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Animal Reproduction And Development

Animal Reproduction And Development. AP Biology. Asexual Reproduction. Identical cells (clones) Advantages: Reproduce without a mate Lots of babies and fast too! No energy used for maintaining a Repro system or hormones. Great in a stable and favorable environment . Types:

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Animal Reproduction And Development

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  1. Animal Reproduction AndDevelopment AP Biology

  2. Asexual Reproduction • Identical cells (clones) • Advantages: • Reproduce without a mate • Lots of babies and fast too! • No energy used for maintaining a Repro system or hormones. • Great in a stable and favorable environment. • Types: • Fission: Amoeba/ Bacteria separated an organism into 2 cells • Budding: Hydra, Sea Anemone, Grow a buddy off your side • Fragmentation: &regeneration: Sponges, starfish, planaria • Parthenogenesis: development of an egg without fertilization: honeybees, lizards, et.

  3. The Human Male Reproductive System • Testis (sl)/ Testes (pl)- olive size (1-1.5in) • Divided into lobules. Male Gonads • Lobules contain 1-4 seminiferous tubules • Between seminiferous tubules are interstitial cells (Leydig cells) • Interstitial cells produce androgens = testosterone • Sperm leave S.F.T. to go into epididymus.(mobilizes sperm)

  4. The Human Male Reproductive System • Vas Deferens • Runs up epididymus into pelvic cavity • Arches over bladder • Empties into ejaculatory duct. • Ejaculatory duct- (ejac to shoot forth) • Passes through prostate gland • Merges with urethra • Moves sperm through peristaltic waves. Pregnancy & Reproductive Vasectomy

  5. The Human Male Reproductive System • Urethra • Sperm are ejaculated through it • Urine and sperm can’t travel at the same time • Bladder sphincter constricts when sperm ejaculates. • Seminal Vesicle • 60% of semen • Thick and Yellow • Fructose Sugar nourishes • Vitamin C activates sperm • Prostaglandin (stimulates uterine contraction) • Excretes into the ejaculatory duct Cool Factoid: Sperm take 5 minutes to get to the ovary when ejaculated.

  6. The Female Reproductive System • Ovary. • Floats freely. Contains and matures eggs. • Part of the Endocrine system. Secretes Estrogen. • Falopian tube. • No contact between Ovary and Fallopian tubes. When ovary expels the Oocyte the fimbriae or ends of the fallopian tube capture it. Eggs can get lost here in the peritoneal cavity Carried by peristalsis by cilia that line the fallopian tube. (3-4 Days) Ovulation

  7. The Female Reproductive System • Uterus • Receives, retains and nourishes egg. • Pear shaped before pregnancy • 3 layers • Endometrium – Egg implants here. Sloughs off monthly • Myometrium- middle layer- smooth muscle= contractions • Epimetrium- outer layer • Vagina: birth canal. • Labor and delivery. • Cervix: mouth of the uterus.

  8. The Female Menstrual Cycle • Day 1-5 Mensus. Lasts 3-5 days. Blood loss is ¼ to ½ cup. *Iron pills important. • Endometrium, glands, and blood supply increase. Estrogen (produced by follicles on the ovary) and LH peak day 12 + 13 = • Ovulation Day 14. Follicle is like a boil on the ovary. LH causes it to rupture and the egg is released= ovulation. Used follicle becomes the Corpus Luteum= secretes progesterone. Menstrual Cycle Explained

  9. The Female Menstrual Cycle • The four phases • Follicular phase: Follicles grow in overies and secrete estrogen in response of FSH from anterior pituitary (menopause moment) • Ovulation: Secondary oocyte (2n) ruptures in response to Luteinizing hormone. • Luteal Phase: Corpus luteum forms and secretes estrogen and progesterone: thickens endometrium and uterus. • Menstration: monthly shedding

  10. Feedback and the woman… • Positive Feedback: Estrogen released in the follicle state releases LH from the anterior pituitary. When ovulation has occurred the process is completed and stops. • Negative Feedback: In the Luteal phase the corpus luteum secretes estrogen and progesterone, causes the hypothalamus and pituitary to shut off inhibiting LH and FSH.

  11. Making the Gametes… • Advantages of sexual reproduction: variation • Crossover • The Law of Segregation • The Law of Assortment

  12. Spermatogenesis • The making of sperm- begins at puberty. • LH causes the interstitial cells to produce testosterone. • The seminiferous tubules are matured with testosterone & FSH. • Spermatogonium (2n) divides by mitosis to produce primary spermatocytes (2n) • Meiosis 1 occurs producing secondary spermatocyte. Meiosis 2 = 4 spermatids (n) Spermatogenesis animation

  13. OOgenesis • Eggs= ova. Begins in the female embryo. • Oogonium cell (2n) makes primary oocytes (2n) through mitosis • Meiosis 1 (FSH) stimulates) makes secondary oocytes. • Meiosis (II) begins in fertilization. • 1 egg, 3 polar bodies. • Starts prior to birth, ends at fertilization OOgenesis

  14. Fertilization • Fusion of sperm and ovum nuclei • Begins with Acrosome Reaction • The Acrosome (sperm head) releases hydrolytic enzymes that penetrate egg coating • Once sperm is bound to the egg receptors- no other sperm can enter. • Acrosome Reaction sets up the Signal Trasnduction Pathway • Large Amounts of Ca++ released • Cortical Reaction: Ca++ causes the vitelline membrane to become a hard fertilization envelope • Rise in Ca++ Causes egg to develop. Conception

  15. Fertilization: Parthenogenesis • Development of an unfertilized egg through electrical stimulation or injections of Ca++ • Natural Parthenogenesis occurs in Drone Honeybees (unfertilized eggs haploid males/ drones), and some lizards and sharks Girls Rule

  16. Embryonic Development. • Three stages: • Cleavage: Mitotic and forms a blastula (blastomeres = cells, blastocoel = fluid) • Protosomes: spiral and determinant cleavage • Determinant= each cell is destined to become X, without which a complete embryo can not form. • Deuterostopmes:radial and indeterminate (stem-cells) • Gastrulation • Organogenesis

  17. Embryonic Development Cont.. • Gastrulation: blastula forms a blastopore. • Protostomes: Mouth • Deuterostomes: Anus • Archenteron cavity/ primitive gut is formed at the blastopore. • The three layers • Ectoderm: skin and nerves • Endoderm: viscera, lungs, liver, digestive organs • Mestoderm: Muscle, blood, bones (sponges and cnidarians make a mesoglea instead) Gastrulation Animation Actual Footage

  18. Embryonic Development Part III • Organogenesis: cells differentiate into organs. • Cells fold, split and cluster (condensation) • When organ system has been developed the embryo simply increases in size. Folding

  19. Poles explained The Frog Embryo External Fertilization Creates a Vegetal Pole (Yoke) & Animal Pole (Top) w/ Pigmented Cap which rotates toward point of sperm penetration. A gray crescent appears opposite the penetration point forming the blastopore. • Involution, when cells stream into the blastopore over the dorsal lip. • Epibolic movement creates the archenteron from the blastocoel. • Organogenesis: notochord (spine), & neural tube (CNS) • Finally metamorphosis turns tadpole to frog.

  20. The Bird Embryo • A blastodisk sits on top of the yolk. A primitive streak forms (no gray crescent) cell involution creates the archenteron. • Yolk reduces with cleavage and gastrulating. • Four embryo membranes: • Yolk sac: encloses the yolk • Amnion: encloses the embryo in amniotic fluid • Chorion: membrane under shell for diffusion of gas. • Allantois: Like the placenta. Gas exhange and holds uric acid and nitrogenous waste.

  21. Factors that influence embryonic development Hans Spemann • Cytoplasmic Determinants: Watch the movie, it’s the best, but different cells become different things depending on their polar orientation. • The Gray Crescent: Hans Spemann explains its important & calls the dorsal lip the Primary Organizer. • Embryonic Induction One group of embryonic cells influences another. • Hox Genes/ homeotic, homeobox genes = master genes responsible for anatomical structures. Ie where the head and eyes go. Hox Revisited

  22. Hox Genes

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