée

Mutagenesis

Sondage par tryptophane

Tryptophan scanning

Analyse par valeur-w

w-value analysis

Biotechnologies

Biotechnology

Étude du réseau d'interactions entre les protéines du Virus de l'Hépatite C

Racine, Marie-Eve

January 2007

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal

VHC

HCV

Interactions protéine-protéine

Protein-protein interactions

NS3/4A

NS3/4A

NS4B

NS4B

NS5A

NS5A

BRET

BRET

Microscopie de fluorescence

Fluorescence microscopy

Localisation subcellulaire

Subcellular localization

Co-immunoprécipitation

Co-immunoprecipitation

Mutagénèse

Mutagenesis

Construction and Characterization of a Robust in vivo Technology for the Production of Superior DNA Vectors for Gene Therapy and Vaccination

Nafissi, Nafiseh

06 November 2014

Plasmid DNA (pDNA) vectors are the current conventional technology driving therapeutic gene transfer, whether for use toward mal/nonfunctional gene replacement, DNA vaccination, or production of therapeutic proteins in mammalian cells. However, the conventional pDNA vector suffers from several safety and efficiency limitations: 1) it imparts adverse immune responses to bacterial sequences required for maintenance and amplification in prokaryotes; 2) its bioavailability can be compromised due to size; and 3) it may be genotoxic due to its potential to integrate into the host chromosome and yield an oncogenic event. In this study we have constructed a robust in vivo bacterial platform for the production of bacterial sequence-free linear covalently closed (LCC) DNA vectors, termed DNA Ministrings, through the manipulation and application of bacteriophage-encoded recombination systems. Phage N15 and PY54 lysogenize their bacterial hosts as a linear plasmid with covalently closed ends (LCC plasmid). LCC morphology is conferred by the phage-encoded telomerase via a single cleaving-joining reaction of the perfect palindrome target site. This system was exploited to generate DNA Ministring vectors, encoding only the gene(s) of interest and necessary complementary eukaryotic expression/enhancement genetic elements that are devoid of unwanted bacterial sequences and are linearized through a single in vivo enzymatic reaction. The tel and telN prokaryotic telomerase (protelomerase) genes were amplified from PY54 and N15 lysates, respectively, and cloned into a bacterial vector that expresses the gene under control of the temperature sensitive bacteriophage ?? CI857 repressor that confers conditional expression from ?? pL/pR promoters. This regulatory circuit was integrated into a RecA+ lacZ+ E. coli K-12 strain via homologous recombination, where successful recombinants were disrupted for the lacZ gene. Recombinant cells are capable of conditional expression of the phage-derived telomerase enzymes by shifting the temperature to >37 ??C. Phage P1-derived Cre recombinase was applied as a positive control, since its functionality in generating DNA minicircle vectors has been previously shown. A multi-purpose 342 bp target site termed Super Sequence (SS) that possesses the Cre, Flp, Tel, and TelN target sites in addition to two flanking SV40 enhancer sequences was cloned into two different sites of a GFP expression eukaryotic pDNA vector. The amplification of this DNA vector through telN / tel or cre expressing Recombinant E. coli cells (R-cells) generated bacterial sequence-depleted (LCC) DNA Ministring and (CCC) Minicircle vectors, respectively, as evidenced by digestion patterns of the purified vector. Transfection efficiency of these vectors was assessed in rapidly dividing human ovarian cancer and in relatively slowly dividing human embryonic kidney cell lines. In vitro experiments with DNA Ministrings in human cells lines resulted in significantly higher transfection efficiency, bioavailability, and cytoplasmic diffusion levels compared to the parental plasmid precursor and isogenic DNA Minicircle counterparts. The safety of the LCC DNA vector conformation, with respect to insertional genotoxicity, was assessed by forcing LCC pDNA vectors into bacterial and human genomic DNA. The integration of LCC DNA into bacterial and human host genomic DNA resulted in chromosomal DNA disruptions at site of integration, loss of genome stability, and subsequent cell death. LCC integration-induced apoptotic cell death and natural elimination of the integrant from human cell population improves the safety profile of DNA Ministrings by eliminating integrants following the potential genotoxic side effects of undesired vector integration into the host genome.

Gene therapy

Protelomerase

DNA vectors

Phage PY54 Tel/pal system

Phage N15 TelN/telRL system

Phage recombination systems

Vector safety and effectiveness

Insertional mutagenesis

Bacterial sequence-free DNA vectors

DNA Ministrings

Regulation of mitochondrial ATPase by its inhibitor protein IF1 in Saccharomyces cerevisiae

Wu, Qian

12 December 2013

ATP synthase is an essential protein complex located in the mitochondrial inner membrane, which synthesize ATP by coupling to a rotary proton transport across the membrane at the expense of the electrochemical proton gradient created by the electron transport chain. This reaction guarantees the supply of energy to biological processes in a cell. When mitochondria get deenergized, i.e. the protomotive force across the mitochondrial inner membrane collapses, the ATP synthase switches from ATP synthesis to hydrolysis. This hydrolytic activity is then immediately prevented by a natural soluble mitochondrial ATPase inhibitor, IF1. This efficient reversible inhibition system protects cells from wasting energy. In yeast, IF1 is a small protein consisting of 63 amino acids. It binds to one of the three (αβ) catalytic interfaces of ATP synthase and thereby blocks the rotary catalysis. Although the crystal structure of the dead-end IF1 inhibited F1-ATPase complex has been resolved, IF1 initial binding and locking to ATPase still remain unclear events at the molecular level.During my thesis, we have been interested in the dynamic mechanism of ATPase inhibition by IF1. By means of analyses of published structures and protein sequence alignment, we selected numerous residues located in different regions of Saccharomyces cerevisiae ATP synthase α, β subunits, which might potentially paticipate in IF1 binding process. Using site-directed mutagenesis combined with kinetic experiments, we studied the effect of mutations of the selected candidates on the rate and extent of ATPase inhibition by IF1. In this way we identified residues or motifs in ATP synthase α, β subunits involved in IF1 recognition and/or locking steps, which allows complementing structural studies and drawing an outline of IF1 binding.

Mitochondria

ATP synthase

Rotation

Protomotive force

Electron transport chain

IF1 inhibition

IF1 recognition and locking

Mutagenesis

Kinetics

Kon

Koff

Kd

Advances in Ligand Binding Predictions using Molecular Dynamics Simulations

Keränen, Henrik

January 2014

Biochemical processes all involve associations and dissociations of chemical entities. Understanding these is of substantial importance for many modern pharmaceutical applications. In this thesis, longstanding problems with regard to ligand binding are treated with computational methods, applied to proteins of key pharmaceutical importance. Homology modeling, docking, molecular dynamics simulations and free-energy calculations are used here for quantitative characterization of ligand binding to proteins. By combining computational tools, valuable contributions have been made for pharmaceutically relevant areas: a neglected tropical disease, an ion channel anti-drug-target, and GPCR drug-targets. We report three compounds inhibiting cruzain, the main cysteine protease of the protozoa causing Chagas’ disease. The compounds were found through an extensive virtual screening study and validated with experimental enzymatic assays. The compounds inhibit the enzyme in the μM-range and are therefore valuable in further lead optimization studies. A high-resolution crystal structure of the BRICHOS domain is reported, together with molecular dynamics simulations and hydrogen-deuterium exchange mass spectrometry studies. This work revealed a plausible mechanism for how the chaperone activity of the domain may operate. Rationalization of structure-activity relationships for a set of analogous blockers of the hERG potassium channel is given. A homology model of the ion channel was used for docking compounds and molecular dynamics simulations together with the linear interaction energy method employed for calculating the binding free-energies. The three-dimensional coordinates of two GPCRs, 5HT1B and 5HT2B, were derived from homology modeling and evaluated in the GPCR Dock 2013 assessment. Our models were in good correlation with the experimental structures and all of them placed among the top quarter of all models assessed.  Finally, a computational method, based on molecular dynamics free-energy calculations, for performing alanine scanning was validated with the A2A adenosine receptor bound to either agonist or antagonist. The calculated binding free-energies were found to be in good agreement with experimental data and the method was subsequently extended to non-alanine mutations. With extensive experimental mutation data, this scheme is a valuable tool for quantitative understanding of ligand binding and can ultimately be used for structure-based drug design.

free-energy perturbation

molecular dynamics

ligand binding

free-energy perturbation

linear interaction energy

binding free-energy

homology modeling

virtual screening

alanine scanning

amino acid mutagenesis

hERG

GPCR

adenosine receptor

serotonin receptor

BRICHOS

cruzain

Directed Evolution of Glutathione Transferases with Altered Substrate Selectivity Profiles : A Laboratory Evolution Study Shedding Light on the Multidimensional Nature of Epistasis

Zhang, Wei

January 2011

Directed evolution is generally regarded as a useful approach in protein engineering. By subjecting members of a mutant library to the power of Darwinian evolution, desired protein properties are obtained. Numerous reports have appeared in the literature showing the success of tailoring proteins for various applications by this method. Is it a one-way track that protein practitioners can only learn from nature to enable more efficient protein engineering? A structure-and-mechanism-based approach, supplemented with the use of reduced amino acid alphabets, was proposed as a general means for semi-rational enzyme engineering. Using human GST A2-2*E, the most active human enzyme in the bioactivation of azathioprine, as a parental enzyme to test this approach, a L107G/L108D/F222H triple-point mutant of GST A2-2*E (thereafter designated as GDH) was discovered with 70-fold increased activity, approaching the upper limit of specific activity of the GST scaffold. The approach was further experimentally verified to be more successful than intuitively choosing active-site residues in proximity to the bound substrate for the improvement of enzyme performance. By constructing all intermediates along all putative mutational paths leading from GST A2-2*E to mutant GDH and assaying them with nine alternative substrates, the fitness landscapes were found to be “rugged” in differential fashions in substrate-activity space. The multidimensional fitness landscapes stemming from functional promiscuity can lead to alternative outcomes with enzymes optimized for other features than the selectable markers that were relevant at the origin of the evolutionary process. The results in this thesis suggest that in this manner an evolutionary response to changing environmental conditions can readily be mounted. In summary, the thesis demonstrates the attractive features of the structure-and-mechanism-based semi-rational directed evolution approach for optimizing enzyme performance. Moreover, the results gained from the studies show that laboratory evolution may refine our understanding of evolutionary process in nature.

glutathione transferase

azathioprine

directed evolution

semi-rational design

catalytic mechanism

saturation mutagenesis

reduced amino acid alphabets

molecular docking

protein evolution

multivariate data analysis

epistasis

fitness landscape

evolutionary trajectories

Biochemistry

Biokemi

Producció i caracterització de variants de la ribonucleasa pancreàtica humana dissenyades per a adquirir propietats citotòxiques

Bosch i Grau, Montserrat

18 December 2003

Amb la finalitat d'aprofundir en les bases moleculars de la citotoxicitat de les ribonucleases pancreàtiques, es van construir variants derivades de l'HP-RNasa seguint dues estratègies. En la primera, es van generar variants de l'enzim resistents a l'acció de l'inhibidor proteic de les ribonucleases (hRI), substituint residus implicats en la interfície de contacte entre la ribonucleasa i l'hRI. En la segona, es va addicionar el motiu RGD en regions de superfície de la proteïna implicades en la formació del complex amb l'hRI, a fi de promoure la seva interacció amb la membrana plasmàtica de les cèl·lules i a la vegada disminuir l'afinitat de les variants per l'hRI. Es va comprovar que només les variants portadores de substitucions múltiples adquirien la capacitat de resistència a l'hRI.L'estudi del percentatge d'inhibició de la síntesi proteica en cèl·lules incubades amb cadascuna de les variants va mostrar que només dues de les variants construïdes havien adquirit propietats citotòxiques. La citotoxicitat més elevada la va presentar una variant que no era resistent a l'hRI, amb valors que eren només entre 5 i 15 vegades inferiors als de l'onconasa. Aquest resultat demostrà que la sensibilitat a l'hRI no és necessàriament un paràmetre limitant per a la citotoxicitat de les ribonucleases. Cap de les variants que incorporava un motiu RGD presentà citotoxicitat, evidenciant que aquest motiu no és efectiu a fi de dotar les ribonucleases pancreàtiques de propietats citotòxiques.Es van estudiar les bases moleculars de la citotoxicitat de la variant més citotòxica. En primer lloc, l'anàlisi de la internalització per marcatge radioactiu d'aquesta variant en relació amb l'onconasa i amb altres variants de l'HP-RNasa no citotòxiques, va posar en evidència que només l'onconasa era internalitzada eficientment. Es descartava així la possibilitat que l'acció citotòxica de l'enzim estudiat fos conseqüència d'una major eficiència d'endocitosi. També es va comprovar que l'addició del motiu RGD no era capaç de promoure la internalització de les proteïnes amb més eficàcia. Per microscòpia confocal de fluorescència, les variants humanes només es van començar a detectar a l'interior de la cèl·lula a partir de les 24 h d'incubació.Totes les variants generades van presentar una eficiència catalítica superior al 50 % de l'activitat de la seva proteïna parental, PM5, indicant que probablement l'estructura del centre actiu no havia estat afectada de manera dràstica per les substitucions introduïdes. No obstant, en tots els casos es va produir una disminució en la termoestabilitat respecte a PM5. Aquest resultat indicà que la correlació descrita a la bibliografia entre l'increment de termoestabilitat i l'increment de citotoxicitat per les ribonucleases no sempre es compleix. Per microscòpia confocal es va comprovar que tant la proteïna més citotòxica, com una variant no citotòxica resistent a l'hRI, així com la proteïna parental, seguien la via de degradació lisosomal. Aquesta ruta de trànsit no va ser afectada per l'addició de drogues que alteren les vies de trànsit retrògrad (monensina i brefeldina A), però sí per l'addició de la bafilomicina A1, una droga que neutralitza el pH endosomal i que va actuar alentint el trànsit de les proteïnes als lisosomes. D'acord amb aquests resultats, els valors de citotoxicitat de les variants es van incrementar de manera significativa només en presència de bafilomicina A1, suggerint que les ribonucleases transloquen al citoplasma a partir d'algun punt de la via de trànsit endosomal.Es va comprovar que l'acció de la variant més citotòxica era deguda a que l'addició d'un segon motiu de tres Arg en PE5 dota a aquesta proteïna amb un senyal de transport nuclear. La fracció d'enzim que aconsegueix translocar al citoplasma a partir d'algun punt de la via endosomal previ als lisosomes, és conduït ràpidament al nucli de la cèl·lula per mitjà del mecanisme clàssic de transport actiu. Per la seva afinitat amb l'rRNA, l'enzim es concentra en el nuclèol, on probablement duu a terme la seva activitat catalítica. La interacció d'aquesta variant amb els receptors nucleocitoplasmàtics, les importines, impediria per altra banda el bloqueig de l'enzim per part de l'hRI.Els resultats obtinguts presenten una nova estratègia de disseny de ribonucleases citotòxiques, basada en l'addició de segments NLS a fi de promoure el transport nuclear dels enzims. Aquesta estratègia podria permetre superar limitacions que fins al moment han estat descrites com a limitants de la citotoxicitat de les ribonucleases pancreàtiques, com la sensibilitat a l'hRI o la baixa eficiència d'internalització. / The main objective of this thesis is to study the molecular bases of the cytotoxicity of certain ribonucleases. With the final aim to obtain cytotoxic variants derived from human pancreatic ribonuclease. For this purpose, we created variants derived from HP-RNase by using two different strategies. In the first, variants of the enzyme that were resistant to the action of the protein inhibitor of the ribonuclease (RI) were generated, replacing residues involved in the contact interfase between the ribonuclease and RI. In the second, RGD motifs were added to the surface of the proteins involved in the formation of the RI complex, with the aim of promoting their interaction with the cell plasmatic membrane, whilst at the same time decreasing the variant's affinity for RI. We showed that only variants carrying multiple substitutions acquired the capacity to resist the RI.The study of the percentage of inhibition of protein synthesis in incubated cells using each of the variants showed that only two variants had acquired cytotoxic properties. The highest level of cytotoxicity found in a non-resistant variant to RI had a value that was only 5 and 25 times lower than those registered by Onconase®. This result shows that RI sensitivity is not a limiting factor for the cytotoxicity of the ribonuclease. None of the variants which contained RGD motifs showed any sign of toxicity, suggesting that for this reason it is not effective in giving pancreatic ribonuclease cytotoxic properties.The cytotoxic molecular bases of the most cytotoxic variant were studied. Firstly by the analysis of the internalisation of this particular variant by radioactive marking in relation to Onconase and other non-cytotoxic variants of HP-RNase, which showed that only Onconase was effectively internalised. Thus the possibility that the cytotoxic action of the enzyme under observation was a result of a more efficient endocytosis was ruled out. It was also shown that the addition of the RGD motif was unable to encourage the internalisation of the proteins more effectively. Using confocal microscopy, the human variants only began to be noted inside the cell after 24 hours incubation.All the variants that were created retained a catalytic efficiency that was never less than 50 % of the catalytic activity achieved by the parent protein PM5. This suggests that the structure within the active centre had not been affected in any serious way by the introduction of the substitutions. However a decrease in thermostabilty was noted across the board with regards to PM5. This result indicates that the correlation mentioned in the bibliography between the increase of thermostability and the increase of cytotoxicity of the ribonuclease does not always exist.Using a confocal microscope, we confirmed that both the most cytotoxic protein, such as a non-cytotoxic variant resistant to RI, and the parent protein, followed the same lysosomal pathway of degradation. This outcome was unaffected by the addition of drugs which can change retrograde transit pathways (monensine and brefeldine A), but was effected by the addition of bafilomicine A1 a drug which neutralises endosomal pH and which in this case acted by slowing down the movement of proteins to lysosomes. In accordance with these results, the cytotoxicity values of the variants were significantly increased only by the presence bafilomicine A1 suggesting that the ribonuclease translocate into the cytoplasm starting from a point somewhere along the endosomal transit pathway.We confirmed that the behaviour of the most cytotoxic variant was due to the fact that the addition of a second motif of 3 Arg in PE5 endowed the protein with a nuclear transport signal. The division of the enzyme that translocates into the cytoplasm (from somewhere along the endosomal transit path before the lysosomes) is rapidly moved towards the core of the cell via the conventional mechanism for nucleus transport. Due to its affinity for rRNA, the enzyme gathers in the nucleolus, where it probably carries out its catalytic activity. On the other hand, the interaction of this variant with nucleocytoplasmatic receptors will prevent the RI from inhibiting the enzyme.These results offer a new strategy for the design of cytotoxic ribonuclease, based on the addition of NLS motifs, with the aim of encouraging the nuclear transport of enzymes. This strategy could allow one to overcome limitations that up until now have been the down-side to the cytotoxicity of pancreatic ribonuclease, such as a sensitivity for RI or the limited efficiency of internalisation.

Transporte nuclear

Cytotoxicity

Citotoxicidad

Citotoxicitat

Inhibidores de ribonucleasa

Ribonucleasa inhibitor

Inhibidor de ribonucleasa

Ribonucleasa pancreática humana

Ribonucleasa pancreàtica humana

Human pancreatic ribonuclease

Transport nuclear

Mutagènesi dirigida

Mutagénesis dirigida

Nuclear transport

Mutagenesis

576

The relationship between dietary factors, meat consumption, heterocyclic amines, Benzo[a]pyrene, meat-derived mutagenic activity and colorectal cancer in Western Australia

Tabatabaei, Seyed Mehdi

January 2009

The role of meat consumption in the development of cancer, including colorectal cancer (CRC), has been subject of much investigation in recent years. The observation of geographical variation in CRC incidence and increased CRC risks in populations consuming high levels of meat prompted researchers to hypothesise a link between meat and CRC. An area of particular interest in CRC pathogenesis is the meat-derived compounds such are heterocyclic amines (HCAs), polycyclic aromatic hydrocarbons (PAHs), and meatderived mutagenic activity. Australia is among the countries with high incidence of CRC and also high levels of per capita meat consumption. Hence, clarifying the possible link between meat consumption and the risk of CRC in order that this can be translated into preventive dietary recommendations for the public is important. The objective of this thesis was to examine whether meat consumption is related to risk of CRC in an Australian population. The term meat consumption in this thesis means meaures of consumption of red and white meat that incorporate frequency and cooking method. The following hypotheses were investigated: 1. Increasing intake of meat prepared by methods that involve higher cooking temperature and time is positively associated with the risk of CRC; 2. Increasing exposure to meat-derived heterocyclic amines (HCAs) is positively associated with the risk of CRC; 3. Higher levels of exposure to polycyclic aromatic hydrocarbons (PAHs) from meat consumption is a risk factor for CRC; 4. Exposure to meat-derived mutagens increases the risk of CRC.

Benzopyrene

Chemical mutagenesis

Mutagenicity testing

Rectum -- Cancer -- Western Australia

Meat consumption

Colorectal cancer

Heterocyclic amines

Benzo[a]pyrene

Meat mutageniaity

Μελέτη των εναλλακτικών ισομορφών του COUP-TF και οι ιδιότητες πρόσδεσής των στο DNA

Πέττα, Ιωάννα

07 October 2011

Οι μεταγραφικοί παράγοντες COUP-TF (Chicken Ovalbumin Upstream Promoter Transcription Factor) ανήκουν στην υπεροικογένεια των υποδοχέων στεροειδών/ θυρεοειδών ορμονών και θεωρούνται “ορφανοί”, αφού μέχρι στιγμής δεν έχει βρεθεί το υπεύθυνο πρόσδεμα για την ενεργοποίηση τους. Πειραματικές διαδικασίες στο εργαστήριο μας έχουν δείξει ότι στο πρωτογενές μετάγραφο των COUP-TFs συμβαίνει εναλλακτικό μάτισμα που έχει ως αποτέλεσμα την παραγωγή δύο mRNAs που κωδικοποιούν δύο πρωτεΐνες οι οποίες διαφέρουν ως προς το μέγεθος λόγω της εισαγωγής 21 επίπρόσθετων αμινοξέων στην καρβοξυτελική περιοχή (Carboxy Terminal Extension) της περιοχής πρόσδεσης στο DNA (DBD). Πειράματα EMSA με τη χρήση in vitro μεταφρασμένων πρωτεϊνών, αποκάλυψαν ότι η μεγάλη πρωτεΐνη δεν μπορεί να προσδεθεί σε κανένα COUP-TF στοιχείο απόκρισης. Επίσης παρατηρήθηκε ότι παρουσία της μεγάλης πρωτεΐνης, η ικανότητα της μικρής πρωτεΐνης να προσδένεται στο DNA μειώνεται με ανταγωνιστικό τρόπο, οδηγώντας στο συμπέρασμα ότι το ετεροδιμερές πρωτεϊνικό σύμπλοκο δεν μπορεί να προσδεθεί στο DNA. Σκοπός μας είναι να ερευνήσουμε το ρόλο της ένθεσης των 21 αμινοξέων στην μεγάλη πρωτεΐνη, ως προς την ικανότητα πρόσδεσης της στο DNA. Στον αχινό Paracentrotus lividus, η αμινοξική ένθεση στην καρβοξυτελική περιοχή (CTE) της μεγάλης πρωτεΐνης περιέχει δύο προλίνες. Η υπόθεση μας είναι ότι αυτές οι δύο προλίνες παίζουν σημαντικό ρόλο στην στερεοδιαμόρφωση της πρωτεΐνης, επηρεάζοντας την ικανότητα πρόσδεσης στο DNA. Για να ελέγξουμε την υπόθεση αυτή, προκαλέσαμε σημειακές μεταλλάξεις, μεταλλάσσοντας συγχρόνως τις δύο προλίνες σε αλανίνες αλλά κάθε μία προλίνη σε αλανίνη μεμονωμένα, καθώς επίσης μελετήσαμε και μια σειρά εσωτερικών αμινοξικών ελλειμάτων μέσα στην ένθεση των 21 αμινοξέων στην καρβοξυτελική περιοχή. Το σύνολο των μεταλλάξεων έδειξε ότι οι μεταλλαγμένες μεγάλες πρωτεΐνες δεν προσδένονται στο DNA καθώς επίσης ότι οι μεταλλαγμένες μεγάλες πρωτεΐνες ετεροδιμερίζονται πιο αποτελεσματικά με την μικρή ισομορφή πιθανότατα λόγω επαγόμενης αλλαγής της στερεοδιαμόρφωσης της μεταλλαγμένης πρωτεΐνης. Επίσης μελετήσαμε την εξάπλωση του εναλλακτικού ματίσματός στα Δευτεροστόμια, χρησιμοποιώντας ειδικούς εκφυλισμένους εκκινητές σε πειράματα PCR. Εναλλακτικό μάτισμα των μεταγράφων COUP-TF παρατηρήθηκε επίσης στους οργανισμούς Sphaerechinus granularis (Εχινόδερμο) και Saccoglossus kowalevskii (Ημιχορδωτό). / COUP-TFs (Chicken Ovalbumin Upstream Promoter- Transcription Factors) belong to the superfamily of steroid/thyroid hormone receptors and they are consider orphans since the proper ligand that activates them is not yet found. Experimental procedures in our laboratory have shown that in Echinoderms the alternative splicing of the COUP-TF primary transcript results in two mRNAs which encode two protein variants that differ by a 21 amino acid insertion in the Carboxy Terminal Extension (CTE) of the DNA Binding Domain (DBD). EMSA experiments with the use of in vitro translated proteins revealed that the large protein variant is incapable of binding any COUP-TF response elements. Furthermore, in the presence of the large variant, the small COUP-TF protein ability to bind DNA is diminished in an antagonistic way, suggesting that the heterodimeric protein is also incapable of DNA binding. Our aim is to investigate the role of the 21aa insertion in the large variant regarding the DNA binding affinity. In sea urchins the CTE insertion in the large variant contains two prolines. Our hypothesis is that these two prolines play an important role in the protein‟s conformation which in turn is responsible for the loss of DNA binding. To check this, we created point mutations by mutating both prolines to alanines simultaneously and then each proline to alanine separately. We also analyzed a series of internal amino acid deletions within the 21aa insertion of the CTE. All the mutations proved that the large mutated proteins are incapable of binding DNA and that they heterodimerize more effectively with the small protein variant possibly because of the changed conformation of the large protein variant. We also studied the alternative splicing among Deuterostomes, by using degenerate primers in PCR experiments. We observed that alternative splicing of COUP-TF transcripts occurs in the sea urchin Sphaerechinus granularis and in the hemichordate Saccoglossus kowalevskii.

Εναλλακτικό μάτισμα

DNA πρόσδεση

572.884 5

Alternative splicing

Nuclear hormone receptors

COUP-TF

DNA binding

Carboxy terminal extension (CTE)

Site directed mutagenesis