开放课件详细信息
| Directed Evolution: Engineering Biocatalysts | |
| 8 Enzyme evolution using phage display (cont.) Affinity selection for improved catalysts has limitations; not all enzymatic activities have suitable suicide substrates. Direct selection of enzymes on the basis of catalysis is possible using phage display technology, but is more complex as a physical link between the phage-bound enzyme and the substrate must be established. We will discuss how this type of selection is achieved using two different examples of substrate linkage Notes | |
| Life Sciences Courses;Biological Engineering--Biomaterials;Biology--Cell Biology;Biology--Genetics | |
| 授课人:Dr. Kerry Love | |
| 机构:Massachusetts Institute of Technology | |
| 主题词:58.1 | |
| 美国|英语 | |
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| Files | Size | Format | View |
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| 8 Enzyme evolution using phage display (cont.) Affinity selection for improved catalysts has limitations; not all enzymatic activities have suitable suicide substrates. Direct selection of enzymes on the basis of catalysis is possible using phage display technology, but is more complex as a physical link between the phage-bound enzyme and the substrate must be established. We will discuss how this type of selection is achieved using two different examples of substrate linkage Notes | 89KB |  download |
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| 8 Enzyme evolution using phage display (cont.) Affinity selection for improved catalysts has limitations; not all enzymatic activities have suitable suicide substrates. Direct selection of enzymes on the basis of catalysis is possible using phage display technology, but is more complex as a physical link between the phage-bound enzyme and the substrate must be established. We will discuss how this type of selection is achieved using two different examples of substrate linkage Notes | 230KB | download |
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