Testing the effect of in planta RNA silencing on Plasmodiophora brassicae infection

Bulman, S. R.

January 2006

In the late 1990s, a series of landmark publications described RNA interference (RNAi) and related RNA silencing phenomena in nematodes, plants and fungi. By manipulating RNA silencing, biologists have been able to create tools for specifically inactivating genes. In organisms from trypanosomes to insects, RNA silencing is now indispensible for studying gene function. RNA silencing has been used in a project aimed at systematically knocking out all genes in the model plant Arabidopsis thaliana. RNA silencing has a natural role in defending eukaryotic cells against virus replication. By assembling virus DNA sequences in a form that triggers RNA silencing, biologists have created plants resistant to specific viruses. In this study, we set out to test if a similar approach would protect plants against infection by the agriculturally important Brassica pathogen, Plasmodiophora brassicae. P. brassicae is an obligate intracellular biotroph, from the little studied eukaryotic supergroup, the Rhizaria. To identify the gene sequences that would be starting material for P. brassicae RNA silencing, new P. brassicae genes were gathered by cDNA cloning or genomic PCR-walking. Using suppression subtractive hybridisation (SSH) and oligo-capping cloning of full-length cDNAs, 76 new gene sequences were identified. A large proportion of the cDNAs were predicted to contain signal peptides for ER translocation. In addition to the new cDNA identified here, partial sequences for the P. brassicae actin and TPS genes were published by other researchers close to the beginning of this study. Using PCR-walking, full-length genomic DNA sequences from both genes were obtained. Later, genomic DNA sequences spanning or flanking a total of 24 P. brassicae genes were obtained. The P. brassicae genes were rich in typical eukaryotic spliceosomal introns. Transcription of P. brassicae genes also appears likely to begin from initiator elements rather than TATA-box-containing promoters. A segment of the P. brassicae actin gene was assembled in hairpin format and transformed into Arabidopsis thaliana. Observation of simultaneous knockdown of the GUS marker gene as well as detection of siRNAs indicated that the hpRNA sequences induced RNA silencing. However, inoculation of these plants with P. brassicae resulted in heavy club root infection. We were unable to detect decreases in actin gene expression in the infecting P. brassicae, at either early or late stages of infection. We conclude that, within the limits of the techniques used here, there is no evidence for induction of RNA silencing in P. brassicae by in planta produced siRNAs.

Plasmodiophora brassicae

club root

Rhizaria

RNA interference

in planta RNA silencing

Arabidopsis thaliana

suppression subtractive hybridisation

cDNA cloning

genome

intron

Testing the effect of in planta RNA silencing on Plasmodiophora brassicae infection

Bulman, S. R.

January 2006

In the late 1990s, a series of landmark publications described RNA interference (RNAi) and related RNA silencing phenomena in nematodes, plants and fungi. By manipulating RNA silencing, biologists have been able to create tools for specifically inactivating genes. In organisms from trypanosomes to insects, RNA silencing is now indispensible for studying gene function. RNA silencing has been used in a project aimed at systematically knocking out all genes in the model plant Arabidopsis thaliana. RNA silencing has a natural role in defending eukaryotic cells against virus replication. By assembling virus DNA sequences in a form that triggers RNA silencing, biologists have created plants resistant to specific viruses. In this study, we set out to test if a similar approach would protect plants against infection by the agriculturally important Brassica pathogen, Plasmodiophora brassicae. P. brassicae is an obligate intracellular biotroph, from the little studied eukaryotic supergroup, the Rhizaria. To identify the gene sequences that would be starting material for P. brassicae RNA silencing, new P. brassicae genes were gathered by cDNA cloning or genomic PCR-walking. Using suppression subtractive hybridisation (SSH) and oligo-capping cloning of full-length cDNAs, 76 new gene sequences were identified. A large proportion of the cDNAs were predicted to contain signal peptides for ER translocation. In addition to the new cDNA identified here, partial sequences for the P. brassicae actin and TPS genes were published by other researchers close to the beginning of this study. Using PCR-walking, full-length genomic DNA sequences from both genes were obtained. Later, genomic DNA sequences spanning or flanking a total of 24 P. brassicae genes were obtained. The P. brassicae genes were rich in typical eukaryotic spliceosomal introns. Transcription of P. brassicae genes also appears likely to begin from initiator elements rather than TATA-box-containing promoters. A segment of the P. brassicae actin gene was assembled in hairpin format and transformed into Arabidopsis thaliana. Observation of simultaneous knockdown of the GUS marker gene as well as detection of siRNAs indicated that the hpRNA sequences induced RNA silencing. However, inoculation of these plants with P. brassicae resulted in heavy club root infection. We were unable to detect decreases in actin gene expression in the infecting P. brassicae, at either early or late stages of infection. We conclude that, within the limits of the techniques used here, there is no evidence for induction of RNA silencing in P. brassicae by in planta produced siRNAs.

Plasmodiophora brassicae

club root

Rhizaria

RNA interference

in planta RNA silencing

Arabidopsis thaliana

suppression subtractive hybridisation

cDNA cloning

genome

intron

Construction of a cDNA library for the vine mealybug, Planococcus ficus (Signoret)

Holm, Kora

12 1900

Thesis (MSc (Genetics))--Stellenbosch University, 2008. / The vine mealybug, Planococcus ficus (Signoret), is a severe pest of grapevine in many grape and wine producing countries around the world. It is renowned not only for the considerable damage it infers to grapevine of its own accord, but in particular for its role in transmitting deleterious viral diseases such as grapevine leafroll disease, Kober stem grooving, Shiraz disease and corky bark. Incidentally, it is an exceptionally tenacious antagonist of grapevine, being resistant to both chemical and biological control mechanisms. As a result, finding an effective strategy for P. ficus control has become a main priority of viticultural industries worldwide. Possible implementation of biotechnological approaches to pest management has resulted in a need for P. ficus genetic data - of which there are currently very little available. The transcribed genes of an organism can be captured in a cDNA library, and the sequences of the various transcripts can then be characterized. In this study altogether five cDNA libraries were constructed from the transcribed sequences of Planococcus ficus (Signoret). Instrumental to their construction was the identification of an RNA extraction protocol that provided large quantities of high quality RNA from mealybugs. The five cDNA libraries were the result of a set of modifications to the Creator™ SMART™ cDNA Library Construction Kit (used for Primary Library construction), and differed mainly with regards to range of insert sizes they contain. Whereas an abundance of short fragments were found in the Primary Library (42% of screened inserts 60.5 kb, and 20% >1 kb), the Fractionated Libraries contained inserts of specific size ranges that were more-or-less equally represented. The broadest size range was found in Fractionated Library 4, for which a uniform distribution over the range 0.25 kb - 4 kb was observed. Average insert sizes of Fractionated Libraries 1 to 4 were estimated at 0.25 kb, 0.5 kb, 1 kb and 2 kb respectively. These results demonstrated the importance of using a protocol designed to circumvent the bias towards incorporation of shorter transcripts in cDNA libraries. Although the libraries were not exhaustively analyzed, the outcome of a pilot investigation indicated that 41% of the submitted sequences had matches in the non-redundant database of the National Center for Biotechnology Information (NCBI, E-value 6 10-5), and that approximately 82% of these were of insect origin. Moreover, two potential targets for an RNAi-mediated approach to P. ficus pest control were identified. With one exception, these sequences seemed to be unique to arthropods. Future research needs to investigate the efficiency by which these sequences are able to constrain P. ficus proliferation, and their suitability for grapevine transformation.

cDNA libraries

Planococcus ficus

Gene libraries

Grapes -- Diseases and pests

RNA

Mealybugs

Dissertations -- Genetics

Theses -- Genetics

Mealybugs -- Control

Grapes -- Diseases and pests -- Control

Mealybugs -- Genetics

Molecular characterization of protease inhibitors from the Hessian fly, [Mayetiola destructor (Say)]

Maddur, Appajaiah Ashoka

January 1900

Doctor of Philosophy / Department of Entomology / Ming-Shun Chen / Gerald E. Wilde / Analysis of transcriptomes from salivary glands and midgut of the Hessian fly [Mayetiola destructor (Say)] identified a diverse set of cDNAs that were categorized into five groups, group I – V, based on their phylogenetic relationship. All five of these groups may encode putative protease inhibitors based on structural similarity with known proteins. The sequences of these putative proteins among different groups are highly diversified. However, sequence identity and structural analysis of the proteins revealed that all of them contained high cysteine residues that were completely conserved at their respective positions among these otherwise diversified proteins. Analysis of bacterial artificial chromosome (BAC) DNA for two groups, group I (11A6) and group II (14A4), indicated that group I might be a single copy gene or genes with low copy number whereas group II exists as multiple copies clustered within the Hessian fly genome. To test the inhibitory activity and specificity of these putative proteins, recombinant proteins were generated. Enzymatic analysis of the recombinant proteins against commercial and insect gut proteases demonstrated that recombinant proteins indeed are strong inhibitors of proteases with different specificities. Northern analysis of the representative members of five groups revealed that the group I-IV genes were expressed exclusively in the larval stage with variations among groups at different larval stages. The group V (11C4) genes were expressed in the late larval and pupal stage. Tissue specific gene expression analysis revealed that group I-IV genes were predominantly expressed in malpighian tubules whereas the group V genes were abundantly expressed in the salivary glands. Localization experiments with the antibody for representative members from group II (14A4) demonstrated that the protein was predominantly localized in the malpighian tubules and in low amounts in the midgut, suggesting that malpighian tubules are the primary tissue of 14A4 inhibitor synthesis. The overall results indicated that the Hessian fly contains a complex network of genes that code for protease inhibitors which regulate protease activities through different developmental stages of the insect.

Protease inhibitors

Proteolysis

cDNA library

Proteases

Inhibition

Gene expression

Salivary glands

Hessian fly

Biology, Entomology (0353)

Biology, Genetics (0369)

Biology, Molecular (0307)

Recherche d’interactants du domaine immunosuppresseur des protéines d’enveloppe rétrovirales / Research of Interactors of the Immunosuppressive Domain of Retroviral Envelope Proteins

Malicorne, Sébastien

19 December 2018

La plupart des virus ont développé des mécanismes de résistance ou de suppression du système immunitaire pour parvenir à infecter durablement leur hôte. Ces mécanismes demeurent encore imparfaitement connus. Un domaine immunosuppresseur (IS) a été identifié au niveau de la région transmembranaire des protéines d’enveloppe des rétrovirus endogènes ou infectieux. Ce domaine hautement conservé a été décrit par exemple comme inhibant l’activation lymphocytaire. Dans le laboratoire, il a été caractérisé en particulier via des expériences de rejet de cellules tumorales in vivo, ce qui a permis de définir des mutations inactivatrices. Afin de mieux comprendre les mécanismes de résistance des rétrovirus au système immunitaire, mes travaux de thèse ont porté sur l’identification de la ou des protéines capables d’interagir avec le domaine IS. Plusieurs approches cellulaires et moléculaires ont été développées, basées pour la plupart sur l’utilisation de sondes fluorescentes obtenues par synthèse chimique, constituées des domaines IS provenant de différents rétrovirus. Dans un premier temps, les cellules du système immunitaire qui lient les protéines virales ont été identifiées : les lymphocytes B et les cellules myéloïdes (monocytes, cellules dendritiques et macrophages). Dans un second temps, des expériences de co-immunoprécipitation et de chromatographie d’affinité couplées à la spectrométrie de masse ont été réalisées dans le but d’identifier sur ces cellules les protéines membranaires responsables de ces liaisons. Plusieurs agents de couplages chimiques ont été utilisés afin de maintenir les liaisons domaine IS - protéine de faibles affinités. En raison de résultats non-reproductibles obtenus au cours de ces expériences, des tests de liaison du domaine IS sur des cellules transfectées avec des banques d’ADNc, ou lors d’expériences de double hybride ont été réalisées. Ces deux approches ont permis d’identifier des protéines membranaires potentiellement impliquées dans la liaison du domaine IS : les protéines X1 et X2. Les co-transfections de vecteurs d’expression du domaine IS et de X2 ont mis en évidence des interactions protéiques au cours d’expériences de co-immunoprécipitation et de microscopie confocale, en particulier avec le domaine IS du rétrovirus HIV-1. Concernant X1, sa transfection induit la liaison cellulaire des domaines IS de HERV-W et MLV. En revanche, aucune interaction directe entre X1 et le domaine IS n’a pu être démontrée, notamment dans des expériences de co-immunoprécipitation et de microscopie confocale.La découverte des protéines membranaires qui interagissent avec le domaine IS demeure un enjeu critique pour la compréhension des voies de signalisation et de transcription qui permettent aux rétrovirus d’exercer leur effet sur le système immunitaire, l’objectif de ces travaux étant d’identifier à terme des nouvelles cibles thérapeutiques.En conclusion, même si des travaux complémentaires demeurent nécessaires, les protéines X1 et X2 pourraient contribuer à l’immunosuppression rétrovirale. / Most viruses have developed mechanisms of resistance or suppression of the immune system to achieve lasting infection of their host. These mechanisms are still imperfectly known. An immunosuppressive (IS) domain has been identified in the transmembrane region of envelope proteins of endogenous or infectious retroviruses. This highly conserved domain has been described, for example, as inhibiting lymphocyte activation. In the laboratory, it has been characterized by tumor cell rejection experiments in vivo, which has made it possible to define inactivating mutations. In order to better understand the mechanisms of resistance of retroviruses to the immune system, my thesis focused on the identification of the protein(s) interacting with the IS domain. Several cellular and molecular approaches have been developed, based for the most part on the use of fluorescent probes obtained by chemical synthesis, consisting of IS domains from different retroviruses. At first, immune system cells that bind viral proteins have been identified: B cells and myeloid cells (monocytes, dendritic cells and macrophages). In a second step, co-immunoprecipitation and affinity chromatography coupled to mass spectrometry were performed to identify on these cells the membrane proteins responsible for these bonds. Several chemical coupling agents have been used to prevent detachment of low affinity binding between proteins and the IS domain. Due to non-reproducible results obtained during these experiments, IS domain binding assays on cells transfected with cDNA libraries, or in double hybrid experiments were performed. These two approaches made it possible to identify membrane proteins potentially involved in the binding of the IS domain: the X1 and X2 proteins. Co-transfections of IS domain and X2 expression vectors demonstrated protein interactions in co-immunoprecipitation and confocal microscopy experiments, particularly with the IS domain of the HIV-1 retrovirus. Concerning X1, its transfection induces binding of the IS domains of HERV-W and MLV on cells membrane. On the other hand, no direct interaction between X1 and the IS domain could be demonstrated, especially in co-immunoprecipitation and confocal microscopy experiments.The discovery of membrane proteins that interact with the IS domain remains a critical issue for understanding the signaling and transcription pathways that allow retroviruses to exert their effect on the immune system, the aim of this work being to identify new therapeutic targets.In conclusion, although further work is still needed, the X1 and X2 proteins may contribute to retroviral immunosuppression.

Protéine d'enveloppe rétrovirale

Domaine immunosuppresseur

Interactant

Criblage de banques d’ADNc

Protéomique

Criblage double hybride

Retroviral envelope protein

Immunosuppressive domain

Interactor

CDNA library screening

Proteomic

Two-Hybrid screening

Pathway oriented stroid hormone-dependent transcriptome analysis. Establishment of a custom cDNA microarray to study hormone signaling in breast cancer

Miñana Gómez, Belén

06 March 2008

Para avanzar en el entendimiento de las vías de señalización moleculares involucradas en la progresión de cáncer tumoral, se construyo una plataforma personalizada de cDNAs, la cual contiene genes de vías de señalización representativas para investigar la respuesta dinámica temporal a hormonas (progesterona y estradiol) empleando como modelo la línea celular T47D-MTVL e inhibidores específicos de las vías de señalización. Adicionalmente, se realizó un análisis de los perfiles de expresión de un grupo de tumores de mama encontrando buena correlación con los datos clínico-histopatológicos y mostrando como fenotipos específicos correlacionan con mal pronóstico. Los genes más significativos capaces de discriminar entre los fenotipos de tumor fueron determinados, y probados sobre un nuevo grupo de muestras, asignándolas a los subtipos predichos. El análisis de las vías de señalización de los genes más significativos de cada fenotipo fue realizado para elucidar las vías moleculares más representativas afectadas en cada clase de tumor.

R5020

hormonas esteroideas

perfil de expresión génica

fenotipo luminar

fenotipo de tumores mamarios

fenotipo basal

cDNA microarrays

T47D

cáncer de mama

tumors hormona-dependents

R5020

progesterona

hormones esteroidees

perfil d'expressió gènica

fenotip de tumors mamaris

fenotip luminar

fenotip basal

cDNA microarrays

càncer de mama

tumores hormona-dependientes T47D

progesterona

616

Konsequenzen der Expression des Ether à go-go Kaliumkanals / Consequences of the ether à go-go potassium channel expression

Weber, Claudia

06 July 2006

No description available.

500 Naturwissenschaften allgemein

Mathematics and Computer Science

Onkogen

Krebs

Kaliumkanal

EAG

MAZ

c-MYC

hTERT

spezifischer Inhibitor

RNAi

Proliferation

cDNA-Array

subtraktive Hybridisierung

differentielle Expression

LPS

Mutation

oncogene

cancer

potassium channel

EAG

MAZ

c-MYC

hTERT

specific inhibitor

RNAi

proliferation

cDNA array

subtractive hybridization

differential expression

LPS

mutation

42

42.13

42.15

44.81

WA

WHF500

WF200

MED424

Functional analysis of Zfp819 in pluripotency and embryonic development

Tan, Xiaoying

02 November 2012

Pluripotenz wird durch viele Stammzell-spezifische Transkriptionsfaktoren wie Oct3/4, Nanog und Sox2 sowie deren Funktion in ihrem regulatorischen Netzwerk etabliert und aufrechterhalten. Viele Studien haben gezeigt, wie diese Pluripotenz-assoziierten Faktoren ihre Zielgene regulieren. Dies geschieht durch die Interaktion mit bekannten und unbekannten Interaktionspartnern. In der vorliegenden Arbeit haben wir Zfp819 als einen neuen Pluripotenz-assoziierten Faktor beschrieben und dessen Funktion in pluripotenten Stammzellen untersucht. Im ersten Teil der vorliegenden Arbeit haben wir zwei cDNA-Banken für Yeast two Hybdrid (Y2H)-Assays aus unterschiedlichen pluripotenten Stammzelltypen generiert. Dies hatte zum Ziel, potentielle Interaktionspartner eines Kandidatenproteins zu identifizieren um dadurch Eindrücke über die Funktion des Proteins zu gewinnen. Für die Identifizierung von potentiellen Interaktionspartnern von Zfp819 haben wir die cDNA-Bank aus embryonalen Stammzellen benutzt. Wir konnten 17 putative Interaktionspartner identifizieren und daraus ein hypothetisches „Interaktom“ von Zfp819 generieren. Die Einordnung der putativen Interaktionspartner nach ihrer Gen-Ontologie (GO) ließ vermuten, dass Zfp819 eine Rolle in der Regulation der Transkription, der Aufrechterhaltung der genetischen Integrität und im Zellzyklus bzw. bei der Apoptose spielt. Im zweiten Teil der vorliegenden Arbeit wurde die sehr intensive Expression von Zfp819 in undifferenzierten pluripotenten Zelllinien gezeigt. Desweiteren konnte die Promotorregion von Zfp819 identifiziert werden, und es wurde gezeigt, dass diese mit epigenetischen Mustern ausgestattet ist. Zusätzlich konnten wir Regionen im Zfp819-Gen identifizieren, die für die nukleäre Lokalisation von Zfp819 verantwortlich sind. Desweiteren konnten wir zeigen, dass Zfp819 in der transkriptionellen Repression von spezifischen endogenen, retroviralen Elementen (ERVs) in pluripotenten Zellen eine Rolle spielt. Durch zelluläre und biochemische Studien konnten wir zeigen, dass Zfp819 mit vielen Proteinen interagiert (z.B. Kap1 und Chd4), welche für die Aufrechterhaltung der genomischen Integrität von Bedeutung sind. Tatsächlich resultierte der Verlust von Zfp819 in embryonalen Stammzellen in einer erhöhten Anfälligkeit für DNA-Schäden und in einer verminderten DNA-Reparatur. Zusammenfassend lassen die Identifizierung der Interaktionspartner sowie die Ergebnisse der molekularen und der funktionellen Studien vermuten, dass Zfp819 durch die Unterdrückung von ausgewählten ERVs eine Rolle in der Regulation der genomischen Stabilität von pluripotenten Zellen spielt.

630

Land- und Forstwirtschaft (PPN621302791)

Genexpressionsprofil und Aktivität humaner Papillomviren in nicht-melanozytären Hauttumoren

Dang-Heine, Chantip

05 July 2010

Für die Entstehung nicht-melanozytärer Hauttumore sind mehrere Risikofaktoren verantwortlich: UV-Exposition, Pigmentierung, Alter, Immunsuppression und möglicherweise Humane Papillomviren (HPV). Die molekularen Mechanismen der Tumorgenese des kutanen Plattenepithelkarzinoms (SCC) sowie der Präkanzerose Aktinische Keratose (AK) sind nur lückenhaft bekannt. Fokus dieser Arbeit ist die Untersuchung von SCC-Genexpressionsprofilen sowie der Einfluss kutaner HPV-Typen während der Karzinogenese bei immunkompetenten und immunsupprimierten, organtransplantierten Patienten. Durch Genexpressionsanalyse kutaner SCC, AK und normaler Haut konnten 118 differenziell exprimierte Gene in SCC mittels cDNA-Microarrays identifiziert werden. Bestätigt wurde die Expression von 11 aus 13 ausgewählten Genen (85%) mittels quantitativer real-time RT-PCR (qPCR), dabei konnte eine Korrelation der Genexpression mit der Progression der AK zum SCC für 3 Gene nachgewiesen werden. Dazu zählen das Gen Metalloproteinase-1, kodierend für ein Enzym, das in den Umbau von extrazellulärer Matrix involviert ist, das Protoonkogen RAB31 und das Tenascin-C (Tn-C) kodierende Gen Tn-C. Tn-C war im SCC-Gewebe an der Invasionsfront in Basalzellen sowie Keratinozyten im Stratum papillare und retikulare als Protein nachweisbar, nicht aber in normaler Haut. Die im Rahmen dieser Arbeit erstmalig nachgewiesene 2243 bp-Spleißvariante von Tn-C könnte aufgrund der primären Expression in SCC–Gewebe als diagnostischer Marker für SCC dienen. Diese Daten zeigen, dass simultane, multifaktorielle Dysregulationen von Genexpression und DNA-Reparatur, Zellzyklus und Proliferation, proteolytischen Enzymen und Adhäsionsmolekülen in SCC vorliegen. Ferner wurde die Expression von HPV in SCC und damit der kausale Zusammenhang einer HPV-Infektion mit der Hauttumorgenese untersucht. Das Infektionsmuster von SCC-Gewebe und normaler Haut mit spezifischen HPV-Typen erfolgte durch den Nachweis typenspezifischer HPV-DNA. Virale E6/E7-mRNA-Transkripte der kutanen HPV-Typen 8, 9 und 15 wurden in AK und SCC nachgewiesen. Dagegen konnten in HPV-DNA positiver, gesunder Haut oder Warzen keine HPV-Transkripte gefunden werden. Die Variantenanalyse des offenen Leserahmens von E6 identifizierte eine einzelne, bislang nicht beschriebene Punktmutation mit nicht bekannter Veränderung der Proteinstruktur. Die virale Aktivität der Onkogene E6 und E7 einiger kutaner Typen in AK und SCC weisen auf eine mögliche Rolle von HPV bei der kutanen Hautkarzinogenese hin. / During development of non-melanoma skin cancer, several risk factors are involved: UV-exposition, pigmentation, age, and potentially human papilloma virus (HPV). The molecular mechanisms underlying tumourgenesis in squamous cell carcinoma (SCC) and its pre-cancerosis actinic keratosis (AK) are not fully understood. In this study, the gene expression profile and HPV-infection status were analysed in SCC from immunocompetent and organ transplanted, immunocompromised patients.By global transcriptome analysis from cutaneous SCC, AK and healthy skin, 118 genes were identified differentially expressed in a cDNA-microarray. The expression of 11 out of 13 selected genes (85%) was investigated by real-time RT-PCR (qPCR) and the expression of three genes remarkably induced in SCC correlated with the progression to AK until SCC. These genes encoded for Metalloproteinase-1, which is involved in the remodelling of extracellular matrix, and the protooncogene RAB31 and Tenascin-C (Tn-C). Tn-C protein is expressed in SCC-tissue at the invasion front in basal cells and in keratinocytes in the Stratum papillare and retikulare, but not in healthy skin. This study, the 2243 bp Tn-C-specific splice-variant has for the first time detected in SCC, but not in normal skin. Thus it might serve as diagnostic marker of SCC progression. The data of the transcriptome analysis indicates that a simultaneous dysregulation of oncogene expression and DNA-repair, cell-cycle and proliferation, proteolysis and adhesion molecules exists in SCC. Additionally, the expression of HPV in SCC and thus the causal relationship between HPV-infection and tumourgenesis of SCC in immunocompromised patients was investigated. The HPV-infection pattern in SCC-tissue and normal skin was assessed by detection of DNA from cutaneous HPV-types. Viral E6/E7-mRNA-transcripts of the cutaneous HPV-types 8, 9, 15 were expressed selectively in AK and SCC. In contrast, no HPV-specific mRNA was present in HPV-DNA positive normal skin. The analysis of the open reading frame from the respective E6-protein genes unravelled one single pointmutation, which is not been characterized so far in terms of e.g. its impact on protein structure. The viral activity of the oncogenes E6 and E7 of cutaneous HPV-types indicates a potential function of HPV in the tumourgenesis of SCC in immunocompromised individuals.

Humane Papillomviren

HPV

nicht-melanozytärer Hauttumor

NMSC

kutanes Plattenepithelkarzinom

SCC

Aktinische Keratose

AK

cDNA-Microarray

Tenascin-C

squamous cell carcinoma

human papilloma virus

HPV

nonmelanoma skin cancer

NMSC

SCC

actinic keratosis

AK

cDNA-microarray

Tenascin-C

570 Biologie

32 Biologie

XH 9150

ddc:570

Virologische Untersuchungen an Stieleichen (Quercus robur L.) zum verursachenden Pathogen der pfropfübertragbaren chlorotischen Ringflecken

Hahn, Sabine

07 April 2006

Regelmäßige Bonituren haben gezeigt, dass virusverdächtige Symptome an Stieleichen, die zu etwa 90 % als chlorotische Ringflecken auftreten, im nord- und mitteldeutschen Raum weit verbreitet sind. In der vorliegenden Arbeit sollte der Erreger dieser Symptome isoliert und näher charakterisiert werden. Aus zwei Blattproben mit chlorotischen Ringflecken konnten stäbchenförmige Viruspartikeln mit einer Länge von ca. 450 nm isoliert und auf krautige Indikatoren übertragen werden. In einer RT-PCR mit Hüllprotein bzw. Transportprotein-sequenzspezifischen Primern wurden diese als Tobacco mosaic virus (TMV)- bzw. Tomato mosaic virus (ToMV)- Isolate identifiziert. Eine Infektion der Stieleichen mit weiteren bekannten Viren von Gehölzen, wie dem Cherry leaf roll virus (CLRV) oder dem Erreger der Ebereschenringfleckigkeit konnte mittels ELISA und RT-PCR ausgeschlossen werden. DsRNAs der Größen 1.5 und 1.6 kb sowie 1.8 und 2.0 kb konnten symptomunabhängig aus Rindengewebe, Knospen und Blättern von Stieleichen isoliert werden. Mit Hilfe der RT-DOP-PCR und der cDNA-Klonierung gelang es, Teile des 1.5/1.6 kb dsRNA-Moleküls zu charakterisieren. Die Sequenz von 479 Aminosäuren (1437 Nukleotiden) wies eine Identität von 56 % zur RNA-abhängigen RNA-Polymerase (RdRp) des Beet cryptic virus 3 (BCV 3) auf. Der spezifische Nachweis dieser Sequenz gelang mittels RT-PCR sowohl in dsRNA-Proben, als auch in angereicherten Nukleokapsiden symptomloser und symptomatischer Stieleichen. In Nested-PCR-Analysen konnte das Fragment jedoch nicht nur in Gesamt-RNA von Stieleichen, sondern auch in Gesamt-RNA und DNA verschiedenster gesunder Pflanzen amplifiziert werden. Phylogenetische Vergleiche mit ausgewählten RdRps viralen und pflanzlichen Ursprungs zeigten die engste Verwandtschaft der Stieleichen-dsRNA-Sequenz zu den Partitiviren, zu denen sich neben BCV 3 auch die endogene dsRNA aus Pyrus und aus Chloroplasten von Bryopsis gruppiert. Diese Erkenntnisse lassen in der charakteristischen Doppelbande von 1.5/1.6 kb das Vorliegen einer endogenen dsRNA vermuten. Hiermit ist in dieser Arbeit das Auftreten verschiedener Viren in Eichen nachgewiesen worden, von denen die meisten höchstwahrscheinlich nicht im direkten ursächlichen Zusammenhang mit der chlorotischen Ringfleckigkeit der Eiche stehen. / Ratings of oak populations revealed that around 90 % of all oak trees affected by viruslike symptoms showed chlorotic ringspots and that these symptoms are widely spread in oaks in north and central Germany. In this study the putative agent of these symptoms should be isolated and specified. Rod-shaped particles with a length of 450 nm were recovered from two different samples of leaves displaying chlorotic ringspots by mechanical inoculation of herbaceous indicator plants. These particles were identified to be Tobacco mosaic virus (TMV)- and Tomato mosaic virus (ToMV)- isolates by RT-PCR analyses of the coat- and movement protein genes. Infections with other well known viruses of forest trees, like Cherry leaf roll virus (CLRV) and the agent causing ringspots in European mountain ash, were excluded by ELISA and RT-PCR. DsRNA fragments of 1.5 and 1.6 kb as well as 1.8 and 2.0 kb were extracted from leaves, inner bark and bulbs of all symptomatic and asymptomatic samples of common oak. The nucleotide sequence of the 1.5 and 1.6 kb dsRNA fragment was partially characterised by reverse transcription degenerated oligonucleotide primed (DOP)-PCR and cDNA cloning. The obtained nucleotide sequence of 1437 nt encoding a putative protein of 479 amino acids revealed an identity of 56 % with the RNA-dependent RNA polymerase (RdRp) of Beet cryptic virus 3 (BCV 3). PCR amplification of the RdRp coding nucleotide sequence was possible using a number of different dsRNA samples as well as concentrated nucleocapside preparations. The same sequence was also amplified successfully by Nested-PCR not only in total RNA extracted from symptomatic and asymptomatic oak samples but also from total RNA and DNA of diverse plants. Phylogenetic analysis revealed further similarities to RdRp´s of endogenous dsRNA of Pyrus and chloroplasts of Bryopsis, both members of the Partitiviridae as well as BCV 3. These results strongly indicate that the 1.5/1.6 kb dsRNA of oak is endogenous dsRNA. In summary, it has been shown that oaks in Germany are commonly infected by a variety of different viruses most of them possibly unrelated to the wide-spread ringspot symptoms of oaks.

Serologie

Stieleiche

chlorotische Ringflecken

Partikeln

Elektronenmikroskopie

Tobamoviren

kryptische Viren

dsRNA

cDNA-Synthese

DOP-PCR

Sequenzanalyen

serology

common oak

chlorotic ringspots

electron microscopy

tobamoviruses

cryptic viruses

dsRNA

cDNA synthesis

DOP-PCR

sequence analyses

39 Landwirtschaft, Garten

ddc:630