12323116
Descripción
Fichas por Jumael Zafar, actualizado hace más de 1 año
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Creado por Jumael Zafar
hace más de 6 años
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| Pregunta | Respuesta |
| Stage 1: | Attach the target gene to a vector e.g. a plasmid, using DNA ligase and restriction endonuclease. |
| 1. | Isolate the vector from a bacteria. |
| 2. | The vector is cut using the same restriction endonuclease as separating the target gene, so that the sticky ends are complementary. |
| 3. Ligation | Mix the target gene and the vector together with DNA ligase which joins the two sticky ends together. |
| 4. | This new vector and target gene combination is known as a recombinant DNA. |
| Stage 2: | Transforming the vector to the bacteria. |
| 1. | You give a heat shock to the bacteria to create pores in its membrane. Then you add the vectors. |
| 2. | The vector does its job by inserting itself into the bacteria. |
| 3. | The new bacteria is known as the transformed cell. |
| 4. | Only about 5% of cells get transformed so this is quite a unreliable process. |
| Stage 3: | Identifying the transformed cells. |
| 1. | Add a marker gene to the vector before insertion. |
| 2. | Add the bacteria solution to a agar plate. |
| 3. | Shine UV light. |
| 4. | Any transformed cells will fluoresce. |
| Stage 4: | Making a protein |
| 1. | Attach a promoter and a terminator to the target gene. |
| 2. | The promoter allows RNA polymerase to bind. |
| 3. | So the target gene can be transcribed. |
| 4. | The transformed cells are also allowed to divide to produce lots of them by incubation. |
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