Reproduction Word Scramble
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Question | Answer |
gonadal development depends on what | Y chromosome |
how does the presence of a Y chromosome result in a male? | sex-determining region Y gene (SRY) is present on the short arm of the Y chromosome and ecodes for a protein called the Testis Determining Factor (TDF). This protein induces the formation of the testes |
primary sex structures | ovaries, testes |
development of secondary sex structures depends on | presence or absence of the hormone testosterone |
androgens | testes secrete androgens and make male structures; ovaries can't secrete androgens resulting in female structures |
wolffian ducts | up unti the 7th week of development, embryos of each sex posses wolffian ducts (form internal male structures |
mullerian ducts | up unti the 7th week of development, embryos of each sex posses mullerian ducts (form internal female structures) |
mullerian inhibiting factor | causes regression of the mullerian ducts; females become females because of lack of mullerian inhibiting factor and testosterone |
human chorionic gonadotropin | hormone released by the placenta; stimulates early testicular secretion of testosterone which induces develpment of the wolffian ducts into the male reproductive tract (epididymis, ductus deferens, ejaculatory duct, and seminal vesicles) |
male reproductive tract | epididymis, ductus deferens, ejaculatory duct, and seminal vesicles |
female reproductive tract | oviducts, uterus, and vagina |
external reproductive structures requre | dihydtrotestosterone or DHT |
genitalia are mostly formed after how many weeks | 16 |
differentiation of the male and female brain also depends on the presence or absence of what | testosterone |
differences in male and female brain | size of hypothalamic nuclei, cyclic release of gonadotropin, and sexual behavior |
how long does puberty last | 3-5 years |
menstruation started in 1840 at what age | 17 |
sebaceous glands | stimulated to secreted oil (acne) during puberty |
progesterone | female hormone related to menstruation period |
precocious puberty | early puberty; early development of secondary sex characteristics; caused by abnormal exposure of immature females to estrogen or males to androgens; often caused by tumors of the gonads or adrenal glands |
delayed puberty | menarche has failed to occur by age 17, testes failed to develop by age 20 |
spermatogenesis works best in what temp | colder |
testes are divided into | testicular lobules (250 compartments) |
Each lobule in the teste contains | a coiled seminiferous tubule and interstitial cells (Leydig cells) |
function of seminiferous tubules | produce sperm; they also contain Sertoli cells which play a role in nurturing the sperm cells |
function of Leydig cells | produce testosterone; are located outside of the seminiferous tubules |
epididymis | small coiled tube which measures about 20 feet, lies along the top and side of the testes; site of maturation of sperm |
capacitation | sperm's capacity to fertilize is enhanced by exposure to secretions of the female reproductive tract; the ductus epididymis also secretes "sperm forward-mobility protein," which causes a movement pattern of the sperm |
vas deferens (ductus deferens) | tubes that carry sperm from the epididmis up into the abdominal cavity to the ejaculatory duct near the bladder; at the end of the vas deferens is an expanded region called the "ampulla" which serves as a reservoir for sperm |
vasectomy | a small incision is made in the scrotum, the vas deferens is tied in two places and the segments between the ties are removed |
Ejaculatory ducts | carry sperm from vas deferens to urethra |
urethra | tube extending from the urinary bladder through the flor of the pelvic cavity and then through the penis; carries urine from bladder and sperm from ejaculatory duct |
male sex accessory organs | seminal vesicles, prostate gland, bulbourethral glands; these glands secrete seminal plasma which mixes with the sperm to form semen or seminal fluid |
seminal vesicles | secrete seminal plasma (more than half of total semen volume); fluid contains fructose to give energy to sperm; fluid also contains prostaglandins which stimulate contraction of the male and female reproductive tracts which helps in sperm transport |
prostate gland | lies below the bladder and is doughnut shaped; urethra pases through the small hole in the center; secretes alkaline fluid (13-33% of volume) that helps protect the sperm from the acidic environment of the male urethra and female vagina |
bulbourethral glands | secrete alkaline fluid, which acts as a lubricant |
male fertility | depends on quantity and quality of sperm; 2-6 ml, 20 million sperm/ml, 60% normal shape |
number of sperm produced daily | 200 million/day |
sperm live how long | 3-4 days |
sperm count per ejaculation | 40 million to 250 million; below 20 million may mean infertility problems |
how many sperm enter fallopian tube | 100-100,000 |
how many sperm make it to the egg | few hundred |
zygote | fertilized egg |
what happens to dead sperm in female | phagocytized by leukocytes |
infertility is due to whom | 50% man 50% woman |
structure of sperm | head (contains nucleus with 23 chromosomes), acrosome (enzyme filled vesicle), tail (for movement), midpiece (contains a large number of mitochondria) |
uterus | pear shaped organ situated in the pelvic cavity above the urinary bladder and in front of rectum- 3 inches long, 2 wide, 1 thick; larger in multiparous women |
two main regions of the uterus | corpus or body, uterine isthmus or cervix (neck) |
two main components of the wall | endometrium (shed during menstruation) and myometrium (smooth muscle, contraction of the uterine wall results in expulsion of the fetus at birth |
fallopian tubes, oviducts, or uterine tubes | serve as ducts for ovaries (diameter of drinking straw); fertilization usually takes place there) |
ovaries | among the most vascular organs of the body |
ovarian follicles | female germ cells or oocytes are enclosed inside the ovary in tissue sacs called ovarian follicles |
how many follicles do newborn girls have | 500,000 |
how many follicles are released through ovulation | 400 |
ovulation | production of mature egg;when there is estrogen present, the immature oocyte will go from a primary, to secondary, to tertiary follicle. the large follicle that develops during the cycle is called a graafian follicle. It is this follicle that breaks ope |
secretion | production of female hormones |
Estrogen | estradiol, estrone, and estriol; estradiol is the principle estrogen; produced by follicle, corpus luteum, and plaenta, stimulates development of secondary sex structures, promote myometrial contractions, inhibit FSH secretion |
progesterone | produced by corpus luteum and placenta; stimulate development of secondary sex structures; inhibits contraction of uterine muscle |
average human menstrual cycle length | 29.5 days |
day 1 of ovarian cycle | menstruation starts, estrogen and progesterone levels are low, FSH stimulates the development of the follicle (the egg inside the follicle), several follicles start to develop-follicle secrete estrogen |
day 7 of ovarian cycle | usually only one follicle continues to develop and secrete estrogens; others degenerate; estrogen elvels increase as the folicle grows into a graafian follicle;several days before ovulation, more LH are releases from anterior pituitary |
day 14 of ovarian cycle | high levels of LH stimulate ovulation; LH surge occurs 16 hours before ovulation; expulsion of egg from the mature follicle--ovaries usually alternate |
indications of ovulation | rise in basal body temperature due to progesterone; slight pain over ovary; vaginal secretory pattern |
fertile period length | 4-6 days |
destiny of follicle cell after ovulation | LH stimulates the transformation of follicle cell into a corpus luteum (yellow body) |
cells of corpus luteum secrete | estrogens and progesterone |
day 23 of ovarian cycle if pregnancy occurs | the corpus persists; Human chorionic gonadotrophin (HCG) maintains the corpus luteum during pregnancy, which in turn maintains the levels of estrogen and progesterone |
HCG | human chorionic gonadotrophin; is detectable in the blood and urine as early as 8-10 days after fertilization so it's used in pregnancy kits; similar to GH and prolactin; has anti-insulin effects to divert glucose from mother to fetus |
day 23 of ovarian cycle if no pregnancy | corpus luteum begins to degenerate on about day 23 or 24; with degeneration of the corpus luteum, the levels of estrogens and progesterone drop |
day 27 of ovarian cycle (no pregnancy) | low levels of estrogen and progesterone cause ischemia in the endometrium, which initiates the beginning of the next cycle in one to two days |
menstrual cycle names | day 1-5 menstrual phase; 6-14 postmenstrual, preovulatory, or follicular phase; day 14 ovulation; day 14-27 premenstrual, postovulatory, or luteal phase; day 27-28 ischemic phase |
implantation takes place how many days after fertilization | 6-7 days |
intrauterin implantation | usually implants in the upper posterior wall of uterus; cervical implantation |
extrauterine implantation | rare; called ectopic pregnancy (anywhere outside the uterus); tubal, abdominal, ovarian |
pregancy lasts how long | 38 weeks (9.5 months) |
pre-embryo | first 2 weeks after conception |
embryo | 3-8 weeks after fertilization; most critical period for damage to occur to baby |
how much weight should a pregnant mother gain | 25 pounds |
during pregnancy, which hormones increase | estrogens, progesterone, HCG (human chorionic gonadotrophin which peaks at 2nd month), Glucocorticoids from the adrenal glands, T3 and T4 from thryoid, parathyroid hormone |
change in pituitary during pregnancy | increases in size and activity |
change in blood volume and cardiac output during pregnancy | increase |
parturition | act of giving birth |
factors that increase contractibility of the uterus | increased estrogen levels, secretion of oxytocin from posterior pituitary, formation of prostaglandins in the uterus |
labor is divided into three stages | 1)cervical dilation-up to 10 cm 2)delivery of the baby 3)delivery of the placenta (afterbirth) |
when does menopause start | 52 |
menopause (what happens) | follicle does not develop and therefore LH and FSH remain high and estrogens and progesterone remain low |
treatment for menopause | estrogen replacement therapy using premarin; there's recent evidence that ERT might not be so good |
benefits of ERT | relieves hot flashes, insomnia, vaginal dryness, mood swings, and heart disease |
risks of ERT | increased risk of endometrial and breast cancer, weight gain, and gall bladder disease |
tubal ligation | tying off both uterine tubes and thus preventing the transport of sperm or egg through the tubes |
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