Presentation is loading. Please wait.

Presentation is loading. Please wait.

Chapter 27/28: The Reproductive system

Similar presentations


Presentation on theme: "Chapter 27/28: The Reproductive system"— Presentation transcript:

1 Chapter 27/28: The Reproductive system
BSC 1086C Fall 2007

2 Essence of Sex Reproduction Sexual reproduction
one property of a living thing great variety of methods Sexual reproduction each offspring has 2 parents and receives genetic material from both provides genetic diversity that increases “fitness” of the population and helps drive evolution

3 Two Sexes Male and female ___________(sex cells) combine their genes to form a fertilized egg (____________) one gamete has motility (sperm) parent producing sperm considered male has Y chromosome other gamete (egg or ovum) contains nutrients for developing zygote parent producing eggs considered female

4 Overview of Reproductive System
____________________ produce gametes (testes or ovaries) male - ducts, glands, penis deliver sperm cells female - uterine tubes, uterus and vagina receive sperm and nourish developing fetus Secondary sex characteristics develop at puberty to attract a mate pubic, axillary and facial hair, scent glands, body morphology and low-pitched voice in males

5 Role of Sex Chromosomes
Our cells contain 23 pairs of chromosomes 22 pairs of autosomes 1 pair of sex chromosomes (XY males: XX females) males produce 50% Y carrying sperm and 50% X carrying all eggs carry the X chromosome Sex of child determined by type of sperm that fertilizes mother’s egg

6 Hormones and Sex Differentiation
Gonads begin to develop at 6 weeks 2 sets of ducts __________________ducts develop into male reproductive system or __________________ducts (müllerian ducts) develop into female reproductive tract SRY gene (Sex-determining Region of Y gene) in males, codes for a protein that causes development of testes  secrete testosterone secrete müllerian-inhibiting factor  degenerates paramesonephric ducts Female development occurs in absence of hormones 27.3

7 Androgen-Insensitivity Syndrome
Genetically male (XY) Testosterone secreted target cells lack receptors for hormone No masculizing effects occur

8 Embryonic Development
External genitals of both sexes begin as a _________________ becomes glans of penis or clitoris pair of__________________ enclose urethra of male or form labia minora a pair of_________________ scrotum or labia majora 27.4 Homologous structures!

9 Male Reproductive System
27.11

10 Scrotum Pouch holding testes
divided into 2 compartments by median septum Spermatic cord travels up from scrotum to pass through inguinal canal contains testicular artery, vein, nerves, lymphatics, and ductus deferens 27.7

11 Testicular Thermoregulation
Sperm not produced at core body temperature _________________= pulls testes close to body _________________________ wrinkles skin reducing surface area of scrotum lifts it upwards ____________________= veins ascending near testicular artery countercurrent heat exchanger cools arterial blood entering testis

12 Testes Tunica albuginea
Oval organ, 4 cm long x 2.5 cm in diameter Tunica albuginea white fibrous capsule on testes Septa divide testes into compartments containing____________________ each tubule lined with a thick germinal epithelium for sperm interstitial cells between tubules - testosterone Sustentacular cells promote sperm cell development 27.9

13 Spermatic Ducts Sperm flow from the seminferous tubules into ___________________then into a series of ducts: Efferent ductules collect sperm from rete testes and transport it to epididymis ___________________ (head, body and tail) site of sperm maturation and storage (fertile for 60 days) Ductus deferens Ejaculatory duct 2 cm duct formed from ductus deferens and seminal vesicle and passing through prostate to empty into urethra

14 Male Accessory Glands _________________ __________________
posterior to bladder empty into ejaculatory duct below bladder, surrounds urethra and ejaculatory duct 2 x 4 x 3 cm __________________ near bulb of penis empty into penile urethra lubricating fluid neutralizes acidity 27.11

15 Penis Internal root, shaft, and glans
3 cylindrical bodies of erectile tissue corpus spongiosum along ventral side of penis encloses penile urethra ends as a dilated bulb ensheathed by bulbospongiosus muscle corpora cavernosa diverge like arms of a Y Vasodilation of deep artery fills lacunae in cavernosa with blood = erection 27.12

16 Hormones and Brain-Testicular Axis
27.13

17 Mitosis and Meiosis _______________produces two genetically identical daughter cells (for tissue repair, embryonic growth) _______________produces gametes for sexual reproduction keeps chromosome number constant from generation to generation after fertilization 2 cell divisions (only one replication of DNA)

18 Spermatogenesis Spermiogenesis =
Spermatogonia produce 2 kinds of daughter cells type A remain outside blood-testis barrier and produce more daughter cells until death type B differentiate into primary spermatocytes meiosis I  2 secondary spermatocytes meiosis II  4 spermatids Spermiogenesis = Transformation of spermatids into mature sperm 27.15

19 Spermatozoon Head is pear-shaped front end
4 to 5 microns long structure containing the nucleus, acrosome and basal body of the tail flagella nucleus contains haploid set of chromosomes acrosome contains enzymes that penetrate the egg Tail is divided into 3 regions midpiece contains mitochondria around axoneme of the flagella (produce ATP for flagellar movement) principal piece is axoneme surrounded by fibers endpiece is very narrow tip of flagella 27.17

20 Female reproductive system
28.3 Primary sex organ: _________________(2) Secondary sex organs: _______________(2), ___________________ (1) and _____________

21 The Ovaries Small, almond shaped ~ 3 cm long, 1.5 cm wide, 1 cm thick
Covered in a white capsule of connective tissue (tunica albuginea) Held in place in the dorsal pelvic wall by several connective tissue ligaments Ovarian ligament – attaches medial pole of ovary to the uterus Suspensory ligament – attaches lateral pole of ovary to pelvic wall Mesovarium – anchors anterior margin This is an extension of a sheet of peritoneum called the broad ligament

22 Ligaments suspend ovaries
Note: ovarian artery/vein entering via the suspensory ligament (functional equivalent of testicular artery) 28.3

23 The uterine tubes (fallopian tubes)
Uterine tubes = fallopian tubes = oviduct Carries ovulated gametes from the ovary to the uterus NOT directly connected to ovary! Gametes are washed into fimbriae by ciliated epithelial cells and then travel along tube via cilia movement and muscular contraction of the tube

24 The uterus Thick muscular chamber
Function – shelter and feed developing fetus and expel fetus to complete pregnancy (muscle!) 3 parts: fundus, body, and cervix In nonpregnant women, the uterus is a potential space (walls are pressed together)

25 The uterine wall External serosa (________________________)
28.6 External serosa (________________________) Middle muscular layer (_______________________) Function: produce labor contractions to expel fetus Inner mucosa (_________________________) Superficial half to two-thirds (___________________) is shed each menstrual cycle Deep layer (_____________________) regenerates new functionalis

26 The Vagina Tube 8-10 cm long
Allows for discharge of menstrual fluid, receipt of penis/semen, and birth of baby NO glands! Lubrication via transudation Epithelial cells rich in glycogen – this is converted to lactic acid by bacteria (fermentation) to produce a low vaginal pH ( )

27 The breasts and mammary glands
Mound of tissue overlying pectoralis major Two regions: body and axillary tail Composed mostly of adipose tissue (fat) and collagenous tissue Suspensory ligaments attach breast to skin and to fascia of pectoralis major 28.9 Usually little glandular tissue – however, during pregnancy glandular lobes develop radially around the nipple Each lobe drained by lactiferous ducts that drain into lactiferous sinus opening onto the nipple.

28 Oogenesis The follicular cells divide, become stratified and start to release estrogens and the primary oocyte completes meiosis I to form the secondary oocyte 28.12

29 Why only 1 oocyte/follicle per month?
Primary follicles compete to become the “dominant” follicle: each follicle secretes estradiol which inhibits FSH release from the anterior pituitary (and increases LH output). At the same time estradiol increases the receptors for FSH on the local follicle that released the estradiol Thus the follicle that secretes the most estradiol will be the most sensitive to FSH and therefore continue to grow at the lower FSH levels while the other follicles will degenerate

30 ovulation The growing dominant follicle secretes increasing levels of estrogen to trigger the acute release of LH from the Ant. Pituitary This surge in LH triggers completion of meiosis I and rupturing of follicle (ovulation) 28.14

31 Following ovulation, follicle becomes_______ ____________
the corpus luteum secretes progesterone Progesterone causes a thickening of the endometrium (ready for implantation if fertilization has occured) Eventually, corpus luteum degenerates, progesterone levels decrease and the endometrium breaks down. The Menstrual Cycle 28.15


Download ppt "Chapter 27/28: The Reproductive system"

Similar presentations


Ads by Google