Global ETD Search

1	Characterization and engineering of carbohydrate-active enzymes for biotechnological applications Hassan, Noor January 2015 (has links) Extremozymes are enzymes produced by microorganisms that live in extreme habitats. Due to their higher stability, extremozymes is attracting interest as biocatalysts in various industrial processes. In this context, carbohydrate-active extremozymes can be used in various processes relevant to the paper, food and feed industry. In this thesis, the crystal structure, biochemical characterization and the capacity to synthesize prebiotic galacto-oligosaccharides (GOS) were investigated for a β-glucosidase (HoBGLA) from the halothermophilic bacterium Halothermothrix orenii. The wild-type enzyme displays favorable characteristics for lactose hydrolysis and produces a range of prebiotic GOS, of which β-D-Galp-(1→6)-D-Lac and β-D-Galp-(1→3)-D-Lac are the major products (Paper I). To further improve GOS synthesis by HoBGLA, rational enzyme engineering was performed (Paper II). Six enzyme variants were generated by replacing strategically positioned active-site residues. Two HoBGLA variants were identified as potentially interesting, F417S and F417Y. The former appears to synthesize one particular GOS product in higher yield, whereas the latter produces a higher yield of total GOS. In Paper III, the high-resolution crystal structure and biochemical characterization of a hemicellulase (HoAraf43) from H. orenii is presented. HoAraf43 folds as a five-bladed β-propeller and displays α-Larabinofuranosidase activity. The melting temperature of HoAraf43 increases significantly in the presence of high salt and divalent cations, which is consistent with H. orenii being a halophile. Furthermore, the crystal structures of a thermostable tetrameric pyranose 2-oxidase from Phanerochaete chrysosporium (PcP2O) were determined to investigate the structural determinants of thermostability (Paper IV). PcP2O has an increased number of salt links between subunits, which may provide a mechanism for increased stability. The structures also imply that the N-terminal region acts as an intramolecular chaperone during homotetramer assembly. / <p>QC 20150429</p> se conversion galacto-oligosaccharides thermostability propeptide
2	The structure of human procathepsin S crystallographic investigations on the functional role of the propeptide / Kaulmann, Guido. Unknown Date (has links) (PDF) University, Diss., 2004--Jena.
3	Pcr Cloning And Heterologous Expression Of Scytalidium Thermophilum Laccase Gene In Aspergillus Sojae Koclar, Gulden 01 December 2005 (has links) (PDF) In this study, Scytalidium thermophilum laccase gene was first cloned into E. coli and then heterologously expressed in A. sojae. S. thermophilum is a thermophilic fungus with an important role in determining selectivity of compost produced for growing Agaricus bisporus. S. thermophilum laccase gene was first cloned by Novo Nordisk Bio Tech, Inc. in 1998. This laccase gene (lccS) has an open reading frame of 2092bp. It is composed of five exons punctuated by four small introns. The coding region, excluding intervening sequences is very GC-rich (60.8% G+C) and encodes a preproenzyme of 616 amino acids: a 21 amino acid signal peptide and a 24 amino acid predicted propeptide. lccS gene was amplified using specific primers to exclude the signal and pro-peptide coding regions and ligated to expression vector pAN52-4. The recombinant plasmid was used to transform Aspergillus sojae ATCC11906 (pyrG-). Heterologuos expression was observed in glucose-containing media, under the control of the glyceraldehydes 3-phosphate dehydnogenese promoter and the secretion signal of glucoamylase gene. Laccase gene is an important step towards the high level expression of this enzyme in a GRAS eucaryotic host and for further biotransformation and enzyme engineering studies. In this study also bioinformatic analysis of N-terminal and C-terminal propeptide cleavage sites of fungal proteins including laccases were studied. QH Genetics 426-470
4	Insights into healing response in severe sepsis from a connective tissue perspective:a longitudinal case-control study on wound healing, collagen synthesis and degradation, and matrix metalloproteinases in patients with severe sepsis Gäddnäs, F. (Fiia) 24 August 2010 (has links) Abstract Sepsis is a major challenge for healing responses maintaining homeostasis. Coagulation and inflammation are activated at the whole-body level, even in undamaged tissues. Despite constantly growing knowledge and advances in care, high mortality in severe sepsis remains. It was hypothesised that tissue regeneration processes may also be altered in severe sepsis. The study population consisted of 44 patients with severe sepsis and 15 healthy controls. Serum samples were obtained during ten days of severe sepsis and twice again, three months and six months later. Experimental suction blisters were performed twice during severe sepsis and at 3 and 6 months. Serum samples were obtained and suction blisters were induced once in controls. Biochemical analyses were performed to assess the level of procollagen I and III aminoterminal propeptides (PINP, PIIINP), reflecting the synthesis of corresponding collagens; in serum and suction blister fluid. In addition collagen I degradationproduct in serum was measured. Physiological measurements of transepidermal water loss and blood flow were done in order to evaluate the re-epithelisation rate and blood flow in an experimental wound. Levels of matrix metalloproteinases (MMPs) 2, 8 and 9 were measured from serum and suction blister fluid. Decrease in water evaporation from an experimental blister wound was slower in sepsis than in controls. On the fourth day the sepsis patients had higher blood flow in the blister wound than the controls (both in the healing wound and in the newly induced wound). The procollagen III aminoterminal propeptide (PIIINP) levels were increased in serum in severe sepsis, whereas procollagen I aminoterminal propeptide (PINP) levels were not, making up a pronounced PIIINP/PINP ratio. PIIINP and PINP levels were associated with disease severity and outcome. In addition, collagen I degradation measured with ICTP assay was increased in severe sepsis and PINP/ICTP ratio was lower. Furthermore, the overall protein concentration and PINP and PIIINP levels were low in suction blister fluid, which implies that the balance of the extracellular matrix consistence is disturbed in uninjured skin in severe sepsis. Then again in survivors the levels of PINP and PIIINP were up-regulated at three months but returned to normal by six months. MMP-9 levels in serum and skin blister fluid were lower in severe sepsis than in controls during the ten days studied. The MMP-2 levels were found to be increased both in serum and in skin blister fluid in severe sepsis in comparison to the controls and MMP-2 was associated with disease severity and outcome. MMP-8 was increased in serum and in skin blister fluid. In conclusion, the balance of collagen turnover is altered in severe sepsis in serum and skin and epidermal re-epithelisation is delayed. The levels of MMP-2 and MMP-8 are increased whereas levels of MMP-9 are depressed. Severe sepsis collagen matrix metalloproteinases procollagen propeptide skin suction wound healing
5	La phospholipase A2 sécrétée de groupe X : Maturation protéolytique et rôles fonctionnels Ikram, Jemel 16 December 2009 (has links) (PDF) Les phospholipases A2 constituent une superfamille de protéines comprenant au moins onze phospholipases A2 sécrétées (sPLA2) et douze phospholipases A2 intracellulaires. Ces protéines catalysent l'hydrolyse des phospholipides en position sn-2, libérant un acide gras et un lysophospholipide. Elles contrôlent ainsi la production d'une variété de médiateurs lipidiques qui sont importants pour de multiples fonctions cellulaires dans différents contextes physiologiques ou physiopathologiques (maladies inflammatoires et cancer). La sPLA2 de groupe X a été clonée au laboratoire en 1997 et possède des propriétés moléculaires uniques. Son ARN messager est présent dans différents tissus, mais semble peu régulé par des stimuli proinflammatoires. L'enzyme est unique dans sa capacité à libérer des médiateurs lipidiques à partir des phospholipides cellulaires ou des lipoprotéines et possède aussi des propriétés antimicrobiennes variées. Un élément clé de la régulation fonctionnelle de la sPLA2 de groupe X est vraisemblablement lié à la présence d'un propeptide dans sa partie N-terminale. Le lieu de la maturation protéolytique de la sPLA2 de groupe X (dans la cellule avant sécrétion ou à l'extérieur après sécrétion du proenzyme), les protéases impliquées et la régulation de cette maturation dans des conditions physiologiques ou physiopathologiques sont inconnus. Le travail de cette thèse a permis de mieux comprendre comment peut s'effectuer la maturation de la sPLA2 de groupe X et quels sont ses rôles physiologiques et physiopathologiques. Concernant la maturation, nos études in vitro sur protéines purifiées et en cellules transfectées (HEK293) ont permis de montrer qu'une protéase de type furine contribue de façon majeure à l'activation de l'enzyme, vraisemblablement au cours de sa sécrétion. Nos travaux suggèrent aussi qu'une maturation est possible par d'autres protéases et dans le milieu extracellulaire comme par exemple dans les cellules LOVO. Nous avons aussi tenté de mettre en évidence cette maturation dans des tissus murins dans certaines conditions physiologiques et physiopathologiques. Nous avons notamment trouvé que la sPLA2-X était la sPLA2 majeure présente dans l'acrosome des spermatozoïdes. Enfin nous avons observé un polymorphisme présent dans le propeptide de la sPLA2 humaine qui conduit à la formation d'une protéine inactive et rapidement dégradée. Dans la deuxième partie de cette thèse, nous avons montré que la forme active de la sPLA2 de groupe X, mais pas son proenzyme était capable i) de stimuler la prolifération cellulaire dans un contexte de cancer colorectal, ii) d'exercer une action toxique contre le parasite de la malaria P.falciparum lors de l'infection de globules rouges humains, et iii) de contrôler la réaction acrosomique des spermatozoïdes de souris, avec un impact important sur le taux de fécondité dans des tests de fécondation in vitro. Phospholipase A2 de groupe X Maturation Protéases Propeptide médiateurs lipidiques prolifération cellulaire Malaria Spermatogénèse
6	Osteogenesis Imperfecta : Genetic and Therapeutic Studies Lindahl, Katarina January 2013 (has links) Osteogenesis imperfecta (OI) is a heterogeneous disease of connective tissue, the cardinal symptom being fractures and severity ranging from mild to lethal. Dominant mutations in collagen I, encoded by COL1A1 and COL1A2, cause >90% of cases. To delineate genotype-phenotype correlations and pharmaco-genetic response, collagen I was sequenced in 150 unrelated Swedish families and clinical data were collected in Paper I. Mutation type, gene affected, and N- to C-terminal location correlated with phenotype and severity. Bisphosphonate response assessed by calculated yearly change in lumbar spine bone mineral density (BMD) was inversely related to age and BMD at treatment initiation. Mutations associated with a more severe phenotype exhibited an increased response after 2 years; however, all types of OI responded well. To investigate the effect of naturally occurring variations in collagen I, the only common coding single nucleotide polymorphism (rs42524 in COL1A2) was genotyped in 2004 healthy men in Paper II. Heterozygous genotype was associated with decreased BMD and an increased risk of stroke. An adolescent with repeated fractures despite a markedly high BMD harbored a unique C-terminal procollagen cleavage-site mutation in COL1A1, which motivated extensive investigations in concert with a similar COL1A2 case in Paper III. The probands were found to have impaired procollagen processing, incorporation of collagen with retained C-propeptide in matrix and increased mineral to matrix ratio, which demonstrates that C-propeptide cleavage is crucial to normal bone mineralization and structure. Bisphosphonate therapy has insufficient effect in OI, and as classical OI is a dominant disorder severe cases would benefit from silencing of the mutated allele. In Paper IV and V small interfering RNAs (siRNAs) were used to allele-specifically target primary human bone cells heterozygous for I) a coding polymorphism in COL1A2 and II) insertion/deletions in the 3’UTR of COL1A1 and COL1A2. Results were promising with altered allele ratios and decreased mRNA levels in the predicted fashion. To summarize, this thesis found that collagen I is crucial to bone and connective tissue and that collagen I mutations create markedly diverse phenotypes. Age, BMD and pharmaco-genetic effects influence the response to bisphosphonate therapy in individuals with OI; however, novel approaches are needed. Utilizing allele-specific siRNAs may be a way forward in the treatment of severe OI. OI BMD Genotype Phenotype Pharmaco-genetics Bisphosphonate Therapy Gene-therapy Mutation Collagen Collagen type I Allele-specific silencing siRNA RNAi COL1A1 COL1A2 Stroke C-propeptide Mineralization Heterozygous disadvantage
7	Etude du mécanisme dactivation du zymogène de lallergène Der p 1 de lacarien Dermatophagoides pteronyssinus Chevigné, Andy 26 September 2008 (has links) The major allergen Der p 1 of the house dust mite Dermatophagoides pteronyssinus is a papain-like cysteine protease (CA1) associated to the development of allergic diseases such as asthma, rhinitis or atopic dermatitis. This allergen is expressed as an inactive precursor, called proDer p 1, formed by a 25 kDa catalytic domain downstream to an 10 kDa N-terminal propeptide, which blocks the active site cleft. The propeptide of Der p 1 exhibits a specific fold, which makes it unique in the CA1 propeptide family as it is characterised by the presence of four alpha helices and the absence of ERFNIN motif. In this study, we investigated the activation steps involved in the maturation of recombinant proDer p 1 expressed in Pichia pastoris under acidic conditions and we studied the influence of acidic pH on the structure of both propeptide and catalytic domain. Therefore, we characterized the interaction between the propeptide and mature Der p 1 at different pH values in terms of activity inhibition, structural stability and proteolytic susceptibility. According to our results, the auto-activation of proDer p 1 is a multistep mechanism, characterized by at least two intermediates (ATFE- and SNGG-) corresponding to the loss of the first and second propeptide alpha helices, respectively. The propeptide strongly inhibits unglycosylated and glycosylated recombinant Der p 1 (KD= 7 nM) at neutral pH. This inhibition is pH dependent, decreasing from pH 7 to pH 4 and can be related to structural changes of the propeptide initiated by the protonation of the aspartate residue of Lys17-Asp51-Tyr19 structural triad presents within the propeptide N-terminal domain. This protonation triggers conformational changes of the first propeptide alpha helix leading to an increase of the propeptide flexibility, an increase of its proteolytic sensitivity and the formation of a molten globule state. In addition, we compare mature protease, zymogen and propeptide pH unfolding and stability and highlights that the presence of the propeptide does not influence the catalytic domain pH unfolding and stability as the propeptide displays a weaker pH stability than the protease domain. These results confirmed that the propeptide unfolding is the key event of the activation process. Finally, we unravel the intermolecular contribution of mature Der p 1 in the activation process and highlights that activation of the precursor can be achieved, under acidic conditions, by intermolecular process but initial auto-activation most probably occurs through an intramolecular process or by the proteolysis by the catalytic domain of another zymogen in which the propeptide is unfolded. According to our results, we proposed that activation of the zymogen at pH 4 reflects a compromise between activity preservation and propeptide unfolding and that the location of the activation sites on the propeptide structure is a compromise between sequence recognition specificity and proteolytic susceptibility of the corresponding area. house dust mite/acarien Allergy/allergie pH unfolding propeptide Der p 1
8	Purification and characterisation of Tex31, a conotoxin precursor processing protease, isolated from the venom duct of Conus textile Milne, Trudy Jane January 2008 (has links) The venom of cone snails (predatory marine molluscs of the genus Conus) has yielded a rich source of novel neuroactive peptides or “conotoxins”. Conotoxins are bioactive peptides found in the venom duct of Conus spp. Like other neuropeptides, conotoxins are expressed as propeptides that undergo posttranslational proteolytic processing. Peptides derived from propeptides are typically cleaved at a pair of dibasic residues (Lys-Arg, Arg-Arg, Lys-Lys or Arg-Lys) by proteases found in secretory vesicles. However, many precursor peptides contain multiple sets of basic residues, suggesting that highly substrate specific or differentially expressed proteases can determine processing outcomes. As many of the substrate-specific proteases remain unidentified, predicting new bioactive peptides from cDNA sequences is presently difficult, if not impossible. In order to understand more about the substrate specificity of conotoxin substrate-specific proteases a characterisation study of one such endoprotease isolated from the venom duct of Conus textile was undertaken. The C. textile mollusc was chosen as a good source from which to isolate the endoprotease for two reasons; firstly, these cone shells are found in great abundance on the Great Barrier Reef (Queensland, Australia) and are readily obtainable and secondly, a number of conotoxin precursors and their cleavage products have been previously identified in the venom duct. In order to purify the endoprotease an activity-guided fractionation protocol that included a para-nitroanilide (p-NA) substrate assay was developed. The p-NA substrate mimicked the cleavage site of the conotoxin TxVIA, a member of the C. textile O-superfamily of toxins. The protocol included a number of chromatographic techniques including ion exchange, size-exclusion and reverse-phased HPLC and resulted in isolation of an active protease, termed Tex31, to >95% purity. The purification of microgram quantities of Tex31 made it possible to characterise the proteolytic nature of Tex31 and to further characterise the O-superfamily conopeptide propeptide cleavage site specificity. Specificity experiments showed Tex31 requires a minimum of four residues including a leucine in the P4 position (LNKR↓) for efficient substrate processing. The complete sequence of Tex31 was determined from cDNA. A BLAST search revealed Tex31 to have high amino acid sequence similarity to the CAP (abbreviated from CRISP (Cysteine-rich secretory protein), Antigen 5 and PR-1 (pathogenesis-related protein)) superfamily and most closely related to the CRISP family of mammalian and venom proteins that, like Tex31, have a cysteine-rich C-terminal domain. The CAP superfamily is widely distributed in the animal, plant and fungal kingdoms, and is implicated in processes as diverse as human brain tumour growth and plant pathogenesis. This is the first report of a biological role for the N-terminal domain of CAP proteins. A homology model of Tex31 constructed from two PR-1 proteins, Antigen 5 and P14a, revealed the highly conserved and likely catalytic residues, His78, Ser99 and Glu115. These three amino acids fall within a structurally conserved N-terminal domain found in all CAP proteins. It is possible that other CAP proteins are also substrate-specific proteases. With no homology to any known proteases, Tex31 may belong to a new class of protease. The sequence alignment of five Tex31-like proteins cloned from C. marmoreus, C. litteratus, C. arentus, C. planboris, and C. omaria show very high sequence similarity to Tex31 (~80%), but only one weakly conserved serine residue was identified when the conserved residues of the new Tex31-like protein sequences were aligned with members of the CAP superfamily. Future work to identify members of catalytic diad or triad, e.g. by site-directed mutagenesis, will rely on the expression of active recombinant Tex31. In this study neither Escherichia coli nor Pichia pastoris expression systems yielded active recombinant Tex31 protein, possibly due to the number of cysteine residues hindering the expression of correctly folded active Tex31. This study has shown Tex31 to be highly sequence specific in its cleavage site and it is likely that this high substrate specificity has confounded previous attempts to identify the proteolytic nature of other CAP proteins. With the proteolytic nature of one member of the CAP protein family confirmed, it is hoped this important discovery may lead the way to discovering the role of other CAP family members.
9	Biomarkers of Knee Joint Healing in Adolescents with Anterior Cruciate Ligament Injuries Ek Orloff, Lisa 25 February 2022 (has links) Objective: Anterior cruciate ligament (ACL) injuries are increasing in adolescents and increase the risk for early-onset knee osteoarthritis (OA). Biomarkers can be a non-invasive measure to assess physiological properties following knee injury or trauma. The objective of this thesis was to i) perform a systematic review to determine the most studied biomarkers of knee healing following ACL reconstruction (ACLR), and age of these patients, and ii) explore the feasibility of measuring these biomarkers in adolescents with ACL injuries. Design: Studies were included if i) participants underwent ACLR, and ii) at least one biomarker of healing was measured. Participant age, sample(s) collected, and biomarker(s) studied were recorded. Interleukin-6 (IL-6), c-terminal crosslinking telopeptide of type II collagen (CTX-II) and procollagen type II collagen propeptide (PIICP) were then measured using ELISA in adolescents prior to ACLR in urine (u) and synovial fluid (sf). Spearman’s Rho (rs) coefficients were calculated to determine the association between uCTX-II/sfCTX-II, and uIL-6/sfIL-6. A ratio of PIICP: CTX-II was calculated to represent the ratio of cartilage synthesis to degradation. Results: The review produced six studies evaluating healing following ACLR. IL-6 and CTX-II were the most studied (3/6 studies), and only one study included adolescents (age 19.6±4.5). Due to multiple undetectable biomarker levels, we could only report rs for uCTX-II/sfCTX-II (rs = -.200, p-value = .800, n=4). We also reported a ratio for sfPIICP: sfCTX-II (23.06 ±19.23). Conclusion: Exploring biomarkers in adolescents was motivated by their unique physiology due to puberty, and this was the first study to do so. The findings from this pilot study indicate that further analysis is required to determine optimal sample preparation. This will allow for reliable results while studying the feasibility of these biomarkers during ACLR recovery. This insight can ensure more informed decision making by clinicians clearing patients for return-to-activity. Adolescents Anterior Cruciate Ligament (ACL) Articular Cartilage Degradation Interleukin-6 (IL-6)

Search results