Global ETD Search

71	Rôles de la protéine p53 et de l'oncoprotéine virale HBx dans la réponse cellulaire aux dommages à l'ADN Mathonnet, Géraldine January 2005 (has links) Thèse numérisée par la Direction des bibliothèques de l'Université de Montréal. P53 Réparation par excision de nucléotides Réparation couplée à la transcription HBV HBx UV Carcinome hépatocellulaire LMPCR
72	Expression, Purification and Characterization of a Soluble and Active RNAse H from the Hepatitis B Virus Saavedra, Mario Alejandro 01 January 2007 (has links) The HBV RNAse H has been cloned into the PET43a vector, which contains the NusA protein which works as a solubilizing fusion protein. The fusion NUS-RNAse H protein was cleaved by enterokinase; the cleaved RNAse H is about 17 Kda which remains soluble and active. A fluorescence assay utilizing a quenching mechanism was used to characterize the activity of NUS-RNAse H and cleaved RNAse H proteins. The beacon is a RNA:DNA hybrid oligonucleotide labeled with a 5'DABCYL and a 3'fluorescein, when RNAse H digests the RNA, DABCYL is released resulting in high fluorescence. The digestion of the RNA was also confirmed by gel analysis. The protein was identified by N-terminal amino acid sequence analysis of the fusion protein, SDS-PAGE, western blot utilizing HBV positive sera for primary antibodies, and enzyme immunoassay by peroxidase labeling of HBV RNAse H. Structural analysis of the protein was done by circular dichroism, tryptophan fluorescence, the generation of a model from HIV RNAse H and initial crystals which unfortunately did not diffract. The ability to produce good amounts soluble RNAse H, the development of a sensitive assay to test for activity and the solution of the crystal structure will help develop new anti-viral inhibitors. hepatitis B virus HBV RNAse H Life Sciences
73	Déprotection et raccourcissement télomériques dans le carcinome hépatocellulaire / Telomere dysregulation in hepatocellular carcinoma El Idrissi, Lalla Manale 14 November 2013 (has links) Le carcinome hépatocellulaire (HCC) est une tumeur de mauvais pronostic caractérisée, comme la plupart de cancers, par l'association paradoxale de télomères courts et d'une importante activité télomérase. Cette attrition télomérique joue un rôle central dans l'instabilité chromosomique à l'origine de la promotion et de l'évolution tumorale. Les premières causes d'HCC correspondent aux infections chroniques par les virus hépatotropes : virus de l'hépatite B (VHB) et virus de l'hépatite C (VHC). Dans une première étape nous avons disséqué les dérégulations télomériques dans les HCC et les cirrhoses liées au VHB, VHC ou encore à l'alcool. Nous avons observé que ces dérégulations sont acquises tôt, au stade prétumoral, et persistent au stade tumoral. Ces dérégulations sont spécifiques d'un carcinogène donné. Aux stades tardifs et tumoraux de l'infection par le VHB, les cellules hépatiques expriment fréquemment une protéine tronquée en partie C-terminale d'HBx ainsi que des formes réarrangées du gène PreS/S telle que PreS2. Dans une seconde étape nous avons trouvé qu'à l'opposé de la forme sauvage, HBx tronquée réprime hTERT, diminue l'activité télomérase, raccourcit les télomères, augmente la proportion de ponts anaphasiques et déclenche la sénescence de cellules primaires. Sachant qu'au stade tumoral les cellules transformées ré-expriment hTERT nous avons testé l'effet d'une coexpression de PreS2 et d'HBx tronquée et avons pu montrer que PreS2 contrecarrait l'effet répresseur d'HBx sur hTERT. Néanmoins de façon étonnante, PreS2 ne parvenait pas à rallonger les télomères en présence d'HBx tronquée. Les facteurs protégeant les télomères coopèrent avec la télomérase pour l'élongation et plusieurs de ces protéines sont par ailleurs impliquées dans la réparation des dommages à l'ADN. Nous avons trouvé qu'HBx tronquée modifiait spécifiquement l'expression de la plupart des protéines du télosome selon un patron connu pour inhiber l'effet de la télomérase. Nous avons montré que des dommages à l'ADN télomérique liés à l'incubation de cellules primaires avec la néocarcinostatine inhibaient l'élongation des télomères par hTERT. Ayant trouvé que PreS2 et HBx tronquée induisaient des dommages à l'ADN, nous proposons que cet effet explique l'impossibilité pour PreS2 d'allonger les télomères de cellules exprimant HBx tronquée / Among the numerous genetic defects that underly with hepatocarcinogenesis, telomere abnormalities seem to play a role both in tumor promotion and maintenance. Telomeres, the chromosome extremities, are protected by specific proteins, the Shelterin complex and by additional factors. Besides telomerase dysregulation, changes in the expression of these telomere factors have been observed in cancers. Herewe first tested the hypothesis that such dysregulations might occur in HCC with patterns depending onthe cause of HCC. For HBV-, HCV- and alcool-dependant HCC we found that telomeric dysregulations appear to be carcinogen-specific and occur early during the course of the disease and are persistent in the tumor. At the late stage of HBV-dependent disease and corresponding tumors, hepatocytes produce 3’ deleted mutants of HBx (3’DM HBx) but also a rearranged form of the PreS/S gene: PreS2. We then found that, unlike WT HBx, 3’ DM HBx repress hTERT transcription, decrease telomerase activity, shorten telomere length, increase anaphase bridges and trigger senescence in transfected primary cells. It’s well known that hTERT it re-expressed in tumors, so we tested PreS2 and 3’DM HBx transfection. We show that PreS2 counteracts 3’DM HBx effect on hTERT transcription and telomerase activity. However surprisingly PreS2 wasn’t able to elongate telomeres in 3’DM HBx expressing cells. Telomeric factors interact with telomerase allowing telomere elongation. Moreover many of these factors are implicated in DNA damage repair systems. We found that all Shelterin’s and some other telomeric factors’s expression in dyregulated in 3’DM HBx expressing cells. Moreover we show that neocarcinostatin dependent DNA damage in MRC5 primary cell prevent hTERT-based telomere elongation. Also finding that PreS2 and 3’DM induce DNA damage, we suggest that 3’DM HBx prevents PreS2 and hTERT- based telomere elongation Télomères Télomérase Hépatocarcinome VHB VHC HBx PreS2 Telomere Telomerase Hepatocellular carcinoma HBV HCV HBx PreS2 616.994
74	Inhibiting Hepatitus B virus replication with short hairpin RNA sequences that target the viral X open reading frame Ely, Abdullah 17 November 2006 (has links) Student Number : 9903082V - MSc (Med) dissertation - Faculty of Health Sciences / Chronic infection with the hepatitis B virus (HBV) is endemic to sub-Saharan Africa and south-east Asia where it is a major risk factor for the development of cirrhosis and hepatocellular carcinoma (HCC). Currently available therapy is only effective in a small subset of chronic carriers. The development of novel treatment modalities for the management of HBV therefore remains an important global medical objective. Sequence plasticity of the HBV genome is limited by its small size and the overlapping nature of its open reading frames (ORFs). These features make HBV an ideal target for therapy based on nucleic acid hybridization. The use of ribozymes (RNA enzymes) and antisense molecules to inhibit gene expression is well documented. The recent discovery of RNA interference (RNAi) has added to the arsenal of therapy based on nucleic acid hybridization. RNAi is the process whereby short RNA duplexes (called short interfering RNA or siRNA) mediate the sequence-specific post-transcriptional silencing of genes homologous in sequence to the siRNA. siRNA function by guiding a protein complex (RNA Induced Silencing Complex or RISC) to target mRNA for degradation or translational repression. The protein X ORF (HBx ORF) is a conserved region of the HBV genome and is common to all viral transcripts. HBx is required for infection by the virus and plays an important role in the establishment of chronic infections in vivo as well as in the development of HCC. RNAi targeted against the HBx ORF may therefore prove useful as treatment of chronic HBV infection. Plasmid based expression cassettes capable of endogenously generating short hairpin RNA (shRNA) targeted to the HBx ORF were constructed. The shRNA function as substrates for the RNAi machinery and are processed into siRNA. The ability of the expression cassettes to knockdown markers of HBV gene expression was tested in a human hepatoma cell line. A panel of 10 U6 promoter-driven shRNA expression vectors was generated. The U6 promoter (an RNA polymerase III promoter) is normally involved in the transcription of small nuclear RNA and as such is ideal for the generation of shRNA of precisely defined length. Three cytomegalovirus (CMV) promoter-driven shRNA expression cassettes incorporating ribozymes that produce defined hairpin sequences were also generated. The CMV promoter (an RNA polymerase II) promoter is involved in the transcription of large messenger RNA. Two hammerhead ribozymes lying 5’ and 3’ of the shRNA encoding sequence were incorporated into the cassette. Cis-cleavage by the ribozymes releases a shRNA of defined length thereby overcoming the limitations imposed by extraneous sequences from CMV promoter-driven transcription. U6 promoter-driven shRNA expression vectors efficiently knocked down markers of HBV replication in liver cells. The CMV promoter-driven expression vectors were incapable of inhibiting HBV gene expression; however shRNA generated in vitro from these vectors mediated efficient knockdown of HBV replication. shRNA-mediated inhibition of gene expression therefore holds promise as a novel treatment strategy for the management of HBV and other mobile genetic elements. hepatitis B virus HBV sub-Saharan Africa cirrhosis hepatocellular carcinoma HCC treatment modalities Sequence plasticity
75	Dopady změn klimatu na sněhové zásoby a odtok v jarním období v pramenné oblasti Vydry / Climate change impacts on snow storages and spring runoff in the Vydra river basin Cuřín, Vojtěch January 2018 (has links) Climate change impacts on snow storages and spring runoff in the Vydra river basin Abstract As a result of increasing air temperature, the fraction of precipitation falling as snow decreases. This affects snow cover indicators including snow cover duration, snow cover extent and the amount of water that accumulates in snow cover during winter. These changes further propagate through local runoff process and alter winter and spring runoff. The impacts of air temperature warming of 1℃, 2℃ and 3℃ on the above-mentioned indicators were simulated using a conceptual catchment runoff model HBV-light. Multi- criteria calibration, based on functions describing the goodness of fit of simulated runoff and snow water equivalent (SWE) values was performed. The temperature change scenarios were derived using the delta-change method from reference dataset 1980-2014. The indicator changes were evaluated for 5 elevation belts of the catchment as well as for the catchment as a whole, so that the observed alternations of snow cover indicators could be related to the modelled alternations of runoff. The changes in snow cover characteristics based on these simulations include a decrease of snowfall fraction, shortened snow season, decrease in average and maximal SWE values, and the shift of the average day of year of SWEmax to...
76	Identification of PLK1 as a proviral factor for the hepatitis B virus replication : A possible target for antiviral and anticancerous drug development / Développement et utilisation d'ARN interférents dirigés contre PLK1 dans le cadre d'une infection chronique par le virus de l'hépatite B Foca, Adrien 14 December 2018 (has links) Dans les régions de fortes endémicités, 70-80% des carcinomes hépatocellulaires sont induits par le VHB. Bien qu’un vaccin prophylactique très efficace existe, il n’est d’aucune utilité pour les 250 millions de personnes chroniquement infectées. Les traitements actuels pour contrôler l'infection chronique par le VHB montrent des limites et le besoin de nouvelles thérapies se fait ressentir. La Polo-like kinase-1 (PLK1), qui joue un rôle essentiel dans la mitose et est surexprimée dans de nombreux cancers, représente une cible prometteuse. Outre son rôle lors de la division cellulaire, PLK1 est impliquée dans la régulation de l'expression des gènes en interphase. Il a été montré que la protéine X du VHB (HBx) active PLK1 dans des modèles de cellules murines. Cependant, il restait à déterminer si PLK1 jouait un rôle au niveau de la réplication du VHB dans des hépatocytes quiescents. Des études récentes ont mis en évidence un lien positif entre l'activation de PLK1 et la réplication du VHB. Le but de ce projet de thèse a été d'étudier le(s) mécanisme(s) par le(s)quel(s) PLK1 jouait un rôle positif sur la réplication virale, avec pour objectif futur d'explorer l’inhibition de PLK1 comme cible antivirale. L'interaction entre PLK1 et la réplication du VHB a d'abord été décrite à l'aide du modèle HepAD38. Dans ce contexte, l'ADN viral est intégré dans le génome hôte, sous le contrôle d'un système d'expression Tet-off. La transcription de l'ARN prégénomique (pgRNA), à la base de la réplication virale, est initiée par la suppression de tétracycline. Dans ce contexte, l'augmentation de l'expression de PLK1 est corrélée avec la régulation négative de deux protéines; SUZ12 et ZNF198, faisant partie de complexes de remodelage de la chromatine. L'inhibition de PLK1 bloque la réplication du VHB, en agissant au niveau de la transcription virale. D'autre part, dans les modèles de réplication du VHB qui miment au mieux une infection, comprenant les hépatocytes primaires humains (PHH) et les cellules non transformées/différenciées HepaRG (dHepaRG), où le VHB se réplique dans des cellules quiescentes, nous avons mis en évidence que: 1) L'inhibition pharmacologique de PLK1 bloque la réplication virale, semblablement en perturbant l’encapsidation du pgRNA via une interaction avec la protéine core du VHB (HBc). 2) Un knocking-down de PLK1 en utilisant des ARN interférents délivrés par nanoparticules lipidiques résulte en une forte baisse de la production de pgRNA et dans la sécrétion des antigènes HBeAg/HBsAg, sans impact sur la viabilité cellulaire. Ce projet a donc permis la preuve de concept que PLK1 pouvait être une cible thérapeutique afin de controler la réplication du VHB. De plus, grâce à la technologie de délivrance par nanoparticules lipidiques d’ARN interférents, nous avons pu cibler spécifiquement les hépatocytes, augmentant de ce fait la spécificité et l’efficacité de nos traitements. Un travail sur la compréhension précise des méchanismes cellulaires impliqués permettra de mieux cerner cette interaction hôte/virus afin de poursuivre le développement de stratégies antivirales innovantes portant sur l’inhibition de PLK1. De manière significative, l'inhibition de PLK1 est non toxique pour les cellules quiescentes par rapport à des cellules cancéreuses à fort taux réplicatif, ce qui fait de PLK1 une cible thérapeutique attrayante. Des inhibiteurs spécifiques sont déjà en essais cliniques pour certains cancers (e.g., Volasertib pour le traitement de la leucémie myéloïde aiguë) et pourraient servir de thérapie bimodale dans le cadre de patients infectés par le VHB, en inhibant la réplication virale, ainsi qu’en prévenant l'émergence de cellules néoplasiques. L'inhibition de la PLK1 est une approche antivirale innovante, qui, en combinaison avec les thérapies actuelles de type IFN-α ou analogues nucléotidiques offre de grandes promesses pour endiguer l'infection chronique par le VHB mais également prévenir les événements carcinogéniques / In highly HBV endemic regions, 70-80% of hepatocellular carcinoma cases are attributable to this virus. Despite the existence of an HBV vaccine, the World Health Organization estimates 240 million individuals are chronically infected with HBV worldwide. Current antiviral treatments to control chronic HBV infections, and consequently reduce the incidence of liver cancer, are ineffective. New and effective therapies are needed not only for fighting the virus but also to prevent HCC emergence or progression. The polo-like-kinase 1 (PLK1), which plays pivotal roles in mitosis and is over-expressed in many human cancers, represents a promising druggable target in oncology. Beside its role during cell division, PLK1 is also thought to be involved in gene expression regulation during interphase. It was shown that the X protein (HBx) could activate PLK1 in murine cell transformation models. Yet it remained to be determined whether PLK1 could also play a role for HBV replication in non-dividing hepatocytes. Our, and collaborators, recent studies have identified a positive link between PLK1 activation and HBV replication. The goal of this thesis project was to investigate the mechanism(s) by which PLK1 exerts a positive effect on HBV replication, with the future goal of exploring PLK1 as an antiviral target. The interplay between PLK1 and HBV replication was firstly described using the HepAD38 cellular model of HBV replication. In this context, the HBV DNA is stably integrated into the host genome, under control of a Tet-off expression system. Transcription of HBV pregenomic RNA (pgRNA), the template of viral replication, is initiated by tetracycline removal. It has been shown that in HBV-replicating HepAD38 cells, increased PLK1 expression correlates with down-regulation of two proteins that are components of chromatin modifying complexes; SUZ12 protein of the PRC2 complex, and ZNF198 of the LSD1-CoREST-HDAC1 complex. PLK1 inhibition was described to inhibit HBV replication by reducing viral transcription. How PLK1 regulates HBV transcription remains unknown. On the other hand, in HBV replication models that resemble physiologic HBV infection, comprised of Primary Human Hepatocytes (PHH) and non-transformed/differentiated HepaRG cells (dHepaRG), where HBV replicates in non-transformed and non-dividing cells, thus enabling the study of the inter-phasic role of PLK1, irrespective of its well-established cell division implication, we have demonstrated that: 1) A pharmacological inhibition of PLK1 suppressed HBV replication by a different mechanism, likely targeting the packaging of pgRNA by the HBV core antigen (HBc). 2) Knocking-down PLK1 using siRNA delivered by lipid nanoparticles (LNP siPLK1) results in a strong drop of HBV DNAs, RNAs and HBe/HBsAg secretion without affecting the cell viability. This thesis project brought the proof of concept that PLK1 could be a drug target in HBV infection. Furthermore, the use of LNP allowed us to improve the delivery of siPLK1 to hepatocytes. Significantly, PLK1 inhibition is not toxic to quiescent cells in comparison to fast growing cancer cells, rendering PLK1 an attractive therapy target. High level of viremia in chronic HBV patients is a risk factor for progression to liver cancer. PLK1 specific inhibitors are already in clinical trials for other types of cancer (e.g., acute myeloid leukaemia) and could serve as bimodal therapy in HBV infected patients, by inhibiting virus replication as well as preventing emergence and spreading of neoplastic cells. This project was part of a full-working group of experts and thus, has beneficiated of a strong support. The proximity of the oncology-specialized hospital, the Centre Léon Bérard provided us with fresh hepatic biopsy [etc...] PLK1 ARN interférents Hépatite B Carcinome hépatocellulaire Antiviraux PLK1 SiRNA HBV HCC Antivirals HTA 570
77	Molecular characterisation of Hepatitis B virus vaccine escape mutants in South Africa Crowther, Penny 17 November 2006 (has links) Student Number : 9903144J - MSc (Med) dissertation - Faculty of Health Sciences / Since the introduction of vaccination against hepatitis B virus (HBV) infection in South Africa, at least one case of infection despite vaccination has occurred. The purpose of this study was to determine whether this infection was the result of mutations within the region of the surface (S) gene encoding the a determinant epitopes of the hepatitis B surface antigen, which permitted viral vaccine-escape. HBV DNA was extracted from the serum and liver tissue of the patient and amplified within the complete 3 215 bp genome and S gene, respectively. Following cloning, sequencing revealed a minor population displaying unique or uncommon S gene mutations that resulted in C138R, C139R, K141R, P142L, T143A, N146D, and T148A amino acid substitutions in the clones from the serum, and C139Y and D144N in the clones from the liver. Such isolates may represent South African HBV vaccine-escape mutants that caused chronic infection in the host prior to their reversion to wild-type. hepatitis B virus vaccination HBV South Africa mutations surface (S) gene encoding a determinant epitopes sequencing
78	Designing zinc finger nucleases that specifically cleave Hepatitis B viral DNA Cradick, Thomas James 01 December 2009 (has links) Hepatitis B virus chronically infects 350-400 million people worldwide. It often leads to hepatocellular carcinoma, which causes >1 million deaths yearly. Current therapies prevent new viral genome formation but do not target pre-existing viral genomic DNA, thus curing only ~1/2 of patients. We targeted hepatitis B virus DNA for cleavage using zinc finger nucleases, which cleave as dimers. Co-transfection of our zinc finger nuclease pair with a target plasmid containing the hepatitis B virus genome resulted in specific cleavage. After three days in culture, 26% of the target remained linear, while ~10% was cleaved and mis-joined tail-to-tail. A portion of cleaved plasmids are repaired in cells, often with deletions and insertions. To track misrepair, we introduced an XbaI restriction site in the spacer between the zinc finger nuclease sites. Targeted cleavage and misrepair destroys the XbaI site. After three days in culture, ~6% of plasmids were XbaI resistant. 13 of 16 clones sequenced contained frameshift mutations that would lead to dramatic truncations of the viral core protein. These results demonstrate for the first time the feasibility of targeting episomal viral DNA genomes in cells using zinc finger nucleases. This strategy is broadly applicable toward inactivating other DNA viruses within cells. A major concern for the therapeutic use of zinc finger nucleases is off-target cleavage. To measure specificity, we employed in vitro assays and developed a bioinformatics method to find off-target cleavage sites in cultured cells. These sites can then be PCR amplified and tested using a mutation detection assay that we developed. Cleavage HBV Hepatitis B Virus Zinc Figner Nuclease Zinc Finger Cell Biology
79	NMR studies of host-pathogen interactions Petzold, Katja January 2009 (has links) This thesis describes the use of Nuclear Magnetic Resonance (NMR) for characterizing two host-pathogen interactions: The behavior of a regulatory RNA of the Hepatitis B virus (HBV) and the attachment of Helicobacter pylori (H. pylori) to the gastric mucosa. NMR is a powerful tool in biomedicine, because molecules ranging from small ligands to biomacromolecules can be studied with atomic resolution. Different NMR experiments are designed to determine structures, or to monitor interactions, folding, stability or motion. Paper I describes the analysis of the motions of a regulatory RNA of HBV. The NMR structure of the RNA had revealed before that several well-conserved nucleotides adopt multiple conformations. Therefore an analysis of possible underlying motions was undertaken using two different NMR techniques, one of which (off-resonance ROESY) was applied to nucleic acids for the first time. The observed motions suggest an explanation why the structurally poorly defined nucleotides are highly conserved. In paper II we improved the ROESY NMR experiment, which is used to measure internuclear distances for structure determination of medium-sized molecules. Using a small protein and an organometallic complex as examples, we demonstrated that the new EASY ROESY experiment yields clean spectra that can directly be integrated to derive interatomic distances. H. pylori, the bacterium involved in peptic ulcer disease and gastric cancer, survives in the harsh acidic environment of the stomach. It possesses many membrane proteins which mediate adherence, raising the question, if their activity is related to membrane composition. In paper III & IV we analyzed therefore the phospholipid composition of H. pylori membranes. In paper III, an advanced method for the analysis of the phospholipid composition of biological membranes was developed. The two-dimensional semi-constant-time 31P,1H-COSY experiment combines information from phosphorus and hydrogen atoms of phospholipids for their unambiguous identification. Furthermore, the high resolution of the two-dimensional experiment allows the quantification of phospholipids where conventional methods fail. In paper IV we applied the new experiment to analyze the lipid composition of whole H. pylori cells, their inner and outer membranes, and of vesicles shed by the bacterium. The goal of this study was to characterize the vesicles which are suggested to play a role in the inflammation process. We established that the outer membrane and the vesicles have similar phospholipid compositions, suggesting that the vesicles are largely derived from the outer membrane. The NMR results presented here elucidate details of molecular systems engaged in pathogenicity, as basis for therapeutic strategies against these pathogens. NMR regulatory RNA HBV H.pylori phospholipids ROESY Molecular biophysics Molekylär biofysik
80	Utveckling av en HBV/PULS-model med sammanfogade markfuktighets- och responsrutiner / Development of an HBV/PULSE model with merged soil moisture and response routines Berg, Karin January 2002 (has links) <p>Soil properties affect the chemical composition of soil water. When studying transport of chemical substances through a basin, it is therefore important to know from which soil layer the main part of the runoff is generated. The aim of this study is to develop an HBV/PULSE model with merged soil moisture and response routines, which generates good approximations of groundwater levels. It should be possible to extend the model to simulate transport of substances and take into account which soil layer the groundwater level is currently in. </p><p>The hydrological version of HBV/PULSE is used since there is no need to account for pH or alcalinity at this stage. Representation of runoff is changed to an equation analogous to that of HBV-96. The unsaturated and saturated zones in the response routines are merged by associating change in groundwater storage with change in the size of the unsaturated zone. Field capacity, which is expressed in mm in the existing model, is transformed from parameter to variable. Three models are compared in this study: HBV/PULSE without any modifications, HBV/PULSE with a response function similar to that of HBV-96 and finally a model with the same response function as model two, variable field capacity, groundwater level simulation and connected soil moisture and response compartments. </p><p>Results show that runoff is simulated equally well by the two first model versions, and alomst as well by the third. Soil moisture simulations show the same patterns for all three models, but slightly different levels. Ground water storage is different in the first model compared to the others, mainly depending on the use of capillary flux andnegative storage values in the unmodified model. Groundwater simulations with the third model generated results which differed much from measurements. The main problem is the magnitude of the variations which is far too small in the simulations. </p><p>Introduction of variable soil moisture in the unsaturated zone and variable soil porosity is suggested as a way of increasing the magnitude of fluctuations in groundwater storage and levels. It is also necessary to allow groundwater storage, and thereby groundwater levels, to vary equally in both directions from the initial values. If this is not possible to achieve with the new response function, it is necessary to change back to the old function despite the increase in parameters.</p> Interdisciplinary studies Hydrology modelling HBV PULSE groundwater TVÄRVETENSKAP INTERDISCIPLINARY RESEARCH AREAS TVÄRVETENSKAPLIGA FORSKNINGSOMRÅDEN

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