Relevant bibliographies by topics / Dextranase

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Dextranase'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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Journal articles on the topic "Dextranase"

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Pittrof, Silke L., Larissa Kaufhold, Anja Fischer, and Daniel Wefers. "Products Released from Structurally Different Dextrans by Bacterial and Fungal Dextranases." Foods 10, no. 2 (2021): 244. http://dx.doi.org/10.3390/foods10020244.

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Dextran hydrolysis by dextranases is applied in the sugar industry and the medical sector, but it also has a high potential for use in structural analysis of dextrans. However, dextranases are produced by several organisms and thus differ in their properties. The aim of this study was to comparatively investigate the product patterns obtained from the incubation of linear as well as O3- and O4-branched dextrans with different dextranases. For this purpose, genes encoding for dextranases from Bacteroides thetaiotaomicron and Streptococcus salivarius were cloned and heterologously expressed in E
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Huang, Ruijie, Lei Zhong, Fengwei Xie, et al. "Purification, Characterization and Degradation Performance of a Novel Dextranase from Penicillium cyclopium CICC-4022." International Journal of Molecular Sciences 20, no. 6 (2019): 1360. http://dx.doi.org/10.3390/ijms20061360.

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A novel dextranase was purified from Penicillium cyclopium CICC-4022 by ammonium sulfate fractional precipitation and gel filtration chromatography. The effects of temperature, pH and some metal ions and chemicals on dextranase activity were investigated. Subsequently, the dextranase was used to produce dextran with specific molecular mass. Weight-average molecular mass (Mw) and the ratio of weight-average molecular mass/number-average molecular mass, or polydispersity index (Mw/Mn), of dextran were measured by multiple-angle laser light scattering (MALS) combined with gel permeation chromatog
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Ding, Yanshuai, Hao Zhang, Xuelian Wang, et al. "Immobilization of Dextranase on Nano-Hydroxyapatite as a Recyclable Catalyst." Materials 14, no. 1 (2020): 130. http://dx.doi.org/10.3390/ma14010130.

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The immobilization technology provides a potential pathway for enzyme recycling. Here, we evaluated the potential of using dextranase immobilized onto hydroxyapatite nanoparticles as a promising inorganic material. The optimal immobilization temperature, reaction time, and pH were determined to be 25 °C, 120 min, and pH 5, respectively. Dextranase could be loaded at 359.7 U/g. The immobilized dextranase was characterized by field emission gun-scanning electron microscope (FEG-SEM), X-ray diffraction (XRD), and Fourier-transformed infrared spectroscopy (FT-IR). The hydrolysis capacity of the im
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Juntarachot, Nucharee, Sasithorn Sirilun, Duangporn Kantachote, et al. "Anti-Streptococcus mutans and anti-biofilm activities of dextranase and its encapsulation in alginate beads for application in toothpaste." PeerJ 8 (November 17, 2020): e10165. http://dx.doi.org/10.7717/peerj.10165.

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Background The accumulation of plaque causes oral diseases. Dental plaque is formed on teeth surfaces by oral bacterial pathogens, particularly Streptococcus mutans, in the oral cavity. Dextranase is one of the enzymes involved in antiplaque accumulation as it can prevent dental caries by the degradation of dextran, which is a component of plaque biofilm. This led to the idea of creating toothpaste containing dextranase for preventing oral diseases. However, the dextranase enzyme must be stable in the product; therefore, encapsulation is an attractive way to increase the stability of this enzy
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Baktir, Afaf, Zumrotul Koiriyah, and Ali Rohman. "A THERMOPHILIC MICROBE PRODUCING DEXTRANASE FROM HEATED SUGAR CANE." Indonesian Journal of Chemistry 5, no. 3 (2010): 224–27. http://dx.doi.org/10.22146/ijc.21794.

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A thermophilic aerobe microorganism designated NP4, was isolated from the heated sugar cane. It grew on dextran, and produced a thermoactive extracellular dextranase. Screening and isolation was done by assay of dextranase activity semi quantitatively on solid medium containing blue dextran. It provided several colonies with different morphology exhibited decolourized zones around, on culture plates containing blue dextran 2000R. The screening resulted in isolation of one microbe which efficiently assimilate dextran as carbon source. Dextranase production from the choised strain in liquid medi
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Juntarachot, Nucharee, Duangporn Kantachote, Sartjin Peerajan, Sasithorn Sirilun, and Chaiyavat Chaiyasut. "Optimization of Fungal Dextranase Production and Its Antibiofilm Activity, Encapsulation and Stability in Toothpaste." Molecules 25, no. 20 (2020): 4784. http://dx.doi.org/10.3390/molecules25204784.

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Dextranase catalyzes the degradation of the substrate dextran, which is a component of plaque biofilm. This enzyme is involved in antiplaque accumulation, which can prevent dental caries. The activity of crude dextranase from Penicillium roquefortii TISTR 3511 was assessed, and the maximum value (7.61 unit/g) was obtained at 37 °C and pH 6. The Plackett–Burman design was used to obtain significant factors for enhancing fungal dextranase production, and three influencing factors were found: Dextran, yeast extract concentration and inoculum age. Subsequently, the significant factors were optimiz
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Lai, Liu, Liu, et al. "The Marine Catenovulum agarivorans MNH15 and Dextranase: Removing Dental Plaque." Marine Drugs 17, no. 10 (2019): 592. http://dx.doi.org/10.3390/md17100592.

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Dextranase, a hydrolase that specifically hydrolyzes α-1,6-glucosidic bonds, has been used in the pharmaceutical, food, and biotechnology industries. In this study, the strain of Catenovulum agarivorans MNH15 was screened from marine samples. When the temperature, initial pH, NaCl concentration, and inducer concentration were 30 °C, 8.0, 5 g/L, and 8 g/L, respectively, it yielded more dextranase. The molecular weight of the dextranase was approximately 110 kDa. The maximum enzyme activity was achieved at 40 °C and a pH of 8.0. The enzyme was stable at 30 °C and a pH of 5–9. The metal ion Sr2+
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Shahid, Faiza, Afsheen Aman, and Shah Ali Ul Qader. "Immobilization of Dextranase Using Anionic Natural Polymer Alginate as a Matrix for the Degradation of a Long-Chain Biopolymer (Dextran)." International Journal of Polymer Science 2019 (March 31, 2019): 1–8. http://dx.doi.org/10.1155/2019/1354872.

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Alginate is an inexpensive, nontoxic, valuable biopolymer utilized in the study for the immobilization of commercially applicable biocatalyst dextranase. Dextranase was immobilized by an entrapment method, and alginate hydrogel spheres were synthesized after optimizing several parameters. A sodium alginate concentration of 4.0% was noticed to be suitable along with a calcium chloride concentration of 0.2 molar after providing a curing time of 20 minutes. After comparing the characteristics of the entrapped enzyme with those of the soluble one, it was observed that the characteristics were more
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Ebaya, Mahasen Mohamed Ahmed, Mohammed El-Mowafy, Mohamed Mohamed Adel El-Sokkary, and Ramadan Hassan. "Purification, Characterization, and Biocatalytic and Antibiofilm Activity of a Novel Dextranase from Talaromyces sp." International Journal of Microbiology 2020 (November 11, 2020): 1–11. http://dx.doi.org/10.1155/2020/9198048.

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Dextranase is a useful enzyme that catalyzes the degradation of dextran to low-molecular-weight fractions, which have many critical commercial and clinical applications. Endophytic fungi represent a source of both high heat-stable and pH-stable enzymes. In this study, from Delonix regia bark by plate assay, out of 12 isolated fungal strains, hyaline zones were detected in only one strain. By using the standard ITS rDNA sequencing analysis, the isolated strain was identified as Talaromyces sp. In the case of carbon source, in a medium containing 1% dextran T2000 as the sole carbon source, the m
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Esawy, Mona A., Sara H. Mansour, Eman F. Ahmed, Naziha M. Hassanein, and Hesham A. El Enshasy. "Characterization of Extracellular Dextranase from a Novel HalophilicBacillus subtilis NRC-B233ba Mutagenic Honey Isolate under Solid State Fermentation." E-Journal of Chemistry 9, no. 3 (2012): 1494–510. http://dx.doi.org/10.1155/2012/860619.

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Bacillus subtilis NRC-B233bwas isolated from Libyan honey sample proved to be a potent dextranase producer by applying solid state fermentation and utilizing corn flour as the sole carbon source. The optimized culture conditions for dextranase productions were 37°C, pH 10, 32 h, and 20% (v/w) moisture content. A unique character of this isolate is its ability to produce steady dextranase irrespective to the presence of NaCl in the medium. The addition of 0.175 Mm CrCl3 increased the enzyme production by about 4.5 fold. Further improvement in enzyme production was achieved by simple UV mutation
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Dissertations / Theses on the topic "Dextranase"

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Van, Wyk Nathan. "Analysis of dextrin dextranase from Gluconobacter oxydans." Thesis, Stellenbosch : Stellenbosch University, 2008. http://hdl.handle.net/10019.1/2619.

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Thesis (MSc (Genetics. Institute for Plant Biotechnology (IPB)))--Stellenbosch University, 2008.<br>Dextran is a high value glucose polymer used in medicine and an array of laboratory techniques. It is synthesised by lactic-acid bacteria from sucrose but has also reportedly been produced by Gluconobacter oxydans (G. oxydans) from a range of maltooligosaccharides (MOS) via the action of dextrin dextranase (DDase). In this study the presence of DDase is investigated in two G. oxydans strains (ATCC 621H and ATCC 19357) and shown to be present in the ATCC 19357 strain, but not in the ATCC 62
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Martens, Ingrid Schmidt-Hebbel. "Produção, purificação, caracterização e viabilidade de aplicação da dextranase de penicillium SP." [s.n.], 1986. http://repositorio.unicamp.br/jspui/handle/REPOSIP/255844.

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Orientador : Yong Kun Park<br>Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia de Alimentos<br>Made available in DSpace on 2018-07-14T20:17:09Z (GMT). No. of bitstreams: 1 Martens_IngridSchmidt-Hebbel_M.pdf: 3389327 bytes, checksum: b6e2e3c056665225978b1de2c44046a5 (MD5) Previous issue date: 1986<br>Resumo: Oitocentas e sessenta e três linhagens de fungos foram isoladas do solo de plantações de cana de açúcar, assim como de varas de cana deterioradas, e testadas quanto ã atividade dedextranase. Nesta seleção, foi encontrada uma linhagem de Penicillium sp qu
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Sufiate, Bruna Leite. "Enzimas vegetais e fúngicas com potencial nematicida." Universidade Federal de Viçosa, 2018. http://www.locus.ufv.br/handle/123456789/18827.

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Submitted by Marco Antônio de Ramos Chagas (mchagas@ufv.br) on 2018-04-19T12:33:37Z No. of bitstreams: 1 texto completo.pdf: 2096061 bytes, checksum: bc307da4c22fbfa9e0230bdede6f8c29 (MD5)<br>Made available in DSpace on 2018-04-19T12:33:37Z (GMT). No. of bitstreams: 1 texto completo.pdf: 2096061 bytes, checksum: bc307da4c22fbfa9e0230bdede6f8c29 (MD5) Previous issue date: 2018-03-02<br>Coordenação de Aperfeiçoamento de Pessoal de Nível Superior<br>Fungos e plantas produzem enzimas que possuem as mais diversas aplicações biotecnológicas. Uma possível e promissora aplicação dessas enzimas é
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Larsson, Anna. "Structural Studies of Three Glycosidases." Doctoral thesis, Uppsala : Acta Universitatis Upsaliensis : Universitetsbiblioteket [distributör], 2006. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-6339.

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Helleboid, Stéphane. "Caractérisation de protéines extracellulaires reliées aux phases précoces de l'embryogenèse somatique d'un Cichorium hybride : Analyses immunocytologique et moléculaire de l'implication de R-1,3-glucanases accumulées au cours du processus embryogène." Compiègne, 1998. http://www.theses.fr/1998COMP1148.

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Notre étude des événements précoces associés à l'embryogenèse somatique (ES) du Cichorium hybride '474' (C. Intybus L. , var. Sativum x C. Endivia L. , var. Latifolia), a consisté à suivre les changements dans la teneur en polyamines et dans les profils protéiques des tissus au cours de ce processus. Le développement précoce des embryons somatiques est accompagné d'une augmentation de la teneur en polyamines et d'une accumulation de protéines extracellulaires dans le milieu de culture embryogène. L'adjonction d'a-difluorométhylarginine au milieu de culture diminue de façon drastique la teneur
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Simiand, Cécile. "Modifications régio- et stéréosélectives du saccharose." Grenoble 1, 1993. http://www.theses.fr/1993GRE10180.

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Les dextrane-saccharases utilisent le saccharose comme glucosyle donneur pour la biosynthese de dextranes. Des saccharoses modifies ont ete synthetises puis testes comme analogues de substrat de ces enzymes. Le 3-oxo-saccharose, obtenu par biooxydation du saccharose, a ete utilise comme compose precurseur pour les modifications en c-3. Les 3-oximino, 3-amino et 3-thio-saccharoses ont ete obtenus avec de bons rendements. La strategie developpee pour les modifications en position c-4 a permis d'obtenir, de facon stereoselective, les 4-amino, 4-thio et 4-fluoro-saccharoses. Des tests enzymatiques
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Moulis, Claire. "Ingénierie rationnelle de la dextrane-saccharase DSR-S : compréhension du mécanisme de polymérisation pour la synthèse de dextranes de taille contrôlée." Toulouse, INSA, 2006. http://www.theses.fr/2006ISAT0037.

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La dextrane-saccharase DSR-S de Leuconostoc mesenteroides NRRL B-512F catalyse à partir de saccharose la synthèse d’un polymère d’unités glucosyle appelé dextrane, dont plus de 95% des liaisons sont de type alpha-1,6. Ce polysaccharide trouve diverses applications, essentiellement dans la formulation de composés pharmaceutiques, mais aussi comme support de chromatographie et depuis peu comme agent texturant. L’objectif de cette thèse était d’approfondir l’étude des relations structure-fonction de cette dextrane-saccharase, afin de construire par ingénierie rationnelle des catalyseurs produisan
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Zambaux, Marie-France. "Amélioration de la biodisponibilité de protéines de la coagulation par formation de conjugués covalents solubles et de nanoparticules : application à la protéine C." Nancy 1, 1998. http://www.theses.fr/1998NAN11011.

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De nombreuses biomolécules possèdent une faible durée de demi-vie, ce qui est le cas de certaines protéines de la coagulation telles que le facteur VII et la protéine C. Pour tenter de remédier à cet inconvénient, deux approches sont possibles : la formation d'un conjugué covalent macromoléculaire soluble et l'encapsulation dans des nanoparticules furtives. Formation de conjugués : Une étude de faisabilité a été réalisée sur deux protéines modèles (l'hémoglobine et l'albumine) en milieu dilué avec des dextranes fonctionnalisés. Il n'a cependant pas été possible de transposer de manière satisfa
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Aquino, Francisco Wendel Batista de. "Dextranas em açúcares e em aguardentes de cana." Universidade de São Paulo, 2009. http://www.teses.usp.br/teses/disponiveis/75/75132/tde-12112009-145612/.

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O Brasil é atualmente o maior produtor e exportador mundial de açúcar e a aguardente de cana aqui produzida é a terceira bebida destilada mais consumida no mundo. Contudo, estes produtos ainda têm a sua qualidade afetada pela presença de Dextranas. Devido à sua origem (produto secundário do metabolismo bacteriano) e por conta das suas propriedades físico-químicas, as dextranas constituem um importante meio para a avaliação da qualidade do açúcar. No âmbito industrial, as dextranas podem causar diversos problemas ao setor alimentício que utiliza o açúcar como matéria-prima, além de estarem dir
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Machy, Delphine. "Développement de nouvelles prothèses enduites de dextrane et de dérivé de dextrane." Paris 13, 2002. http://www.theses.fr/2002PA132023.

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L'enduction des prothèses vasculaires est un pré-requis pour éviter les risques hémorragiques à travers la prothèse. Actuellement les prothèses vasculaires sont principalement enduites par du colagène réticulé. Cependant ce revêtement est très coûteux et présente le risque de véhiculer des agents pathogènes. Dans ce contexte nous avons développé un nouveau revêtement pour prothèse vasculaire en polyéthylène térephtalate à base de dextrane<br>It is essential that a synthetic vascular graft in polyethylene terephalate is preclotting prior to implantation in order to prevent blood leakig through
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Books on the topic "Dextranase"

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Carter, Susan Redfield. Investigation of aqueous humor flow in the rabbit with the use of fluoresceinated dextrans. s.n.], 1989.

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K, Messmer, ed. Compromised perfusion: 13th Bodensee Symposium on Microcirculation, Lindau, June 9-11, 1995. Karger, 1996.

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Book chapters on the topic "Dextranase"

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Schomburg, Dietmar, and Margit Salzmann. "Dextranase." In Enzyme Handbook 4. Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-84437-9_9.

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Stellmach, Bruno. "Dextranase." In Bestimmungsmethoden Enzyme. Steinkopff, 1988. http://dx.doi.org/10.1007/978-3-642-93668-5_11.

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Schomburg, Dietmar, and Dörte Stephan. "Dextrin dextranase." In Enzyme Handbook 12. Springer Berlin Heidelberg, 1996. http://dx.doi.org/10.1007/978-3-642-61117-9_17.

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Tsumori, Hideaki, Atsunari Shimamura, Yutaka Sakurai, and Kazuo Yamakami. "Combination of Mutanase and Dextranase Effectively Suppressed Formation of Insoluble Glucan Biofilm by Cariogenic Streptococci." In Interface Oral Health Science 2011. Springer Japan, 2012. http://dx.doi.org/10.1007/978-4-431-54070-0_60.

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Decker, Stephen R., William S. Adney, Todd B. Vinzant, and Michael E. Himmel. "Two Novel Alkalotolerant Dextranases fromStreptomyces anulatus." In ACS Symposium Series. American Chemical Society, 2000. http://dx.doi.org/10.1021/bk-2001-0769.ch013.

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Litvan, H., J. I. Casas, and J. M. Villar-Landeira. "Volume Replacement Therapy with Dextrans: Are Dextrans Still Useful in Volume Replacement?" In Volume Replacement. Springer Berlin Heidelberg, 1998. http://dx.doi.org/10.1007/978-3-642-72170-0_4.

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Sandoval, Ruben M., and Bruce A. Molitoris. "Fluorescent Dextrans in Intravital Multi-Photon Microscopy." In Advances in Intravital Microscopy. Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-017-9361-2_10.

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Hansen-Flaschen, John H., and Alfred P. Fishman. "Studies of Pulmonary Endothelial Permeability Using Tritiated Dextrans." In Endothelial Cell Biology in Health and Disease. Springer US, 1988. http://dx.doi.org/10.1007/978-1-4613-0937-6_5.

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Kabat, Elvin A. "Molecular Biology of Anti-α-(1→6)dextrans." In ACS Symposium Series. American Chemical Society, 1993. http://dx.doi.org/10.1021/bk-1993-0519.ch011.

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Burk, M., W. D. Schoppe, A. A. Miller, R. M. Jungblut, and W. Schneider. "Dextrane Particle Use in Regional Chemotherapy: Problems of Monitoring." In Progress in Regional Cancer Therapy. Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-642-74818-9_18.

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Conference papers on the topic "Dextranase"

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Eggleston, Gillian, Andy Dilks, Mike Blowers, and Kevin Winters. "Successful application of dextranase in sugar beet factories." In American Society of Sugarbeet Technologist. ASSBT, 2011. http://dx.doi.org/10.5274/assbt.2011.59.

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Tongpong, Piyachat, Chaiyavat Chaiyasut, Sasithorn Sirilun, and Phakkharawat Sittiprapaporn. "Effect of Mouthwash Containing Dextranase Enzyme on Markers related to Dental Cariese." In 2019 16th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2019. http://dx.doi.org/10.1109/ecti-con47248.2019.8955335.

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Juntarachot, Nucharee, Bhagavathi Sundaram Sivamaruthi, Sasithorn Sirilun, et al. "Effect of Use of Dextranase Based Mouthwash on Oral Plaque in Thai People: A Preliminary Report." In 2019 16th International Conference on Electrical Engineering/Electronics, Computer, Telecommunications and Information Technology (ECTI-CON). IEEE, 2019. http://dx.doi.org/10.1109/ecti-con47248.2019.8955430.

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Xu, Xiangqun, Liu Wu, Ruikang K. Wang, James B. Elder, and Valery V. Tuchin. "Optical clearing of blood by dextrans." In International Conference on Lasers, Applications, and Technologies 2002 Laser Applications in Medicine, Biology, and Environmental Science, edited by Gerhard Mueller, Valery V. Tuchin, Gennadii G. Matvienko, Christian Werner, and Vladislav Y. Panchenko. SPIE, 2003. http://dx.doi.org/10.1117/12.518630.

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Eggleston, Gillian. "Unifonn and simple measurement of the activity of dextranases at the sugarbeet factory." In 33rd Biennial Meeting of American Society of Sugarbeet Technologist. ASSBT, 2005. http://dx.doi.org/10.5274/assbt.2005.71.

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Wang, Ruikang K., Xiangqun Xu, James B. Elder, and Valery V. Tuchin. "Possible mechanisms for optical clearing of whole blood by dextrans." In Biomedical Optics 2003, edited by Alexander V. Priezzhev and Gerard L. Cote. SPIE, 2003. http://dx.doi.org/10.1117/12.479191.

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Charron, Luc, Andrea Harmer, and Lothar Lilge. "Development of poly-l-lysine-coated calcium-alginate microspheres encapsulating fluorescein-labeled dextrans." In Photonics North 2005, edited by Warren C. W. Chan, Kui Yu, Ulrich J. Krull, Richard I. Hornsey, Brian C. Wilson, and Robert A. Weersink. SPIE, 2005. http://dx.doi.org/10.1117/12.628831.

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Wang, Shougang, Babak Baseri, James J. Choi, Yao-Sheng Tung, Barclay Morrison, and Elisa E. Konofagou. "Delivery of fluorescent dextrans through the ultrasound-induced blood-brain barrier opening in mice." In 2008 IEEE Ultrasonics Symposium (IUS). IEEE, 2008. http://dx.doi.org/10.1109/ultsym.2008.0416.

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Yemane, Petros Tesfamichael, Andreas Aslund, Kristin Grendstad Saterbo, et al. "The Effect of Sonication on Extravasation and Distribution of Nanoparticles and Dextrans in Tumor Tissue Imaged by Multiphoton Microscopy." In 2018 IEEE International Ultrasonics Symposium (IUS). IEEE, 2018. http://dx.doi.org/10.1109/ultsym.2018.8580082.

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Yan, Mei, Shuyuan Liu, Xin Chen, and Bin Du. "Spectrophotometric Determination of Trace Lead in food with Trihydroxyphenylfluorone in Microemulsion after Sulphydryl Dextrane Gel for Preconcentration and Separation." In 2009 3rd International Conference on Bioinformatics and Biomedical Engineering (iCBBE). IEEE, 2009. http://dx.doi.org/10.1109/icbbe.2009.5163418.

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