FileTitleManuscript Id
Chapter Introductionlife11e_ch15_1.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_1_dlap.xml578e58d3757a2eac76000000
key concept 15.1 Mutations Are Heritable Changes in DNA life11e_ch15_2.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_2_dlap.xml578e58d3757a2eac76000000
Mutations have different phenotypic effects life11e_ch15_3.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_3_dlap.xml578e58d3757a2eac76000000
Point mutations are changes in single nucleotides life11e_ch15_4.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_4_dlap.xml578e58d3757a2eac76000000
Chromosomal mutations are extensive changes in the genetic material life11e_ch15_5.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_5_dlap.xml578e58d3757a2eac76000000
Retroviruses and transposons can cause loss-of-function mutations or duplications life11e_ch15_6.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_6_dlap.xml578e58d3757a2eac76000000
Mutations can be spontaneous or induced life11e_ch15_7.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_7_dlap.xml578e58d3757a2eac76000000
Mutagens can be natural or artificial life11e_ch15_8.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_8_dlap.xml578e58d3757a2eac76000000
Some base pairs are more vulnerable than others to mutation life11e_ch15_9.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_9_dlap.xml578e58d3757a2eac76000000
Mutations have both benefits and costs life11e_ch15_10.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_10_dlap.xml578e58d3757a2eac76000000
recaplife11e_ch15_11.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_11_dlap.xml578e58d3757a2eac76000000
key concept 15.2 Mutations in Humans Can Lead to Diseases life11e_ch15_12.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_12_dlap.xml578e58d3757a2eac76000000
Disease-causing mutations may make proteins dysfunctional life11e_ch15_13.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_13_dlap.xml578e58d3757a2eac76000000
Disease-causing mutations may involve any number of base pairs life11e_ch15_14.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_14_dlap.xml578e58d3757a2eac76000000
Expanding triplet repeats demonstrate the fragility of some human genes life11e_ch15_15.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_15_dlap.xml578e58d3757a2eac76000000
Cancer often involves somatic mutations life11e_ch15_16.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_16_dlap.xml578e58d3757a2eac76000000
Most diseases are caused by multiple genes and environment life11e_ch15_17.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_17_dlap.xml578e58d3757a2eac76000000
recaplife11e_ch15_18.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_18_dlap.xml578e58d3757a2eac76000000
key concept 15.3 Mutations Can Be Detected and Analyzed life11e_ch15_19.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_19_dlap.xml578e58d3757a2eac76000000
Cleavage of DNA by restriction enzymes can be used to rapidly detect mutations life11e_ch15_20.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_20_dlap.xml578e58d3757a2eac76000000
Gel electrophoresis separates DNA fragments life11e_ch15_21.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_21_dlap.xml578e58d3757a2eac76000000
DNA fingerprinting combines PCR with restriction analysis and electrophoresis life11e_ch15_22.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_22_dlap.xml578e58d3757a2eac76000000
DNA analysis can be used to identify mutations that lead to disease life11e_ch15_23.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_23_dlap.xml578e58d3757a2eac76000000
Genetic markers can be used to find disease-causing genes life11e_ch15_24.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_24_dlap.xml578e58d3757a2eac76000000
recaplife11e_ch15_25.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_25_dlap.xml578e58d3757a2eac76000000
key concept 15.4 Genetic Screening Is Used to Detect Diseases life11e_ch15_26.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_26_dlap.xml578e58d3757a2eac76000000
Genetic screening can be done by examining the phenotype life11e_ch15_27.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_27_dlap.xml578e58d3757a2eac76000000
DNA testing is the most accurate way to detect abnormal genes life11e_ch15_28.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_28_dlap.xml578e58d3757a2eac76000000
Allele-specific oligonucleotide hybridization can detect mutations life11e_ch15_29.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_29_dlap.xml578e58d3757a2eac76000000
recaplife11e_ch15_30.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_30_dlap.xml578e58d3757a2eac76000000
key concept 15.5 Genetic Diseases Can Be Treated life11e_ch15_31.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_31_dlap.xml578e58d3757a2eac76000000
Genetic diseases can be treated by modifying the phenotype life11e_ch15_32.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_32_dlap.xml578e58d3757a2eac76000000
Gene therapy offers the hope of specific treatments life11e_ch15_33.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_33_dlap.xml578e58d3757a2eac76000000
recaplife11e_ch15_34.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_34_dlap.xml578e58d3757a2eac76000000
Investigating Lifelife11e_ch15_35.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_35_dlap.xml578e58d3757a2eac76000000
Chapter Summary life11e_ch15_36.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_36_dlap.xml578e58d3757a2eac76000000
Apply What You’ve Learned life11e_ch15_37.html578e58d3757a2eac76000000
DLAP questionslife11e_ch15_37_dlap.xml578e58d3757a2eac76000000