課程名稱︰普通生物學乙下 課程性質︰醫學系大一必帶 課程教師︰郭典翰 開課學院：醫學院 開課系所︰醫學系 考試日期（年月日）︰2014/05/06 考試時限（分鐘）：110 是否需發放獎勵金：是 （如未明確表示，則不予發放） 試題 : Part One: Multiple-Choice Questions (2 pts each, 70 pts in total) 1. Which of the following is the best explanation for the inability of a C 2+ specific animal cell to reduce the Ca concentration in its cytosol compared with the extracellular fluid? (A) low levels of protein kinase in the cell (B) blockage of the synaptic signal (C) insufficient ATP levels in the cytoplasm (D) loss of transcription factors (E) low oxygen concentration around the cell 2. An inhibitor of which of the following could be used to block the release B of calcium from the endoplasmic reticulum? (A) adenylyl cyclase (B) phospholipase C (C) tyrosine kinases (D) serine/threonine kinases (E) phosphodiesterase 3. Caffeine is an inhibitor of phosphodiesterase. Therefore, the cells of a C person who has recently consumed coffee would have increased levels of (A) adenylyl cyclase. (B) GTP. (C) cAMP. (D) phosphorylated proteins. (E) activated G proteins. 4. Use this description to answer the following question. D A major group of G protein-coupled receptors contains seven transmembrane α helices. The amino end of the protein lies at the exterior of the plasma membrane. Loops of amino acids connect the helices either at the exterior face or on the cytosol face of the membrane. The loop on the cytosol side between helices 5 and 6 is usually substantially longer than the others. Where would you expect to find the carboxyl end? (A) at the exterior surface (B) between the membrane layers (C) conected with the loop at H5 and H6 (D) at the cytosol surface 5. Use the description in Question 4 to answer the following question. E The coupled G protein most likely interacts with this receptor (A) along the interior margin. - (B) at the -COO end. (C) along the exterior margin. (D) at the -NH end. 3 (E) at the loop between H5 and H6. 6. Endocrine glands that are sources of steroid hormones E (A) are all controlled by the autonomic nervous system. (B) secrete the steroids through ducts into the blood. (C) operate independently of other hormonal cuing systems. (D) store those hormones in membrane-bound vesicles. (E) have a very short latency between steroid synthesis and steroid release. 7. Suppose that substance X is secreted by one cell, travels via interstitial D fluid to a neighboring cell, and produces an effect on that cell. All of the following terms could describe this substance except (A) prostaglandin. (B) growth factor. (C) neurotransmitter. (D) pheromone. (E) paracrine signal. 8. During mammalian labor and delivery, the contraction of uterine muscles is E enhanced by oxytocin. This is an example of (A) signal transduction immediately changing gene expression in its target cells. (B) a hormone that acts in an antagonistic way with another hormone. (C) a negative feedback system. (D) the key role of the anterior pituitary gland in regulating uterine contraction. (E) a hormone that is involved in a positive feedback loop. 9. The anterior and posterior lobes of the pituitary differ in that ＿＿. A (A) many anterior pituitary hormones regulate other endocrine glands whereas posterior pituitary hormones regulate nonendocrine tissues (B) the anterior lobe of the pituitary receives neuronal impulses from brain cells whereas the posterior lobe receives blood-borne hormones. (C) the anterior lobe of the pituitary is nervous tissue that connects directly to the brain whereas the posterior pituitary is derived from non-neural tissues (D) the posterior lobe of the pituitary operates independently of the brain whereas the anterior lobe is directly dependent on brain activity (E) the posterior pituitary gland synthesizes oxytocin and antidiuretic hormone whereas the anterior lobe receives all of its hormone products in the blood 10. In response to stress, the adrenal gland promotes the synthesis of glucose B from noncarbohydrate substrates via the action of the steroid hormone (A) ACTH. (B) cortisol. (C) epinephrine. (D) thyroxine. (E) glucagon. 11. Which of the following patterns of reproduction are found only among E invertebrate animals? (A) hermaphroditism and parthenogenesis (B) external and internal fertilization (C) sexual and asexual reproduction (D) pheromonal and hormonal coordination (E) fission and budding 12. Asexual reproduction results in greater reproductive success than does C sexual reproduction when (A) there is some potential for rapid overpopulation. (B) a species is expanding into diverse geographic settings. (C) a species is in stable and favorable environment. (D) a species has accumulated numerous deleterious mutations. (E) pathogens are rapidly diversifying. 13. Testosterone is synthesized primarily by the A (A) Leydig cells. (B) Sertoli cells. (C) anterior pituitary gland. (D) seminiferous tubules. (E) hypothalamus. 14. In vertebrate animals, spermatogenesis and oogenesis differ in that E (A) spermatogenesis is not completed until after fertilization occurs, but oogenesis is completed by the time a girl is born. (B) oogenesis begins at the onset of sexual maturity, whereas spermatogenesis begins during embryonic development. (C) oogenesis ends at menopause, whereas spermatogenesis is finished before birth. (D) oogenesis produces four haploid cells, whereas spermatogenesis produces only one functional spermatozoon. (E) cytokinesis is unequal in oogenesis, whereas it is equal in spermatogenesis. 15. An inactivating mutation in the progesterone receptor gene would likely E result in (A) enlarged and hyperactive uterine endometrium. (B) the absence of pituitary gonadotropin hormones. (C) the absence of mammary gland development. (D) the absence of secondary sex characteristics. (E) the inability of the uterus to support pregnancy. 16. The formation of the fertilization membrane requires an increase in the E availability of (A) potassium ions. (B) bicarbonate ions. (C) hydrogen ions. (D) sodium ions. (E) calcium ions. 17. Assume that successful reproduction in a rare salamander species, wherein D all individuals are females, relies on those females having access to sperm from males of another species but that the resulting embryos show no signs of a genetic contribution from the sperm. In this case, the sperm appear to be used only for (A) epigenesis. (B) morphogenesis. (C) the creation of a diploid cell. (D) egg activation. (E) cell differentiation. 18. The primitive streak in a bird is the functional equivalent of C (A) polar bodies in a sea urchin. (B) the archenteron in a frog. (C) the lip of the blastopore in the frog. (D) the notochord in a mammal. (E) neural crest cells in a mammal. 19. The developmental precursors to the gonadal tissues of C. elegans uniquely C contain (A) proteins of maternal origin. (B) high concentrations of potassium ions. (C) P granules of mRNA and protein. (D) haploid proteins. (E) T tubules for the propagation of action potentials. 20. Reversal of left-right asymmetries in humans can arise in response to a D genetic condition that ＿＿. (A) leads to the absence of the thyroid gland (B) blocks the formation of the sense of smell (C) causes defects in myelinated neurons (D) renders cilia immobile (E) induces pattern formation 21. The central nervous system is lacking in animals that have A (A) radial symmetry. (B) a complete gut. (C) excitable membranes. (D) a closed circulatory system. (E) bilateral symmetry. 22. Choose the correct match of glial cell type and function. A (A) astrocytes–metabolize neurotransmitters and modulate synaptic effectiveness (B) radial glia–the source of immunoprotection against pathogens. (C) Schwann cells–provide nutritional support to non-myelinated neurons (D) oligodendrocytes–produce the myelin sheaths of myelinated neurons in the peripheral nervous system (E) microglia–produce the myelin sheaths of myelinated neurons in the central nervous system 23. Which of the following shows a brain structure correctly paired with one of D its primary functions? (A) temporal lobe–visual processing (B) occipital lobe–speech production (C) cerebellum–language comprehension (D) frontal lobe–decision making (E) occipital lobe–control of skeletal muscles 24. The unconscious control of respiration and circulation are associated with B the (A) cerebellum. (B) medulla oblongata. (C) cerebrum. (D) thalamus. (E) corpus callosum. 25. The membrane potential that exactly offsets an ion's concentration gradient C is called the (A) action potential. (B) threshold potential. (C) equilibrium potential. (D) graded potential. (E) inhibitory postsynaptic potential. 26. Opening all of the sodium channels, with all other ion channels closed on D an otherwise typical neuron should move its membrane potential to (A) +30 mV. (B) 0 mV. (C) -90 mV. (D) +62 mV. (E) -70 mV. 27. For a neuron with an initial membrane potential at -70 mV, an increase in E the movement of potassium ions out of that neuron's cytoplasm would result in (A) the replacement of potassium ions with calcium ions. (B) the depolarization of the neuron. (C) the neuron switching on its sodium-potassium pump to restore the initial conditions. (D) the replacement of potassium ions with sodium ions. (E) the hyperpolarization of the neuron. 28. The "undershoot" phase of after-hyperpolarization is due to E (A) slow opening of voltage-gated sodium channels. (B) rapid opening of voltage-gated calcium channels. (C) ions that move away from their open ion channels. (D) slow restorative actions of the sodium-potassium ATPase. (E) sustained opening of voltage-gated potassium channels. 29. An inhibitory postsynaptic potential (IPSP) occurs in a membrane made more D permeable to (A) sodium ions. (B) ATP. (C) all neurotransmitter molecules. (D) potassium ions. (E) calcium ions. 30. Motor neurons alter skeletal muscle activities by releasing D neurotransmitter because the motor neuron('s) (A) signals reach the muscles via the blood. (B) light pulses activate contraction in the muscles. (C) is electrically coupled by gap junctions to the muscles. (D) signals bind to receptor proteins on the muscles. (E) is connected to the internal neural network of the muscles. 31. The perceived pitch of a sound depends on D (A) whether or not the sound moves the incus, malleus, and stapes. (B) which part of the oval window produces waves in the cochlear fluid. (C) which part of the tympanic membrane is being vibrated by sound waves. (D) which region of the basilar membrane was set in motion. (E) the listener having had training in music. 32. Rod cells exposed to light will A (A) hyperpolarize due to the closing of sodium channels. (B) depolarize due to the opening of sodium channels. (C) hyperpolarize due to the closing of potassium channels. (D) depolarize due to the opening of potassium channels. (E) fire one action potential for each photon received. 33. Tastes and smells are distinct kinds of environmental information in that B (A) tastant molecules are airborne, whereas odorant molecules are dissolved in fluids. (B) neural projections from taste receptors reach different parts of the brain than the neural projections from olfactory receptors. (C) the single area of the cerebral cortex that receives smell and taste signals can distinguish tastes and smells by the pattern of action potentials received. (D) odorants bind to receptor proteins, but none of the tastant stimuli bind to receptors. (E) distinguishing tastant molecules requires learning, whereas smell discrimination is an innate process. 34. Compared to oxidative skeletal muscle fibers, those classified as E glycolytic typically have (A) a higher density of mitochondria. (B) a darker visual appearance. (C) a higher concentration of myoglobin. (D) a smaller diameter. (E) less resistance to fatigue. 35. The calcium ions released into the cytosol during excitation of skeletal D muscle bind to (A) tropomyosin. (B) transverse tubules. (C) actin. (D) troponin. (E) myosin. Part Two: Match each endocrine gland or structure with the specific hormone(s) it produces (2 pts each, 10 pts in total) ┌───┬─────────┬───────────────────────┐ │1 H │Adrenal medulla │(A) Calcitonin (J) Progesterone │ ├───┼─────────┤(B) Ecdysone (K) Thyroxine │ │2 J │Corpus lutem │(C) Glucagon │ ├───┼─────────┤(D) Juvenile hormone (JH) │ │3 F │Pineal gland │(E) Luteinizing hormone (LH) │ ├───┼─────────┤(F) Melatonin │ │4 B │Prothoracic gland │(G) Mineralocorticoid │ ├───┼─────────┤(H) Norepinephrin │ │5 A, K│Thyroid │(I) Oxytocin │ └───┴─────────┴───────────────────────┘ Part Three: Give a definition to the following terms (answer in Chinese or English, use diagram if necessary; 4 pts each, 20 pts in total). 1. Fast block to polyspermy The depolarization of the egg membrane that begins within 1-3 seconds after a sperm binds to an egg membrane protein. The depolarization last about 1 minute and prevents additional sperm from fusing with the egg during that time. The depolarization is triggered by the opening of sodium channel that leads to an + influx of Na . 2. Zone of polarizing activity A block of mesoderm located just under the ectoderm where the posterior side of the limb bud is attached to the body. It is required for proper pattern formation along the anterior-posterior axis of the limb. 3. Graded potential In a neuron, a shift in the membrane potential that has an amplitude proportional to signal strength and that decays as it spread. If the membrane potential has shifted beyond the threshold, an action potential will be initiated in place of graded potential. 4. Saltatory conduction Rapid transmission of a nerve impulse along an axon, resulting from the action potential jumping from one node of Ranvier to another, skipping the myelin- sheathed regions of membrane. 5. Long-term potentiation An enhanced responsiveness to an action potential by a receiving neuron. It is mediated by increasing the expression of specific receptor for a neurotransmitter on the post-synaptic membrane. It is thought to be involved in learning and the formation of memories. Part Four: Q&A (answer in Chinese or English, use diagram if necessary; 5 pts each, 15 pts in total) Activation of phospholipase C (PLC) by G protein-coupled receptor signaling leads to the cleavage of PIP into DAG and IP . DAG and IP each leads to the 2 3 3 activation of a distinct signaling pathway. Please explain how protein kinase C (PKC) integrates these two pathways. Activation of PKC requires both DAG and the downstream event of the IP 3 pathway. IP diffuses across the cytosol and binds to the ligand-gated calcium 3 channel on the ER membrane. Calcium ion in the internal storage (ER) is then released into cytosol. Calcium-bound PKC is then localized to cell membrane and interact with DAG, which is associated with the membrane. The interactions with calcium and DAG lead to a conformation change of PKC which releases the "pseudo-substrate" domain from the kinase substrate binding site of PKC, and thus allow PKC to access its cellular substrates. In mammalian hormone-based sex determination, the default sex is female. Without androgen, a genetically male (XY) individual will develop into an anatomically normal female, with functional ovaries and female reproductive tract. Please outline how androgen affects the sexual differentiation of gonad and reproductive tract? The undifferentiated gonad is bi-potential, i.e. it can develop into either an ovary or a testis, depending on the sexual hormone present in the tissue. Androgen drives the undifferentiated gonad toward the differentiation pathway of testis. However, sexual differentiation of reproductive tract is different. In the early embryo, a set of female tract primordia (Müllerian ducts) and a set of male tract primordia (Wolfian duct) co-exist in the body. Androgen promotes the differentiation of Wolfian ducts into mature male reproductive tract (e.g. the epididymis, the vas deferens, and the seminal vesicle) and the degeneration of Müllerian ducts. Please explain how an octopus can rapidly change its body color pattern when it camouflages itself against the changing environment. An octopus can sense the color pattern in its environment with its eyes. The visual information is then processed in its "brain". The brain then sends out commend through motor neurons to control the sizes of individual pigment cells. In the skin of octopus, there are millions of pigment cells of different colors. Each of these pigment cells can expand or retract depending on muscles attached to the pigment cell, and these muscles are under neural control. The color expressed by the skin is determined by the combinations of expanded pigment cells. The use of neurosensory input and neuromuscular motor control for the regulation of pigment pattern allows an octopus to change its body color pattern rapidly. -- 第01話 似乎在課堂上聽過的樣子 第02話 那真是太令人絕望了 第03話 已經沒什麼好期望了 第04話 被當、21都是存在的 第05話 怎麼可能會all pass 第06話 這考卷絕對有問題啊 第07話 你能面對真正的分數嗎 第08話 我，真是個笨蛋 第09話 這樣成績，教授絕不會讓我過的 第10話 再也不依靠考古題 第11話 最後留下的補考 第12話 我最愛的學分 -- ※ 發信站: 批踢踢實業坊(ptt.cc), 來自: 140.112.196.111 ※ 文章網址: http://www.ptt.cc/bbs/NTU-Exam/M.1403515551.A.7C4.html ※ xavier13540:轉錄至看板 NTUmed02 06/23 17:29