| File | Title | Manuscript Id |
|---|
| Chapter Introduction | life11e_ch16_1.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_1_dlap.xml | 5791323c757a2ecc23000003 |
| key concept 16.1 Prokaryotic Gene Expression Is Regulated in Operons
| life11e_ch16_2.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_2_dlap.xml | 5791323c757a2ecc23000003 |
| Regulating gene transcription conserves energy
| life11e_ch16_3.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_3_dlap.xml | 5791323c757a2ecc23000003 |
| Operons are units of transcriptional regulation in prokaryotes
| life11e_ch16_4.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_4_dlap.xml | 5791323c757a2ecc23000003 |
| Operator–repressor interactions control transcription in the lac and trp operons
| life11e_ch16_5.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_5_dlap.xml | 5791323c757a2ecc23000003 |
| Protein synthesis can be controlled by increasing promoter efficiency
| life11e_ch16_6.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_6_dlap.xml | 5791323c757a2ecc23000003 |
| RNA polymerases can be directed to particular classes of promoters
| life11e_ch16_7.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_7_dlap.xml | 5791323c757a2ecc23000003 |
| recap | life11e_ch16_8.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_8_dlap.xml | 5791323c757a2ecc23000003 |
| key concept 16.2 Eukaryotic Gene Expression Is Regulated by Transcription Factors
| life11e_ch16_9.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_9_dlap.xml | 5791323c757a2ecc23000003 |
| General transcription factors act at eukaryotic promoters
| life11e_ch16_10.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_10_dlap.xml | 5791323c757a2ecc23000003 |
| Specific proteins can recognize and bind to DNA sequences and regulate transcription
| life11e_ch16_11.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_11_dlap.xml | 5791323c757a2ecc23000003 |
| Specific protein–DNA interactions underlie binding
| life11e_ch16_12.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_12_dlap.xml | 5791323c757a2ecc23000003 |
| Transcription factors underlie cell differentiation
| life11e_ch16_13.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_13_dlap.xml | 5791323c757a2ecc23000003 |
| The expression of sets of genes can be coordinately regulated by transcription factors
| life11e_ch16_14.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_14_dlap.xml | 5791323c757a2ecc23000003 |
| recap | life11e_ch16_15.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_15_dlap.xml | 5791323c757a2ecc23000003 |
| key concept 16.3 Viruses Regulate Their Gene Expression during the Reproductive Cycle
| life11e_ch16_16.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_16_dlap.xml | 5791323c757a2ecc23000003 |
| Viruses undertake two kinds of reproductive cycles
| life11e_ch16_17.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_17_dlap.xml | 5791323c757a2ecc23000003 |
| Eukaryotic viruses can have complex life cycles
| life11e_ch16_18.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_18_dlap.xml | 5791323c757a2ecc23000003 |
| HIV gene regulation occurs at the level of transcription elongation
| life11e_ch16_19.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_19_dlap.xml | 5791323c757a2ecc23000003 |
| recap | life11e_ch16_20.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_20_dlap.xml | 5791323c757a2ecc23000003 |
| key concept 16.4 Epigenetic Changes Regulate Gene Expression
| life11e_ch16_21.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_21_dlap.xml | 5791323c757a2ecc23000003 |
| DNA methylation occurs at the promoter and silences transcription
| life11e_ch16_22.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_22_dlap.xml | 5791323c757a2ecc23000003 |
| Histone protein modifications affect transcription
| life11e_ch16_23.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_23_dlap.xml | 5791323c757a2ecc23000003 |
| Epigenetic changes can be induced by the environment
| life11e_ch16_24.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_24_dlap.xml | 5791323c757a2ecc23000003 |
| Global chromosome changes involve DNA methylation
| life11e_ch16_25.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_25_dlap.xml | 5791323c757a2ecc23000003 |
| recap | life11e_ch16_26.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_26_dlap.xml | 5791323c757a2ecc23000003 |
| key concept 16.5 Eukaryotic Gene Expression Can Be Regulated after Transcription
| life11e_ch16_27.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_27_dlap.xml | 5791323c757a2ecc23000003 |
| RNA splicing can result in different mRNAs being made from the same gene
| life11e_ch16_28.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_28_dlap.xml | 5791323c757a2ecc23000003 |
| Small RNAs are important regulators of gene expression
| life11e_ch16_29.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_29_dlap.xml | 5791323c757a2ecc23000003 |
| Translation of mRNA can be regulated by proteins
| life11e_ch16_30.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_30_dlap.xml | 5791323c757a2ecc23000003 |
| recap | life11e_ch16_31.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_31_dlap.xml | 5791323c757a2ecc23000003 |
| Investigating Life | life11e_ch16_32.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_32_dlap.xml | 5791323c757a2ecc23000003 |
| Chapter Summary
| life11e_ch16_33.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_33_dlap.xml | 5791323c757a2ecc23000003 |
| Apply What You’ve Learned
| life11e_ch16_34.html | 5791323c757a2ecc23000003 |
| DLAP questions | life11e_ch16_34_dlap.xml | 5791323c757a2ecc23000003 |