PowerLecture: Chapter 10 Meiosis and Sexual Reproduction
Asexual Reproduction ________________________ ___________________________________________________
Sexual Reproduction Involves ____________ ______________________________________________
Homologous Chromosomes Carry Different Alleles __________________________________
Sexual Reproduction Shuffles Alleles ____________________________________________________________________________________ ___________________________________________________
anther (where cells that give rise to male gametes originate) FLOWERING PLANT anther (where cells that give rise to male gametes originate) ovules, inside an ovary (where cells that give rise to female gametes originate) Fig. 10-3a, p.156
Chromosome Number ________________________
Meiosis: Two Divisions ______________________________ __________
PROPHASE I METAPHASE I ANAPHASE I TELOPHASE I MEIOSIS I newly forming microtubules in the cytoplasm spindle equator (midway between the two poles) one pair of homologous chromosomes plasma membrane PROPHASE I METAPHASE I ANAPHASE I TELOPHASE I Fig. 10-5, p.158
PROPHASE II METAPHASE II ANAPHASE II TELOPHASE II there is no DNA replication between the two divisions PROPHASE II METAPHASE II ANAPHASE II TELOPHASE II MEIOSIS II Fig. 10-5b, p.159
Crossing Over _____________________________________________________
Effect of Crossing Over ________________________________________________________________________________ __________________________________
Possible Chromosome Combinations ____________________________________________________________________________________ _____ _________________________
Possible Chromosome Combinations 2n for humans would be … 223 or… ________________
combinations possible Possible Chromosome Combinations 1 2 3 combinations possible or or or Fig. 10-7, p.161
Animal Life Cycle multicelled body zygote diploid fertilization meiosis haploid gametes Fig. 10-8b, p.162
Flowering Plant Life Cycle sporophyte zygote diploid fertilization meiosis haploid gametes spores gametophytes Fig. 10-8a, p.162
Oogenesis three polar bodies (haploid) first polar body (haploid) oogonium (diploid) primary oocyte (diploid) secondary oocyte (haploid) ovum (haploid) Meiosis I, Cytoplasmic Division Meiosis II, Cytoplasmic Division Growth Figure 10-10 Page 163
Spermatogenesis Figure 10-9 Page 163 spermato- gonium (diploid ) primary spermatocyte (diploid) secondary spermatocytes (haploid) sperm (mature, haploid male gametes) spermatids (haploid) Spermatogenesis Meiosis I, Cytoplasmic Division Meiosis II, Cytoplasmic Division Growth cell differentiation, sperm formation Figure 10-9 Page 163
Fertilization _____________________________________________
each chromosome duplicated during interphase germ cell germ cell each chromosome duplicated during interphase n MEIOSIS I separation of homologues MEIOSIS II separation of sister chromatids gametes gametes 2n diploid number restored at fertilization zygote Fig. 10-12, p.166
Factors Contributing to Variation among Offspring ______________________________ ___________________________________________
Crossing Over… a preview taken from Chapter 11
Linkage Groups Genes on one type of chromosome travel together Degree of linkage may vary
Full Linkage A B a b x Parents: A B a b AB ab F1 offspring: All AaBb meiosis, gamete formation Equal ratios of two types of gametes: A B a b Figure 11.15 Page 178 50% AB 50% ab
Incomplete Linkage AC ac A C a c x Parents: A C a c F1 offspring: All AaCc meiosis, gamete formation A a A a Unequal ratios of four types of gametes: C c c C parental genotypes recombinant genotypes Figure 11.15 Page 178
Crossover Frequency Proportional to the distance that separates genes B C D Crossing over will disrupt linkage between A and B more often than C and D In-text figure Page 178
Linkage Mapping in Humans Linkage maps based on pedigree analysis through generations Color blindness and hemophilia are very closely linked on X chromosome