FileTitleManuscript Id
Chapter Introductionlife11e_ch11_1.html578af715757a2e195c000003
DLAP questionslife11e_ch11_1_dlap.xml578af715757a2e195c000003
key concept 11.1 All Cells Derive from Other Cells life11e_ch11_2.html578af715757a2e195c000003
DLAP questionslife11e_ch11_2_dlap.xml578af715757a2e195c000003
Prokaryotes divide by binary fission life11e_ch11_3.html578af715757a2e195c000003
DLAP questionslife11e_ch11_3_dlap.xml578af715757a2e195c000003
Eukaryotic cells divide by mitosis followed by cytokinesis life11e_ch11_4.html578af715757a2e195c000003
DLAP questionslife11e_ch11_4_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_5.html578af715757a2e195c000003
DLAP questionslife11e_ch11_5_dlap.xml578af715757a2e195c000003
key concept 11.2 The Eukaryotic Cell Division Cycle Is Regulated life11e_ch11_6.html578af715757a2e195c000003
DLAP questionslife11e_ch11_6_dlap.xml578af715757a2e195c000003
Specific internal signals trigger events in the cell cycle life11e_ch11_7.html578af715757a2e195c000003
DLAP questionslife11e_ch11_7_dlap.xml578af715757a2e195c000003
Growth factors can stimulate cells to divide life11e_ch11_8.html578af715757a2e195c000003
DLAP questionslife11e_ch11_8_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_9.html578af715757a2e195c000003
DLAP questionslife11e_ch11_9_dlap.xml578af715757a2e195c000003
key concept 11.3 Eukaryotic Cells Divide by Mitosis life11e_ch11_10.html578af715757a2e195c000003
DLAP questionslife11e_ch11_10_dlap.xml578af715757a2e195c000003
The centrosomes determine the plane of cell division life11e_ch11_11.html578af715757a2e195c000003
DLAP questionslife11e_ch11_11_dlap.xml578af715757a2e195c000003
The spindle begins to form during prophase life11e_ch11_12.html578af715757a2e195c000003
DLAP questionslife11e_ch11_12_dlap.xml578af715757a2e195c000003
Chromosome separation and movement are highly organized life11e_ch11_13.html578af715757a2e195c000003
DLAP questionslife11e_ch11_13_dlap.xml578af715757a2e195c000003
Cytokinesis divides the cytoplasm life11e_ch11_14.html578af715757a2e195c000003
DLAP questionslife11e_ch11_14_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_15.html578af715757a2e195c000003
DLAP questionslife11e_ch11_15_dlap.xml578af715757a2e195c000003
key concept 11.4 Cell Division Plays Important Roles in the Sexual Life Cycle life11e_ch11_16.html578af715757a2e195c000003
DLAP questionslife11e_ch11_16_dlap.xml578af715757a2e195c000003
Sexual life cycles produce haploid and diploid cells life11e_ch11_17.html578af715757a2e195c000003
DLAP questionslife11e_ch11_17_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_18.html578af715757a2e195c000003
DLAP questionslife11e_ch11_18_dlap.xml578af715757a2e195c000003
key concept 11.5 Meiosis Leads to the Formation of Gametes life11e_ch11_19.html578af715757a2e195c000003
DLAP questionslife11e_ch11_19_dlap.xml578af715757a2e195c000003
Meiosis reduces the chromosome number life11e_ch11_20.html578af715757a2e195c000003
DLAP questionslife11e_ch11_20_dlap.xml578af715757a2e195c000003
Chromatid exchanges during meiosis I generate genetic diversity life11e_ch11_21.html578af715757a2e195c000003
DLAP questionslife11e_ch11_21_dlap.xml578af715757a2e195c000003
During meiosis homologous chromosomes separate by independent assortment life11e_ch11_22.html578af715757a2e195c000003
DLAP questionslife11e_ch11_22_dlap.xml578af715757a2e195c000003
Meiotic errors lead to abnormal chromosome structures and numbers life11e_ch11_23.html578af715757a2e195c000003
DLAP questionslife11e_ch11_23_dlap.xml578af715757a2e195c000003
The number, shapes, and sizes of the metaphase chromosomes constitute the karyotype life11e_ch11_24.html578af715757a2e195c000003
DLAP questionslife11e_ch11_24_dlap.xml578af715757a2e195c000003
Polyploids have more than two complete sets of chromosomes life11e_ch11_25.html578af715757a2e195c000003
DLAP questionslife11e_ch11_25_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_26.html578af715757a2e195c000003
DLAP questionslife11e_ch11_26_dlap.xml578af715757a2e195c000003
key concept 11.6 Cell Death Is Important in Living Organisms life11e_ch11_27.html578af715757a2e195c000003
DLAP questionslife11e_ch11_27_dlap.xml578af715757a2e195c000003
Programmed cell death removes cells that do not benefit the organism life11e_ch11_28.html578af715757a2e195c000003
DLAP questionslife11e_ch11_28_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_29.html578af715757a2e195c000003
DLAP questionslife11e_ch11_29_dlap.xml578af715757a2e195c000003
key concept 11.7 Unregulated Cell Division Can Lead to Cancer life11e_ch11_30.html578af715757a2e195c000003
DLAP questionslife11e_ch11_30_dlap.xml578af715757a2e195c000003
Cancer cells differ from normal cells in important ways life11e_ch11_31.html578af715757a2e195c000003
DLAP questionslife11e_ch11_31_dlap.xml578af715757a2e195c000003
Cancer cells lose control over the cell cycle and apoptosis life11e_ch11_32.html578af715757a2e195c000003
DLAP questionslife11e_ch11_32_dlap.xml578af715757a2e195c000003
Cancer treatments target the cell cycle life11e_ch11_33.html578af715757a2e195c000003
DLAP questionslife11e_ch11_33_dlap.xml578af715757a2e195c000003
recaplife11e_ch11_34.html578af715757a2e195c000003
DLAP questionslife11e_ch11_34_dlap.xml578af715757a2e195c000003
Investigating Lifelife11e_ch11_35.html578af715757a2e195c000003
DLAP questionslife11e_ch11_35_dlap.xml578af715757a2e195c000003
Chapter Summary life11e_ch11_36.html578af715757a2e195c000003
DLAP questionslife11e_ch11_36_dlap.xml578af715757a2e195c000003
Apply What You’ve Learned life11e_ch11_37.html578af715757a2e195c000003
DLAP questionslife11e_ch11_37_dlap.xml578af715757a2e195c000003