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Your search keyword '"Hansen, P. G."' showing total 10 results
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10 results on '"Hansen, P. G."'

1. A microbial supply chain for production of the anti-cancer drug vinblastine

Author

Zhang, Jie, Hansen, Lea G, Gudich, Olga, Viehrig, Konrad, Lassen, Lærke MM, Schrübbers, Lars, Adhikari, Khem B, Rubaszka, Paulina, Carrasquer-Alvarez, Elena, Chen, Ling, D’Ambrosio, Vasil, Lehka, Beata, Haidar, Ahmad K, Nallapareddy, Saranya, Giannakou, Konstantina, Laloux, Marcos, Arsovska, Dushica, Jørgensen, Marcus AK, Chan, Leanne Jade G, Kristensen, Mette, Christensen, Hanne B, Sudarsan, Suresh, Stander, Emily A, Baidoo, Edward, Petzold, Christopher J, Wulff, Tune, O’Connor, Sarah E, Courdavault, Vincent, Jensen, Michael K, and Keasling, Jay D

Subjects
Cancer, Antineoplastic Agents, Bioreactors, Biosynthetic Pathways, Catharanthus, Genes, Fungal, Genes, Plant, Metabolic Engineering, Polyisoprenyl Phosphates, Saccharomyces cerevisiae, Tryptophan, Vinblastine, Vinca Alkaloids, General Science & Technology
Abstract

Monoterpene indole alkaloids (MIAs) are a diverse family of complex plant secondary metabolites with many medicinal properties, including the essential anti-cancer therapeutics vinblastine and vincristine1. As MIAs are difficult to chemically synthesize, the world's supply chain for vinblastine relies on low-yielding extraction and purification of the precursors vindoline and catharanthine from the plant Catharanthus roseus, which is then followed by simple in vitro chemical coupling and reduction to form vinblastine at an industrial scale2,3. Here, we demonstrate the de novo microbial biosynthesis of vindoline and catharanthine using a highly engineered yeast, and in vitro chemical coupling to vinblastine. The study showcases a very long biosynthetic pathway refactored into a microbial cell factory, including 30 enzymatic steps beyond the yeast native metabolites geranyl pyrophosphate and tryptophan to catharanthine and vindoline. In total, 56 genetic edits were performed, including expression of 34 heterologous genes from plants, as well as deletions, knock-downs and overexpression of ten yeast genes to improve precursor supplies towards de novo production of catharanthine and vindoline, from which semisynthesis to vinblastine occurs. As the vinblastine pathway is one of the longest MIA biosynthetic pathways, this study positions yeast as a scalable platform to produce more than 3,000 natural MIAs and a virtually infinite number of new-to-nature analogues.

Published
2022

2. 'Magic' nucleus 42Si

Author

Fridmann, J., Wiedenhöver, I., Gade, A., Baby, L. T., Bazin, D., Brown, B. A., Campbell, C. M., Cook, J. M., Cottle, P. D., Diffenderfer, E., Dinca, D.-C., Glasmacher, T., Hansen, P. G., Kemper, K. W., Lecouey, J. L., Mueller, W. F., Olliver, H., Rodriguez-Vieitez, E., Terry, J. R., Tostevin, J. A., and Yoneda, K.

Published
2005

6. ‘Magic’ nucleus 42Si.

Author

Fridmann, J., Wiedenhöver, I., Gade, A., Baby, L. T., Bazin, D., Brown, B. A., Campbell, C. M., Cook, J. M., Cottle, P. D., Diffenderfer, E., Dinca, D.-C., Glasmacher, T., Hansen, P. G., Kemper, K. W., Lecouey, J. L., Mueller, W. F., Olliver, H., Rodriguez-Vieitez, E., Terry, J. R., and Tostevin, J. A.

Subjects
PARTICLES (Nuclear physics), QUANTUM theory, NUCLEAR physics, PROTONS, NEUTRONS, ATOMS
Abstract

Nuclear shell structures—the distribution of the quantum states of individual protons and neutrons—provide one of our most important guides for understanding the stability of atomic nuclei. Nuclei with ‘magic numbers’ of protons and/or neutrons (corresponding to closed shells of strongly bound nucleons) are particularly stable. Whether the major shell closures and magic numbers change in very neutron-rich nuclei (potentially causing shape deformations) is a fundamental, and at present open, question. A unique opportunity to study these shell effects is offered by the 42Si nucleus, which has 28 neutrons—a magic number in stable nuclei—and 14 protons. This nucleus has a 12-neutron excess over the heaviest stable silicon nuclide, and has only one neutron fewer than the heaviest silicon nuclide observed so far. Here we report measurements of 42Si and two neighbouring nuclei using a technique involving one- and two-nucleon knockout from beams of exotic nuclei. We present strong evidence for a well-developed proton subshell closure at Z = 14 (14 protons), the near degeneracy of two different (s1/2 and d3/2) proton orbits in the vicinity of 42Si, and a nearly spherical shape for 42Si. [ABSTRACT FROM AUTHOR]

Published
2005
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8. Near-surface turbulence measurements in a lake

Author

Dillon, T. M., Richman, J. G., Hansen, C. G., and Pearson, M. D.

Abstract

One of the most important but least understood regions of oceans and lakes is the near-surface zone. Exchanges of energy and momentum between the atmosphere and the waters below are controlled by turbulent mixing processes in the surface zone. Major advances in understanding these processes have been hampered by a lack of observations of turbulence near the surface. We have recently constructed a probe which can be used to estimate an important variable in theories of turbulence, the rate at which the kinetic energy of turbulence is dissipated, and have found a surprising though simple result: to a first approximation, scaling laws devised to describe dissipation in the atmospheric boundary layer may also be applicable in the water near the surface.

Published
1981
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9. Addendum: Immune clearance of highly pathogenic SIV infection

Author

Hansen, Scott G., Piatak, Michael, Ventura, Abigail B., Hughes, Colette M., Gilbride, Roxanne M., Ford, Julia C., Oswald, Kelli, Shoemaker, Rebecca, Li, Yuan, Lewis, Matthew S., Gilliam, Awbrey N., Xu, Guangwu, Whizin, Nathan, Burwitz, Benjamin J., Planer, Shannon L., Turner, John M., Legasse, Alfred W., Axthelm, Michael K., Nelson, Jay A., Früh, Klaus, Sacha, Jonah B., Estes, Jacob D., Keele, Brandon F., Edlefsen, Paul T., Lifson, Jeffrey D., and Picker, Louis J.

Abstract

This corrects the article DOI: 10.1038/nature12519

Published
2017
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