Familial amyloidosis with polyneuropathy : studies of genetic factors modifying the phenotype of the disease / Familjär amyloidos med polyneuropati : studier av genetiska faktorer som modifierar sjukdomsfeneotypen

Olsson, Malin

January 2010

Background. Familial Amyloidosis with Polyneuropathy (FAP) is an autosomal dominantly inherited systemic amyloid disease. The disease is caused by mutations in the transthyretin (TTR) gene, where close to 100 different amyloidogenic mutations have been identified. FAP is found worldwide, but endemic areas with a high frequency of patients are found in Portugal, Japan and northern Sweden. Cases from these endemic areas all share the same TTR c.148G>A, p.V50M ("V30M") mutation, but the phenotype of the disease varies between the areas, and also within the endemic areas. The mean onset of the disease is two decades earlier in Portugal and Japan compared to Sweden, but late as well as early age at onset cases occur within all the populations. Interestingly, the different populations all display a maternal anticipation, where an earlier onset is observed for those individuals who inherit the trait from their mother. Since substantial variation in the phenotype is observed for different populations, epigenetic/genetic and/or environmental factors must exert a significant impact on the penetrance of the disease. Amyloid formation is caused by conformational changes of proteins, which facilitates their assembly into fibrils, amyloid. Oxidative stress can mediate conformational changes of proteins and since the mitochondria regulate oxidative processes within the cell, mitochondrial function may affect amyloid formation. The mitochondrial DNA is a non-nuclear DNA, which is entirely maternally inherited, and therefore could be related to the observed maternal anticipation of the disease. In addition, differences within the surrounding regions of the TTR gene may have an impact on the transcription of the gene and thereby on the expression of the different alleles. Material and methods. DNA from early and late onset V30M cases and from non-carriers (the latter utilised as controls) from Swedish, French, Japanese and Portuguese populations were analysed. In addition, DNA from healthy Swedish V30M carriers was analysed. Conventional analytical methods were employed, such as PCR, sequencing and genotyping. Conventional statistical methods used were t-test, Chi-squared test and maximum likelihood. Results. The study of V30M carrier frequency in two counties (Lycksele and Skellefteå) within the Swedish endemic area revealed a carrier frequency of 2.14% and 2.54%, respectively. The mitochondrial haplogroup analysis showed that in populations with generally late onset (French and Swedish), the haplogroup distribution of late onset cases resembled that of the controls derived from the same area, whereas haplogroup distribution for early onset patients was significantly different. The most pronounced difference was for the rare haplogroup K, of which early onset cases had a higher frequency than the controls. Analysis of the Portuguese population, with predominantly early onset, showed that haplogroup distribution for early onset cases were similar to the Portuguese control group, which had a different distribution than the Swedish control group. By analysis of pedigrees from Swedish and Portuguese patients it could be shown that mitochondrial genetic variation entirely could explain maternal anticipation in the Portuguese patients, whereas for Swedish patients, an additional parent of origin effect is present. Our analysis of the TTR gene disclosed a polymorphism (rs62093482) in the 3'UTR region of the Swedish patients. This polymorphism was found in all V30M carriers, irrespective of symptoms. In addition, homozygous TTR V30M carriers were homozygous also for the polymorphism. Since Swedish patients share a common founder this polymorphism thus is localised on the V30M allele. This polymorphism was found in only 4% of the Swedish controls. French controls showed the same frequency, but none of the French V30M patients displayed the polymorphism. In the Japanese population the polymorphism was not present at all. Interestingly, this polymorphism generates a potential binding site for microRNA and thereby possibly could down-regulate the expression of the mutated TTR allele. Conclusions. The carrier frequency in the endemic area is remarkably high, above 2% in the Lycksele and Skellefteå areas. The prevailing haplogroup distributions in the different endemic areas are consistent between the general population and the patient group with the predominant phenotype of that area. Mitochondrial genetic differences may explain maternal anticipation in Portuguese patients, and have an influence in Swedish patients. A polymorphism in the 3'UTR regulatory region of the mutated TTR allele is found in all Swedish patients. This polymorphism may down-regulate TTR V30M expression and thereby contribute to the late onset of the disease noted in the Swedish population.

Mitochondria

parent-of-origin

MicroRNA

Single Nucleotide Polymorphism

3' Untranslated Regions/genetics

Medical genetics

Medicinsk genetik

Clinical genetics

Klinisk genetik

Analysis of Immunoglobulin Genes and Telomeres in B cell Lymphomas and Leukemias

Walsh, Sarah

January 2005

B cell lymphomas and leukemias are heterogeneous tumors with different cellular origins. Analysis of immunoglobulin (Ig) genes enables insight into the B cell progenitor, as Ig somatic hypermutation correlates with antigen-related B cell transit through the germinal center (GC). Also, restricted Ig variable heavy chain (VH) gene repertoires in B cell malignancies could imply antigen selection during tumorigenesis. The length of telomeres has been shown to differ between GC B cells and pre/post-GC B cells, possibly representing an alternative angle to investigate B cell tumor origin. Mantle cell lymphoma (MCL), previously postulated to derive from a naïve, pre-GC B cell, was shown to have an Ig-mutated subset (18/110 MCLs, 16%), suggestive of divergent cellular origin and GC exposure. Another subset of MCL (16/110, 15%), characterized by VH3-21/Vλ3-19 gene usage, alludes to a role for antigen(s) in pathogenesis, also possible for hairy cell leukemia (HCL) in which the VH3-30 gene (6/32, 19%) was overused. HCL consisted mainly of Ig-mutated cases (27/32, 84%) with low level intraclonal heterogeneity, contrasting with the proposed post-GC origin, for both Ig-mutated and Ig-unmutated HCLs. For MCL and HCL, derivation from naïve or memory marginal zone B cells which may acquire mutations without GC transit are tempting speculations, but currently little is known about this alternative immunological pathway. Heavily mutated Ig genes without intraclonal heterogeneity were demonstrated in lymphoplasmacytic lymphoma/Waldenström’s macroglobulinemia (13/14, 93%), confirming that the precursor cell was transformed after GC affinity maturation. Telomere length analysis within 304 B cell tumors revealed variable lengths; shortest in the Ig-unmutated subset of chronic lymphocytic leukemia, longest in the GC-like subtype of diffuse large B cell lymphoma, and homogeneous in MCL regardless of Ig mutation status. However, telomere length is complex with regard to GC-related origin. In summary, this thesis has provided grounds for speculation that antigens play a role in MCL and HCL pathogenesis, although the potential antigens involved are currently unknown. It has also enabled a more informed postulation about the cellular origin of B cell tumors, which will ultimately enhance understanding of the biological background of the diseases.

Genetics

B cell lymphoma/leukemia

mantle cell lymphoma

hairy cell leukemia

lymphoplasmacytic lymphoma

immunoglobulin genes

antigen selection

telomeres

cellular origin

somatic hypermutation

Genetik

Clinical genetics

Klinisk genetik

Phylogeny of Gibbons (Family Hylobatidae) with Focus on Crested Gibbon (Genus Nomascus) / Phylogenie von Gibbons (Hylobatidae) (FamilieHylobatidae) mit Fokus von Schopfgibbons (Klasse Nomascus)

Thinh, Van Ngoc

04 May 2010

No description available.

500 Naturwissenschaften allgemein

Mathematics and Computer Science

Phylogenie

Phylogeographie

Taxonomie

Absatzgebiete

Hylobatidae

Nomascus

phylogeny

biogeography

taxonomy

distribution

42.07 Biogeographie

42.20 Genetik

WJ 000 Genetik

Archaeological Genetics - Approaching Human History through DNA Analysis

Daskalaki, Evangelia

January 2014

There are a variety of archaeological questions, which are difficult to assess by traditional archaeological methods. Similarly, there are genetic and population genetic questions about human evolution and migration that are difficult to assess by studying modern day genetic variation. Archaeological genetics can directly study the archaeological remains, allowing human history to be explored by means of genetics, and genetics to be expanded into historical and pre-historical times. Examples of archaeological questions that can be resolved by genetics are determining biological sex on archaeological remains and exploring the kinship or groups buried in close proximity. Another example is one of the most important events in human prehistory – the transition from a hunter-gatherer lifestyle to farming - was driven through the diffusion of ideas or with migrating farmers. Molecular genetics has the potential to contribute in answering all these questions as well as others of similar nature. However, it is essential that the pitfalls of ancient DNA, namely fragmentation, damage and contamination are handled during data collection and data analysis. Analyses of ancient DNA presented in this thesis are based on both mitochondrial DNA and nuclear DNA through the study of single nuclear polymorphisms (SNPs). I used pyrosequencing assays in order to identify the biological sex of archaeological remains as well as verifying if fragmented remains were human or from animal sources. I used a clonal assay approach in order to retrieve sequences for the HVRI of a small family-like burial constellation from the Viking age. By the use of low coverage shotgun sequencing I retrieved sequence data from 13 crew members from the 17th century Swedish man-of-war Kronan. This data was used to determine the ancestry of the crew, which in some cases was speculated to be of non-Scandinavian or non-European origin. However, I demonstrate that all individuals were of European ancestry. Finally, I retrieved sequence data from a Neolithic farmer from the Iberian Peninsula, which added one more facet of information in exploring the Neolithization process of Europe. The Neolithic Iberian individual was genetically similar to Scandinavian Neolithic farmers, indicating that the genetic variation of prehistoric Europe correlated with subsistence mode rather than with geography.

ancient DNA

pyrosequencing

molecular genetics

aDNA

neolithization

evolutionary genetics

mtDNA

viking age

archaeological genetics

genetik

evolutionsgenetik

naturvetenskap

neolitisering

vikingatid

arkeologisk genetik

The Role of Cdep in the Embryonic Morphogenesis of Drosophila melanogaster

Morbach, Anne

19 April 2016

Many organs and structures formed during the embryonic morphogenesis of animals derive from epithelia. Epithelia are made up of apicobasally polarized cells which adhere to and communicate with each other, allowing for epithelial integrity and plasticity. During embryonic morphogenesis, epithelia change their shape and migrate in a coordinated manner. How these epithelial processes are regulated is still not fully understood. In a forward genetic screen using the embryo of the fruit fly Drosophila melanogaster, candidate genes influencing the morphogenesis of epithelial structures were identified. Three genes, CG17364, CG17362 and CG9040 were identified as possible regulators of lumen stability in the salivary glands, tubular organs deriving from the embryonic epithelium. Furthermore, the gene Cdep was found to play a crucial role in epithelial sheet migration during dorsal closure of the embryo. Embryos carrying genomic insertions that could affect the expression of CG17364, CG17362 and CG9040 show a luminal penotype of the embryonic salivary glands characterized by alternating bloated and seemingly closed sections. Therefore, one of these genes or a combination of them likely plays a role in stabilizing the salivary gland lumen. However, neither CG17364 nor CG17362 or CG9040 contain any known protein domains, hence their molecular roles remain unknown. Cdep (Chondrocyte-derived ezrin-like protein) is a member of the FERM-FA subclass of proteins. Proteins of the FERM family have been shown to interact with the plasma membrane and membrane-bound proteins as well as cytoskeleton components. Accordingly, they have been implicated in stabilizing the cell cortex, and some of them are involved in signal transduction mechanisms. In addition to a FERM domain, Cdep also contains a RhoGEF domain, although is still not clear whether it actually exerts GEF activity. Genomic insertions in the Cdep locus cause defects in embryonic dorsal closure and atypical migratory behaviour in epithelial tubes. In order to study the molecular role of Cdep, the CRISPR/Cas9 system was employed to establish loss-of-function mutants of Cdep. The mutants show aberrations in germ band retraction, dorsal closure and head involution. Moreover, I found that two mutants carrying a premature STOP codon in the Cdep ORF, CdepE16X and CdepG17X, rescue the defects observed in embryonic cuticles mutant for two other FERM-FA members yurt (yrt) and coracle (cora). A deletion of the full Cdep ORF did not rescue those defects. I hypothesize that CdepE16X and CdepG17X encode Cdep variants with increased activity, which compensates for the loss of yrt or cora function, respectively. In conclusion, this leads to a model in which Cdep acts in parallel to Yrt and Cora during Drosophila embryonic morphogenesis. Many of the defects described in this study are reminiscent of phenotypes found in embryos mutant for components and downstream effectors of the Jun-N-terminal Kinase (JNK) pathway. Hence, my work supports an earlier hypothesis according to which a mouse homologue of Cdep, Farp2, acts as an upstream activator of the JNK pathway during epithelial cell migration in vitro (Miyamoto et al., 2003) The data provided here shows that Cdep plays a role in the morphogenesis of a great number of epithelia-derived organs and structures in vivo. My study therefore elucidates a missing link between cell migration cues and JNK pathway activation.:1 Introduction 1 1.1 Epithelial cell polarity 1 1.1.1 Cellularization and formation of the primary epithelium 1 1.1.1.1 Establishment of epithelial polarity and adhesion 2 1.1.2 The epithelial polarity network 3 1.1.3 Cell-cell adhesion 5 1.1.3.1 Adherens junctions 5 1.1.3.2 Septate junctions 6 1.2 Epithelial movements in Drosophila embryonic morphogenesis 6 1.2.1 Epithelial tube formation during Drosophila embryogenesis 7 1.2.2 Coordinated migration of epithelial sheets during Dros. embryogenesis 7 1.2.2.1 FERM domain proteins in epithelial migration 9 1.2.2.2 Cdep 10 1.3 Mutagenesis with the CRISPR/Cas9 system 12 2 Aim of My PhD Thesis Work 15 3 Preliminary Work 17 4 Results 19 4.1 A screen for novel regulators in Drosophila embryonic morphogenesis 19 4.1.1 Deficiencies on the left arm of chromosome 3 cause defects in SG lumen morphology 19 4.1.2 A locus in the overlap of two deficiencies on the right arm of chromosome 3 causes defects in Drosophila embryonic dorsal closure 20 4.2 Two uncharacterized genes regulate SG lumen diameter in Drosophila embryos 22 4.2.1 Mutations in two uncharacterized genes on chromosome 3 cause intermittent tube closure in the Drosophila SG 22 4.2.2 CG17362/ CG9040/ CG17364 play a role in the maintenance of SG lumen width after lumen expansion 24 4.2.3 CG17362 is exclusively expressed in the embryonic SG 25 4.2.4 CG17362 and CG9040 do not contain known protein domains and are only conserved in Drosophilidae 28 4.3 Loss of Cdep causes different defects in Drosophila embryonic morphogenesis 30 4.3.1 Insertions in the ORF of Cdep cause defects in DC and HI 30 4.3.2 Embryos transheterozygous for PBac{5HPw+}CdepB122 and Mi{MIC} CdepMI00496 show defects in the LE during DC 34 4.3.3 Insertions in the ORF of Cdep cause defects in tracheal and Malpighian tubule morphogenesis 34 4.3.4 The CRISPR/Cas9 system was used to generate loss-of-function mutants of Cdep 35 4.3.5 LOF mutants of Cdep show a variety of phenotypes 37 4.3.6 LOF mutants of Cdep cause denticle belt defects and ventral holes in Drosophila larval cuticles 38 4.3.7 Phenotypes in Cdep−/− mutant embryos are likely not caused by maternal defects 44 4.3.8 LOF mutants of Cdep cause segments to fuse 44 4.3.9 Defects in Cdep−/− mutants are not due to actin mislocalization 51 4.3.10 Cdep genetically interacts with yurt 51 4.3.11 Cdep genetically interacts with cora 55 5 Discussion 57 5.1 The role of CG17362 and CG9040 in SG lumen stability 57 5.1.1 Impairments in the expression of CG17362 and CG9040 could be the cause for the intermittent tube closure in the embryonic SGs 57 5.1.2 CG17362 and CG9040 could be necessary for SG lumen dilation and stability of lumen diameter 57 5.2 The role of Cdep in Drosophila embryonic morphogenesis 59 5.2.1 Cdep is a regulator of the JNK pathway 60 5.2.1.1 Mutations in TGF-_ pathway components cause LE bunching and gaps in the tracheal dorsal trunk 60 5.2.1.2 The JNK pathway, like Cdep, is instrumental in GBR, DC and HI 61 5.2.1.3 Mouse Farp2 acts upstream of the JNK pathway 61 5.2.2 Does Cdep act as a GEF? 62 5.2.3 Cdep might regulate epithelial migration in parallel to Yrt and Cora 63 5.3 Conclusion and Outlook 64 6 Materials and Methods 67 6.1 Cell strains, plasmids and DNA constructs 67 6.2 Culture media 68 6.2.1 Lysogeny Broth (Bertani, 1951) 68 6.2.2 Super Optimal Catabolite repression (SOC) medium (Hanahan, 1983) 68 6.3 Molecular biology methods 69 6.3.1 Amplifying DNA by standard PCR technology 69 6.3.2 Molecular cloning 70 6.3.2.1 Cloning with restriction endonucleases (Old and Primrose, 1980) 70 6.3.2.2 Gibson Assembly (Gibson et al., 2009) 70 6.3.3 Detecting DNA via agarose gel electrophoresis 71 6.3.4 Purifying DNA from E.coli 71 6.3.5 Extracting DNA from Drosophila adults 71 6.3.5.1 Extracting mRNA from Drosophila embryos and reverse transcription into cDNA 72 6.3.6 Making mRNA probes for in situ hybridization 72 6.3.7 Measuring DNA concentrations using the NanoDrop 72 6.3.8 DNA sequencing 72 6.3.9 Transformation 73 6.3.10 Mutagenesis of Cdep with the CRISPR-Cas9 system 73 6.3.10.1 CRISPR/Cas9 tools for mutagenesis in D.melanogaster 73 6.3.11 Strategies for CRISPR/Cas9 mutagensis 74 6.3.11.1 vectors and oligomers used for mutagenesis of Cdep via CRISPR-Cas9 system 75 pCFD3-dU6:3-CdepEx2gRNA 75 CdepSTOP-ssODN 76 pCFD4-CdepExc_2sgRNAs 77 pDsRed-5’HA-3’HA 78 6.3.11.2 Screening for successful mutagenesis events in flies modified with the CRISPR/Cas9 system 79 Insertion of an in-frame stop codon into the Cdep ORF 79 Replacing the entire Cdep locus with dsRed 80 6.3.12 Extracting protein from Drosophila embryos 83 6.3.13 Detecting and separating proteins by mass via SDS-PAGE 83 6.3.14 Detection of specific polypeptides by Western blot analysis (Towbin et al., 1979) 84 6.3.14.1 Transferring polypeptides to nitrocellulose membrane 84 6.3.14.2 Detecting specific polypeptides via immonublotting 85 6.4 Online tools for prediction of protein domains, interactions, sequence alignments, etc. 86 6.5 Cell culture growth and harvest 86 6.5.1 Growing E.coli cells for vector amplification 86 6.5.2 Cell harvest 86 6.6 Work with Drosophila melanogaster 87 6.6.1 Fly stocks used: deficiencies, alleles, duplications and balancers 88 6.6.2 Recombining alleles located on the same chromosome 93 6.6.3 Collecting Drosophila melanogaster embryos 93 6.6.4 Histochemistry 94 6.6.4.1 Embryo dechorionation 94 6.6.4.2 Embryo fixation for light microscopy of whole specimens 94 Heat fixation of Drosophila embryos 94 Formaldehyde fixation of Drosophila embryos 94 6.6.4.3 Embryo fixation for light microscopy of semi-thin sections (Tepass and Hartenstein, 1994) 95 6.6.4.4 Antibody staining of embryos for Immunofluorescence 95 6.6.4.5 Phalloidin and DAPI staining of embryos 96 6.6.4.6 Embryo mounting for analysis via fluorescence microscopy 96 6.6.4.7 Embryo mounting for live imaging 97 6.6.4.8 Embedding of embryos for semi-thin sectioning 97 6.6.4.9 Cuticle preparation from hatched and unhatched Drosophila larvae 97 6.6.4.10 Preparation and staining of ovarian follicles from Drosophila females 98 6.6.4.11 mRNA in situ hybridization of whole-mount Drosophila embryos 99

info:eu-repo/classification/ddc/570

ddc:570

Germline Transgenic Methods for Tracking Cells and Testing Gene Function during Regeneration in the Axolotl

Tanaka, Elly M., Khattak, Shahryar, Schuez, Maritta, Richter, Tobias, Knapp, Dunja, Haigo, Saori L., Sandoval-Guzmán, Tatiana, Hradlikova, Kristyna, Duemmler, Annett, Kerney, Ryan

27 October 2015

The salamander is the only tetrapod that regenerates complex body structures throughout life. Deciphering the underlying molecular processes of regeneration is fundamental for regenerative medicine and developmental biology, but the model organism had limited tools for molecular analysis. We describe a comprehensive set of germline transgenic strains in the laboratory-bred salamander Ambystoma mexicanum (axolotl) that open up the cellular and molecular genetic dissection of regeneration.We demonstrate tissue-dependent control of gene expression in nerve, Schwann cells, oligodendrocytes, muscle, epidermis, and cartilage. Furthermore, we demonstrate the use of tamoxifen-induced Cre/loxP-mediated recombination to indelibly mark different cell types. Finally, we inducibly overexpress the cellcycle inhibitor p16INK4a, which negatively regulates spinal cord regeneration. These tissue-specific germline axolotl lines and tightly inducible Cre drivers and LoxP reporter lines render this classical regeneration model molecularly accessible.

Moelkular

Zellbiologie

Genetik

Biochemie

Mokecular Cell Biology

genetics

biochemistry

ddc:610

rvk:XA 10000

An Integrated Micro- and Macroarchitectural Analysis of the Drosophila Brain by Computer-Assisted Serial Section Electron Microscopy

Hartenstein, Volker, Cardona, Albert, Saalfeld, Stephan, Preibisch, Stephan, Schmid, Benjamin, Cheng, Anchi, Pulokas, Jim, Tomancak, Pavel

26 November 2015

The analysis of microcircuitry (the connectivity at the level of individual neuronal processes and synapses), which is indispensable for our understanding of brain function, is based on serial transmission electron microscopy (TEM) or one of its modern variants. Due to technical limitations, most previous studies that used serial TEM recorded relatively small stacks of individual neurons. As a result, our knowledge of microcircuitry in any nervous system is very limited. We applied the software package TrakEM2 to reconstruct neuronal microcircuitry from TEM sections of a small brain, the early larval brain of Drosophila melanogaster. TrakEM2 enables us to embed the analysis of the TEM image volumes at the microcircuit level into a light microscopically derived neuro-anatomical framework, by registering confocal stacks containing sparsely labeled neural structures with the TEM image volume. We imaged two sets of serial TEM sections of the Drosophila first instar larval brain neuropile and one ventral nerve cord segment, and here report our first results pertaining to Drosophila brain microcircuitry. Terminal neurites fall into a small number of generic classes termed globular, varicose, axiform, and dendritiform. Globular and varicose neurites have large diameter segments that carry almost exclusively presynaptic sites. Dendritiform neurites are thin, highly branched processes that are almost exclusively postsynaptic. Due to the high branching density of dendritiform fibers and the fact that synapses are polyadic, neurites are highly interconnected even within small neuropile volumes. We describe the network motifs most frequently encountered in the Drosophila neuropile. Our study introduces an approach towards a comprehensive anatomical reconstruction of neuronal microcircuitry and delivers microcircuitry comparisons between vertebrate and insect neuropile.

Neuroinformatik

Genetik

neuroinformatics

genetics

molecular cell biology

ddc:570

ddc:610

rvk:WA 15000

Human Adaptation in the Light of Ancient and Modern Genomes

Key, Felix-Michael

13 June 2016

Modern humans originated in Africa around 200,000 years ago and today have settled in nearly every corner of earth. During migrations humans became exposed to new pathogens, food sources and have encountered vastly different environments. Natural selection likely contributed to the survival under such diverse conditions by promoting the raise in frequency of advantageous alleles. Thereby natural selection leaves genetic footprints that we can identify. The thesis at hand is about understanding how natural selection has shaped different human populations by analyzing these genetic footprints. In the first study, I infer the evolutionary history of an insertion-substitution variant using present-day human genomic data. This variant is interesting because the ancestral allele encodes a previously unannotated open-reading frame for a gene with antiviral ac- tivity (IFNL4 ), while the derived allele truncates this open-reading frame and is strongly associated with improved clearance of Hepatitis C, a major health care problem. Using an approximate bayesian computation approach I infer a complex evolutionary history, where the derived, truncating allele evolved under weak positive selection in Africa, with selection strength increasing in non-African populations, especially in East Asian popu- lations where the truncating allele is nearly fixed today. Hence, the changes in selection and resulting population differences in allele frequency contribute to the variation in Hep- atitis C clearance observed across human populations today. In the second study, I use ancient human genomes to estimate genome-wide allele frequencies in the past to understand present-day population differentiation. I develop a new statistic and incorporate the genome of Ust’-Ishim, a modern human that lived 45,000 year ago in Siberia, to study to what extent natural selection and drift have contributed to human population differentiation. The results suggest that European populations carry high frequency alleles in protein-coding (genic) regions that evolved under strong, recent positive selection. Further, the genic alleles that rose in frequency recently in Europeans were already present in ancient hunter-gatherers more often than in ancient farmers. This suggests that during the colonization of Europe local, positive selection changed the frequency of advantageous alleles in hunter-gatherer populations prior to the influx of farming individuals and those alleles remained beneficial also in the later admixed populations.

Genetik Selektion Differenzierung Mensch

genetics selection differentiation human

ddc:576

Evolutionsbiologie

Tagging systems for sequencing large cohorts

Neiman, Mårten

January 2010

<p>Advances in sequencing technologies constantly improves the throughput andaccuracy of sequencing instruments. Together with this development comes newdemands and opportunities to fully take advantage of the massive amounts of dataproduced within a sequence run. One way of doing this is by analyzing a large set ofsamples in parallel by pooling them together prior to sequencing and associating thereads to the corresponding samples using DNA sequence tags. Amplicon sequencingis a common application for this technique, enabling ultra deep sequencing andidentification of rare allelic variants. However, a common problem for ampliconsequencing projects is formation of unspecific PCR products and primer dimersoccupying large portions of the data sets.</p><p>This thesis is based on two papers exploring these new kinds of possibilities andissues. In the first paper, a method for including thousands of samples in the samesequencing run without dramatically increasing the cost or sample handlingcomplexity is presented. The second paper presents how the amount of high qualitydata from an amplicon sequencing run can be maximized.</p><p>The findings from the first paper shows that a two-tagging system, where the first tagis introduced by PCR and the second tag is introduced by ligation, can be used foreffectively sequence a cohort of 3500 samples using the 454 GS FLX Titaniumchemistry. The tagging procedure allows for simple and easy scalable samplehandling during sequence library preparation. The first PCR introduced tags, that arepresent in both ends of the fragments, enables detection of chimeric formation andhence, avoiding false typing in the data set.</p><p>In the second paper, a FACS-machine is used to sort and enrich target DNA covered emPCR beads. This is facilitated by tagging quality beads using hybridization of afluorescently labeled target specific DNA probe prior to sorting. The system wasevaluated by sequencing two amplicon libraries, one FACS sorted and one standardenriched, on the 454 showing a three-fold increase of quality data obtained.</p> / QC20100907

next generation sequencing

genotyping

massive parallel sequencing

454

Pyrosequencing

amplicon sequencing

enrichment

DNA barcodes

Genetics

Genetik

Opportunity for natural selection in Sweden : a study of childhood mortality and differential reproductivity

Hed, Helen M. E.

January 1986

Opportunity for natural selection in human populations has so far mainly been studied on anthropological data for tribal populations or on census data for nations. The present study is mainly based on data on individual lifehistories but also, for part of the longitudinal study, on census data. Six of the populations, Nedertorneå, Tuna, Svinnegarn, Trosa, Locknevi and Fleninge are parishes. These sets of data covers the period 1800-1850 as defined by the birthyears of the women. The data for the longitudinal study are derived from two sour­ces, a biography over all clergymen in the diocese of Linköping, cove­ring the period 1600-1845, and material published by the National Swe­dish Central Bureau of Statistics (SCB) that covers the period 1750-1980. For each subpopulation data on childhood mortality and female fertility has been collected and from these data Crow's index of opportunity for natural selection has been calculated. The original index has also been modified in order to estimate the importance of childlessness in relation to the total index. The study shows that for the periods and the populations studied, there is a considerable opportunity for natural selection both through mortality and through differential fertility and that, during our cen­tury, differential fertility has become the main asset for natural se­lection, as mortality has been reduced to very low levels. It is also obvious that childlessness is an important factor as regards natural selection in human populations. The cross-sectional study shows signi­ficant differences between the populations for all components of the index. The longitudinal study covers when, the two sets of data are combined, a period of over 350 years, 1600-1980. Over this period changes in index of opportunity for natural selection have occured but these changes are not very drastic as compared to other longitudinal studies. However, within a separate region there can be drastic chang­es in index between decades and there are large differences between regions. Mortality and fertility patterns have been studied from different angles. With the exception for the census data, each woman in the stu­dy has be followed from 16 to 40 years of age and each of her children (if any) has be followed from birth to 16 years of age or death, if prior. Therefore it was possible to obtain distributions for age at first childbirth, sibship size, succesful sibship size, childhood mor­tality by age at death, female mortality, and childlessness, total and marital. In some cases a study of sex ratio at birth and at 16 years of age, and birth intervals, have been made. Statistical analysis of the results shows significant differences between populations for all tests that have been applied. The Linköping data was analysed for dif­ferences between periods. Significant differences were found for all of the parameters with the exception of female mortality. / <p>Härtill 5 uppsatser</p>

Opportunity for selection

Crow's index

Demography

Sweden

1600-1980

Mortality

Fertility

Genetics

Genetik