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Ziel dieser Arbeit war die Untersuchung der psychischen Befindlichkeit und anderer gesundheitsbezogenen Konditionen der Frauen und Männer mit familiären Mamma- und Ovarialkarzinomrisiko sowie die Klärung hinsichtlich der Bewältigung und Auswirkung genetischer Risikoinformation. Es wurden Risikowahrnehmung, Informationsstand, Inanspruchnahme der Beratungsangebote sowie der Früherkennungsmaßnahmen, Einstellung gegenüber genetischer Brustkrebsdiagnostik und familiärer/sozialer Kommunikation untersucht. Die vollständig ausgefüllten Fragebögen von Ratsuchenden und Betroffenen, die an der Beratung und Befragung im Zentrum für „Familiären Brust-/Eierstockkrebs“ teilgenommen haben, wurden von uns ausgewertet. Für die beratenden Institutionen ist das Wissen der vielfältigen psychischen und sozialen Folgen bei den Testsuchenden und deren Familien sehr wichtig. Nur so kann das Betreuungskonzept und das Beratungsangebot verbessert werden.
In our analysis I was interested in the gene duplications, with focus on in-paralogs. In-paralogs are gene duplicates which arose after species split. Here I analysed the in-paralogs quantitatively, as well as qualitatively. For quantitative analysis genomes of 21 species were taken. Most of them have vastly different lifestyles with maximum evolutionary distance between them 1100 million years. Species included mammals, fish, insects and worm, plus some other chordates. All the species were pairwised analysed by the Inparanoid software, and in-paralogs matrix were built representing number of in-paralogs in all vs. all manner. Based on the in-paralogs matrix I tried to reconstruct the evolutionary tree using in-paralog numbers as evolutionary distance. If all 21 species were used the resulting tree was very far from real one: a lot of species were misplaced. However if the number was reduced to 12, all of the species were placed correctly with only difference being wrong insect and fish clusters switched. Then to in-paralogs matrix the neighbour-net algorithm was applied. The resulting "net" tree showed the species with fast or slow duplications rates compared to the others. We could identify species with very high or very low duplications frequencies and it correlates with known occurrences of the whole genome duplications. As the next step I built the graphs for every single species showing the correlation between their in-paralogs number and evolutionary distance. As we have 21 species, graph for every species is built using 20 points. Coordinates of the points are set using the evolutionary distance to that particular species and in-paralogs number. In mammals with increasing the distance from speciation the in-paralogs number also increased, however not in linear fashion. In fish and insects the graph close to zero is just the same in mammals' case. However, after reaching the evolutionary distances more than 800 million years the number of inparalogs is beginning to decrease. We also made a simulation of gene duplications for all 21 species and all the splits according to the fossil and molecular clock data from literature. In our simulation duplication frequency was minimal closer to the past and maximum in the near-present time. Resulting curves had the same shape the experimental data ones. In case of fish and insect for simulation the duplication rate coefficient even had to be set negative in order to repeat experimental curve shape. To the duplication rate coefficient in our simulation contribute 2 criteria: gene duplications and gene losses. As gene duplication is stochastical process it should always be a constant. So the changing in the coefficient should be solely explained by the increasing gene loss of old genes. The processes are explained by the evolution model with high gene duplication and loss ratio. The drop in number of in-paralogs is probably due to the BLAST algorithm. It is observed in comparing highly divergent species and BLAST cannot find the orthologs so precisely anymore. In the second part of my work I concentrated more on the specific function of inparalogs. Because such analysis is time-consuming it could be done on the limited number species. Here I used three insects: Drosophila melanogaster (fruit y), Anopheles gambiae (mosquito) and Apis mellifera (honeybee). After Inparnoid analyses and I listed the cluster of orthologs. Functional analyses of all listed genes were done using GO annotations and also KEGG PATHWAY database. We found, that the gene duplication pattern is unique for each species and that this uniqueness is rejected through the differences in functional classes of duplicated genes. The preferences for some classes reject the evolutionary trends of the last 350 million years and allow assumptions on the role of those genes duplications in the lifestyle of species. Furthermore, the observed gene duplications allowed me to find connections between genomic changes and their phenotypic manifestations. For example I found duplications within carbohydrate metabolism rejecting feed pattern adaptation, within photo- and olfactory-receptors indicating sensing adaptation and within troponin indicating adaptations in the development. Despite these species specific differences, found high correlations between the independently duplicated genes between the species. This might hint for a "pool" of genes preferentially duplicated. Taken together, the observed duplication patterns reject the adaptational process and provide us another link to the field of genomic zoology.
Multiple Sklerose ist eine der häufigsten neurologischen Erkrankungen, die zu motorischen, sensiblen und vegetativen Einschränkungen führt. Häufig beginnt die Erkrankung mit einem schubförmigen Verlauf, dem eine progrediente Verschlechterung folgt. Trotzdem leiden ca. 15% der Patienten bereits von Beginn an, an einer primär progressiven Variante der MS, die bereits mit der progredienten Phase beginnt. Bis jetzt ist die Pathophysiologie nicht vollständig verstanden. Lange Zeit dachte man, dass MS primär eine reine Autoimmun-Erkrankung darstellt, aber in den letzten Jahren ergab sich die Frage, ob es vor allem in den progressiven Formen, eine zytodegenerative Komponente gibt, auf die eine sekundäre Inflammation folgt. Eine mögliche Ursache stellen hier Mutationen des PLP 1 Gens dar, die normalerweise mit leukodystrophischen Erkrankungen assoziiert sind. Es gab zwei Fallberichte, in denen von Patienten berichtet wurde, die unterschiedliche Mutationen in diesem Gen hatten und den klinischen Phänotyp einer MS zeigten. Diese Arbeit sollte nun die Auswirkungen der Mutationen, beziehungsweise einer Nullmutation des PLP 1 Gens in 18- und zum Teil 12-Monate alten Mausmutanten untersuchen. Hier konnten Myelin-Veränderungen und axonaler Schaden in immunhistochemischen Untersuchungen sowie mittels Elektronenmikroskopie und optischer Kohärenztomographie gezeigt werden. Weiter konnte eine Neuroinflammation und damit einhergehend eine zunehmende Anzahl CD8+ T-Zellen sowie einer erhöhten Anzahl an Mikroglia/Makrophagen gefunden werden. Dies ging mit vergleichsweise reduzierten Leistungen der Mutanten bei der motorischen Rotarod-Analyse einher. Interessanterweise wurde weniger neuraler Schaden in den heterozygoten Varianten gefunden, obwohl das Ausmaß der Entzündung gleichblieb. Dies könnte für eine zielgerichtete immunvermittelte Schädigung der Oligodendrozyten sprechen, die zu neuronalem Schaden führt. So konnte gezeigt werden, dass es durch Punktmutationen in einem Myelinprotein-codierendem Gen zu einer sekundären Entzündung kommen kann, die mit dem klinischen Phänotyp einer progressiven MS einhergeht. Weiter sind diese Mausmodelle ein Beispiel für eine genetische Erkrankung des ZNS, in denen die Klinik maßgeblich durch die begleitende Inflammation und nicht allein durch den genetischen Schaden verursacht wird.
The synaptonemal complex (SC) is a proteinaceous, meiosis-specific structure that is highly conserved in evolution. During meiosis, the SC mediates synapsis of homologous chromosomes. It is essential for proper recombination and segregation of homologous chromosomes, and therefore for genome haploidization. Mutations in human SC genes can cause infertility. In order to gain a better understanding of the process of SC assembly in a model system that would be relevant for humans, we are investigating meiosis in mice. Here, we report on a newly identified component of the murine SC, which we named SYCE3. SYCE3 is strongly conserved among mammals and localizes to the central element (CE) of the SC. By generating a Syce3 knockout mouse, we found that SYCE3 is required for fertility in both sexes. Loss of SYCE3 blocks synapsis initiation and results in meiotic arrest. In the absence of SYCE3, initiation of meiotic recombination appears to be normal, but its progression is severely impaired resulting in complete absence of MLH1 foci, which are presumed markers of crossovers in wild-type meiocytes. In the process of SC assembly, SYCE3 is required downstream of transverse filament protein SYCP1, but upstream of the other previously described CE–specific proteins. We conclude that SYCE3 enables chromosome loading of the other CE–specific proteins, which in turn would promote synapsis between homologous chromosomes.
Das Follikuläre Lymphom (FL) ist nach dem Diffusen großzelligen B-Zell-Lymphom (DLBCL) das häufigste Non-Hodgkin-Lymphom in der westlichen Welt. Die aktuelle WHO-Klassifikation für Tumoren der Hämatopoetischen und Lymphoiden Gewebe aus dem Jahr 2008 unterteilt dieses maligne Lymphom nach Histologie und Wachstumsmuster in vier Gruppen, FL 1 bis FL 3A und FL 3B. Obwohl die FL 1 und FL 2 zu den indolenten Tumoren gezählt werden, und FL 3A und FL 3B tendenziell eher als aggressiv gelten, so wurde in einigen Studienarbeiten gezeigt, dass das FL 3A aufgrund seiner immunhistologischen und genetischen Charakteristika, insbesondere dem Vorhandensein der BCL2/IGH t(14;18)(q32;q21) Translokation, eher den low-grade-Lymphomen (FL 1 und FL 2) nahe steht, während das FL 3B durchaus Eigenschaften des DLBCL, wie das Fehlen einer BCL2/IGH-Translokation und das vermehrte Auftreten von Aberrationen des BCL6-Gens, zeigt. In verschiedenen Arbeiten wurde des Weiteren eine Einteilung in reine FL 3B und FL 3B mit Anteilen eines DLBCL (+ DLBCL) vorgenommen, da sich auch diese beiden Subgruppen durch unterschiedliche Proteinexpression und genetische Eigenschaften auszeichnen würden. Laut den bislang in der Literatur vorliegenden (spärlichen) Daten zeigen FL 3A und FL 3B unterschiedliche Antigen-Profile und offenbar auch unterschiedliche (primäre) genetische Veränderungen, wobei gerade für das FL 3B nur wenige Daten vorliegen. Während Grad 3A-Tumoren einige Ähnlichkeiten zu den FL 1 und 2 zeigen, scheint das FL 3B im Immunphänotyp wie in der Genetik eher dem DLBCL zu ähneln. Allerdings lässt sich bei kritischer Durchsicht der Literatur erkennen, dass die meisten Fälle eines FL Grad 3 entweder gar nicht den Graden 3A oder 3B zugeordnet, beziehungsweise in diese unterschieden wurden, oder häufig bereits einen zusätzlichen diffusen Wachstumstyp aufweisen, nach den Regeln der WHO-Klassifikation für Tumoren der Hämatopoetischen und Lymphatischen Gewebe (2008) also als DLBCL mit einem zusätzlichen follikulären Wachstumsanteil klassifiziert würden. Somit sind die Daten insbesondere über die rein follikulär wachsenden FL 3B äußerst spärlich. Die vorliegende Arbeit beschäftigt sich mit der immunhistochemischen und genetischen Charakterisierung der FL 3B. Von besonderem Interesse war die Bestimmung der Häufigkeit der BCL2/IGH t(14;18)(q32;q21), BCL6/IGH t(3;14)(q27;q32) und MYC/IGH t(8;14)(q24;q32) Translokationen in den verschiedenen Typen der FL. Weiterhin sollte der Frage nachgegangen werden, ob die Anwendung der Tissue Microarray (TMA)-Technik und der Fluoreszenz in situ Hybridisierung (FISH) an TMAs robuste Daten zu dieser Fragestellung liefern kann. In einem ersten Schritt wurden vorhandene TMAs von FL, DLBCL und MALT-Lymphomen mit break-apart-Sonden für BCL2, BCL6, MYC und IGH hybridisiert, und die gewonnenen Ergebnisse mit Daten der konventionellen Zytogenetik abgeglichen. Hierdurch sollte nachgewiesen werden, dass die FISH in Kombination mit der TMA-Technik eine valide Testmethode zur Aufdeckung der gesuchten chromosomalen Aberrationen darstellt, die in Sensitivität und Spezifität der klassischen Zytogenetik nicht nachsteht. In einem zweiten Schritt wurden FL aus dem Archiv des Pathologischen Instituts der Universität Würzburg anhand der aktuellen WHO-Kriterien in die Grade 1, 2, 3A und 3B eingeteilt (und reklassifiziert). Diese Tumoren wurden im TMA und im Vollschnitt durch immunhistochemische Färbungen auf ihre Protein-Expression und mittels FISH auf ihre genetischen Eigenschaften untersucht und charakterisiert.
The etiology of anxiety disorders is multifactorial with contributions from both
genetic and environmental factors. Several susceptibility genes of anxiety disorders or
anxiety-related intermediate phenotypes have been identified, including the
serotonin transporter gene (5-HTT) and the neuropeptide S receptor gene (NPSR1),
which have been shown to modulate responses to distal and acute stress experiences.
For instance, gene-environment interaction (GxE) studies have provided evidence
that both 5-HTT and NPSR1 interact with environmental stress, particularly
traumatic experiences during childhood, in the moderation of anxiety traits, and
both 5-HTT and NPSR1 have been implicated in hypothalamic-pituitary-adrenal
(HPA) axis reactivity – an intermediate phenotype of mental disorders – in response
to acute stress exposure. The first part of this thesis aimed to address the interplay of
variations in both 5-HTT and NPSR1 genes and distal stress experiences, i.e.
childhood trauma, in the moderation of anxiety-related traits, extended by
investigation of the potentially protective effect of positive influences, i.e. elements of
successful coping such as general self-efficacy (GSE), on a GxE risk constellation by
introducing GSE as an indicator of coping ability (“C”) as an additional dimension in
a GxExC approach conferring – or buffering – vulnerability to anxiety. Increased
anxiety was observed in 5-HTTLPR/rs25531 LALA genotype and NSPR1 rs324981 AA
genotype carriers, respectively, with a history of childhood maltreatment but only in
the absence of a person’s ability to cope with adversity, whereas a dose-dependent
effect on anxiety traits as a function of maltreatment experiences irrespective of
coping characteristics was observed in the presence of at least one 5-HTT S/LG or
NSPR1 T allele, respectively. The second part of this thesis addressed the respective
impact of 5-HTT and NPSR1 variants on the neuroendocrine, i.e. salivary cortisol
response to acute psychosocial stress by applying the Maastricht Acute Stress Test
(MAST). A direct effect of NPSR1 – but not 5-HTT – on the modulation of acute
stress reactivity could be discerned, with carriers of the more active NPSR1 T allele
Summary
III
displaying significantly higher overall salivary cortisol levels in response to the MAST
compared to AA genotype carriers.
In summary, study 1 observed a moderating effect of GSE in interaction with
childhood maltreatment and 5-HTT and NPSR1, respectively, in an extended GxExC
model of anxiety risk, which may serve to inform targeted preventive interventions
mitigating GxE risk constellations and to improve therapeutic interventions by
strengthening coping ability as a protective mechanism to promote resilient
functioning. In study 2, a modulation of HPA axis function, considered to be an
endophenotype of stress-related mental disorders, by NPSR1 gene variation could be
discerned, suggesting neuroendocrine stress reactivity as an important potential
intermediate phenotype of anxiety given findings linking NPSR1 to dimensional and
categorical anxiety. Results from both studies may converge within the framework of
a multi-level model of anxiety risk, integrating neurobiological, neuroendocrine,
environmental, and psychological factors that act together in a highly complex
manner towards increasing or decreasing anxiety risk.
Foamyviren (Spumaviridae) werden neuerdings von den übrigen Retroviren (Orthoretroviridae) abgegrenzt. Durch verschiedene Besonderheiten in ihrem Replikationszyklus, wie der Möglichkeit zur intrazellulären Retrotransposition oder der reversen Transkription spät im Vermehrungszyklus, nehmen sie eine funktionale Sonderstellung zwischen Retro-, Hepadnaviren und Retrotransposons ein. Aufgrund des Aufbaus ihres Genoms, das neben dem minimalen Gensatz der einfachen Retroviren Gag, Pro, Pol und Env noch zwei weitere akzessorische Leserahmen aufweist, werden sie zu den komplexen Retroviren gerechnet. Einer dieser zusätzlichen Leserahmen kodiert für den transkriptionalen Transaktivator Tas, der für die Replikation essentiell ist. Ein infektiöser Klon einer genetisch vereinfachten Variante des Primaten Foamy Virus Typ 1 (PFV-1) wurde konstruiert, der den konstitutiv aktiven immediate early gene (IE) Promotor und Enhancer des Cytomegalievirus (CMV) im Kontext einer hybriden LTR trägt. Dieses Konstrukt, sowie ein weiteres mit funktionaler Deletion des Tas-Gens führten nach Transfektion in Zellkulturen zur Freisetzung genetisch vereinfachter, infektiöser Viren, deren Replikationskompetenz und genetische Stabilität nachgewiesen wurde. Die rekombinanten Viren zeigten dabei um etwa drei lg-Stufen erniedrigte Virustiter im zellfreien Kulturüberstand und eine reduzierte Replikationskinetik. Versuche zur Steigerung der erreichbaren Virustiter durch thermisches Aufbrechen der Zellen, Inkubation mit dem demethylierenden Agens 5-Azacytidin (AZC) und Induktion mit dem Transkriptions-Stimulator Natriumbutyrat wurden unternommen, resultierten aber nicht in einer Steigerung der Freisetzung infektiöser Partikel oder der viralen Genexpression. Die Promotor-Aktivität der hybriden LTR wurde in einem transienten Reportergenassay unter Verwendung des Luciferasegens quantifiziert und war mit der der tas-stimulierten foamyviralen LTR vergleichbar. Eine Mutation des DD35E-Motivs im aktiven Zentrum der Integrase zu DA35E führte zur Replikationsunfähigkeit der vereinfachten Viren. Obwohl der Promotor eines nicht integrierenden Virus in die hybride LTR eingeführt wurde, blieb die Integration ein obligates Ereignis für die Replikation der Viren. Die Ergebnisse der vorliegenden Arbeit zeigen, dass eine genetische Vereinfachung des PFV-1 und Replikation mit einem heterologen Promotor in einer hybriden LTR möglich ist. Damit ist eine Voraussetzung für die Konstruktion PFV-basierter Vektoren zur Gentherapie unter Verwendung gewebespezifischer Promotoren gegeben.
Genetisch bedingte und genetisch mitbedingte Erkrankungen im Krankengut einer Allgemeinarztpraxis
(2003)
Statistische Erfassung von genetisch bedingten und genetisch mitbedingten Erkrankungen einer Allgemeinarztpraxis. Es soll verdeutlicht werden, dass die Allgemeinmedizin und die Humangenetik im Rahmen der drastischen genetischen Entwicklung der Forschung enger zusammenarbeiten und die Lehre in der Ausbildung der Allgemeinmediziner intensivierte werden sollte.
Vertebrate and invertebrate visual systems exhibit similarities in early stages of visual processing. For instance, in the human brain, the modalities of color, form and motion are separately processed in parallel neuronal pathways. This basic property is also found in the fly Drosophila melanogaster which has a similar division in color- sensitive and (color blind) motion-sensitive pathways that are determined by two distinct subsets of photoreceptors (the R1-6 and the R7/8 system, respectively). Flies have a highly organized visual system that is characterized by its repetitive, retinotopic organization of four neuropils: the lamina, the medulla, the lobula and the lobula plate. Each of these consists of columns which contain the same set of neurons. In the lamina, axon bundles of six photoreceptors R1-6 that are directed towards the same point in space form columnar structures called cartridges. These are the visual sampling units and are associated with four types of first-order interneuron that receive common input from R1-6: L1, L2, L3 and the amacrine cells (amc, together with their postsynaptic partner T1). They constitute parallel pathways that have been studied in detail at the anatomical level. Little is known, however, about their functional role in processing behaviorally relevant information, e.g. for gaze stabilization, visual course control or the fixation of objects. The availability of a variety of neurogenetic tools for structure-function analysis in Drosophila allowed first steps into the genetic dissection of the neuronal circuitry mediating motion and position detection. In this respect, the choice of the effector turned out to be crucial. Surprisingly, it was found that the clostridial tetanus neurotoxin failed to block mature Drosophila photoreceptor synapses, but caused irreversible damage when expressed during their development. Therefore, the dominant-negative shibire allele shits1 which turned out to be better suited was used for blocking lamina interneurons and thereby analyzing the necessity of the respective pathways. To determine whether the latter were also sufficient for the same behavioral task, the inverse strategy was developed, based on the fact that lamina interneurons express histamine receptors encoded by the ort gene. The specific rescue of ort function in defined channels in an otherwise mutant background allowed studying their sufficiency in a given task. Combining these neurogenetic methods with the optomotor response and object induced orientation behavior as behavioral measures, the aim of the present thesis was to answer the following questions: (a) Which pathways feed into elementary motion detectors and which ones are necessary and/or sufficient for the detection of directional motion? (b) Do pathways exist which specifically mediate responses to unidirectional motion? (c) Which pathways are necessary and/or sufficient for object induced orientation behavior? Some basic properties of the visual circuitry were revealed: The two central cartridge pathways, represented by the large monopolar cells L1 and L2, are key players in motion detection. Under a broad range of stimulatory conditions, the two subsystems are redundant and are able to process motion independently of each other. To detect an impairment when only one of the pathways is intact, one has to drive the system to its operational limits. At low signal to noise ratios, i.e. at low pattern contrast or low background illumination, the L2 pathway has a higher sensitivity. At intermediate pattern contrast, both pathways are specialized in mediating responses to unidirectional motion of opposite stimulus direction. In contrast, neither the L3, nor the amc/T1 pathway is necessary or sufficient for motion detection. While the former may provide position information for orientation, the latter has a modulatory role at intermediate pattern contrast. Orientation behavior turned out to be even more robust than motion vision and may utilize a less sophisticated mechanism, as it does not require a nonlinear comparison of signals from neighboring visual sampling units. The position of objects is processed in several redundant pathways, involving both receptor subsystems. The fixation of objects does not generally require motion vision. However, motion detection improves the fixation of landmarks, especially when these are narrow or have a reduced contrast.
In the context of this thesis, I investigated the molecular causes and functional consequences of genetic instability using a human inherited disease, Fanconi anemia. FA patients display a highly variable clinical phenotype, including congenital abnormalities, progressive bone marrow failure and a high cancer risk. The FA cellular phenotype is characterized by spontaneous and inducible chromosomal instability, and a typical S/G2 phase arrest after exposure to DNA-damaging agents. So far, 13 genes have been identified, whose biallelic (or, in the case of X-linked FANCB, hemizygous) mutations cause this multisystem disorder. The FA proteins interact in a multiprotein network, instrumental and essential in the cellular response to DNA damage. A more comprehensive summary of Fanconi anemia and its myriad clinical, cellular and molecular manifestations is provided in the introduction section of this thesis. The results of my experimental work are presented as published papers and manuscripts ready to be submitted. In the first publication, I investigated the connection between FA genes and bladder tumors. The question I tried to answer was whether a disruption of the FA/BRCA pathway may be a frequent and possibly causal event in bladder cancer, explaining the hypersensitivity of these cells to DNA-crosslinking agents. On the basis of my experimental data I arrived at the conclusion that disruption of the FA/BRCA pathway might be detrimental rather than advantageous for the majority tumor types by rendering them vulnerable towards DNA damaging agents and oxidative stress. The second publication deals with the gene coding for the core complex protein FANCE and tries to answer the question why FANCE is so rarely affected among FA-patients. The conclusion from these studies is that like FANCF, FANCE functions as a probable adaptor protein with a high tolerance towards amino acid substitutions which would explain the relative rareness of FA-E patients. I have also investigated the FANCL gene whose product functions as the catalytic subunit of the E3 ligase. The third publication addresses this issue by providing the first comprehensive description of genetic alterations and phenotypic manifestations in a series of three FA-L patients. The results of my study show that genetic alterations of FANCL are compatible with survival, these alterations may include large deletions such as so far common only in the FANCA gene, FA-L phenotypes can be mild to severe, and FANCL belongs to the group of FA genes that may undergo somatic reversion. The central protein of the FA/BRCA network, FANCD2, is the subject of the fourth publication presented in this thesis. Most importantly, we were able to show that there are no biallelic null mutations in FANCD2. Correspondingly, residual protein of both FANCD2-isotypes (FANCD2-S and FANCD2-L) was present in all available patient cell lines. This suggests that complete abrogation of the FANCD2 protein cannot be tolerated and causes early embryonic lethality. There are at least three FA proteins that are not required for the posttranslational modification of FANCD2. One of these proteins is the 5’-3’ helicase BRIP1 (BRCA1-interacting protein 1), a protein that interacts directly with the breast cancer susceptibility protein BRCA1. I participated in the identification of BRIP1 as the FA protein FANCJ. This discovery is described in the fifth publication of this thesis. The newly discovered protein BRIP1/FANCJ seems to act as one of the mediators of genomic maintenance downstream of FANCD2. Another protein identified downstream of FANCD2 is PALB2. PALB2 was originally discovered as “partner and localizer of BRCA2”. In a candidate gene approach we tested patients with early childhood cancers but without mutations in BRCA2 for mutations in PALB2 (publication 6). PALB2 was identified as a novel FA gene and designated FANCN. FA-N patients are very severely affected. The last publication included in my thesis describes the identification of the FA gene FANCI as the second monoubiquitinated member of the FA/BRCA pathway (publication 7). We identified biallelic mutations in KIAA1794 in four FA patients, thus proving the genuine FA-nature of this candidate sequence. The general discussion provides a synopsis of the results and conclusions of my work with the state of art of FA research.