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Example Questions
Example Question #3 : Understanding Oogenesis
The release of a secondary oocyte from the ovary is known as __________.
meiosis
menstruation
oogenesis
gametogenesis
ovulation
ovulation
The release of the secondary oocyte from the ovaries is ovulation. This occurs after the follicles surrounding the oocyte mature and rupture, releasing the cell to be available for fertilization. Menstruation occurs after ovulation - if the ovum fails to be fertilized, the uterus will shed its lining. Oogenesis, the creation of an ovum, is the female form of gametogenesis (creation of a gamete). Meiosis is the process of cell division in which the number of chromosomes is halved.
Example Question #4 : Understanding Oogenesis
Prior to the onset of menstruation, the development of primary oocytes is paused in what phase of meiosis?
Prophase II
Anaphase I
Prophase I
Metaphase I
Metaphase II
Prophase I
Primary oocytes enter meiosis I and replicate their genomes, but they do not make their first meiotic division. They remain in prophase I until a female begins her first menstrual cycle. Then, each month, one primary oocyte resumes the process of meiotic division.
Example Question #4 : Understanding Oogenesis
After a follicle matures and a primary oocyte completes its first meiotic division, the primary oocyte becomes __________.
an ovary
a gamete
a fetus
a secondary oocyte
an embryo
a secondary oocyte
A primary oocyte becomes a secondary oocyte when the follicle grows and matures and the primary oocyte completes its first meiotic division. Shortly after, the follicle will rupture and release the secondary oocyte to be fertilized. Later, after the oocyte develops into an ovum and is fertilized, it becomes a diploid zygote, which develops into an embryo through the process of mitosis. The ovary is the reproductive organ where the ova are produced, and a gamete is the haploid cell (ovum or sperm) that is fertilized and forms a zygote.
Example Question #11 : Understanding Oogenesis
Fraternal twins or triplets may be born as a result of __________.
failure of the oocyte to complete meiosis
more than one follicle maturing in a single menstrual cycle
two or more sperm fertilizing a single ovum
an oocyte entering metaphase before fertilization
ovulating before the follicular phase of the menstrual cycle
more than one follicle maturing in a single menstrual cycle
During the menstrual cycle, typically only one follicle matures and is fertilized. The follicles that do not mature are called polar bodies and degenerate. However, sometimes multiple follicles remain and are available to be fertilized, resulting in genetically distinct embryos, known as fraternal twins.
Example Question #61 : Cell Division
After a primary oocyte divides meiotically, three haploid cells are produced. What is the term for the two smaller cells that typically disintegrate and are not fertilized?
Diploids
Embryos
Polar bodies
Zygotes
Fallopian tubes
Polar bodies
Typically, each menstrual cycle produces three primary oocytes. Two of these primary oocytes are inevitably smaller than the third and usually disintegrate before maturation and fertilization. These two cells are known as polar bodies. Usually, meiosis results in four daughter cells that are all haploid. However, after meiosis I of oogenesis, there are two daughter cells, one primary oocyte, and a polar body. After meiosis II, the primary oocyte divides into a secondary oocyte and another polar body. However, the polar body that was a result of the first meiotic division usually does not complete meiosis, and thus does not divide again.
Example Question #62 : Cell Division
What must occur for a secondary oocyte to complete meiosis II?
Uterine contractions
Degeneration
Menstruation
Fertilization
Implantation
Fertilization
The secondary oocyte completes meiosis II only when fertilized by a spermatozoan. After fertilization is initiated, the secondary oocyte begins its second meiotic division, resulting in the formation of a mature ovum and another polar body. At this point, the ovum is ready to fuse with the spermatozoan.
Example Question #63 : Cell Division
Where does fertilization of the ovum typically occur?
Cervix
Follicle
Uterus
Fallopian tube
Ovary
Fallopian tube
Fertilization typically occurs in the fallopian tube. After fertilization, the diploid zygote will begin the process of implantation into the uterus, where it undergoes mitotic divisions. The resulting multicellular organism is called the embryo, which further develops in the uterus into a fetus.
Example Question #71 : Cell Division
In human females, an ovum is released into the fallopian tube approximately how often?
Once a year
Once a day
All the eggs are released at birth
Only after fertilization
Every 28 days
Every 28 days
Normally, one ovum is released every 28 days in human females. These 28 days constitute the menstrual cycle, which may vary in length, but on average, the cycle takes 28 days. A female is born with all the eggs she will ever have, and after the initiation of menstruation, one egg is released every 28 days until menopause.
Example Question #72 : Cell Division
What hormone stimulates primary oocytes to resume meiosis?
Thyroid-stimulating hormone
Follicle-stimulating hormone
Estrogen
Human chorionic gonadotropin
Luteinizing hormone
Follicle-stimulating hormone
At the beginning of the menstrual cycle, elevated follicle-stimulating hormone (FSH) stimulates primary oocytes to resume meiosis. A spike in luteinizing hormone (LH) triggers ovulation. Thyroid-stimulating hormone (TSH) and human chorionic gonadotropin (hCG) are involved in thyroid hormone secretion, and in maintenance of the corpus luteum during pregnancy, respectively. Estrogen is a female sex hormone, and has an indirect regulatory role in meiotic divisions of ova.
Example Question #73 : Cell Division
Where does oocyte development occur in humans?
Fallopian tubes
Uterus
Ovaries
Cervix
Placenta
Ovaries
An oocyte develops in the ovaries during female gametogenesis. If the oocyte eventually becomes an ovum and is fertilized in the fallopian tubes, the resulting gamete will be implanted in the uterus. The placenta is an organ that connects the developing fetus to the uterine wall, and the cervix is the lower portion of the uterus that separates the vagina from the uterus.
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