| File | Title | Manuscript Id |
|---|---|---|
| Chapter Introduction | life11e_ch13_1.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_1_dlap.xml | 578e19b2757a2ed968000000 |
| key concept 13.1 Experiments Revealed the Function of DNA as Genetic Material | life11e_ch13_2.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_2_dlap.xml | 578e19b2757a2ed968000000 |
| Circumstantial evidence indicates that the genetic material is DNA | life11e_ch13_3.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_3_dlap.xml | 578e19b2757a2ed968000000 |
| DNA from one type of bacterium genetically transforms another type | life11e_ch13_4.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_4_dlap.xml | 578e19b2757a2ed968000000 |
| Viral infection experiments confirmed that DNA is the genetic material | life11e_ch13_5.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_5_dlap.xml | 578e19b2757a2ed968000000 |
| Eukaryotic cells can also be genetically transformed by DNA | life11e_ch13_6.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_6_dlap.xml | 578e19b2757a2ed968000000 |
| recap | life11e_ch13_7.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_7_dlap.xml | 578e19b2757a2ed968000000 |
| key concept 13.2 DNA Has a Structure That Suits Its Function | life11e_ch13_8.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_8_dlap.xml | 578e19b2757a2ed968000000 |
| How did Watson and Crick deduce the structure of DNA? | life11e_ch13_9.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_9_dlap.xml | 578e19b2757a2ed968000000 |
| Four key features define DNA structure | life11e_ch13_10.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_10_dlap.xml | 578e19b2757a2ed968000000 |
| The double-helical structure of DNA is essential to its function | life11e_ch13_11.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_11_dlap.xml | 578e19b2757a2ed968000000 |
| recap | life11e_ch13_12.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_12_dlap.xml | 578e19b2757a2ed968000000 |
| key concept 13.3 DNA Is Replicated Semiconservatively | life11e_ch13_13.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_13_dlap.xml | 578e19b2757a2ed968000000 |
| An elegant experiment demonstrated that DNA replication is semiconservative | life11e_ch13_14.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_14_dlap.xml | 578e19b2757a2ed968000000 |
| There are two steps in DNA replication | life11e_ch13_15.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_15_dlap.xml | 578e19b2757a2ed968000000 |
| DNA polymerases add nucleotides to the growing chain | life11e_ch13_16.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_16_dlap.xml | 578e19b2757a2ed968000000 |
| Many other proteins assist with DNA polymerization | life11e_ch13_17.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_17_dlap.xml | 578e19b2757a2ed968000000 |
| The two DNA strands grow differently at the replication fork | life11e_ch13_18.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_18_dlap.xml | 578e19b2757a2ed968000000 |
| Telomeres are not fully replicated and are prone to repair | life11e_ch13_19.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_19_dlap.xml | 578e19b2757a2ed968000000 |
| recap | life11e_ch13_20.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_20_dlap.xml | 578e19b2757a2ed968000000 |
| key concept 13.4 Errors in DNA Can Be Repaired | life11e_ch13_21.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_21_dlap.xml | 578e19b2757a2ed968000000 |
| Repair mechanisms preserve DNA | life11e_ch13_22.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_22_dlap.xml | 578e19b2757a2ed968000000 |
| recap | life11e_ch13_23.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_23_dlap.xml | 578e19b2757a2ed968000000 |
| key concept 13.5 The Polymerase Chain Reaction Amplifies DNA | life11e_ch13_24.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_24_dlap.xml | 578e19b2757a2ed968000000 |
| The polymerase chain reaction can make multiple copies of a DNA sequence | life11e_ch13_25.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_25_dlap.xml | 578e19b2757a2ed968000000 |
| recap | life11e_ch13_26.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_26_dlap.xml | 578e19b2757a2ed968000000 |
| Investigating Life | life11e_ch13_27.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_27_dlap.xml | 578e19b2757a2ed968000000 |
| Chapter Summary | life11e_ch13_28.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_28_dlap.xml | 578e19b2757a2ed968000000 |
| Apply What You’ve Learned | life11e_ch13_29.html | 578e19b2757a2ed968000000 |
| DLAP questions | life11e_ch13_29_dlap.xml | 578e19b2757a2ed968000000 |