Institution
Novozymes
Company•Copenhagen, Denmark•
About: Novozymes is a company organization based out in Copenhagen, Denmark. It is known for research contribution in the topics: Nucleic acid & Polynucleotide. The organization has 2506 authors who have published 2828 publications receiving 89266 citations. The organization is also known as: Novo Enzymes A/S & Novozymes A/S.
Topics: Nucleic acid, Polynucleotide, Fermentation, Lipase, Cellulase
Papers published on a yearly basis
Papers
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TL;DR: This review summarizes current knowledge on the intra- and extracellular acylation of polysaccharides, and inter- and intra-molecular cross-linking of different constituents.
98 citations
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TL;DR: In rumen fluid, ammonia production fromuble keratin was similar to that of soybean and cottonseed meals and was greatly less than that of urea, indicating that no ammonia toxicity will result from cattle being fed soluble keratin.
98 citations
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TL;DR: An explicit kinetic model for processive cellulases is proposed, which uses classical burst phase theory as the starting point and shows that the burst and slowdown can be explained by the relative rates of the sequential reactions in the hydrolysis process and the occurrence of obstacles for the processive movement along the cellulose strand.
Abstract: Cellobiohydrolases (exocellulases) hydrolyze cellulose processively, i.e. by sequential cleaving of soluble sugars from one end of a cellulose strand. Their activity generally shows an initial burst, followed by a pronounced slowdown, even when substrate is abundant and product accumulation is negligible. Here, we propose an explicit kinetic model for this behavior, which uses classical burst phase theory as the starting point. The model is tested against calorimetric measurements of the activity of the cellobiohydrolase Cel7A from Trichoderma reesei on amorphous cellulose. A simple version of the model, which can be solved analytically, shows that the burst and slowdown can be explained by the relative rates of the sequential reactions in the hydrolysis process and the occurrence of obstacles for the processive movement along the cellulose strand. More specifically, the maximum enzyme activity reflects a balance between a rapid processive movement, on the one hand, and a slow release of enzyme which is stalled by obstacles, on the other. This model only partially accounts for the experimental data, and we therefore also test a modified version that takes into account random enzyme inactivation. This approach generally accounts well for the initial time course (approximately 1 h) of the hydrolysis. We suggest that the models will be useful in attempts to rationalize the initial kinetics of processive cellulases, and demonstrate their application to some open questions, including the effect of repeated enzyme dosages and the 'double exponential decay' in the rate of cellulolysis.
98 citations
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03 Dec 2008TL;DR: In this article, isolated polypeptides having feruloyl esterase activity and isolated polynucleotides encoding the polyptides were described. But the present paper only relates to the use of polynuclidean nucleic acid constructs.
Abstract: The present invention relates to isolated polypeptides having feruloyl esterase activity and isolated polynucleotides encoding the polypeptides. The invention also relates to nucleic acid constructs, vectors, and host cells comprising the polynucleotides as well as methods of producing and using the polypeptides.
98 citations
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TL;DR: It was demonstrated that processes such as sterilization and extrusion through clinical needles do not imply significant alteration of viscoelastic properties and these new hydrogels show a good stability against enzymatic degradation, which increases by increasing HA concentration and decreasing HA/DVS weight ratio.
Abstract: Hyaluronic acid (HA) hydrogels, obtained by cross-linking HA molecules with divinyl sulfone (DVS) based on a simple, reproducible, and safe process that does not employ any organic solvents, were developed. Owing to an innovative preparation method the resulting homogeneous hydrogels do not contain any detectable residual cross-linking agent and are easier to inject through a fine needle. HA hydrogels were characterized in terms of degradation and biological properties, viscoelasticity, injectability, and network structural parameters. They exhibit a rheological behaviour typical of strong gels and show improved viscoelastic properties by increasing HA concentration and decreasing HA/DVS weight ratio. Furthermore, it was demonstrated that processes such as sterilization and extrusion through clinical needles do not imply significant alteration of viscoelastic properties. Both SANS and rheological tests indicated that the cross-links appear to compact the network, resulting in a reduction of the mesh size by increasing the cross-linker amount. In vitro degradation tests of the HA hydrogels demonstrated that these new hydrogels show a good stability against enzymatic degradation, which increases by increasing HA concentration and decreasing HA/DVS weight ratio. Finally, the hydrogels show a good biocompatibility confirmed by in vitro tests.
97 citations
Authors
Showing all 2507 results
Name | H-index | Papers | Citations |
---|---|---|---|
Jens Nielsen | 149 | 1752 | 104005 |
Gary K. Schoolnik | 81 | 233 | 27782 |
Lubbert Dijkhuizen | 75 | 424 | 21761 |
Bauke W. Dijkstra | 72 | 256 | 19487 |
Michel Vert | 69 | 333 | 17899 |
Henning Langberg | 60 | 242 | 11999 |
Harinderjit Gill | 59 | 319 | 12978 |
John M. Woodley | 58 | 420 | 13426 |
Lei Cai | 57 | 374 | 16689 |
Anette Müllertz | 57 | 274 | 10319 |
Peter J. Punt | 52 | 154 | 8846 |
Svein Jarle Horn | 51 | 123 | 9511 |
Martin Hofrichter | 50 | 158 | 7387 |
Eva Stoger | 49 | 127 | 8367 |
Luciano Saso | 45 | 325 | 7672 |