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MCAT Biology - OLD > Development > Flashcards

Flashcards in Development Deck (66)
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1
Q

What is the function of the reproductive system?

A

The reproductive system generates new offspring from parent organisms, facilitating the survival of the species.

Some reproductive methods also increase genetic variation. This allows a species to adapt to changes in its environment.

2
Q

What is the difference between sexual and asexual reproduction?

A

Sexual reproduction involves two organisms and results in offspring that genetically differs from both of them. Asexual reproduction is carried out by a single organism and produces genetically identical offspring.

All prokaryotes use asexual reproduction, though they have alternative methods of gene transfer. Eukaryotic species can reproduce sexually, asexually, or through both mechanisms.

3
Q

Define:

gamete

A

A gamete is a haploid cell that combines with another gamete during sexual reproduction. Together, the fused cells form a zygote that develops into a new organism.

In humans, the male gamete is the sperm while the female gamete is the egg or ovum.

4
Q

Label the parts of the sperm cell below.

A
5
Q

What is spermatogenesis, and when and where does it begin?

A

Spermatogenesis is the production of the male gametes, sperm, in the seminiferous tubules of the testes.

Spermatogenesis begins at puberty.

6
Q

Order the following terms from least to most mature: spermatid, spermatogonium, spermatozoon, secondary spermatocyte, primary spermatocyte.

A

The least mature (most undifferentiated) cell is the spermatogonium, followed by the primary spermatocyte, secondary spermatocyte, and spermatid. A fully mature sperm cell is known as a spermatozoon.

Both meiosis and mitosis are involved in this differentiation process.

7
Q

During which step of spermatogenesis do cells become haploid?

A

Developing cells become haploid during meiosis I, which is the division from primary to secondary spermatocyte. After this transition, the gamete will be haploid but with replicated chromosomes.

Meiosis II, on the other hand, refers to the division from secondary spermatocyte to spermatid. After this step, the gamete will be haploid with only one copy of each chromosome, as in its final state.

8
Q

Around what age in men does sperm production cease?

A

Spermatogenesis never ceases; it continues throughout a man’s adult life.

In contrast, oogenesis does not occur as a steady process. Virtually all of a woman’s eggs are partially differentiated by birth, and all differentiation ceases completely at menopause.

9
Q

What is oogenesis, and where and when does it begin?

A

Oogenesis is the production of the female gametes, ova, in the ovaries.

Oogenesis begins before birth. Specifically, all of a female’s oocytes are produced and arrested at prophase I by the time she is born.

10
Q

Order the following terms from least to most mature: primary oocyte, ovum, oogonium, secondary oocyte.

A

The least mature (most undifferentiated) cell is the oogonium, followed by the primary oocyte, secondary oocyte, and ovum.

Both meiosis and mitosis are involved in this diffferentiation process.

11
Q

Define:

polar body

A

A polar body is a haploid cell produced by meiosis I or meiosis II of oogenesis. Though they possess normal amounts of genetic material, polar bodies contain little cytosol and few organelles.

Oogenesis is thus characterized by uneven division of cytoplasm. Most of the cytoplasm is allocated to the functioning oocyte, while little is given to the polar body.

12
Q

How many cells are produced in the differentiation of one primary oocyte into one mature ovum?

A

Oogenesis produces three cells per primary oocyte: one ovum and two polar bodies.

In meiosis I, the primary oocyte divides into one secondary oocyte and one polar body. This first polar body generally does not divide further. If fertilized, the secondary oocyte undergoes meiosis II, where it divides into one ovum and a second polar body.

13
Q

From birth until puberty, all of a female’s oocytes are arrested at which stage of oogenesis?

A

All of a female’s oocytes are primary and are arrested in prophase I of meiosis.

14
Q

Meiosis I corresponds to which step of oogenesis?

A

In oogenesis, meiosis I involves the division of a primary into a secondary oocyte.

Meiosis II, which is only completed if the egg is fertilized, involves the division of this secondary oocyte into a mature ovum.

15
Q

Name two differences between spermatogenesis and oogenesis.

A
  • Spermatogenesis produces four equally functional gametes, while oogenesis produces one mature ovum and two nonfunctional polar bodies.
  • Spermatogenesis takes place continuously from puberty to death, while oogenesis begins before birth and ends at menopause.
16
Q

Which gamete contributes mitochondria to the developing zygote?

A

A zygote’s mitochondria are contributed by the ovum.

While sperm contain mitochondria, they are destroyed by the ovum shortly after fertilization. As a result, mitochondrial diseases are inherited maternally.

17
Q

Define:

gonads

A

The gonads are endocrine organs that produce gametes.

The female gonads are the ovaries while the male gonads are the testes.

18
Q

What is an androgen?

A

An androgen is a general term for a hormone that influences male development.

The most important androgen to know is testosterone, a steroid hormone.

19
Q

Name the major male and female sex hormones.

A

The most important sex hormones are testosterone in males and estrogen and progesterone in females.

While these hormones are steroids, their production is closely related to that of the peptides FSH and LH.

20
Q

Give two structural differences between the male and female reproductive systems.

A
  • Male reproductive organs are mainly found outside of the body, while female organs are located internally.
  • In males, the urethra serves both reproductive and urinary purposes, while in females, it is only involved in urination.
21
Q

Define:

puberty

A

Puberty is the period of the human lifespan during which the reproductive system becomes mature.

In females, this process is marked by menarche, or the first menstrual period. In males, spermatogenesis begins at puberty.

22
Q

In females, which process involves a decrease in sex hormones and the halting of ovulation?

A

Menopause

Specifically, menopause is the period when menstrual cycles stop occurring and a female can no longer become pregnant.

23
Q

On the diagram below, label the ovaries, Fallopian tubes, uterus, and vagina.

A
24
Q

What is another term used for the Fallopian tubes?

A

The oviducts

Each Fallopian tube connects a single ovary to the uterus.

25
Q

What are follicles, and in which female reproductive structure are they located?

A

Follicles are multicellular structures located within the ovaries. Each follicle surrounds and nourishes a single oocyte.

During ovulation, the follicle bursts and develops into the corpus luteum.

26
Q

Once every 28 days, one follicle ruptures inside the ovary, releasing an oocyte into the Fallopian tube. What term is used to refer to this process?

A

The release of an oocyte from the ovary is called ovulation.

27
Q

In which structure of the female reproductive system does the fertilized zygote implant?

A

The zygote implants in the endometrium (lining) of the uterus.

Immediately after ovulation, this lining begins to thicken to provide a favorable environment for the potential zygote.

28
Q

How many sperm cells typically fertilize a single ovum?

A

One sperm fertilizes each ovum, assuming fertilization occurs at all.

Ova use specific mechanisms to avoid polyspermy, or fertilization by multiple sperm. The details of these processes are unlikely to be tested on the MCAT, but it is important to know that polyspermy inevitably causes the death of the zygote.

29
Q

What is the length of an average menstrual cycle?

A

28 days

30
Q

Name the two simultaneous cyclical processes involved in the menstrual cycle.

A

The menstrual cycle involves the ovarian cycle and the uterine cycle.

In general, the ovarian cycle relates to the development of the follicle within the ovary. The uterine cycle describes the buildup and degradation of the endometrial lining.

31
Q

What are the phases of the ovarian cycle?

A

The ovarian cycle contains three phases or events: the follicular phase, ovulation, and the luteal phase.

The follicular phase roughly corresponds to the first half of the menstrual cycle, with the luteal phase comprising the other half. Ovulation occurs between these two phases.

32
Q

What physiological changes occur during the follicular phase?

A

Both LH and FSH are released at fairly high levels, stimulating the development of the follicle. The follicle itself starts to secrete estrogen.

Remember, both LH (luteinizing hormone) and FSH (follicle-stimulating hormone) are peptides released from the anterior pituitary.

33
Q

Describe the conditions that trigger ovulation.

A

Estrogen levels increase due to its release from the follicle. At this time only, estrogen exerts a positive feedback effect on LH secretion, causing a spike known as the LH surge. The follicle then ruptures, releasing the oocyte.

34
Q

Prior to ovulation, what type(s) of feedback is/are exhibited by estrogen?

A

Estrogen exhibits positive feedback, triggering the LH surge. At other times, however, estrogen negatively feeds back on LH and FSH production.

Estrogen’s activity prior to ovulation is one of the few examples of positive feedback that appears regularly on the MCAT. Less common examples include thrombin’s role in blood clotting and the effect of oxytocin during labor.

35
Q

The active ingredients of many birth control medications include synthetic estrogen and progesterone. What effect would such medications have on ovulation?

A

Ovulation would be inhibited.

The presence of both estrogen and progesterone mimics the condition of pregnancy, in which FSH and LH are inhibited. Without these hormones, no LH surge can be initiated and ovulation cannot occur. In pregnancy, this effect is important to prevent multiple pregnancies from simultaneously occurring.

36
Q

What physiological changes occur during the luteal phase?

A

The follicle, now called the corpus luteum, begins to secrete progesterone. LH and FSH fall to very low levels.

If fertilization occurs, implantation of the zygote would occur during this phase. Menstrual cycles, then, would temporarily cease due to pregnancy.

37
Q

What are the three phases of the uterine cycle, and what major events do they contain?

A
  1. The first phase, menstruation, is marked by the degeneration of the endometrial lining.
  2. The second or proliferative phase involves regrowth of the endometrium, promoted by estrogen.
  3. The final or secretory phase is affected by progesterone from the corpus luteum. This causes the uterine lining to release nutrients.
38
Q

How do the phases of the uterine cycle match up with the ovarian cycle?

A

The follicular phase encompasses both menstruation and the proliferative phase, while the luteal phase aligns perfectly with the secretory phase.

39
Q

Define:

corpus luteum

A

The corpus luteum is the structure that arises from the burst follicle after ovulation. If the ovum is not fertilized, it is degraded; otherwise, it persists during early pregnancy.

Since the corpus luteum secretes progesterone, it technically functions as an endocrine gland.

40
Q

Which hormone, commonly detected in pregnancy tests, prevents the corpus luteum from degrading after implantation?

A

Human chorionic gonadotropin (hCG), a classic sign of pregnancy, maintains the corpus luteum.

Note that hCG is a peptide hormone.

41
Q

Define:

placenta

A

The placenta is the organ through which a fetus obtains nutrients and performs gas exchange.

The placenta also performs endocrine functions, secreting estrogen, progesterone, and hCG.

42
Q

A woman is midway through her second trimester of pregnancy. Which of her hormones will be present at high levels?

A

Estrogen, progesterone, and hCG exist at high levels during pregnancy.

In early pregnancy, progesterone and some estrogen are secreted by the corpus luteum. Within the third month, the placenta becomes the main source of these hormones, as well as hCG.

43
Q

The end of pregnancy is marked by a series of uterine contractions, leading to the expulsion of the fetus through the birth canal. Which two interchangeable terms describe this process?

A

Parturition or birth

The repeated contractions that lead to the birth of the fetus are known as labor.

44
Q

Which hormone, released from the anterior pituitary, promotes lactation after birth?

A

Prolactin, a peptide hormone, promotes lactation.

45
Q

On the diagram below, label the testes, epididymis, vas deferens, prostate gland, and urethra.

A
46
Q

What is the function of the scrotum?

A

The scrotum, which holds the testes, sits outside the body. This keeps the testes at a temperature slightly lower than 37º C, facilitating spermatogenesis.

47
Q

What process occurs in the epididymis?

A

In the epididymis, sperm become fully mature and motile. This structure also stores sperm after they are made.

48
Q

Name two male reproductive glands and describe their functions.

A

The prostate gland secretes a basic solution that protects the sperm from acidic conditions. The bulbourethral or Cowper’s glands produce a lubricating fluid prior to ejaculation.

49
Q

Define:

zygote

A

The zygote is the diploid cell created when a sperm cell fertilizes an ovum.

Note that a zygote is single-celled; once it undergoes a single division, it will be called an embryo.

50
Q

Trace the path of an zygote from the point of fertilization to the point of implantation. What structures does it encounter?

A

Fertilization occurs in the Fallopian tubes. From there, the zygote travels directly to the uterus and implants in the endometrium, or uterine lining.

51
Q

By which process does an embryo increase its number of cells, but not its overall size?

A

The early divisions of the embryo are referred to as cleavage. In this process, the cells divide very quickly without growing between divisions.

The regular cell cycle includes two rest or “gap” phases, G1 and G2. During cleavage, dividing cells skip these phases.

52
Q

Define:

morula

A

The morula is the name given to the embryo after multiple cleavage divisions. This structure is extremely dense.

The morula later develops into the blastula.

53
Q

What is a blastocyst, and from what other structure does it arise?

A

A blastocyst is a hollow cell arrangement that develops from the morula. A blastocyst contains a central blastocoel, a dense inner cell mass, and a surrounding trophoblast.

54
Q

What is gastrulation, and which germ cell layers does it produce?

A

Gastrulation is the differentiation of the blastula into three distinct layers: the ectoderm, the mesoderm, and the endoderm.

55
Q

Define:

ectoderm

A

The ectoderm is the outermost germ layer formed during development.

Structures arising from the ectoderm include the eyes, skin, hair, nails, and nervous system.

56
Q

Define:

mesoderm

A

The mesoderm is the middle germ layer formed during development.

Structures arising from the mesoderm include blood vessels, gonads, and the muscular and skeletal systems. Note that the kidneys also derive from mesoderm, not endoderm.

57
Q

Define:

endoderm

A

The endoderm is the innermost germ layer formed during development.

Structures arising from the endoderm include internal organs such as the pancreas and urinary bladder. The endoderm also gives rise to the linings of the digestive tract and lungs.

58
Q

A student asserts that the endoderm gives rise to internal organs like the pancreas, lungs, kidneys, and urinary bladder. About which structure was the student incorrect?

A

The student was wrong about the kidneys, which develop from the mesoderm.

The remaining organs (pancreas, lungs, and urinary bladder) do arise from the endoderm.

59
Q

What process involves the differentiation of ectodermal tissue into the structures that will become the nervous system?

A

This differentiation process is called neurulation.

The final product of neurulation is the neural tube, which develops into the central nervous system. Peripheral nervous structures arise from cells of the neural crest.

60
Q

Briefly describe the steps involved in neurulation.

A
  1. The notochord, a long, cylindrical structure related to the backbone, forms.
  2. The neural plate (ectoderm lying above the notochord) begins pinching inward to create neural folds.
  3. The neural folds meet, forming the neural tube.
  4. Neural crest cells move away to form peripheral structures.
61
Q

After what amount of time has the zygote progressed into an embryo? Into a fetus?

A

The zygote is considered an embryo after its first cell division. The embryo is classified as a fetus during the first trimester, specifically after the eighth week following fertilization.

62
Q

With regard to development, what is determination?

A

Determination refers to the limitation of a cell’s potential fate in the body.

Determination does not actually change cells into a specific tissue type; it simply restricts what these cells can be.

63
Q

With regard to development, what is differentiation?

A

Differentiation refers to actual changes in a cell’s gene expression that cause it to assume a specific cell type.

For example, the differentiation of a muscle cell might involve changes in cell size, protein production, and responsiveness to signals.

64
Q

Define:

stem cell

A

A stem cell is an undifferentiated cell that can either develop into a variety of cell types itself, or produce other cells that can then differentiate further.

65
Q

Which cell is more restricted in its development: a pluripotent or a multipotent cell?

A

A multipotent cell is more restricted.

Pluripotent cells can develop into any cell type, such as muscle, epithelial, or nervous tissue. These differentiate into multipotent stem cells, which can only give rise to cells of a particular type.

66
Q

In which situations might a cell undergo apoptosis?

A

Apoptosis, or programmed cell death, generally occurs in damaged cells. However, it can also serve as a normal part of development.

Viral infection, UV-induced damage, and hypoxia can all induce apoptosis.