Chapter 26 Reproductive System
1. Which of the following developmental stages has the greatest nuclear-to-cytoplasmic material ration? (A) Four-celled zygote (B) Eight-celled zygote (C) Morula (D) Blastula
(D) Blastula
Blastula
(a hollow sphere of cells) The blastula is the stage of the embryo that implants in the uterus. Emergency contraception works partially by inhibiting implantation of the blastula in the uterus. (Most effective after 72 hours of potential fertilization)
Embryology
= the study of the development of a unicellular zygote into a complete, multicellular organism. In the course of 9 months, a unicellular human zygote undergoes cell division, cellular differentiation, and morphogenesis in preparation for life outside the uterus.
Sexual Reproduction requires the following:
1) production of functional sex cells (gametes) by adult organisms. 2) The union of these cells (fertilization or conjugation) to form a zygote. 3) development of the zygote into another adults, completing the full cycle.
Sexual Reproduction
2 parents involved= genetically unique offspring; fusion of two gametes produced by each parent.
Acrosome
A cap-like structure called the acrosome, derived from the golgi apparatus, develops over the anterior half of the head. The acrosome contains enzymes needed to penetrate the tough other covering of the ovum. After a male has reached sexual maturity, approx. 3 million primary spermatocytes begin to undergo spermatogenesis per day, the maturation process taking a total of 65-75 days.
Luteal Phase
After ovulation, LH induces the ruptured follicle to develop into the corpus luteum, which secretes estrogen and progesterone. Progesterone causes the glands of the endometrium to mature and produce secretions that prepare it for implantation of an embryo. Progesterone and estrogen are essential for the maintenance of the endometrium.
Gastrulation
After week 2, the embryo is fully implanted in the uterus and cell migrations transform the single cell layer of the blastula into a 3-layered structure called a gastrula. (Ectoderm, Endoderm, and mesoderm)
Fertilization Process
An egg can be fertilized during the 12-24 hours after ovulation. Fertilization occurs in the lateral, widest portion of the fallopian tube. Sperm must travel through the vaginal canal, cervix, uterus, and into the fallopian tubes to reach the ovum. Sperm remain viable and capable of fertilization for 1-2 days after intercourse. The first barrier that the sperm must penetrate is the corona radiata. Enzymes secreted by the sperm aid in penetration of the corona radiata. The acrosome is responsible for penetrating the zona pellucida; it releases enzymes that digest this layer, thereby allowing the sperm to come into direct contact with the ovum cell membrane. Once in contact with the membrane, the sperm forms a tube-like structure called the acrosomal process, which extends to the cell membrane and penetrates it, fusing the sperm cell membrane with that of the ovum. The sperm nucleus now enters the ovum's cytoplasm. It is at this stage of fertilization that the ovum completes meiosis II. The acrosomal reaction triggers a cortical reaction in the ovum, causing calcium ions to be released into the cytoplasm; this, in turn, initiates a series of reactions that result in the formation of the fertilization membrane. The fertilization membrane is a hard layer that surrounds the ovum cell membrane and prevents multiple fertilizations. The release of Ca2+ also stimulates metabolic changes within the ovum, greatly increasing its metabolic rate. This is followed by the fusion of the sperm nucleus with the ovum nucleus to form a diploid zygote. The first mitotic division of the zygote soon follows.
Describe three ways in which sexual reproduction promotes genetic variability. How does genetic variability benefit a species?
Answer is on page 391.
Blastulation
Begins when the morula develops a fluid filled cavity called the blastocoel, which by the 4th day becomes a hollow sphere of cells called the blastula.
Follicular phase
Begins with the cessation of the menstrual flow from the previous cycle. During this phase, FSH from the anterior pituitary promotes the development of the follicle, which grows and begins secreting estrogen.
Neurulation
By the end of gastrulation, regions of the germ layers begin to develop into a rudimentary nervous system. This process if known as neurulation and starts before week 3. A rod of mesodermal cells called the notochord develops along the longitudinal axis of the embryo just under the dorsal layer of ectoderm. The notochord has an inductive effect on the overlying ectoderm. causing it to bend inward and form a groove along the dorsal surface of the embryo. The dorsal ectoderm folds on either side of the groove; these neural folds grow upward and finally fuse, forming a closed tube. This is the neural tube, which gives rise to the brain and the spinal cord (central nervous system). Once the neural tube is formed, it detaches from the surface ectoderm.
Birth and Maturation
Childbirth is accomplished by labor, a series of strong uterine contractions. Labor can be divided into three distinct stages. In the first stage, the cervix thins and dilates, and the amniotic sac ruptures, releasing its fluids. During this time contractions are relatively mild. The second stage is characterized by rapid contractions, resulting in birth of the baby (the umbilical cord is usually cut after this stage). During the final stage, the uterus contracts, expelling the placenta and the umbilical cord. The embryo develops into the adult through the process of maturation, which involves cell division, growth, and differentiation. Differentiation of cells is complete when all organs reach adult form.
4. What is cleavage? When does the embryo first differentiate into germ layers?
Cleavage is the rapid division of cells early in the embryo's development. A determinate cleavage results in cells whose differentiation pathways are clearly defined; these cells are incapable if individually developing into complete organisms. The appearance of the 3 primary germ layers- the endoderm, mesoderm, and ectoderm- from such processes occurs during gastrulation.
5. Upon ovulation, the oocyte is released into the (A) fallopian tube (B) ovary (C) follicle (D) abdominal cavity
D. Abdominal cavity
Spermatogenesis
Diploid cells called spermatogonia differentiate into diploid cells called primary spermatocytes, which undergo the 1st meiotic division to yield 2 haploid secondary spermatocytes of equal size; the second meiotic division produces 4 haploid spermatids of equal size. After meiosis the spermatids undergo a series of changes leading to the production of mature sperm, or spermatozoa, which are specialized for transporting the sperm nucleus to the egg, or ovum. The mature sperm is an elongated cell with a head, neck, body, and tail. The head consists almost entirely of the nucleus. The tail (flagellum) propels the sperm, which the mitochondria in the neck and body provide energy for locomotion.
Dizygotic (fraternal) twins
Dizygotic twins result when two ova are released in one ovarian cycle and are fertilized by 2 different sperm. The two embryos implant in the uterine wall individually and each develops its own placenta, amnion, and chorion (although the placentas may fuse if the embryos implant very close to each other). Fraternal twins share no more characteristics than any other siblings because they develop from 2 distinct zygotes.
First trimester
During the first weeks, the major organs begin to develop. The heart begins to beat at approx. 22 days, and soon afterwards the eyes, gonads, limbs, and liver start to form. By 5 weeks the embryo is 10mm in length; by 6 weeks the embryo has grown to 15 mm. The cartilaginous skeleton begins to turn into bone by the seventh week. By the end of 8 weeks, most of the organs have formed, the brain is fairly developed, and the embryo is referred to as a fetus. At the end of the third month, the fetus is about 9cm long.
Second trimester
During the second trimester, the fetus does a tremendous amount of growing. It begins to move around amniotic fluid, its face appears human, and its fingers and toes elongate. By the end of the sixth month, the fetus is 30-36cm long.
(Early development stages) Cleavage
Early embryonic development is characterized by a series of rapid mitotic divisions known as cleavage. These divisions lead to an increase in cell number without corresponding growth in cell protoplasm (i.e., the total volume of cytoplasm remains constant). Thus, cleavage results in progressively smaller cells with an increasing ratio of nuclei to cytoplasm. Cleavage also increases the surface-to-volume ratio of each cell, thereby improving gas and nutrient exchange.
Gametogenesis development process
Eggs develop in women and sperm develop in men. which permits reproduction to occur.
Estrogens
Estrogens are steroid hormones necessary for normal female maturation. They stimulate the development of the female reproductive tract and contribute to the development of secondary sex characteristics and sex drive. Estrogens are also responsible for the thickening of the endometrium (the inner lining of the uterine wall). Estrogens are secreted by the ovarian follicles and the corpus luteum.
The menstrual cycle phases
Follicular phase, ovulation, Luteal phase, and menstruation.
Gonads
Gametes are produced in specialized organs called gonads.
Ectoderm
Gives rise to the integument (including the epidermis, hair, nails, and epithelium of the nose, mouth, and anal canal), the lens of the eye, the retina, and the nervous system.
Hermaphrodites
Have both functional male and female gonads. (Hydra and the earthworm)
Gestation
Human pregnancy or gestation, is approximately 9 months (266) days long and can be subdivided into three trimesters.
Menstruation
If the ovum is not fertilized, the corpus luteum atrophies. The resulting drop in progesterone and estrogen levels causes the endometrium (with its superficial blood vessels) to slough off, giving rise to the menstrual flow (menses). If fertilization occurs, the developing placenta produces hCG (human chorionic gonadotrophin), maintaining the corpus luteum and thus the supply of estrogen and progesterone that maintains the uterus. Eventually the placenta takes over the production of these hormones and hCG is no longer produced.
Ectopic Pregnancy
In a normal pregnancy the blastula implants in the uterus. In an ectopic pregnancy, the embryo implants outside the uterus (ex. fallopian tube). An embryo cannot be maintained for long outside of the uterus; it will abort spontaneously, and hemorrhaging will follow. Ectopic pregnancies can be fatal if not caught in time and managed appropriately.
(Early developmental stages) Fertilization
In mammals, an egg can be fertilized 12-24 hours after ovulation. fertilization occurs in the lateral, widest portion of the oviduct where sperm traveling from the vagina encounter an egg. If more than one egg is fertilized, fraternal (dizygotic) twins may be conceived. Identical (monozygotic) twins, in contrast, occur when one zygote divides into 2 separate embryos.
Ovulation
Midway through the cycle, ovulation occurs- a mature ovarian follicle bursts and releases an ovum. Ovulation is caused by a surge in LH that is preceded and in part caused by a peak in estrogen levels. Women ovulate approx. once every 4 weeks (except during pregnancy and, usually, lactation) until menopause, which typically occurs between age 45-50. During menopause the ovaries become less sensitive to the hormones that stimulate follicle development (FSH and LH) and eventually atrophy. The remaining follicles disappear, estrogen and progesterone levels greatly decline, and ovulation stops. The profound changes in hormone levels are often accompanied by physiological and psychological changes that persist until a new balance is reached.
Monozygotic (identical) twins
Monozygotic twins results when a single zygote splits into two embryos. If the splitting occurs at the 2-cell stage of development, the embryos will have separate chorions and separate placentas; if it occurs in the blastula stage, then the embryos will have only one chorionic sac and will therefor share a placenta and possibly an amnion. Occasionally the division is incomplete, resulting in the birth of "Siamese" (conjoined) twins, which are attached at some point on the body, often sharing limbs and organs. Monozygotic twins are genetically identical because they develop from the same zygote. Monozygotic twins are therefor of the same sex, blood type, and so on.
Oogenesis
Occurs in the ovarian follicles. At birth, most of the immature ova, known as primary oocytes, that a female will produce in her lifetime are already in her ovaries. Primary oocytes are diploid cells that form by mitosis in the ovary. After menarche (the first time a female menstruates), one primary oocyte per month completes meiosis I, yielding two daughter cells of unequal size- a secondary oocyte and a small cell known as a polar body. The secondary oocyte is expelled from the follicle during ovulation. Meiosis II does not occur until fertilization. The oocyte cell membrane is surrounded by two layers of cells; the inner layer is the zona pellucida, and the outer layer is the corona radiata. Meiosis II is triggered when these layers are penetrated by a sperm cell, yielding 2 haploid cells- a mature ovum and another polar body. The first polar body may also undergo meiosis II; either way, the polar bodies rapidly degenerate. The mature ovum is a large cell containing the cytoplasm, RNA, organelles, and nutrients needed by the developing embryo. When the polar bodies are formed, they lack these resources, having given them to the developing oocyte.
Chorion
Placenta formations begins with the chorion, a membrane that completely surrounds the amnion. The chorion assists with transfer of nutrients from the mother to the fetus.
Internal Fertilization
Practiced by terrestrial vertebrates and provides a direct route for the sperm to reach the egg cell. This increases the chance of fertilization success, and females produce fewer eggs.
Progesterone
Progesterone is a steroid hormone secreted by the corpus luteum during the luteal phase of the menstrual cycle. Progesterone stimulates the development and maintenance of the endometrial walls in preparation for implantation.
Spina bifida
Sometimes during development the neural tube does not close properly resulting in a condition in humans called spina bifida. This opening can be corrected surgically, but most patients have neurological impairments for the rest of their lives. The incidence of spina bifida can be decreased dramatically if the mother takes folic acid supplements during pregnancy.
Cleavage
The 1st complete cleavage of the zygote occurs approx. 32 hours after fertilization. The 2nd cleavage occurs after 60 hours, and the 3rd cleavage after approx. 72 hours, at which point the 8-celled embryo reaches the uterus. As cell division continues, a solid ball of embyronic cells, known as the morula is formed.
2. Name the three embryonic germ layers. Identify the embryological origin of the following structures: nails, thyroid, lens, testes, aorta, peripheral nerves, and lung epithelium.
The 3 embryonic germ layers are the endoderm, mesoderm, and ectoderm. The thyroid and lung epithelium are of endodermal origin. The testes and the aorta are of mesodermal origin. The nails, lens, and peripheral nerves are of ectodermal origin.
Allantois
The allantois develops as an outpocketing of the gut. The blood vessels of the allantoic wall enlarge and become the umbillical vessels, which will connect the fetus to the developing placenta.
Amnion
The amnion is a thin, tough membrane containing a watery fluid called amniotic fluid. Amniotic fluid acts as a shock absorber of external pressure during gestation and localized pressure from uterine contractions during labor.
Organogenesis
The body organs begin to form. In this process, the cells interact, differentiate, change physical shape, proliferate, and migrate.
Neural crest cells
The cells at the tip of each neural fold. These cells migrate laterally and give rise to many components of the peripheral nervous system, including sensory ganglia, autonomic ganglia, adrenal medulla, and Schwann cells.
Ovaries
The female gonads, produce oocytes (eggs)
Placental Development
The growing fetus receives oxygen directly from its mother through a specialized circulatory system. This system not only supplies oxygen and nutrients to the fetus but removes carbon monoxide and metabolic wastes as well. The two components of this system are the placenta and the umbilical cord, which both develop in the first few weeks after fertilization. The placenta and the umbilical cord are outgrowths of the four extra-embryonic membranes formed during development: the amnion, chorion, allantois, and yolk sac.
Testes
The male gonads, produce sperm in the tightly coiled seminiferous tubules.
3. Describe the structure of the blastula
The name blastula refers to an early stage of development in which the embryo consists of a hollow ball of cells surrounding a cavity called the blastocoel.
Growth
The organs increase in size, which is a continual process from infancy to childhood to adulthood.
Female Reproduction system
The ovaries are found in the abdominal cavity below the digestive system. The ovaries consist of thousands of follicles; a follicle is a multilayered sac of cells that contains, nourishes, and protects an immature ovum. It is actually the follicle cells that produce estrogen. Approx. once a month, an immature ovum is released from the ovary into the abdominal cavity and drawn by cilia into the nearby oviduct. The oviducts are also called fallopian tubes. Each fallopian tube open into the upper end of a muscular chamber called the uterus, the site of fetal development. The lower, narrow end of the uterus is called the cervix. The cervix connects with the vaginal canal, which is the site of sperm deposition during intercourse and is also the passageway through which a baby is expelled during childbirth.
Female sex hormones
The ovaries synthesize and secrete the female sex hormones, including estrogens and progesterone. The secretion of the hormones is regulated by luteinizing hormone (LH) and follicle stimulating hormone (FSH), which, in turn, are regulated by gonadotropin-releasing hormone (GnRH).
Gametogenesis
The production of functional sex cells. In males, process is specifically called spermatogenesis, and it occurs in seminiferous tubules of the testes. In females, process is oogenesis, occurs in the ovaries.
Third Trimester
The seventh and eighth months are characterized by continued rapid growth and further brain development. During the ninth month, antibodies are transported by highly selective active transport from the mother to the fetus for protection against foreign matter. The growth rate slows and the fetus becomes less active as it has less room to move about.
The travel of the Sperm
The sperm pass from the testes' through the vas deferens to the ejaculatory duct and then to the urethra. The urethra passes through the penis and opens up to the outside at its tip. In males, the urethra is a common passageway for both reproductive and excretory systems.
Testosterone
The testes' are are also the sites of production of testosterone. Testosterone regulates secondary male sex characteristics including facial and pubic hair, and voice changes.
Scrotum
The tests are located in an external pouch called the scrotum that maintains the testes' temperature at 2-4 degrees C lower than body temperature, a condition essential for sperm survival.
Yolk Sac
The yolk sac, the site of early development of blood vessels, becomes associated with the umbilical vessels.
Fertilization
Union of the egg and sperm nuclei to form a zygote with a diploid number of chromosomes.
Endoderm
gives rise to the epithelial linings of the digestive and respiratory tracts (including the lungs) and parts of the liver, pancreas, thyroid and bladder lining.
Mesoderm
gives rise to the musculoskeletal system, circulatory system, excretory system, gonads, connective tissue throughout the body, and portions of the digestive and respiratory organs.
3 development processes
organogenesis, growth, and gametogenesis
