| File | Title | Manuscript Id |
|---|---|---|
| Chapter Introduction | life11e_ch14_1.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_1_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.1 Genes Code for Proteins | life11e_ch14_2.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_2_dlap.xml | 573348ac757a2e3a7d000000 |
| Observations in humans led to the proposal that genes determine enzymes | life11e_ch14_3.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_3_dlap.xml | 573348ac757a2e3a7d000000 |
| Experiments on bread mold established that genes determine enzymes | life11e_ch14_4.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_4_dlap.xml | 573348ac757a2e3a7d000000 |
| One gene determines one polypeptide | life11e_ch14_5.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_5_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_6.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_6_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.2 Information Flows from Genes to Proteins | life11e_ch14_7.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_7_dlap.xml | 573348ac757a2e3a7d000000 |
| Three types of RNA have roles in the information flow from DNA to protein | life11e_ch14_8.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_8_dlap.xml | 573348ac757a2e3a7d000000 |
| In some cases, RNA determines the sequence of DNA | life11e_ch14_9.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_9_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_10.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_10_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.3 DNA Is Transcribed to Produce RNA | life11e_ch14_11.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_11_dlap.xml | 573348ac757a2e3a7d000000 |
| RNA polymerases share common features | life11e_ch14_12.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_12_dlap.xml | 573348ac757a2e3a7d000000 |
| Transcription occurs in three steps | life11e_ch14_13.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_13_dlap.xml | 573348ac757a2e3a7d000000 |
| The genetic code specifies which amino acids will be included in the polypeptide | life11e_ch14_14.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_14_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_15.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_15_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.4 Eukaryotic Pre-mRNA Transcripts Are Processed prior to Translation | life11e_ch14_16.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_16_dlap.xml | 573348ac757a2e3a7d000000 |
| Noncoding sequences called introns often appear between genes in eukaryotic chromosomes | life11e_ch14_17.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_17_dlap.xml | 573348ac757a2e3a7d000000 |
| Pre-mRNA processing prepares the mRNA transcript for translation | life11e_ch14_18.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_18_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_19.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_19_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.5 The Information in mRNA Is Translated into Proteins | life11e_ch14_20.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_20_dlap.xml | 573348ac757a2e3a7d000000 |
| A transfer RNA carries a specific amino acid and binds to a specific mRNA codon | life11e_ch14_21.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_21_dlap.xml | 573348ac757a2e3a7d000000 |
| Each tRNA is specifically attached to an amino acid | life11e_ch14_22.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_22_dlap.xml | 573348ac757a2e3a7d000000 |
| The ribosome is the workbench for translation | life11e_ch14_23.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_23_dlap.xml | 573348ac757a2e3a7d000000 |
| Translation takes place in three steps | life11e_ch14_24.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_24_dlap.xml | 573348ac757a2e3a7d000000 |
| Polysome formation increases the rate of protein synthesis | life11e_ch14_25.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_25_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_26.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_26_dlap.xml | 573348ac757a2e3a7d000000 |
| key concept 14.6 Polypeptides Can Be Modified and Transported during or after Translation | life11e_ch14_27.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_27_dlap.xml | 573348ac757a2e3a7d000000 |
| How are proteins directed to their cellular destinations? | life11e_ch14_28.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_28_dlap.xml | 573348ac757a2e3a7d000000 |
| Mitochondria and chloroplasts make some of their own proteins and import others | life11e_ch14_29.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_29_dlap.xml | 573348ac757a2e3a7d000000 |
| Many proteins are modified after translation | life11e_ch14_30.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_30_dlap.xml | 573348ac757a2e3a7d000000 |
| recap | life11e_ch14_31.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_31_dlap.xml | 573348ac757a2e3a7d000000 |
| Investigating Life | life11e_ch14_32.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_32_dlap.xml | 573348ac757a2e3a7d000000 |
| Chapter 14 Summary | life11e_ch14_33.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_33_dlap.xml | 573348ac757a2e3a7d000000 |
| Apply What You've Learned | life11e_ch14_34.html | 573348ac757a2e3a7d000000 |
| DLAP questions | life11e_ch14_34_dlap.xml | 573348ac757a2e3a7d000000 |