Genes do metabolismo do nitrogênio e suas implicações na patogenicidade e virulência da Xanthomonas citri subsp. citri / Genes of nitrogen metabolism and its implications in the pathogenicity and virulence of Xanthomonas citri subsp. citri

Amorim, Julie Anne Espíndola

27 April 2018

Submitted by JULIE ANNE ESPÍNDOLA AMORIM (julie__anne@hotmail.com) on 2018-06-05T18:33:56Z No. of bitstreams: 1 Tese_23-03-18-final_corrigida_05-06-2018_Juliecorrigidapdf.pdf: 3073465 bytes, checksum: 1673cd431dca7fe8472ab9ce8185182f (MD5) / Approved for entry into archive by Alexandra Maria Donadon Lusser Segali null (alexmar@fcav.unesp.br) on 2018-06-05T18:59:54Z (GMT) No. of bitstreams: 1 amorim_jae_dr_jabo.pdf: 3073465 bytes, checksum: 1673cd431dca7fe8472ab9ce8185182f (MD5) / Made available in DSpace on 2018-06-05T18:59:54Z (GMT). No. of bitstreams: 1 amorim_jae_dr_jabo.pdf: 3073465 bytes, checksum: 1673cd431dca7fe8472ab9ce8185182f (MD5) Previous issue date: 2018-04-27 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O cancro cítrico tipo A, causado pela bactéria Xanthomonas citri subsp. citri (XccA), é uma das doenças de citros mais importantes, afetando todas as cultivares comerciais, para a qual não existem ainda estratégias de controle eficientes. Os genes ntrB e ntrC codificam, respectivamente, a histidina quinase (HK) e o regulador de respostas (RR), pertencentes a um sistema de dois componentes (TCSs), que atuam no sistema regulador de nitrogênio (NTR). Porém, o possível papel desses genes na virulência da XccA e de outros fitopatógenos ainda não foi elucidado. Este estudo teve como objetivo investigar os efeitos dos genes ntrB e ntrC no desenvolvimento do cancro cítrico em limão-cravo (Citrus limonia Osbeck), bem como a possível relação desses genes com a regulação da expressão de genes do sistema de secreção tipo 3 (SST3), considerado um dos principais fatores de virulência da XccA. Os mutantes ΔntrB e ΔntrC foram obtidos pela técnica de mutagênese sítio-dirigida por reação em cadeia da polimerase de extensão por sobreposição. A mutação dos genes causou redução na sintomatologia do cancro cítrico e diminuição da população bacteriana no espaço intercelular do tecido foliar da planta. A análise das curvas de crescimento in vitro revelou que a ausência do gene ntrB não alterou a viabilidade da bactéria, enquanto a mutação do gene ntrC afetou o “fitness” bacteriano em meio de cultura NB. Análises in vitro indicaram que o mutante ΔntrC formou duas vezes mais biofilme e produziu cinco vezes mais goma xantana do que a XccA 306 in vitro. A expressão dos genes (hpa1, hrpG, hrpX, hrpE, hrpW e hrpD6) do SST3 avaliados foi significativamente maior (p < 0,05) no mutante ΔntrC do que na XccA 306 e no ΔntrB, indicando que ntrC possa atuar na regulação do SST3. Porém, o nível de expressão desses genes no mutante ΔntrB não apresentou diferença significativa (p > 0,05) em relação à XccA 306. A modelagem molecular revelou semelhança estrutural entre as regiões receptoras de NtrC e HrpG, sugerindo que a fosforilação de HrpG por NtrB possa ocorrer in vivo. Em síntese, os resultados obtidos neste estudo indicam que a mutação dos genes ntrB e ntrC afeta o desenvolvimento do cancro cítrico em limão-cravo e que o gene ntrC pode atuar na regulação dos mecanismos de formação de biofilme, produção de goma xantana e expressão de genes do SST3 e/ou que a ausência desse gene ocasione um desequilíbrio celular na XccA 306, resultando na alteração desses mecanismos, enquanto NtrB pode apresentar papel na regulação de genes do SST3 por meio da fosforilação de HrpG. / The citrus canker type A, provoked by the bacterium Xanthomonas citri subsp. citri (XccA), is one of themost important citrus diseases, affecting all the commercial cultivars, for which there are no effective control strategies. The ntrB and ntrC genes encode a histidine kinase (HK) and the response regulator (RR), respectively, belong to a two-component system (TCSs), related to the nitrogen regulatory system (NTR). However, the possible role of ntrB and ntrC genes in the virulence of XccA and other phytopathogens has not yet been elucidated. Therefore, the aim of this study was to investigate the impact of the ntrB and ntrC genes on the development of citrus canker in rangpur lime (Citrus limonia Osbeck), as well as the possible relation of ntrB and ntrC genes with the regulation of the type 3 secretion system (T3SS) gene expression, which is considered one of the main virulence factors of XccA. The ΔntrB and ΔntrC were obtained by site-directed mutagenesis through overlap extension polymerase chain reaction. The mutation of the ntrB and ntrC genes caused a reduction of the citrus canker symptoms, and decrease of the bacterial population in the intracellular space of the foliar tissue of the plant. In vitro growth curves analysis revealed that the ΔntrB did not affect the viability of the bacterium, whereas the ΔntrC affected the bacterial fitness in NB culture medium. In vitro analysis indicated that the ΔntrC formed 2x more biofilm, and produced 5x xanthan gum compared to the XccA 306. The T3SS related genes (hpa1, hrpG, hrpX, hrpE, hrpW and hrpD6) expression was significantly higher (p <0.05) in the ΔntrC than in the XccA 306 and the ΔntrB, indicating that ntrC can modulate the regulation of T3SS. However, the level of expression of these genes in the ΔntrB did not differ (p> 0.05) in relation to the XccA 306. Molecular modeling revealed structural similarity between NtrC and HrpG receptors motifs, suggesting that phosphorylation of HrpG by NtrB may occur in vivo. Overall, the results obtained in this study strongly suggest that the mutation of the ntrB and ntrC genes affect the development of rangpur lime citrus canker and that ntrC gene may play an important role in the regulation of the mechanisms of biofilm formation, xanthan gum production and T3SS gene expression and/or that the absence of this gene causes a cellular imbalance in XccA 306 resulting in the alteration of these mechanism, whereas the NtrB may have a role with the regulation of T3SS genes by phosphorylation of HrpG. / 3385/2013

cancro cítrico

mutagênese

sistema regulador de nitrogênio (NTR)

sistema de secreção tipo 3 (SST3)

citrus canker

mutagenesis

nitrogen regulation system (NTR)

two-component regulatory system (TCS)

type 3 secretion system (T3SS)

Ingénierie de lectines d'invertébrés par le développement de nouveaux outils de diagnostic en cancérologie / Engineering of invertebrate lectins for developing new tools in cancer research

Mathieu, Sophie

26 January 2011

La lectine de Helix pomatia (HPA), extraite de la glande à albumine de l'escargot de Bourgogne et spécifique du résidu GalNAc, appartient à une nouvelle famille de lectine dite de type H. Elle est utilisée depuis plus de vingt ans comme marqueur d'adénocarcinomes (notamment du sein, du colon, du poumon) à fort pouvoir métastatique et donc faible pronostic vital. Son utilisation comme outil de routine en oncologie est, cependant, fortement limitée par son impossibilité à la produire sous forme recombinante. Afin de contourner ces difficultés, des protéines homologues ont été recherchées chez d'autres invertébrés. Deux lectines de type H ont été identifiées chez l'amibe Dictyostelium discoideum (discoidines) et une chez le corail Sinularia lochmodes (SLL-2). Les discoidines sont composées de deux domaines distincts, un domaine C-terminal, spécifique des résidus galactosylés et homologue à HPA et un domaine N-terminal, dit domaine discoidine, de fonction inconnue. Ces travaux de thèse portent, dans un premier temps, sur la poursuite de la caractérisation structurale de la discoidine 1 puis sur la production du domaine N-terminal de la discoidine 2 afin de confirmer la fonction lectine supposée. Dans un second temps, des expériences de microscopie confocale ont montrés que les discoidines ne possédaient pas la capacité d'HPA dans la discrimination des cellules métastatiques par rapport aux non métastatiques. La construction, par mutagenèse, d'une protéine chimérique entre la discoidine 2, très facilement produite dans E. coli, et HPA a alors été entreprise, le but étant de lui apporter la même spécificité qu'HPA. Enfin, la protéine SSL-2 a été clonée et de nombreux essais d'expression sous forme soluble et de purification ont été réalisés en vue de sa caractérisation biochimique et structurale pour sa possibilité d'utilisation comme marqueurs en histopathologie / The lectin of Helix pomatia (HPA), extracted from the albumin gland of the Roman snail and specific for the residue GalNAc, belongs to a new H type lectin family. It is used for twenty years as marker for metastatic adenocarcinoma (in particular breast, colon, lung) associated with poor life prognostic. Nevertheless, its use as routine tool in oncology is highly limited because of its incapability to produce it in a recombinant form. To avoid these difficulties, homologous proteins were searched in others invertebrates. Two H type lectins have been identified in the amiboe Dictyostelium discoideum (discoidins) and one in the coral Sinularia lochmodes (SLL-2). Discoidins are composed of two distinct domains, a C-terminal domain, specific for galactosylated residues and homologuous to HPA and an N-terminal domain, called discoidin domain, with unknown function. This thesis is focused, in a first time, on the continuation of structural characterization of discoidin 1 and on the production of the N-terminal domain of discoidin 2 to confirm the supposed lectin function. In a second time, confocal microscopy experiments showed that discoidins was not able to discriminate metastatic cancer cells to non metastatic ones, as HPA does. The construction, by mutagenesis, of a chimeric protein between discoidin 2, easily produced in E. coli, and HPA, began. The purpose was to give the same specificity as HPA. Last, SLL-2 was cloned and numerous expression assays, in a soluble form, and purification was tried to characterize the protein biochemistrycally and structurally. The aim was to test it as marker in histopathology.

Hpa

Lectines de type H

Cristallographie aux rayons X

Résonance plasmonique de surface

Mutagenèse

Spectrometrie de masse

Discoidines

HPA discoidins

H-type lectins

X-ray crystallography

Surface Plasmon Resonance

Mutagenesis

Mass spectrometry

Discoidins

540

Mapeamento e deleção de epítopos lineares de linfócitos B em proteínas do vírus da síndrome respiratória e reprodutiva dos suínos para a produção de uma vacina diferencial / Mapping and deletion of B-cell linear epitopes in proteins of porcine reproductive and respiratory syndrome virus for the production of a differential vaccine

Lima, Marcelo de

25 February 2008

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Porcine reproductive and respiratory syndrome virus (PRRSV) was isolated for the first time in 1991 and since then it has been associated with significant economic losses to the pig industry worldwide. Although vaccination against PRRSV is widely used, an important advance would be the development of marker vaccines allowing serologic discrimination between vaccinated and naturally infected animals. The present study aimed to identify immunogenic and conserved regions dispensable to viral replication in different PRRSV proteins, which could be used as negative serologic markers in a new generation of liveattenuated vaccines. A fine mapping of B-cell linear epitopes in different PRRSV proteins by Pepscan is presented in the first part of this thesis. The results indicated the presence of several B-cell linear epitopes in the non-structural protein 2 (Nsp2) and in all structural proteins encoded by PRRSV, which were consistently recognized by antibodies raised in pigs experimentally infected with a North American strain of the virus (NVSL97-7895). The Nsp2 was found to harbor the highest frequency of immunodominant epitopes (n=18) when compared to structural proteins. In the structural proteins, epitopes consistently recognized by immune sera were located in all studied proteins. Overall, the highest degree of immunogenicity and conservation was exhibited by two epitopes identified in the C-terminal end of the M protein (ORF6). The antibodies recognizing the immunodominant epitopes of each protein were detected as early as days 7 to 15 post-infection (p.i.) and remained detectable until the end of the experiment (day 90 p.i). Based on their immunodominance and level of amino acid (aa) conservation, two target epitopes were selected to serve as serological marker candidates in each of the following PRRSV proteins: Nsp2, GP3 and M. These epitopes were deleted in the wild-type cDNA infectious clone (FL-12) by site-directed mutagenesis. The results of this study are presented in the second part of this thesis. A Nsp2 mutant virus (FLdNsp2/44) was successfully rescued following RNA transfection in MARC 145 cells. This epitope deletion mutant fulfilled the requirements for a differential vaccine virus such as efficient growth in vitro and in vivo and induction of active seroconversion as measured by a commercial ELISA kit associated with the absence of a marker-specific peptide-ELISA response in 100% (n=15) of the vaccinated animals. In vitro and in vivo characterization of the mutant virus clearly showed that removal of a 15-mer Nsp2 epitope had no effect on the immunogenicity, growth properties or virulence when compared to the wild type virus. On the other hand, deletions of previously identified peptide marker candidates within GP3 and M genes were shown to be lethal for virus viability in vitro. Alternatively, by substitution of 5aa at a time within a M peptide marker candidate, a viable mutant virus could be recovered although it still resulted in a positive marker virus. In summary, our results provide proof of concept that PRRSV marker vaccines can be developed using such methodology. Taken together, these data indicate that the combination of a mutant virus carrying a deletion of an immunodominant epitope and the corresponding peptide ELISA represents an attractive approach for the development of PRRSV differential modified-live vaccines. / O vírus da síndrome respiratória e reprodutiva dos suínos (PRRSV) foi isolado pela primeira vez em 1991 e, desde então, tem sido associado a perdas significativas para a suinocultura mundial. Apesar da vacinação contra o PRRSV ser amplamente utilizada, um grande avanço seria alcançado com a elaboração de vacinas diferenciais que permitam a discriminação sorológica entre animais vacinados e naturalmente infectados. O presente estudo teve como objetivo a identificação de regiões imunogênicas, conservadas e dispensáveis a replicação viral, em diferentes proteínas do PRRSV, que pudessem ser utilizadas como marcadores sorológicos negativos em uma nova geração de vacinas atenuadas. Na primeira parte desta tese estão apresentados os resultados de um mapeamento de epítopos lineares de linfócitos B em diferentes proteínas do PRRSV, pelo uso da tecnologia de Pepscan. Os resultados indicam a presença de diversas regiões imunodominantes na proteína não estrutural 2 (Nsp2) e em todas as proteínas estruturais do vírus. Essas regiões foram consistentemente reconhecidas pelo soro de suínos experimentalmente infectados com uma cepa norte-americana do PRRSV (NVSL97-7895). A maior freqüência de epítopos imunodominantes foi identificada na Nsp2 (n=18) e o mais alto grau de imunogenicidade e nível de conservação de aminoácidos foi observado em dois epítopos identificados na extremidade carboxi-terminal da proteína M (ORF6). Anticorpos reagentes com epítopos imunodominantes de cada proteína foram detectados inicialmente entre os dias 7-15 pós-infecção (pi), permanecendo em altos títulos até o final do experimento (dia 90 pi). Com base na imunodominância e nível de conservação de amino ácidos (aa) das seqüências mapeadas, dois epítopos alvos foram selecionados como candidatos a marcadores sorológicos negativos em cada uma das proteínas Nsp2, Gp3 e M. Esses epítopos foram então deletados em um clone infeccioso de cDNA (FL12) por mutagênese sítio-direcionada. Os resultados desses experimentos encontram-se descritos na segunda parte da tese. Um vírus mutante carreando a deleção de um epítopo imunodominante da Nsp2 (FLdNsp2/44) foi obtido após transfeccção de RNA viral em células MARC145. A caracterização in vitro e in vivo do vírus mutante demonstrou que a remoção dos 15 aa da Nsp2 não produziu efeito sobre a imunogenicidade, replicação ou virulência quando comparado ao vírus parental. Além disso, observou-se indução de soroconversão contra o PRRSV em animais infectados, detectada pelo uso de um teste ELISA comercial. Por outro lado, não foi detectada resposta humoral específica contra a região deletada nos animais imunizados com o FLdNsp2/44, conforme resultados de um teste ELISA contendo como antígeno um peptídeo sintético correspondente a seqüência removida. Por outro lado, deleções dos epítopos previamente identificados na Gp3 e proteína M foram letais à viabilidade viral in vitro. Alternativamente, um outro vírus mutante foi gerado pela substituição de 5 aa do epítopo identificado na proteína M, embora a alteração de resíduos não tenha sido suficiente para eliminar a imunogenicidade da região. Em resumo, os resultados do presente estudo se constituem em uma prova de conceito no sentido do desenvolvimento de vacinas diferenciais contra o PRRSV. A utilização de um vírus mutante carreando a deleção de um epítopo imunodominante, associado com um teste de ELISA baseado no peptídeo sintético correspondente a região deletada, representam uma alternativa para o desenvolvimento de vacinas diferenciais atenuadas contra o PRRSV.

PRRSV

Epítopos lineares de células B

Peptídeos

Pepscan

Clone infeccioso

Vacina diferencial

PRRSV

B-cell linear epitopes

Peptides

Pepscan

Infectious cDNA clone

Sitedirected mutagenesis

Marker vaccines

Rôle des antigènes tissulaires de groupes sanguins humains A, B, H et Lewis dans l'évolution des Norovirus GII.4 / Role of the A, B, H and Lewis histo-blood group antigens in the evolution of GII.4 noroviruses

Rougemont, Alexis, de

07 April 2011

Les norovirus sont l'une des causes principales de gastroentérite. Depuis 2002, des variants de norovirus GII.4 successifs ont circulé dans la population par cycle de 2-3 ans, ce qui suscite des interrogations quant au rôle de leurs ligands, les antigènes tissulaires de groupes sanguins (HBGA), dans leur évolution. Nous avons analysé l'interaction entre des variants de GII.4 représentatifs et des HBGA, et déterminé le rôle d’acides aminés (aa) clés. Par mutagénèse dirigée, nous avons montré qu’une configuration stricte des aa directement impliqués dans l’accroche est indispensable. La suppression de la thréonine 395, caractéristique des variants après 2002, confère la capacité de se lier à Lex et Si-Lex, démontrant que les aa en dehors du site de liaison peuvent modifier les propriétés d’attachement. L'analyse de l'accroche de VLP de 6 variants isolés de 1987 à 2007 à des échantillons de salive phénotypés et des HBGA synthétiques montre que tous les variants sont capables de s’attacher à la salive des sécréteurs indépendamment du phénotype ABO et aux oligosaccharides propres au phénotype sécréteur. Deux variants récents ont pu également s’accrocher aux sucres présents dans la salive des nonsécréteurs Le(+). Nos données suggèrent que la capacité de se lier à Lex et Si-Lex serait une conséquence de la variation génétique des aa situés à proximité du site de liaison. L'analyse des propriétés d’attachement par résonance plasmonique de surface a montré que seuls les variants après 2002 présentent une affinité forte pour les antigènes A et B, suggérant que l’accélération évolutive des GII.4 pourrait être liée à une affinité accrue des variants pour les HBGA après 2002. / Noroviruses are one of the leading causes of gastroenteritis worldwide. Since 2002 successive GII.4 variants have circulated in the population before being replaced every 2-3 years, which raises questions about the role of their histo-blood group antigen (HBGAs) receptors in their evolution. We analyzed the interaction between representative GII.4 variants and HBGAs and determined the role of selected amino acids (aa) in the binding profiles. By mutagenesis, we showed that there was a strict structural requirement for the aa directly implicated in HBGA bindings. The ablation of the threonine 395 residue, an epidemiological feature of the post 2002 variants, allowed to gain the capacity to bind to the Lewis x and sialyl-Lewis x antigens, demonstrating that aa residues outside the HBGA binding site can modify the binding properties. The analysis of the attachment of VLPs from 6 variants isolated from 1987 to 2007 to phenotyped saliva samples and synthetic HBGAs shows that all variants could attach to saliva of secretors irrespective of the ABO phenotype and to oligosaccharides characteristic of the secretor phenotype. Interestingly, two recent variants additionally bound to carbohydrates present in the saliva of Lewis-positive non-secretors. Our data suggest that GII.4 binding to Lex and Si-Lex antigens might be a by-product of the genetic variation of the aa located in the vicinity of the binding site. Analysis of the binding properties by surface plasmon resonance showed that only post 2002 variants presented a strong affinity for A and B antigens, suggesting that the GII.4 evolution could be related to an increased affinity for HBGAs for the post 2002 variants.

Norovirus

Ligand

Particules virales de synthèse (VLP)

Mutagenèse

Résonance plasmonique de surface

Norovirus

Docking

Histo-blood group antigens (HBGA)

Virus-like particule (VLP)

Mutagenesis

Surface plasmon resonance

571

616

Tissue-specific gain of wild-type RTK levels combined with screen strategies identify new mechanisms of cell vulnerability in developmental and tumorigenic programs

Fan, Yannan

18 November 2016

Pour étudier la capacité cellulaire à s’adapter aux changements de signalisation dépendante des RTKs, nous utilisons un modèle de souris où l’expression du RTK Met sauvage peut être accrue dans un tissu spécifique. La plupart des tissus se protègent contre cette expression anormale des RTK. Mais certains types cellulaires sont sensibles aux altérations des RTKs, c’est le cas du mésenchyme du membre pendant l’embryogenèse. En effet, l’expression de certains gènes du mésenchyme est modifiée et celui-ci n’est plus accessible aux myoblastes qui le colonisent, conduisant à des déficits des muscles du membre. Chez l’adulte une augmentation de l’expression de Met dans le foie (Alb-R26Met) perturbe l’homéostasie tissulaire, conduisant à la tumorigenèse. Pour identifier des gènes qui coopèrent avec les RTKs pendant l’initiation de la tumorigenèse, nous avons combiné les souris Alb-R26Met avec le système de mutagenèse Sleeping Beauty (SB) transposon. 285 gènes putatifs liés au cancer ont été identifiés. Certains sont des proto-oncogènes ou suppresseurs de tumeurs déjà connus, validant le système. D’autres gènes n’avaient, jusqu’à présent, jamais été associés à ce processus. 9 candidats ont été fonctionnellement validés. Pour identifier des signaux assurant le maintien de la tumeur, nous avons analysé le phosphokinome, testé l’efficacité de composés et identifié de nouvelles combinaisons de drogues qui agissent en synergie pour tuer les cellules cancéreuses dérivées de Alb-R26Met. En conclusion, ces travaux montrent qu’une approche génétique non-biaisée combinée à une approche génomique permet d’identifier de nouveaux mécanismes pertinents pour la biologie du cancer. / We explore the cell competence to deal with slight changes in RTK inputs during embryogenesis and tissue homeostasis using a mouse model in which wild-type RTK Met levels can be moderately enhanced in a tissue specific manner. Most tissues buffer enhanced RTK levels thus avoiding perturbation of developmental programs and tissue homeostasis. Nevertheless, certain cell types are vulnerable to RTK levels. During embryogenesis, the limb mesenchyme is sensitive to alterations of the spatial distribution of RTKs, as illustrated by gene expression changes and by loss of accessibility to incoming myoblasts, which lead to limb muscle defects. At adulthood, liver enhanced Met levels (Alb-R26Met) perturbs tissue homeostasis, leading to tumorigenesis. To uncover new genes that cooperate with RTKs during tumour initiation, we combined Alb-R26Met mice with the Sleeping Beauty (SB) transposon mutagenesis system. 285 putative cancer-related genes have been identified. Some correspond to known proto-oncogenes or tumour suppressors, thus validating the overall strategy we employed for cancer gene discovery. Others have not been previously linked to cancer. 9 new tumour suppressors have been functionally validated, demonstrating the validity of our screen strategy. To identify signals involved in tumour maintenance, we employed a phosphokinome-guided drug screen and identified new synergistic drugs deleterious for cancer cells modelled by the Alb-R26Met genetic setting. The overall strategy and outcomes strengthen the value of combining unbiased genetic and genomic approaches to identify new mechanisms relevant for cancer biology and new therapeutic interventions.

Signaux coopérant avec les RTKs

HGF/Met

Développement

Tumorigenèse du foie

Criblage de composés/drogues

RTK cooperative signals

HGF/Met

Development

Liver tumorigenesis

Transposon mutagenesis screen

Drug screen

571

Regulation of Leaf Margin Development by TOOTH/MIR160A in Arabidopsis Thaliana

Masna, Mahesh

January 2015

TOOTH/MIR160A regulates leaf margin outgrowth in Arabidopsis thaliana Unlike animals, a striking aspect of the plant development is that they have evolved a flexible pattern of post embryonic development. This exposes them to the challenges of many biotic and abiotic signals throughout their life. So, plants have to evolve/regulate various mechanisms to modulate their growth and development for accomplishing a successful life cycle in the prevailing environmental conditions. Auxin is involved in the initiation of lateral organs at the meristem and serration development along the leaf margin (Bilsborough et al., 2011, Hay et al., 2006). These two developmental mechanisms share common molecular players. For example, CUC2 is required for the boundary formation at the SAM and also is shown to be essential for serration formation at the leaf margin. Similarly, tth shows increased leaf serration phenotype as well as defects in the positioning of flowers at the meristem. This demonstrates the functional significance of TTH-regulated ARFs in controlling auxin mediated developmental pathways. Leaves originate as small lumps of undifferentiated cells at the flanks of the shoot apical meristem which undergo several rounds division and expansion to generate the mature leaf with characteristic size, shape and leaf margin. Both, endogenous as well as environmental factors modulate the growth and development of a leaf. This is evident from the plasticity in leaf form, observed during the life time of a single plant, as well as from the diversity among closely related species living in different habitats. It is well known that pathways controlling leaf form are subjected to the effects of selection and adaptation. Leaf margin is a key feature of the final leaf shape and it contributes to the abundant diversity in leaf form. Leaf margin architecture varies quite significantly from smooth or entire margin to margins with large outgrowths (lobed margins). The evolution and ecological advantages of this diversity is a subject of intense investigation. It also provides a wonderful system to study the mechanistic details of iterative generation of repeated units, which is a common feature in producing many biological shapes. Recent advances in molecular technologies and the availability of genomic resources ushered the identification of new factors involved in leaf margin development. Our current knowledge of this developmental programme is that CUC2 establishes auxin maxima at the leaf margin by reorienting an auxin efflux carrier PIN1 which ultimately results in serration outgrowth (Bilsborough et al., 2011, Hay et al., 2006). A few missing links in this pathway are the mechanistic details of CUC2 function in reorienting PIN1 and the molecular details of auxin mediated serration outgrowth. Forward genetic screens have been valuable in characterizing a genetic pathway even in the post genomic era. An EMS mutagenesis screen was performed in this context to identify novel factors that can improve our understanding of this intricate mechanism. tooth was identified in the M2 population based on its increased leaf serration phenotype. Genetic analysis showed that tth phenotype is due to a monogenic recessive mutation. Along with increased leaf serration, tth also shows various developmental defects such as aberrant phyllotaxy, narrower cotyledons and narrower leaves. Positional cloning and sequencing analysis showed a G to A transition at the AT2G39175 locus which codes for MIR160A. The mutation is at the 7th base position of the mature miRNA sequence. Functional characterization of miRNAs by isolating mutations is hampered by their small genomic sizes. Till now, only a few miRNAs have been characterized by mutational analysis in plants (Allen et al., 2007, Baker et al., 2005, Cartolano et al., 2007, Chuck et al., 2007, Knauer et al., 2013, Nag et al., 2009, Nikovics et al., 2006). miR160-ARF10 regulatory module is shown to be required for leaf blade out growth and serration, but not leaf complexity in tomato (Hendelman et al., 2012). miR160 is coded by 3 loci in Arabidopsis, MIR160A, B and C. All three loci encode identical mature miRNA that targets 3 Auxin response factors, ARF10, 16 and 17. ARFs are the effector molecules of auxin mediated developmental programmes. Genetic analysis showed that enhanced serration outgrowth in tth is due to the up-regulation of its target genes. Here, we have identified a miRNA that negatively regulates serration outgrowth by repressing ARF10, 16 and 17 whose functional significance in regulating leaf margin development was not known previously. Extensive genetic interaction studies have shown that TTH acts in parallel to SAW-BP and MIR164-CUC pathways in regulating leaf margin development. We have also shown that CUC2 and PIN1 are absolutely essential for serration development in tth. CUC2 establishes a pattern required for the expression of ARF10 at the leaf margin. In the absence of CUC2, downstream effector molecules such as ARFs can not perform their function. arf10-2 arf16-2 could reduce, but not suppress serration outgrowth in various mutants suggesting their functional redundancy with other ARF family members. CUC2 establishes auxin maxima at the leaf margin that triggers the degradation of AUX/IAA repressors thereby relieving ARF proteins which mediate serration outgrowth. Whereas, TTH acts at the post transcriptional level for maintaining normal ARF transcript levels Role of SPYINDLY in Arabidopsis leaf margin development SPYNDLY encodes an O-linked N-acetyl glucosamine transferase that acts as a negative regulator of GA response. Consistent with its role in GA response, spy mutants show several GA dependent phenotypes such as early flowering and hyper branched trichomes. spy mutants also show several GA independent phenotypes such as aberrant phyllotaxy and smooth leaf margin. We have studied its role in regulating Arabidopsis leaf serration development. Reporter analysis of ARF10::GUS and CUC2::GUS in spy-3 revealed that SPY is not involved in establishing serration pattern. The spy-3 leaves did not show any defects during the early stages of serration development, but the mature leaves display smooth leaf margin indicating that SPY function is required for serration outgrowth. As shown in the present study, TTH regulated ARFs are also involved in serration outgrowth. Analysis of leaf margin phenotype in tth spy-3 showed that SPY activity is not required for ARF mediated serration outgrowth. Similar genetic interaction studies with SAW-BP pathway mutants showed that leaf margin out growth mediated by meristematic genes is not dependent on SPY function. Genetic interaction studies with MIR164-CUC pathway genes showed that SPY is required for serration outgrowth in these mutants. Interestingly, the cuc2-3 mutant is defective at both patterning and outgrowth of serration. The spy-3 could suppress serration out growth in cuc2-D suggesting that CUC2 mediated serration out growth is dependent on SPY activity. Protein-protein interaction studies between SPY and CUC2 are in progress to demonstrate whether SPY directly interacts with CUC2 or CUC2 derived signal to regulate serration out outgrowth. It is interesting to examine how mutations at SPY locus can abolish serration out growth mediated by CUC2, but does not affect the serration pattern, even though CUC2 is reported to be essential for both the patterning and outgrowth of serration.

Arabidopsis thaliana

TOOTH/MIR160A

Plant Development

Leaves Development

Arabidopsis Leaf Margin Development

Leaves Growth

Plant Mutagenesis

Auxin Maxima

Leaf Margin Development

Plant Embryogenesis

Meristems

Leaves Morphology

SPINDLY

Arabidopsis thaliana Leaves

Microbiology

Catalytic core of respiratory chain NADH-ubiquinone oxidoreductase:roles of the ND1, ND6 and ND4L subunits and mitochondrial disease modelling in <em>Escherichia coli</em>

Pätsi, J. (Jukka)

31 May 2011

Abstract NADH-ubiquinone oxidoreductase (complex I) is one of the largest enzymes in mammals. Seven (ND1-ND6 and ND4L) of its 45 subunits are encoded in mitochondrial DNA, mutations of which are usually behind mitochondrial diseases such as Leber hereditary optic neuropathy (LHON) and MELAS-syndrome. The rest of the genes are located in the nucleus. Bacterial homologs of complex I (NDH-1) consist of only 13&#8211;14 subunits, comprising the catalytic core of the enzyme. These complexes are simpler but perform a similar function. Escherichia coli NDH-1 was employed here to generate amino acid replacements at conserved sites in NuoH, NuoJ and NuoK, counterparts of ND1, ND6 and ND4L, to elucidate their role in complex I. Consequences of homologous amino acid substitutions brought about by ND1-affecting LHON/MELAS-overlap syndrome-associated m.3376G&gt;A and m.3865A&gt;G mutations and the ND6-affecting m.14498T&gt;C substitution associated with LHON were also studied to validate their pathogenicity. Effects of the site-directed mutations were evaluated on the basis of enzyme activity, inhibitor sensitivity and growth phenotype. Highly conserved glutamate-residues 36 and 72 within transmembrane helices of NuoK in positions similar to proton translocating transmembrane proteins were found essential for electron transfer to ubiquinone and growth on medium necessitating normal proton transfer by NDH-1. NuoH and NuoJ replacements at sites corresponding to targets of m.3376G&gt;A and m.14498T&gt;C decreased ubiquinone reductase activity and altered the ubiquinone binding site, while the counterpart of m.3865A&gt;G was without a major effect. Other NuoH and NuoJ mutations studied also affected the interactions of ubiquinone and inhibitors with NDH-1. The results corroborate the pathogenicity of the m.14498T&gt;C and m.3376G&gt;A mutations and demonstrate that the overlap syndrome-associated modification affects complex I in a pattern which appears to combine the effects of separate mutations responsible for LHON and MELAS. Change in ubiquinone binding affinity is a likely pathomechanism of all LHON-associated mutations. Effects of the NuoH, NuoJ and NuoK subunit substitutions also indicate that ND1 and ND6 subunits contribute to the ubiquinone-interacting site of complex I and the site is located in the vicinity of the membrane surface, while ND4L is likely involved in proton pumping activity of the enzyme. / Tiivistelmä 45 alayksiköstä muodostuva NADH-ubikinoni oksidoreduktaasi (kompleksi I) on nisäkkäiden suurimpia entsyymejä. Sen mitokondriaalisessa DNA:ssa koodattujen alayksiköiden ND1-ND6 ja ND4L geeneihin liittyvät mutaatiot ovat yleisiä mitokondriosairauksien, kuten Leberin perinnöllisen näköhermoatrofian (LHON) ja MELAS-oireyhtymän, syitä. Bakteerien vastaava entsyymi (NDH-1) koostuu vain 13&#8211;14 alayksiköstä. Tästä huolimatta sen katalysoima reaktio on samankaltainen kuin kompleksi I:n. NDH-1:n katsotaankin edustavan entsyymin katalyyttistä ydintä. Tässä työssä tutkittiin ND1, ND6 ja ND4L alayksiköiden tehtävää kompleksi I:ssä niiden Escherichia coli bakteerissa olevien vastineiden (NuoH, NuoJ ja NuoK) kohdennetun mutageneesin avulla. Samaa lähestymistapaa käytettiin LHON/MELAS-oireyhtymässä todettujen ND1 alayksikön mutaatioiden, m.3376G&gt;A ja m.3865A&gt;G, ja LHON:ssa havaitun ND6:n m.14498T&gt;C mutaation aiheuttamien aminohappomuutosten seurauksien selvittämiseen. Tehtyjen mutaatioiden vaikutuksia arvioitiin entsyymiaktiivisuus-mittauksin ja kasvukokein. NuoK:n solukalvon läpäisevissä rakenteissa olevien kahden glutamaatti-aminohappotähteen sijainti muistuttaa protoneita kalvon läpi kuljettavissa proteiineissa todettua. NuoK:n glutamaattien havaittiinkin olevan tärkeitä elektronien ja protonien kuljetukselle kompleksi I:ssä. m.3376G&gt;A ja m.14498T&gt;C mutaatioiden aiheuttamien aminohappomuutosten vastineet NDH-1:ssä alensivat NDH-1:n elektroninsiirtoaktiivisuutta ja heikensivät ubikinonin sitoutumista, kun taas m.3865A&gt;G mutaatiolla ei ollut vaikutusta. Muut NuoH ja NuoJ alayksiköihin tehdyt aminohappovaihdokset johtivat huonontuneeseen ubikinonin ja kompleksi I:n inhibiittoreiden sitoutumiseen. Saadut tulokset vahvistavat m.3376G&gt;A ja m.14498T&gt;C mutaatioiden patogeenisyyden. Ne myös osoittavat, että LHON/MELAS-oireyhtymään liitetyn mutaation biokemiallisissa vaikutuksissa yhdistyvät sekä LHON:ssa että MELAS-oireyhtymässä todettujen mutaatioiden seuraukset. Esitetyt tulokset tukevat näkemystä siitä, että ubikinonin ja kompleksi I:n välisessä vuorovaikutuksessa tapahtuva muutos on kaikille LHON:aan liitetyille mutaatioille yhteinen vaikutusmekanismi. NuoH:n, NuoJ:n ja NuoK:n kohdennetusta mutageneesista saatujen tulosten perusteella ND1 ja ND6 alayksiköt ovat osa ubikinonin sitoutumispaikkaa entsyymikompleksissa, kun taas ND4L osallistuu protoninkuljetukseen.

Leber hereditary optic neuropathy

MELAS syndrome

NADH-ubiquinone oxidoreductase

mitochondrial DNA

mitochondrial diseases

oxidative phosphorylation

site-directed mutagenesis

ubiquinone

Leberin hereditaarinen optikusneuropatia

MELAS-oireyhtymä

NADH-ubikinoni oksidoreduktaasi

mitokondrio-DNA

mitokondriotaudit

oksidatiivinen fosforylaatio

suunnattu mutageneesi

ubikinoni

Effet du changement climatique sur la réponse des plantes et des pathogènes, lors du développement de la maladie racinaire provoquée par les champignons pathogènes du sol du genre verticillium, chez deux espèces du genre médicago / Effect of climate change on the response and plant pathogens during the development of root disease caused by pathogenic fungisoil of verticillium genus in two species of the medicago genus

Sbeiti, Abed al latiff

23 September 2016

Nous nous sommes intéressés à évaluer l'influence du changement climatique sur les patrons nets de réponse des plantes aux agents pathogènes. Dans ce travail, nous avons étudié les effets de l’augmentation de la température (20°, 25° et 28°C) sur le phénotype précoces (symptômes de maladie) et sur la fitness en fin de cycle de différentes accessions et mutants de nodulation de la plante légumineuse modèle Medicago truncatula, inoculées par des souches d’agent pathogène racinaire Verticillium adaptées à des différentes températures. Le comportement des variétés de Luzerne cultivée (Medicago sativa) dans ces conditions a été également analysé. Le travail a été divisé en 3 parties. La première partie nous a permis d’identifier parmi 12 souches de Verticillium spp., une souche froide (VA1) et une souche tempérée (V31.2), avec une température optimale de 20°C et 25°C respectivement pour la croissance, la sporulation et l'agressivité sur M. truncatula. Par contre, notre collection des souches ne renfermant pas de souches adaptées à des températures plus élevées. Nous avons obtenu par mutagénèse UV de la souche V31.2 une troisième souche (AS38) chaude qui est agressive à 28°C. Dans la deuxième partie nous avons observé les symptômes de maladie pour sept accessions naturelles de M. truncatula, inoculées par ces trois souches d’agent pathogène, à trois températures 20°, 25° et 28°C et en présence de la souche Sinorhizobium meliloti RCR2011. De faibles symptômes ont été relevés pour deux accessions A17 et DZA315.16 inoculées par VA1 à 20°C. Nous avons observé une sensibilité maximale pour trois accessions (F83005.5, DZA315.16 et L321) inoculées par V31.2 à 25°C, et pour quatre accessions (F83005.5, DZA315.16, L321 et L198) inoculées par AS38 à 28°C. Les résultats des symptômes de maladie ont été confirmés par une quantification moléculaire de l’ADN fongique (qPCR) et par ré-isolement à partir des tissus aériens de la plante. L’effet de VA1 et V31.2 sur trois caractères de fitness (nombre et poids de gousse par plante, ainsi que biomasse aérienne) de M. truncatula a été étudié. L’effet de VA1 s’observe uniquement à 20°C sur l'accession A17. Par contre, V31.2 a montré un impact sur les trois caractères de fitness qui diminuent chez les accessions sensibles, ainsi que sur le nombre de gousse pour l’accession résistante L198. Dans la troisième partie nous avons analysé de la même façon pour quatre mutants de nodulation dans le fond génétique A17. Les mutants ont montré un niveau de résistance à la souche VA1 plus élevé qu’A17, quelle que soit la température étudiée. Vis à vis de la souche V31.2, à 20°C les mutants skl et hcl ont montré le même taux de symptômes qu’A17 tandis que les mutants nfp et sunn ont de taux de symptômes supérieur à celui d'A17. Ces mutants ont tous une sensibilité plus élevé à 25°C. Les résultats des symptômes de maladie ont été confirmés par le test de ré-isolement. Pour ces mutants nous montrons pour la première fois, que seul le mutant sunn (hypernodulant) à la même productivité qu’A17, quelle que soit la condition (contrôle ou inoculées) et la souche (VA1 ou V31.2) étudiée ; alors que le mutant skl (hypernodulant également) a une productivité plus faible. Les deux autres mutants déficients dans la nodulation nfp et hcl ont montré une productivité plus faible qu’A17 quelle que soit la souche et la température étudiée. Enfin une bonne similitude a été trouvée entre la réponse phénotypique précoce (symptômes de maladie) de M. truncatula et de M. sativa inoculées par Verticillium spp. Dans cette thèse, on n’est pas trouvé la corrélation positive entre la capacité de la nodulation et la protection contre la maladie, mais la symbiose augmente la fitness pour certaines de ces plantes. Les résultats suggèrent aussi que l'augmentation de la température pourrait contribuer à faire apparaître une souche adaptée à 28°C (AS38) qui est plus agressive et plus virulente que V31.2 sur M. truncatula. / We were interested to evaluate the influence of climate change on net patterns of plants responses to pathogens. In this work, we studied the effects of temperature increase (20 °, 25 ° and 28 ° C) on early phenotype (symptoms of disease) and on fitness at the end of growth cycle on different accessions and nodulation mutants of the legume model plant Medicago truncatula, inoculated by the root pathogen Verticillium adapted to different temperatures. The behavior of cultivated varieties of alfalfa (Medicago sativa) in these conditions was also analyzed. The work is divided into 3 parts. In the first part, we identified among 12 strains of Verticillium spp., a cold strain (VA1) and a temperate strain (V31.2) with an optimum temperature of growth, sporulation and aggressiveness to M. truncatula of 20°C and 25°C respectively. Since our strain collection doesn’t contain strains adapted to higher temperatures, we have obtained by UV mutagenesis of strain V31.2 a third strain (AS38), considered as a ‘hot’ strain, which is aggressive at 28°C. In the second part, we observed the symptoms of disease on seven natural accessions of M. truncatula, inoculated by the three strains of the pathogen at three temperatures 20°C, 25°C and 28°C in the presence of Sinorhizobium meliloti RCR2011. Mild symptoms were observed for two accessions A17 and DZA315.16 inoculated with VA1 at 20°C. We observed a maximal sensitivity for three accessions (F83005.5, DZA315.16 and L321) inoculated with V31.2 at 25 ° C, and for four accessions (F83005.5, DZA315.16, L321 and L198) inoculated with AS38 at 28 ° C. The results of phenotypic disease symptoms were confirmed by molecular quantification of fungal DNA (qPCR), and re-isolation of the fungus from aerial plant tissues. The effect of strains VA1 and V31.2 on three fitness traits (number and weight of pods per plant and aerial biomass) was studied. The effect negative of VA1 was observed only at 20°C on the A17 accession. In contrast, V31.2 showed an impact on the three fitness traits, which decrease in susceptible accessions, as well as on pod number of the resistant accession L198. In the third part, a similar analysis was made for four nodulation mutants in A17 genetic background. Nodulation mutants showed a higher level of resistance to VA1 than A17, at different studied temperatures. Towards strain V31.2 at 20°C the mutants skl and hcl showed the same symptom scores as A17 whereas nfp and sunn mutants had more susceptible. Mutants showed a higher sensitivity at 25°C to V31.2 fungal strain. The results of phenotypic disease symptoms were confirmed by re-isolation experiments. For the nodulation mutants we showed, for the first time, that only the sunn mutant (hypernodulant) has the same productivity as A17, regardless of the condition (inoculated or control) and the studied strain (VA1 or V31.2); while the skl mutant (hypernodulant also) has a lower productivity. The other two mutants defective in nodulation (nfp and hcl) showed lower productivity than A17 regardless of the strain (VA1 or V31.2) and the temperature studied. Finally, a strong similarity was found between the early phenotypic response symptoms disease in M. truncatula and M. sativa inoculated by Verticillium spp. In this thesis, we didn’t find a positive correlation between the ability of nodulation and protection against the disease, however the symbiosis increases the fitness of some of these plants. The results also suggest that increasing temperatures could favour appearance a strain adapted to 28°C (AS38), which is more aggressive and more virulent than V31.2 on M. truncatula.

Changement climatique

Fitness

Medicago sativa

Medicago truncatula

Mutagénèse

Mutants de nodulation

Réponse phénotypique

Verticillium spp

Réponse précoce

Climate change

Fitness

Medicago sativa

Medicago truncatula

Mutagenesis

Mutants nodulation

Phenotypic response

Verticillium spp

Response precoce

Structural and Functional Studies on Pyridoxal 5′-Phosphate Dependent Lyases and Aminotransferases

Bisht, Shveta

January 2013

The thesis describes structural and functional studies of two PLP-dependent enzymes, diaminopropionate (DAP) ammonia lyase (DAPAL) and N-acetylornithine aminotransferase (AcOAT). The main objective of this work was to understand the structural features that control and impart specificity for PLP-dependent catalysis. DAPAL is a prokaryotic enzyme that catalyzes the degradation of D and L forms of DAP to pyruvate and ammonia. The first crystal structure of DAPAL was determined from Escherichia coli (EcDAPAL) in holo and apo forms, and in complex with various ligands. The structure with a transient reaction intermediate (aminoacrylate-PLP azomethine) bound at the active site was obtained from crystals soaked with substrate, DL-DAP. Apo and holo structures revealed that the region around the active site undergoes transition from disordered to ordered state and assumes a conformation suitable for catalysis only upon PLP binding. A novel disulfide was found to occur near a channel that is likely to regulate entry of ligands to the active site. Based on the crystal structures and biochemical studies, as well as studies on active site mutant enzymes, a two base mechanism of catalysis involving Asp120 and Lys77 is suggested. AcOAT is an enzyme of arginine biosynthesis pathway that catalyses the reversible conversion of N-acetylglutamate semialdehyde and glutamate to N-acetyl ornithine and α-ketoglutarate. It belongs to subgroup III of fold type I PLP dependent enzymes. Many clinically important aminotransferases belong to the same subgroup and share many structural similarities. We have carried out extensive comparative analysis of these enzymes to identify the unique features important for substrate specificity. Crystal structures of AcOAT from Salmonella typhimurium were determined in presence of two ligands, canaline and gabaculine, which are known to act as general inhibitors for most of the enzymes of this class. There structures provided important insights into the mode of binding of the substrates. The structures illustrated the switching of conformation of an active site glutamate side chain on binding of the two substrates. In addition to that, structural transitions involving three loop regions near the active site were observed in different ligand bound structures. Kinetics of single turnover fast reactions and multiple turnover steady state reactions indicated that N-AcOAT dimer might follow a mechanism involving sequential half site reactivity for efficient catalysis. The changes observed in loop conformation that resulted in asymmetric forms of the dimer enzyme might form the structural basis for half site reactivity. Single site mutants were designed to understand the significance of these structural transitions and the specific role of active site residues in determining substrate specificity and catalysis. Biochemical characterization of wild type and mutant enzymes by steady state and fast kinetic studies, along with their crystal structures provided detailed insights into subtlety of active site features that manifest substrate specificity and catalytic activity. The thesis also describes the investigations on fold type II enzymes directed towards analyses of polypeptide folds of these enzymes, features of their active sites, nature of interactions between the cofactor and the polypeptide, oligomeric structure, catalytic activities with various ligands, origin of specificity and plausible regulation of activity. Analysis of the available crystal structures of fold type II enzymes revealed five different classes. The dimeric interfaces found in these enzymes vary across the classes and probably have functional significance. Contributions made towards structural and functional studies of three other PLP-dependent enzymes, serine hydoxymethyltransferase (SHMT), D-serine deaminase (DSD) and D-cysteine desulfhydrase (DCyD) are described in an appendix.

Enzymes

Pyridoxal 5′-Phosphate (PLP)

Lyases

Aminotransferases

Diaminopropionate Ammonia Lyase (DAPAL)

Pyridoxal Phosphate (PLP) Enzymes

Pyridoxal Phosphate (PLP) Catalysis

Site Directed Mutagenesis

Mutant Enzymes

Diaminopropionate

Biochemistry

Využití vybraných molekulárních metod k metabolické charakterizaci průmyslově významných kvasinek / Use of some molecular techniques to metabolic characterization of industrially significant yeasts

Kostovová, Iveta

January 2021

Karotenoidy, ergosterol a mastné kyseliny jsou velmi žádané látky využívané v krmivářském, potravinářském a kosmetickém průmyslu. Konvenční zdroje mastných kyselin a karotenoidů jsou závislé na sezónních podmínkách, geografické poloze a na dostupnosti zemědělské půdy, což znesnadňuje pokrýt jejich neustále se zvyšující spotřebu. Velmi slibným řešením je mikrobiální produkce výše uvedených látek pomocí karotenogenních kvasinek, které jsou schopny simultánně produkovat karotenoidy, mastné kyseliny i ergosterol. Předložená disertační práce je zaměřená na molekulární a metabolickou charakterizaci karotenogenních kvasinek a na jejich potenciál pro průmyslové aplikace. Proto první experimentální části práce jsou zaměřeny na kvasinky druhu R. mucilaginosa a R. toruloides, jejich produkční vlastnosti, vliv nutričního stresu a různých zdrojů uhlíku, jakými byly xylóza a glycerol. Kromě podrobné charakterizace jejich produkčních vlastností, byly tyto kmeny také charakterizovány molekulárními metodami, zahrnující sekvenční analýzu ITS1, ITS2 a D1/2 ribozomálního operonu a analýzu mini a mikrosatelitních sekvencí M13 a GTG5. Druh R. toruloides je známý jako vynikající producent mastných kyselin, a proto se v poslední době stal cílovou karotenogenní kvasinkou pro vývoj nástrojů pro jeho genetickou manipulaci. V této práci byly úspěšně připraveny geneticky modifikované klony kmene R. toruloides, nesoucí nadměrně exprimované geny pro diacylglycerol acyltransferázu (DGA1) a glycerol-3-fosfát dehydrogenázu (GPD1). Produkce mastných kyselin u modifikovaných klonů nebyla ve srovnání s původním kmenem vyšší. Proto byla další část práce zaměřená na přípravu nadprodukčních mutantních kmenů připravených náhodnou mutagenezí. Kombinace limitace dusíkem a inhibice produkce karotenoidů vedla k úspěšné selekci robustních mutantních kmenů s nadprodukcí karotenoidů vykazující rezistenci vůči difenylaminu. Poslední část práce se zabývá produkčními vlastnostmi méně známých druhů karotenogenních kvasinek náležící do řádů Sporidiobolales a Cystofilobasidales, ve srovnání s relativně dobře prostudovanými karotenogenními druhy R. toruloides a P.rhodozyma. V této studii byly nejlešími producenty mastných kyselin kmeny S.metaroseus CCY 19-6-20 a C. macerans CCY 10-01-02. Nejlepší producent karotenoidů, kmen R. mucilaginosa CCY 19-04-06, navíc produkoval lykopen, který představoval více než 80 % celkového množství karotenoidů produkovaných tímto kmenem.