| File | Title | Manuscript Id |
|---|
| Chapter Introduction | life11e_ch25_1.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_1_dlap.xml | 57b205b6757a2e5c55000002 |
| key concept 25.1 Bacteria and Archaea Are the Two Primary Divisions of Life
| life11e_ch25_2.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_2_dlap.xml | 57b205b6757a2e5c55000002 |
| The two prokaryotic domains differ in significant ways
| life11e_ch25_3.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_3_dlap.xml | 57b205b6757a2e5c55000002 |
| The small size of prokaryotes has hindered our study of their evolutionary relationships
| life11e_ch25_4.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_4_dlap.xml | 57b205b6757a2e5c55000002 |
| The nucleotide sequences of prokaryotes reveal their evolutionary relationships
| life11e_ch25_5.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_5_dlap.xml | 57b205b6757a2e5c55000002 |
| Lateral gene transfer can lead to discordant gene trees
| life11e_ch25_6.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_6_dlap.xml | 57b205b6757a2e5c55000002 |
| The great majority of prokaryote species have never been studied
| life11e_ch25_7.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_7_dlap.xml | 57b205b6757a2e5c55000002 |
| recap | life11e_ch25_8.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_8_dlap.xml | 57b205b6757a2e5c55000002 |
| key concept 25.2 Prokaryote Diversity Reflects the Ancient Origins of Life
| life11e_ch25_9.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_9_dlap.xml | 57b205b6757a2e5c55000002 |
| Two early-branching lineages of bacteria live at very high temperatures
| life11e_ch25_10.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_10_dlap.xml | 57b205b6757a2e5c55000002 |
| Firmicutes include some of the smallest cellular organisms
| life11e_ch25_11.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_11_dlap.xml | 57b205b6757a2e5c55000002 |
| Actinobacteria include major pathogens as well as valuable sources of antibiotics
| life11e_ch25_12.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_12_dlap.xml | 57b205b6757a2e5c55000002 |
| Cyanobacteria were the first photosynthesizers
| life11e_ch25_13.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_13_dlap.xml | 57b205b6757a2e5c55000002 |
| Spirochetes move by means of axial filaments
| life11e_ch25_14.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_14_dlap.xml | 57b205b6757a2e5c55000002 |
| Chlamydias are extremely small parasites
| life11e_ch25_15.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_15_dlap.xml | 57b205b6757a2e5c55000002 |
| The proteobacteria are a large and diverse group
| life11e_ch25_16.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_16_dlap.xml | 57b205b6757a2e5c55000002 |
| Gene sequencing enabled biologists to differentiate Archaea from Bacteria
| life11e_ch25_17.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_17_dlap.xml | 57b205b6757a2e5c55000002 |
| Prokaryotic archaea live in extremely diverse environments
| life11e_ch25_18.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_18_dlap.xml | 57b205b6757a2e5c55000002 |
| recap | life11e_ch25_19.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_19_dlap.xml | 57b205b6757a2e5c55000002 |
| key concept 25.3 Ecological Communities Depend on Prokaryotes
| life11e_ch25_20.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_20_dlap.xml | 57b205b6757a2e5c55000002 |
| Many prokaryotes form complex communities
| life11e_ch25_21.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_21_dlap.xml | 57b205b6757a2e5c55000002 |
| Microbiomes are critical to the health of many eukaryotes
| life11e_ch25_22.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_22_dlap.xml | 57b205b6757a2e5c55000002 |
| A small minority of bacteria are pathogens
| life11e_ch25_23.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_23_dlap.xml | 57b205b6757a2e5c55000002 |
| Prokaryotes have amazingly diverse metabolic pathways
| life11e_ch25_24.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_24_dlap.xml | 57b205b6757a2e5c55000002 |
| Prokaryotes play important roles in element cycling
| life11e_ch25_25.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_25_dlap.xml | 57b205b6757a2e5c55000002 |
| recap | life11e_ch25_26.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_26_dlap.xml | 57b205b6757a2e5c55000002 |
| key concept 25.4 Viruses Have Evolved Many Times
| life11e_ch25_27.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_27_dlap.xml | 57b205b6757a2e5c55000002 |
| Many RNA viruses probably represent escaped genomic components of cellular life
| life11e_ch25_28.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_28_dlap.xml | 57b205b6757a2e5c55000002 |
| Some DNA viruses may have evolved from reduced cellular organisms
| life11e_ch25_29.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_29_dlap.xml | 57b205b6757a2e5c55000002 |
| Viruses can be used to fight bacterial infections
| life11e_ch25_30.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_30_dlap.xml | 57b205b6757a2e5c55000002 |
| recap | life11e_ch25_31.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_31_dlap.xml | 57b205b6757a2e5c55000002 |
| Investigating Life | life11e_ch25_32.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_32_dlap.xml | 57b205b6757a2e5c55000002 |
| Chapter Summary
| life11e_ch25_33.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_33_dlap.xml | 57b205b6757a2e5c55000002 |
| Apply What You’ve Learned
| life11e_ch25_34.html | 57b205b6757a2e5c55000002 |
| DLAP questions | life11e_ch25_34_dlap.xml | 57b205b6757a2e5c55000002 |