| File | Title | Manuscript Id |
|---|
| Chapter 16 Introduction | morris2e_ch16_1.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_1_dlap.xml | 5612ce73757a2ee069000000 |
| 16.1 Early Theories of Inheritance
| morris2e_ch16_2.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_2_dlap.xml | 5612ce73757a2ee069000000 |
| Early theories of heredity predicted the transmission of acquired characteristics.
| morris2e_ch16_3.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_3_dlap.xml | 5612ce73757a2ee069000000 |
| Belief in blending inheritance discouraged studies of hereditary transmission.
| morris2e_ch16_4.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_4_dlap.xml | 5612ce73757a2ee069000000 |
| 16.2 The Foundations of Modern Transmission Genetics
| morris2e_ch16_5.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_5_dlap.xml | 5612ce73757a2ee069000000 |
| Mendel’s experimental organism was the garden pea.
| morris2e_ch16_6.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_6_dlap.xml | 5612ce73757a2ee069000000 |
| In crosses, one of the traits was dominant in the offspring.
| morris2e_ch16_7.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_7_dlap.xml | 5612ce73757a2ee069000000 |
| 16.3 Segregation: Mendel’s Key Discovery
| morris2e_ch16_8.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_8_dlap.xml | 5612ce73757a2ee069000000 |
| Genes come in pairs that segregate in the formation of reproductive cells.
| morris2e_ch16_9.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_9_dlap.xml | 5612ce73757a2ee069000000 |
| The principle of segregation was tested by predicting the outcome of crosses.
| morris2e_ch16_10.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_10_dlap.xml | 5612ce73757a2ee069000000 |
| A testcross is a mating to an individual with the homozygous recessive genotype.
| morris2e_ch16_11.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_11_dlap.xml | 5612ce73757a2ee069000000 |
| Segregation of alleles reflects the separation of chromosomes in meiosis.
| morris2e_ch16_12.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_12_dlap.xml | 5612ce73757a2ee069000000 |
| Dominance is not universally observed.
| morris2e_ch16_13.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_13_dlap.xml | 5612ce73757a2ee069000000 |
| The principles of transmission genetics are statistical and are stated in terms of probabilities.
| morris2e_ch16_14.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_14_dlap.xml | 5612ce73757a2ee069000000 |
| Mendelian segregation preserves genetic variation.
| morris2e_ch16_15.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_15_dlap.xml | 5612ce73757a2ee069000000 |
| 16.4 Independent Assortment
| morris2e_ch16_16.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_16_dlap.xml | 5612ce73757a2ee069000000 |
| Independent assortment is observed when genes segregate independently of one another.
| morris2e_ch16_17.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_17_dlap.xml | 5612ce73757a2ee069000000 |
| Independent assortment reflects the random alignment of chromosomes in meiosis.
| morris2e_ch16_18.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_18_dlap.xml | 5612ce73757a2ee069000000 |
| Phenotypic ratios can be modified by interactions between genes.
| morris2e_ch16_19.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_19_dlap.xml | 5612ce73757a2ee069000000 |
| 16.5 Patterns of Inheritance Observed in Family Histories
| morris2e_ch16_20.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_20_dlap.xml | 5612ce73757a2ee069000000 |
| Dominant traits appear in every generation.
| morris2e_ch16_21.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_21_dlap.xml | 5612ce73757a2ee069000000 |
| Recessive traits skip generations.
| morris2e_ch16_22.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_22_dlap.xml | 5612ce73757a2ee069000000 |
| Many genes have multiple alleles.
| morris2e_ch16_23.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_23_dlap.xml | 5612ce73757a2ee069000000 |
| Incomplete penetrance and variable expression can obscure inheritance patterns.
| morris2e_ch16_24.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_24_dlap.xml | 5612ce73757a2ee069000000 |
| Case 3: How do genetic tests identify disease risk factors?
| morris2e_ch16_25.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_25_dlap.xml | 5612ce73757a2ee069000000 |
| Chapter 16 Summary | morris2e_ch16_26.html | 5612ce73757a2ee069000000 |
| DLAP questions | morris2e_ch16_26_dlap.xml | 5612ce73757a2ee069000000 |