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991.
The effect of oxygen limitation on xylose fermentation by Pichia stipitis (CBS 6054) was investigated in continuous culture. The maximum specific ethanol productivity (0.20 g of ethanol g dry weight−1 h−1) and ethanol yield (0.48 g/g) was reached at an oxygen transfer rate below 1 mmol/liter per h. In the studied range of oxygenation, the xylose reductase (EC 1.1.1.21) and xylitol dehydrogenase (EC 1.1.1.9) activities were constant as well as the ratio between the NADPH and NADH activities of xylose reductase. No xylitol production was found. The pyruvate decarboxylase (EC 4.1.1.1) activity increased and the malate dehydrogenase (EC 1.1.1.37) activity decreased with decreasing oxygenation. With decreasing oxygenation, the intracellular intermediary metabolites sedoheptulose 7-phosphate, glucose 6-phosphate, fructose 1,6-diphosphate, and malate accumulated slightly while pyruvate decreased. The ratio of the xylose uptake rate under aerobic conditions, in contrast to that under anaerobic assay conditions, increased with increasing oxygenation in the culture. The results are discussed in relation to the energy level in the cell, the redox balance, and the mitochondrial function. 相似文献
992.
Identification and molecular cloning of a functional GDP-fucose transporter in Drosophila melanogaster 总被引:1,自引:0,他引:1
Lühn K Laskowska A Pielage J Klämbt C Ipe U Vestweber D Wild MK 《Experimental cell research》2004,301(2):242-250
Nucleotide sugar transporters play a central role in the process of glycosylation. They are responsible for the translocation of nucleotide sugars from the cytosol, their site of synthesis, into the Golgi apparatus where the activated sugars serve as substrates for a variety of glycosyltransferases. We and others have recently identified and cloned the first GDP-fucose transporters of H. sapiens and C. elegans. Based on sequence similarity, we could identify a putative homolog in Drosophila melanogaster showing about 45% identity on protein level. The gene (CG9620) encodes a highly hydrophobic, multi-transmembrane spanning protein of 38.1 kDa that is localized in the Golgi apparatus. In order to test whether this protein serves as a GDP-fucose transporter, we performed complementation studies with fibroblasts from a patient with LADII (leukocyte adhesion deficiency II) which exhibit a strong reduction of fucosylation due to a point mutation in the human GDP-fucose transporter gene. We show that transient transfection of these cells with the Drosophila CG9620 cDNA corrects the GDP-fucose transport defect and reestablishes fucosylation. This study gives experimental proof that the product of the in silico identified Drosophila gene CG9620 serves as a functional GDP-fucose transporter. 相似文献
993.
p58/ERGIC-53 is a calcium-dependent animal lectin that acts as a cargo receptor, binding to a set of glycoproteins in the endoplasmic reticulum (ER) and transporting them to the Golgi complex. It is similar in structure to calcium-dependent leguminous lectins. We have determined the structure of the carbohydrate-recognition domain of p58/ERGIC-53 in its calcium-bound form. The structure reveals localized but large conformational changes in relation to the previously determined metal ion-free structure, mapping mostly to the ligand-binding site. It reveals the presence of two calcium ion-binding sites located 6A apart, one of which has no equivalent in the plant lectins. The second metal ion-binding site present in that class of lectins, binding Mn(2+), is absent from p58/ERGIC-53. The absence of a short loop in the ligand-binding site in this protein suggests that it has adapted to optimally bind the high-mannose Man(8)(GlcNAc)(2) glycan common to glycoproteins at the ER exit stage. 相似文献
994.
Michael Feldbrügge Ronny Kellner Kerstin Schipper 《Applied microbiology and biotechnology》2013,97(8):3253-3265
Plant pathogens of the family Ustilaginaceae parasitise mainly on grasses and cause smut disease. Among the best characterised members of this family are the covered smut fungus Ustilago hordei colonising barley and oat as well as the head smut Sporisorium reilianum and the corn smut Ustilago maydis, both infecting maize. Over the past years, U. maydis in particular has matured into a model system for diverse topics like plant–pathogen interaction, cellular transport processes or DNA repair. Consequently, a broad set of genetic, molecular and system biological methods has been established. This set currently serves as a strong foundation to improve existing and establish novel biotechnological applications. Here, we review four promising aspects covering different fields of applied science: (1) synthesis of secondary metabolites produced at fermenter level. (2) Lipases and other hydrolytic enzymes with potential roles in biocatalytic processes. (3) Degradation of ligno-cellulosic plant materials for biomass conversion. (4) Protein expression based on unconventional secretion, a novel approach inspired by basic research on mRNA transport. Thus, plant pathogenic Ustilaginaceae offer a great potential for future biotechnological applications by combining basic research and applied science. 相似文献
995.
Combined expression of glucokinase and invertase in potato tubers leads to a dramatic reduction in starch accumulation and a stimulation of glycolysis 总被引:22,自引:5,他引:22
Richard N. Trethewey Peter Geigenberger Kerstin Riedel MohammadReza Hajirezaei Uwe Sonnewald Mark Stitt Jörg W. Riesmeier Lothar Willmitzer 《The Plant journal : for cell and molecular biology》1998,15(1):109-118
The original aim of this work was to increase starch accumulation in potato tubers by enhancing their capacity to metabolise sucrose. We previously reported that specific expression of a yeast invertase in the cytosol of tubers led to a 95% reduction in sucrose content, but that this was accompanied by a larger accumulation of glucose and a reduction in starch. In the present paper we introduced a bacterial glucokinase from Zymomonas mobilis into an invertase-expressing transgenic line, with the intention of bringing the glucose into metabolism. Transgenic lines were obtained with up to threefold more glucokinase activity than in the parent invertase line and which did not accumulate glucose. Unexpectedly, there was a further dramatic reduction in starch content, down to 35% of wild-type levels. Biochemical analysis of growing tuber tissue revealed large increases in the metabolic intermediates of glycolysis, organic acids and amino acids, two- to threefold increases in the maximum catalytic activities of key enzymes in the respiratory pathways, and three- to fivefold increases in carbon dioxide production. These changes occur in the lines expressing invertase, and are accentuated following introduction of the second transgene, glucokinase. We conclude that the expression of invertase in potato tubers leads to an increased flux through the glycolytic pathway at the expense of starch synthesis and that heterologous overexpression of glucokinase enhances this change in partitioning. 相似文献
996.
David M. Stevenson Muthusamy Kunnimalaiyaan Kerstin Müller Patricia S. Vary 《Plasmid》1998,40(3):175-189
A replicon from one of an array of seven indigenous compatible plasmids ofBacillus megateriumQM B1551 has been cloned and sequenced. The replicon hybridized with all four of the large plasmids (165, 108, 71, and 47 kb) of strain QM B1551. The cloned 2374-bpHindIII fragment was sequenced and contained two upstream palindromes and a large (>419-amino-acid) open reading frame (ORF) truncated at the 3′ end. Unlike most plasmid origins, a region of four tandem 12-bp direct repeats was located within the ORF. The direct repeats alone were incompatible with the replicon, suggesting that they are iterons and that the plasmid probably replicates by theta replication. The ORF product was shown to act intrans.A small region with similarity to theB. subtilischromosomal origin membrane binding region was detected as were possible binding sites for DnaA and IHF proteins. Deletion analysis showed the minimal replicon to be a 1675-bp fragment containing the incomplete ORF plus 536 bp upstream. The predicted ORF protein of >48 kDa was basic and rich in glutamate + glutamine (16%). There was no significant amino acid similarity to any gene, nor were there any obvious motifs present in the ORF. The data suggest that this is a theta replicon with an expressedrepgene required for replication. The replicon contains its iterons within the gene and has no homology to reported replicons. It is the first characterization of aB. megateriumreplicon. 相似文献
997.
Stefan Gustafson Tomas Bj?rkman Nina Forsberg Thomas Lind Tarja Wikstr?m Kerstin Lidholt 《Glycoconjugate journal》1995,12(3):350-355
Immunohistochemical studies of the hyaluronan (HA)-receptor (R), originally found on liver endothelial cells (LEC) and related to the intercellular adhesion molecule 1 (ICAM-1), showed that polyclonal antibodies against HARLEC (HA receptor on LEC) also stain structures in mouse mastocytomas, mainly vessels. To test if intravenously administered HA might target the tumour receptorsin vivo, mice carrying an inoculated mastocytoma in one hind leg muscle were injected in the tail vein with125I-tyrosine (T)-labelled HA and killed 75 min after injection when organs and tissues were checked for radioactivity. When doses exceeding the binding capacity of the liver were injected, a significant increase in radioactivity (up to five-fold) within the tumour tissue was found. The weight adjusted difference between control and tumour tissue was greater for smaller tumours, probably due to necrosis in the larger. HA-staining of tumours from animals receiving125I-T-HA, showed HA in areas that also stained weakly for ICAM-1 using monoclonal antibodies. ICAM-1 staining was dramatically increased after hyaluronidase treatment of the sections, indicating that the HA is bound to these receptors and thereby blocks antibody recognition.Abbreviations ICAM-1
intercellular adhesion molecule 1
- HA
hyaluronan
- HARLEC
hyaluronan receptor on liver endothelial cells
- MW
molecular weight 相似文献
998.
Guido Jach Elke Binot Sabine Frings Kerstin Luxa Jeff Schell 《The Plant journal : for cell and molecular biology》2001,28(4):483-491
The suitability of the recently described red fluorescent protein dsRED from reef corals for use as a reporter in plant molecular biology was investigated. Based on the clone pDSRED (Clontech), plant expression vectors were constructed for constitutive dsRED expression in the cytosol, the endoplasmic reticulum and the vacuole. Fluorescence microscopy of tobacco BY2 suspension culture cells transiently expressing the plant vectors generated proved that cytosolic expression of the dsRED gives rise to readily detectable levels of red fluorescence, whereas expression in the ER was poor. Vacuolar dsRED expression did not result in any significant fluorescence. dsRED transgenic tobacco SR1 plants were generated to test the sensitivity of dsRED as a reporter in an autofluorescent background, and to identify the possible impact of the introduced fluorescent protein on morphogenesis, plant development and fertility. During the transformation and regeneration phase plants did not show any abnormalities, indicating that dsRED is not interfering with plant development and morphogenesis. Regenerated plants were analysed by PCR, Western blot and fluorescence microscopy for the presence and expression of the transferred genes. The filter sets chosen for fluorescence microscopy proved to be able to block the red chlorophyll fluorescence completely, allowing specific dsRED detection. Best expression levels were obtained with dsRED targeted to the cytosol or chloroplasts. ER-targeted expression of dsRED also gave rise to readily detectable fluorescence levels, whereas vacuolar expression yielded no fluorescence. dsRED transgenic plant lines expressing the protein in the cytosol, ER or chloroplast proved to be fertile. Seed set and germination were normal, except that the seeds and seedlings maintained the red fluorescence phenotype. 相似文献
999.
Chavarría-Krauser A Nagel KA Palme K Schurr U Walter A Scharr H 《The New phytologist》2008,177(3):811-821
Differential growth processes in root and shoot growth zones are governed by the transport kinetics of auxin and other plant hormones. While gene expression and protein localization of hormone transport facilitators are currently being unraveled using state-of-the-art techniques of live cell imaging, the quantitative analysis of growth reactions is lagging behind because of a lack of suitable methods. A noninvasive technique, based on digital image sequence processing, for visualizing and quantifying highly resolved spatio-temporal root growth processes was applied in the model plant Arabidopsis thaliana and was adapted to provide precise information on differential curvature production activity within the root growth zone. Comparison of root gravitropic curvature kinetics in wild-type and mutant plants altered in a facilitator for auxin translocation allowed the determination of differences in the location and in the temporal response of curvature along the growth zone between the investigated plant lines. The findings of the quantitative growth analysis performed here confirm the proposed action of the investigated transport facilitator. The procedure developed here for the investigation of differential growth processes is a valuable tool for characterizing the phenomenology of a wide range of shoot and root growth movements and hence facilitates elucidation of their molecular characterization. 相似文献
1000.
Opitz E Koch A Klingel K Schmidt F Prokop S Rahnefeld A Sauter M Heppner FL Völker U Kandolf R Kuckelkorn U Stangl K Krüger E Kloetzel PM Voigt A 《PLoS pathogens》2011,7(9):e1002233
Proteasomes recognize and degrade poly-ubiquitinylated proteins. In infectious disease, cells activated by interferons (IFNs) express three unique catalytic subunits β1i/LMP2, β2i/MECL-1 and β5i/LMP7 forming an alternative proteasome isoform, the immunoproteasome (IP). The in vivo function of IPs in pathogen-induced inflammation is still a matter of controversy. IPs were mainly associated with MHC class I antigen processing. However, recent findings pointed to a more general function of IPs in response to cytokine stress. Here, we report on the role of IPs in acute coxsackievirus B3 (CVB3) myocarditis reflecting one of the most common viral disease entities among young people. Despite identical viral load in both control and IP-deficient mice, IP-deficiency was associated with severe acute heart muscle injury reflected by large foci of inflammatory lesions and severe myocardial tissue damage. Exacerbation of acute heart muscle injury in this host was ascribed to disequilibrium in protein homeostasis in viral heart disease as indicated by the detection of increased proteotoxic stress in cytokine-challenged cardiomyocytes and inflammatory cells from IP-deficient mice. In fact, due to IP-dependent removal of poly-ubiquitinylated protein aggregates in the injured myocardium IPs protected CVB3-challenged mice from oxidant-protein damage. Impaired NFκB activation in IP-deficient cardiomyocytes and inflammatory cells and proteotoxic stress in combination with severe inflammation in CVB3-challenged hearts from IP-deficient mice potentiated apoptotic cell death in this host, thus exacerbating acute tissue damage. Adoptive T cell transfer studies in IP-deficient mice are in agreement with data pointing towards an effective CD8 T cell immune. This study therefore demonstrates that IP formation primarily protects the target organ of CVB3 infection from excessive inflammatory tissue damage in a virus-induced proinflammatory cytokine milieu. 相似文献