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Unit IX: Animal Structure and Function, Part III

Unit IX: Animal Structure and Function, Part III. Hormones and Reproduction. Regulatory Systems. Nervous system and Endocrine System structurally, chemically, and functionally related + nervous system : conveys high speed messages via impulses

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Unit IX: Animal Structure and Function, Part III

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  1. Unit IX: Animal Structure and Function, Part III Hormones and Reproduction

  2. Regulatory Systems • Nervous system and Endocrine System • structurally, chemically, and functionally related • + nervous system: conveys high speed messages via impulses • + endocrine system: slower means of communication via hormones • - hormone: chemical signal secreted into body fluids to • communicate regulatory messages within the body • - neurosecretory cells: nerve cells that secrete hormones • regulation of several physiological processes involves overlap • + each system affects the output of the other • - invertebrate regulatory system • + molting (see Fig. 45.2) • - ecdysone (molting hormone) • - brain hormone (BH) • - juvenile hormone (JH)

  3. Chemical Signals and their Modes of Action • How do hormones work? • Hormones elicit responses by binding to target cells • + local regulation • - nitric oxide (NO) • + kills cancer cells and bacteria • + dilation of blood vessels • - growth factors (peptides/proteins) • + regulate cell behavior in developing tissues and organs • - prostaglandins (PGs) • + modified fatty acids • + induce muscle contraction of uterine wall • + induce fever/inflammation; intensify pain • affect only target cells; other cell types ignore the message

  4. How Cells Communicate • chemical signals bind to • receptor proteins on or within • target cell • + most chemical signals • are unable to pass through • plasma membrane • + triggers chemical events • within cell that result in a • change in its behavior • - signal -transduction • pathways

  5. Steroid Hormones • Steroids are lipids • can pass through cell • membrane • + bind to receptor protein • + complex enters the • nucleus • + binds to regulatory site • + stimulates transcription • + specific protein made

  6. Endocrine Glands • pineal gland • + secretes melatonin • hypothalamus • + controls pituitary gland • pituitary gland • + multiple hormones • thyroid gland • + T3, T4, and calcitonin • parathyroid glands • + parathyroid hormone • thymus • + thymosin • adrenal glands • + epinephrine/norepinephrine and • other steroids • pancreas • + insulin and glucagon Endocrine System

  7. The Hypothalamus • recieves info from nerves and other parts of brain, then initiates endocrine response • + neurosecretory cells • - ADH, oxytocin • + stored in posterior pituitary

  8. Anterior Pituitary

  9. Thyroid Hormones • T3 and T4 • T3: triiodothyronine • T4: thyroxine • + 3 vs. 4 iodine atoms • - regulate metabolism • + T4 secreted and is • converted to T3 in targets • Calcitonin • lowers blood calcium level • + prevents decomposition • of bone • - osteoporosis • + caused by hyper- • parathyroidism

  10. Parathryroid Hormone

  11. Pancreas

  12. Diabetes • Type I diabetes mellitus • insulin-dependent diabetes • + autoimmune disorder • - immune system mounts attack on pancreatic cells • + require insulin injections • Type II diabetes mellitus • non-insulin-dependent diabetes • + adult diabetes (more common- 90% of diabetics) • - deficiency of insulin or reduced response of target cells • + managed by exercise and dietary control

  13. Gonads Male Reproductive Structures Female Reproductive Structures

  14. Testes • testosterone (androgen) • + male secondary sex characteristics • Ovaries • estradiol (estrogen) • + female secondary sex characteristics • progesterone (progestin) • + prepare uterus for embryo implantation; maintain pregnancy • All three found in both males/females, but in different proportions.

  15. Sexual Reproduction • Mechanisms of Sexual Reproduction • Internal fertilization • + requires cooperative behavior • + requires sophisticated reproductive equipment • + usually produces fewer zygotes • + provide more parental protection • External fertilization • + requires moist environment • + timing is more important • - courtship behavior or pheromones

  16. Mammalian Reproduction Male Reproductive System

  17. Reproductive Anatomy of the Human Male • testes (sing. testis) • + male gonads; highly coiled tubes • - seminiferous tubules • scrotum • + fold of the body wall that holds the testes • - must be kept 2° below normal body temp. • epididymis • + 6 meter long tubule extending from seminiferous tubules • vas deferens • + vasectomy • ejaculatory duct • + joins the two vas deferens • urethra • + tube that drains both the excretory/reproductive systems • accessory glands • + seminal vesicles, prostate, bulbourethral glands

  18. Mammalian Reproduction Female Reproductive System

  19. Reproductive Anatomy of the Human Female • ovaries • + female gonads; follicles and corpus luteum • - all eggs formed before birth • oviduct • + fallopian tubes • uterus • + womb • - thick, muscular organ • cervix • + neck of the uterus; opens to the vagina • vagina • + thin-walled chamber • - birth canal; repository for sperm during copulation • labia • + labia minora/majora • - slender skin folds/ridges that enclose and protect vestibule

  20. Human Sexual Response Four Phases 1. Excitement + preparation of vagina/penis for coitus - vasocongestion and myotonia + filling of a tissue with blood and increased muscle tension 2. Plateau + continues excitement responses - female vagina and uterus creates depression - breathing/heart rate increase 3. Orgasm + rhythmic, involuntary contractions of the reproductive structures - emission/ejaculation - uterus and vagina contract 4. Resolution + reverses the responses of earlier stages

  21. Sperm

  22. Meiosis • reductive division • + reduce the number • of chromosomes • + two successive div. • Primordial germ cell • + divide to form • spermatogonia • Spermatogonia • + precursors of sperm • + undergo mitosis • + mature into primary • spermatocytes • - secondary sperm- • atocytes, • spermatids, sperm Spermatogenesis

  23. Oogenesis

  24. Conception to Birth • Conception • fertilization of the egg by a sperm cell • + usually occurs in the oviduct • - fertilized egg (zygote) makes it way down to uterus

  25. Embryonic Development • Trimesters • 1st: organogenesis • + human chorionic gonadotropin (HCG) • - maintains secretion of progesterone/estrogen

  26. Egg Activation Fertilization 1. Sperm binds to receptors on egg surface 2. Migrates through zona pellucida 3. Sperm reaches egg membrane 4. Membranes fuse 5. Cortical reaction occurs and egg blocks other sperm from entering

  27. Embryonic Development • Cleavage: succession of rapid • cell divisions • blastomeres • poles: animal/vegetal • + vegetal has more yolk • morula (mulberry) • + blastocoel forms • - blastula

  28. Patterning • gastrulation • + cells organize themselves in • layers/masses • - germ layers • + ectoderm, mesoderm, endoderm

  29. Differentiation • organogenesis • + organ development • - folds, splits, clustering • + notochord/neural tube • Growth • mitosis • + Morphing Embryo • Cellular and Molecular Basis

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