FoM Biology Questions PDF
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This document contains 59 multiple choice questions that cover various topics in biology, including the study of life processes, structures, and functions. The questions range from basic concepts to more advanced topics like the cell theory and theory of evolution.
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FoM - Biology 1. What scientific study does consider the structure of living things? A. anthropology B. physiology C. anatomy D. organology 2. Anatomy is the biological discipline dealing with: A. structure of organs, organ systems and whole living organism B. study of spiders C...
FoM - Biology 1. What scientific study does consider the structure of living things? A. anthropology B. physiology C. anatomy D. organology 2. Anatomy is the biological discipline dealing with: A. structure of organs, organ systems and whole living organism B. study of spiders C. biology of humans D. external structure of plant body 3. What scientific study is concerned with microscopic anatomy of animal and plant tissues? A. anatomy B. cytology C. histology D. physiology 4. Histology is the biological discipline dealing with: A. structure of animal and plant cells B. study of animal tissues C. study of plant tissues D. life processes at cellular level 5. Life processes of organisms are studied by: A. physiography B. physiology C. physiognomy D. ethology 6. Physiological sciences deal with: A. evolutionary changes of organisms B. relationship that living organisms have with their natural environment C. life processes in organisms D. functions of individual organs 7. Paleontology deals with: A. the ontogenesis of organisms B. extinct organisms C. fossils D. dinosaurs FoM - Biology / 1. 8. Anthropology deals with: A. study of humans B. study of spiders C. study of extinct plants D. an individual development of organisms 9. Ethology is the biological discipline dealing with: A. life processes of animals B. development of animals C. behaviour of animals D. animal impact on environment 10. What scientific study does consider animal behaviour? A. ethnology B. ecology C. ethology D. physiography 11. Who is the founder of biology as a scientific discipline? A. Ch. R. Darwin B. Aristotle (Aristoteles) C. K. Linné D. K. Lorenz 12. What do Galenos, Avicena and W. Harwey (as representatives of historical biology) have in common? A. they were botanists B. they contributed to organism classification C. they were physicians D. they dealt with pathogenic microorganisms 13. What do M. J. Schleiden, T. Schwann and J. E. Purkyňe (as representatives of historical biology) have in common? A. they were physicians B. they were founders of microbiology C. they independently observed cells for the first time in history D. they independently formulated the cell theory 14. Who did perform the first public autopsy in Czech Republic? A. J. E. Purkyňe B. J. G. Mendel C. J. Jesenius D. A. Vesalius FoM - Biology / 2. 15. Who did contribute to the discovery of blood types? A. J. Janský B. J. Jesenius C. K. Landsteiner D. M. Rhesus 16. Who from the following representatives did make the real progress in human physiology? A. I. P. Pavlov B. W. Harwey C. J. E. Purkyňe D. J. B. Lamarck 17. Who is the author of the theory of evolution? A. I. P. Pavlov B. Ch. R. Darwin C. A. I. Oparin D. J. G. Mendel 18. Who is the founder of classical genetics? A. L. Pasteur B. Ch. R. Darwin C. J. G. Mendel D. I. P. Pavlov 19. Who from the following representatives did contribute to the forming of the theory of evolution before Darwin? A. J. B. Lamarck B. J. G. Mendel C. K. Linné D. T. Malthus 20. In 1973, K. Lorenz, N. Tinbergen and K. Frisch received the Nobel Prize for: A. ecology B. embryology C. ethology D. physiology 21. In 1962, J. D. Watson, F. H. C. Crick and M. H. F. Wilkins received the Nobel Prize for: A. forming the laws of inheritance B. discovering the molecular structure of nucleic acid C. discovering the nucleic acids function in genetic information transfer D. discovering the various mutation types 22. Comparing to the observation, we can say about the experiment: A. we use instruments (apparatus) FoM - Biology / 3. B. the events of nature are in our control C. it takes place under laboratory conditions D. it is the scientific method 23. If we want to avoid the random error, we must: A. write down the results B. set a target C. repeat the experiment several times D. use the model organisms 24. The statement that all living organisms are open systems means that they exchange: A. substances, energy and information B. just substances and energy C. just information D. just the energy 25. The term “metabolism” means: A. the uptake of substances from environment into a cell B. all catabolic and anabolic processes within a cell C. the transformation (conversion) of substances and energy within an organism D. synthesis and catabolism of substances 26. What happens within the cell during anabolic processes? A. consumption of the energy B. releasing of the energy C. formation of complex substances from simple ones D. cleavage of complex substances to simple ones 27. What happens within the cell during catabolic processes? A. consumption of the energy B. releasing of the energy C. formation of complex substances from simple ones D. cleavage of complex substances to simple ones 28. What are we talking about if complex substances are cleaved into simple ones? A. anabolic processes B. catabolic processes C. assimilation processes D. dissimilation processes 29. What are we talking about if complex substances are synthesized from simple ones? A. assimilation processes B. dissimilation processes C. anabolic processes D. catabolic processes FoM - Biology / 4. 30. What happens with energy within the cell during anabolic processes? A. it is consumed B. it is released C. it is lost D. it is produced 31. What happens with energy within the cell during catabolic processes? A. it is lost B. it is transformed C. it is consumed D. it is released 32. What happens with energy during exergonic reactions? A. it is released B. it is consumed C. it is lost D. it is transformed 33. What happens with energy during endergonic reactions? A. it is lost B. it is produced C. it is released D. it is consumed 34. Respiration is: A. a catabolic process B. an exergonic reaction C. an anabolic process D. an endergonic reaction 35. Photosynthesis is: A. a catabolic process B. an exergonic reaction C. an anabolic process D. an endergonic reaction 36. Which of the following reactions is anabolic one? A. the synthesis of ATP B. the protein synthesis C. the respiration D. the fermentation 37. Which of the following reactions is catabolic one? A. the respiration B. the fermentation of lactic acid FoM - Biology / 5. C. the replication of DNA D. the oxidation of saccharides (carbohydrates) 38. If the energy is consumed during the biochemical reaction within the cell, we can speak about: A. anabolic reaction B. catabolic reaction C. assimilation process D. dissimilation process 39. If the energy is released during the biochemical reaction within the cell, we can speak about: A. assimilation B. dissimilation C. anabolism D. catabolism 40. Under what conditions the biological oxidation can take place? A. only in the presence of oxygen B. under anaerobic and aerobic conditions C. also in the absence of oxygen D. only under aerobic conditions 41. Where does the anaerobic glycolysis take place? A. in the cytoplasm of all active cells B. in mitochondria C. only in the cytoplasm of prokaryotic cells D. in the endoplasmic reticulum 42. The biological oxidation means: A. the definite sequence of reactions that provide the cleaving off the carbon from the biological substrate B. the stepwise cleavage of organic substances resulting in the release of the energy C. all anabolic processes (within the cell) in the presence of oxygen D. processes of cytoplasm oxygenation 43. Aerobic respiration is: A. the oxygen exchange between blood and lung alveoli B. a complete oxidation of organic substances in the presence of oxygen C. the blood oxygenation D. the cleavage of glucose in the absence of oxygen 44. Respiratory quotient RQ means: A. the oxygen uptake that is used for the glucose oxidation B. the intensity of breathing (respiration) C. the ratio of produced CO2 and consumed O2 D. the dependence of the released energy on consumed O2 during the breathing process FoM - Biology / 6. 45. What form of energy is used by cells for their life processes? A. luminous energy B. energy of chemical bonds C. thermal energy D. they can use all of energy types 46. What chemical compound is known as the universal energy (transfer) molecule within the cell? A. ATP molecule B. adenosintriphosphatic acid (adenosine triphosphate) C. active chlorophyll a D. adenine molecule 47. What is the ATP molecule within the cell used for? A. it is universal energy (transfer) molecule B. it is a stimulant of chemical reactions C. it is the source of nitrogenous bases D. it is the energy storage 48. Is the molecule of ATP able to transfer the energy from one cell to another? A. yes, it is universal energy transfer molecule B. yes, it is small molecule that can pass through the cytoplasmic membrane C. no, it passes easily only through mitochondrial membrane to the cytoplasm D. no, energetic metabolism takes place in each cell separately 49. Which of the following organisms do not have their own metabolism? A. algae B. bacteria C. viruses D. endoparasites 50. Homeostasis is: A. equilibrium state between organisms and their environment B. the ability of organisms to take in the essential substances from their environment C. constancy (stability) of the inner environment of organisms D. the ability to develop 51. Constancy (stability) of the inner environment of organism is called: A. homonomy B. homeostasis C. homology D. isonomy 52. Which of the following options does make the self-regulation (as an ability of an organism) possible? A. reactions to stimuli FoM - Biology / 7. B. reflexes C. the feed-back system D. the immune response 53. Which of the following organisms are non-cellular? A. viruses, bacteria and cyanobacteria B. just viruses C. just bacteria and cyanobacteria D. non-cellular organisms do not exist 54. What is the cell colony? A. the cell organization of Volvox globator B. protozoan cells that stay together after division C. bacteriophages in their host (bacteria) D. plasmodia in the blood of their host 55. Organisms are divided into autotrophs and heterotrophs according to the way of: A. carbon intake B. oxygen intake C. nitrogen intake D. potassium intake 56. Heterotrophic organisms: A. feed on organic substances B. produce organic substances from inorganic ones C. take in the carbon as a carbon dioxide D. take in the carbon as an organic substance 57. Autotrophic organisms: A. feed on organic substances B. they take in the carbon as an organic substance C. they produce the organic substances from inorganic ones D. they take in the carbon as a carbon dioxide 58. With increasing temperature the oxygen content of water is: A. decreasing B. increasing C. remains constant D. it does not depend on temperature 59. For biotic factors of environment are regarded: A. factors which influence living organisms B. components of the internal environment of organisms C. food and water D. influence of other organisms FoM - Biology / 8. 60. Individuals of the same species living together at the same time, in the same location, with the possibility of transfer of genetic information are called: A. species B. community C. ecosystem D. population 61. Population is characterised as: A. individuals of the same species, living in a specifically defined area at the same time B. individuals of several types of species in a specifically defined area C. all the plants and animals on Earth, living at the same time D. all the individuals of one species on Earth 62. Viruses can be observed: A. by light microscopy at 1000x enlargement B. only by electron microscopy C. by light microscopy using specific dye D. it is not possible to observe them by microscopy 63. The following statement is valid for prokaryotic organisms: A. it´s body is composed of one cell B. it is a virus C. the nucleus in the cell is without nuclear membrane D. they are always haploid organisms 64. Viruses belong to: A. prokaryotic organisms B. eukaryotic organisms C. nucleoprotein particles D. non-cellular organisms 65. Viruses consist of: A. DNA and RNA, surrounded by a protein shell B. DNA or RNA and protein C. DNA, RNA and lipid shell D. nucleic acid and virion from lipid particles 66. For proliferation of viruses is valid the following statement: A. depends on the host cell B. begins with producing spores C. it is conducted by binary fission of the virion D. it usually leads to the death of host cell 67. Characteristic for viruses from the life processes point of view is that: A. they have simple metabolism FoM - Biology / 9. B. their life processes depend on the host cell C. their metabolism begins in the S- phase of the cell cycle D. they do not have their own metabolism, they are not able of self reproduction 68. Proliferation of bacteriophages is carried out: A. in infected animal cells B. in the interstitial space in host organism´s tissues C. in bacterial cells, where the DNA of bacteriophage penetrates D. on the surface of host bacteria, where the DNA replicates 69. Is the following statement correct? Viruses can proliferate outside the host cell. A. no, they do not have their own genome, that is why they have to use the host cell´s DNA for their reproduction B. no, they do not have their own metabolism, that is why they are not able to perform any vital functions on their own C. yes, viruses produce spores and can proliferate also outside the host cell D. yes, they form infectious virions in proper conditions, which then attack the cells 70. Which of the following diseases are caused by viruses? A. flu B. tnsillitis C. tuberculosis D. hepatitis 71. Oncoviruses cause: A. spots on the leaf surface B. foot- and- mouth disease of livestock C. formation of malignant tumors D. uncontrolled cell division 72. Childhood illnesses caused by viruses are: A. flu B. measles C. chickenpox D. jaundice 73. Which element is the important part of the chlorophyll? A. Fe B. Mg C. Ca D. K 74. Which element is the important part of the haemoglobin? A. Na B. Ca FoM - Biology / 10. C. Fe D. K 75. What process is affected by inorganic salts within the cell? A. the homeostasis B. the enzymatic regulation C. the water regulation D. the metabolism 76. Which of the following polysaccharides does have the structural function (within the cell)? A. saccharose B. cellulose C. glycogen D. chitine 77. Which of the following polysaccharides is the source of energy for a cell? A. glycogen B. glucose C. starch D. chitin 78. What organic molecules are the most common in cells? A. saccharides B. lipids C. proteins D. mineral substances 79. What organic molecules do store the greatest amount of energy? A. saccharides B. lipids C. proteins D. nucleic acids 80. What is the function of proteins within the cell? A. they provide support and structure for cells B. they store an energy C. they regulate the chemical reactions (processes) within the cell D. dissolved in water, they form the basic environment within the cell 81. Fibrous proteins have: A. mechanical function B. metabolic function C. immune function D. regulative function FoM - Biology / 11. 82. Globular proteins have: A. metabolic function B. regulative function C. immune function D. mechanical function 83. How many amino acids do proteins of living organisms contain? A. 12 B. 20 C. 22 D. 200 84. What organic substances do have the structural function? A. saccharides B. lipids C. proteins D. nucleic acids 85. Which organic substances can serve as the energy storage? A. saccharides B. lipids C. proteins D. nucleic acids 86. How do animals store the glucose (as an energy source)? A. as a starch B. as a cellulose C. as a glycogen D. as a lipid 87. What form are saccharides in the plant organism stored in, as an energy source? A. lipid B. starch C. glycogen D. cellulose 88. Lipids are involved in the regulation mechanisms within a cell as a part of: A. hormones B. vitamins C. chromosomes D. enzymes 89. Chromatin consists of: A. proteins and nucleic acid B. nucleic acid and saccharide FoM - Biology / 12. C. protein and nuclein (dye) D. just nucleic acid 90. Nucleic acids can provide: A. coding of the genetic information B. transfer of the genetic information from parents to offspring C. metabolism regulation D. translation of the genetic information to the amino acids sequence 91. How many ATP molecules are produced during the anaerobic cleavage of 1 glucose molecule? A. 2 B. 4 C. 16 D. 21 92. Which of the following organisms are eukaryotic? A. all multi-cellular and some of unicellular organisms B. just multi-cellular organisms C. all organisms with biological membranes D. bacteria and cyanobacteria 93. We can say about fungi cells: A. glycogen is their reserve substance B. their cell wall contains cellulose C. their cell wall contains chitin D. they are typical prokaryotic cells 94. We can say about plant cells: A. starch is their reserve substance B. their cell wall contains cellulose C. when they get older, they contain many vacuoles D. young cells contain many vacuoles 95. What is considered to be membrane structure of the cell? A. nucleus, plastids, mitochondria, endoplasmic reticulum B. plastids, vacuoles, ribosomes, endoplasmic reticulum C. chloroplasts, Golgi apparatus, mitochondria, lysosomes D. vacuoles, mitotic apparatus, ribosomes, lysosomes 96. Which of the following cells does have the cell wall? A. plant cell B. animal cell C. fungi cell D. bacteria cell FoM - Biology / 13. 97. We can say about cell surfaces (according to the water and substances dissolved in the water): A. cell wall is permeable, cytoplasmic membrane is semipermeable B. cell wall is impermeable, cytoplasmic membrane is semipermeable C. cell wall is semipermeable, cytoplasmic membrane is impermeable D. the permeability of cell wall and cytoplasmic membrane is identical, it depends on the environment 98. Which synthesis does occur in the cell nucleus? A. of nucleic acids B. of lipids C. of proteins D. of saccharides 99. Where is DNA located within the cell? A. in chromosomes B. in nucleolus C. in plastids D. in ribosomes 100. Where is the mRNA synthesis located within the cell? A. in cytoplasm B. on ribosomes C. in nucleus D. in nucleolus 101. Phospholipids serve as structural parts of: A. biomembranes B. fibrous cellular structures C. chromosomes D. mitotic apparatus 102. Which of the following structures do have double cell membrane? A. nucleus, mitochondria, plastids B. nucleus, vacuoles, plastids C. just mitochondria and plastids D. just nucleus 103. What cell organelles are considered to be the energetic centre of the cell? A. chloroplasts, where the light energy is converted into the chemical energy B. mitochondria, because of the ATP formation C. endoplasmic reticulum, because it provides the synthesis of proteins and lipids D. nucleus, because it contains DNA and it is the main cell’s control centre 104. We can say about mitochondria: A. they are the energetic centre of the cell FoM - Biology / 14. B. they convert the energy to ATP during the respiration process C. there is only one mitochondrion in each cell D. there are hundreds or thousands of mitochondria in each cell 105. How many mitochondria are there in a cell? A. 1 B. 2 C. there may be hundreds of them within a single cell D. less than 100 106. Calvin-Benson cycle (carbon fixation) takes place in the: A. nucleus B. cytoplasm C. mitochondrial matrix D. stroma of chloroplasts 107. Where are leucoplasts located most often? A. in reserve organs of protozoans B. in reserve organs of plants C. in all of plant cells D. in leaf cells after chlorophyll loss 108. We can say about plastids: A. they are located only in plant cells B. they are located only in plant and animal cells C. most of them contain photosynthetic dyes D. they have their own DNA 109. We can say about endoplasmic reticulum: A. it is a membrane structure made of interconnected vesicles B. rough endoplasmic reticulum provides the synthesis of proteins C. smooth endoplasmic reticulum provides the synthesis of saccharides D. it provides the transport of substances 110. What is the rough endoplasmic reticulum covered with? A. nucleic acids B. lysosomes C. ribosomes D. enzymes 111. Where are proteins synthesized within the cell? A. nucleus, endoplasmic reticulum and ribosomes B. rough endoplasmic reticulum and Golgi apparatus C. free cytoplasm ribosomes and thylakoids D. endoplasmic reticulum, ribosomes and Golgi apparatus FoM - Biology / 15. 112. What functions do vacuoles have in plant cells? A. they attend catabolic processes B. they are filled with reserve substances C. plant dyes are produced in here D. they determine the inner pressure of the cell 113. Is it truth, that vacuoles are present only in plant cells? A. yes, they are typical plant structures B. yes, similar animal structure are lysosomes C. no, some animal cells contain specialized vacuoles D. no, vacuoles are important structures of cells of protozoans 114. What do we consider to be nonliving component of the cell? A. starch grains B. lipid droplets C. inclusions D. cytoskeleton 115. Microfilaments are: A. thin filaments in cell cytoplasm, that provide the contraction B. tube like structures in the cytoplasm C. filaments of spindle apparatus D. fibrous structures 116. Microtubules are: A. fibrous structures B. thin filaments in cell cytoplasm, that provide the contraction C. tube like structures in the cytoplasm D. vesicles that formed the endoplasmic reticulum 117. Fibrous structures that are not able to contract are called: A. intercellular filaments B. intermediate filaments C. intermediate tubules D. intercellular tubules 118. The dynamic cell skeleton consists of: A. cytoskeleton B. cytoplasm C. system of crystalline inclusions D. network of microfilaments and microtubules 119. Which processes of substances passing through the cytoplasmic membrane do need the energy? A. osmosis B. active transport FoM - Biology / 16. C. phagocytosis D. pinocytosis 120. Active transport across the cytoplasmic membrane is provided by: A. transport proteins B. phagocytosis C. pinocytosis D. diffusion 121. Diffusion is: A. the movement of molecules from an area of lower concentration towards an area of higher concentration B. substance dispersion in the solvent C. solvent dispersion in the substance D. the equalizing of the solvent and solution concentration along the concentration gradient 122. What is the example of diffusion within living organisms? A. oxygen passing from alveoli to the blood B. water absorption in the intestine C. water and minerals reabsorption in the nephron tubules D. carbon oxide passing from cells to the blood 123. The process of the absorption of lipids in the small intestine is provided by: A. osmosis B. pinocytosis C. phagocytosis D. protein canals 124. The transport of glucose and amino acids into the cell is provided by: A. pinocytosis B. phagocytosis C. transport protein D. ATP 125. The transport of important ions into the cell is provided by: A. diffusion B. osmosis C. endocytosis D. transport protein 126. During which process(es) is the cytoplasmic membrane rebuilt? A. exocytosis B. endocytosis C. pinocytosis D. phagocytosis FoM - Biology / 17. 127. The osmosis is: A. the process of water passing through the semipermeable membrane towards an area of higher concentration of dissolved substance B. the movement of substance towards the solvent C. capillary inner pressure D. cellular inner pressure 128. Cell plasmolysis occurs in: A. hypotonic environment B. hypertonic environment C. environment with higher concentration of osmotically active substances D. environment with lower concentration of osmotically active substances 129. What can we observe, when we put salt on the cucumber: A. diffusion B. plasmolysis C. osmotic lysis D. plasmoptysis 130. When fruit skin ruptures after long lasting rains, what is it the consequence of? A. plasmolysis B. deplasmolysis C. plasmoptysis D. osmolysis 131. What medium does the osmotic lysis of red blood cells occur in? A. in salt solution B. in glucose solution C. in alcohol D. in distilled water 132. Concentration of the hypertonic environment is: A. unstable according to the environment B. higher than the concentration of substances dissolved in the cytoplasm C. identical to the concentration of substances dissolved in the cytoplasm D. lower than the concentration of substances dissolved in the cytoplasm 133. Concentration of the hypotonic environment is: A. identical to the concentration of substances dissolved in the cytoplasm B. unstable according to the environment C. higher than the concentration of substances dissolved in the cytoplasm D. lower than the concentration of substances dissolved in the cytoplasm 134. Concentration of the isotonic environment is: A. higher than the concentration of substances dissolved in the cytoplasm FoM - Biology / 18. B. lower than the concentration of substances dissolved in the cytoplasm C. identical to the concentration of substances dissolved in the cytoplasm D. unstable according to the environment 135. In the hypotonic environment, the animal cell: A. takes in the water and ruptures (bursts) B. releases the water C. undergoes plasmolysis D. undergoes plasmoptysis 136. In what type of environment does the red blood cell shrink? A. hypotonic B. hypertonic C. isotonic D. in salt solution 137. Is it true that by the bacterial throat inflammation, the gargling with concentrated NaCl solution helps? A. yes, in the hypertonic environment bacteria release water and die B. yes, in the hypotonic environment bacteria take in the water and burst C. no, NaCl solution can damage the mucosa D. no, NaCl solution is harmless to bacteria 138. Pinocytosis: A. is the active form of substances transport across the cytoplasmic membrane B. is the passive form of substances transport across the cytoplasmic membrane C. provides the substances transport without the energy consumption D. provides the removal of useless substances from the cell 139. Which of the following processes must not be considered to be a passive transport across the cytoplasmic membrane? A. endocytosis B. pinocytosis C. osmosis D. phagocytosis 140. Which of the following processes must not be considered to be an active transport across the cytoplasmic membrane? A. diffusion B. pinocytosis C. phagocytosis D. osmosis 141. How many phases does the cell cycle have? A. 2 FoM - Biology / 19. B. 4 C. 6 D. 8 142. Which cell structure is responsible for the exact distribution of chromosomes into daughter cells? A. nucleus B. cytoskeleton C. mitochondria D. mitotic apparatus 143. The phase of the cell cycle, where microtubules of spindle apparatus shorten, and pull the chromosomes to the centrioles, is called: A. telophase B. interphase C. metaphase D. anaphase 144. Chromosomes are: A. morphological structures, that can be observed only during the cell division B. structures, that can be observed in the nucleus permanently C. structures, that can be observed only in S-phase of the cell cycle D. structures, that are formed in the nucleus at the beginning of the cell division 145. What type of cells does the mitosis give rise to? A. somatic cells B. cells of whole organism C. cells of all organisms, bacteria included D. only to gametes 146. What happens during prophase of mitosis? A. the chromosomes spiralization B. the synthesis of DNA C. the formation of mitotic apparatus D. the formation of nucleolus 147. What happens during metaphase of mitosis? A. chromosomes convene along the equatorial plane B. daughter chromatides diverge C. chromatids become separate D. centrioles diverge 148. What happens during anaphase of mitosis? A. chromosomes diverge to opposite ends of the cell B. chromatids diverge to opposite ends of the cell C. the nucleus division ends FoM - Biology / 20. D. mitotic apparatus is eliminated 149. What happens during telophase of mitosis? A. the karyokinesis ends B. the cytokinesis is in progress C. the despiralization of chromosomes D. forming of new DNA 150. Which phase of cell cycle does the duplication of chromatides (single-chromatid chromosome becomes double-chromatid chromosome) occur in? A. metaphase B. prophase C. S-phase D. G2-phase 151. The reduction of the chromosome number is characteristic for: A. heterotypic cell division B. homotypic cell division C. I. meiotic division D. II. meiotic division 152. We can say about heterotypic cell division: A. it is the first meiotic division B. it is the second meiotic division C. the chromosome number is reduced into a half D. the chromosome number does not change, this type of division is similar to mitosis 153. We can say about homotypic cell division: A. it is the first meiotic division B. it is the second meiotic division C. the chromosome number does not change, this type of division is similar to mitosis D. the chromosome number is reduced into a half 154. Karyokinesis: A. is the division of nucleus B. is the movement of the nucleus in the cytoplasm C. is the movement of centriols after the division D. is the movement of chromosomes in the anaphase 155. Cytokinesis is the process, by which: A. the cell division process after interphase begins B. the separating of bivalents begins C. the cell division process in the telophase ends D. the nucleus division process of the mitosis ends FoM - Biology / 21. 156. Which phase of the mitosis do we observe if we can see double-chromatid chromosomes convened along the equatorial plane under the microscope? A. telophase B. metaphase C. cytokinesis D. anaphase 157. Which phase of the mitosis do we observe if we can see enlarged nuclei with visible chromosomes under the microscope? A. interphase B. metaphase C. anaphase D. prophase 158. Centromere is: A. a part of the spindle apparatus B. a location of chromosomes crossing C. a place on the chromosome to which the filaments of the spindle apparatus connect D. a place on the chromosome where a gene is located 159. Meiosis is the process of: A. bacteria division B. reproduction of protozoans C. the reduction of the chromosome number to the half D. the reproduction of viruses 160. We can say about human karyotype: A. it is the chromosome map of one cell B. it is the set of chromosomes of somatic cell C. it consists of 23 chromosome pairs D. it is the set of chromosomes of gamete 161. Crossing-over is the process: A. of the reductional division of gamete B. where the recombination of genes between homologous chromosomes takes place C. of the formation of a new chromosome with recombined set of genes D. which occurs during the prophase of I. reductional division 162. What is the difference between the anaphase of the meiosis I and anaphase of the mitosis? A. during the meiosis, single-chromatid chromosomes diverge B. during the meiosis I, chromosomes stay in double-chromatid form C. in the anaphase of the meiosis, chromosomes do not become separate D. chromosomes of meiosis I despiralizate earlier FoM - Biology / 22. 163. The chromosome map represents: A. relative mutual gene organization on chromosome B. order, mutual position and the specific location of genes on chromosome C. the set of all cell chromosomes D. the number and a shape of nucleotides in chromosome 164. How many chromosomes does the human cell have? A. 46 B. 23 pairs C. 23 pairs of autosomes + 2 sex chromosomes D. 22 pairs of autosomes + 1 pair of heterochromosomes 165. How many chromosomes does the human cell have? A. 23 B. 23 pairs C. 48 D. 48 pairs 166. What is the genetic significance of meiosis? A. the reduction of the chromosome number to a half during the gamete production B. the random combination of parents chromosomes in gametes resulting in a higher genetic variability C. the possibility of the recombination (exchange of pieces) between homologous chromosomes resulting to higher genetic variability D. the exact distribution of genes to offspring cells leading to the conservation of genetic information 167. In the process of meiosis, the crossing-over may occur: A. only between homologous chromosomes B. also between nonhomologous chromosomes C. only in the interphase of cell cycle D. only in the prophase of the first meiotic division 168. We can say about homologous chromosomes: A. they have identical content, structure and shape B. they are paired chromosomes, one from mother, one from father C. it is the set of chromosomes from one parent D. they are sex chromosomes 169. Which intracellular structures do contain their own DNA? A. Golgi apparatus and mitochondria B. endoplasmic reticulum and vacuoles C. mitochondria and plastids D. plasmids and Golgi apparatus FoM - Biology / 23. 170. Extranuclear heredity of animal cells is caused by the presence of: A. RNA in the cell cytoplasm B. DNA in the nucleolus C. DNA in chloroplasts D. DNA in mitochondria 171. Extranuclear heredity of plant cells is caused by the presence of: A. RNA in the cell cytoplasm and DNA in chloroplasts B. DNA in the nucleolus and in the cytoplasm C. DNA in chloroplasts and in mitochondria D. DNA in plastids 172. What types of RNA can we recognize in the organism? A. genome, messenger, transfer B. gene, transformational, messenger C. messenger, transfer, ribosomal D. translatory, single-stranded, double-stranded 173. Select correct pairs of complementary nitrogenous bases: A. A-T, C-G B. A-C, T-G C. A-U, G-C D. A-G, U-C 174. During the synthesis of DNA the adenine of one strand is attached to: A. cytosine of another B. guanine of another C. thymine of another D. uracil of another 175. During the synthesis of DNA the guanine of one strand is attached to: A. thymine of another B. uracil of another C. cytosine of another D. adenine of another 176. During the synthesis of DNA the cytosine of one strand is attached to: A. uracil of another B. adenine of another C. guanine of another D. thymine of another 177. During the synthesis of DNA the thymine of one strand is attached to: A. cytosine of another B. guanine of another FoM - Biology / 24. C. adenine of another D. uracil of another 178. Which nucleotide is present in the RNA instead of thymine? A. guanine B. uracil C. cytosine D. adenine 179. How many nucleotides are there in the codon? A. 2 B. 3 C. 4 D. 5 180. How many STOP codons are there in the genetic code? A. 1 B. 2 C. 3 D. 4 181. How many start codons are there in the genetic code? A. 1 B. 2 C. 3 D. 4 182. In a process of the expression of genetic code, there is the only one start codon: A. AUG B. AGU C. UAG D. GUA 183. One strand of DNA has the following sequence of nucleotides A-C-G-G-T-A. What is the sequence of the other DNA strand? A. G-T-C-C-A-G B. T-G-C-C-A-T C. U-G-C-C-A-U D. T-G-C-C-U-T 184. What is the sequence of the other strand after the replication of DNA with the sequence C-G-T- G-C-A? A. A-T-C-T-A-G B. G-C-A-C-G-U C. G-C-A-C-G-T FoM - Biology / 25. D. G-C-U-C-G-T 185. What is the sequence of nucleotides of the RNA strand that was formed according to the A-G-C- G-G-T matrix? A. T-C-G-C-C-A B. U-C-G-C-C-A C. U-C-G-C-C-U D. T-C-G-C-C-U 186. What is the difference between nucleotides of DNA and RNA? A. DNA contains a pentose (deoxyribose) and RNA contains a hexose (ribose) B. DNA contains a pentose (deoxyribose) and RNA contains pentose (ribose) C. DNA contains thymine and RNA contains uracil D. adenine is complementary to uracil in DNA, but in RNA it is complementary to thymine 187. According to what principle is the new strand of DNA or RNA formed? A. complementarity B. combinatorics C. independency D. statistics 188. Which nitrogenous bases are present in DNA and RNA as well? A. thymine, guanine, adenine B. guanine, adenine, cytosine C. adenine, cytosine, uracil D. uracil, guanine, cytosine 189. What nitrogenous bases do DNA and RNA differ in? A. adenine and guanine B. thymine and cytosine C. cytosine and uracil D. thymine and uracil 190. What is formed during the translation? A. mRNA according to the DNA matrices B. tRNA according to the mRNA matrices C. protein according to the mRNA matrices D. protein according to the t RNA matrices 191. What is synthesized during the translation? A. protein according to the tRNA matrices B. tRNA according to the mRNA matrices C. mRNA according to the DNA matrices D. protein according to the mRNA matrices FoM - Biology / 26. 192. The central dogma of molecular biology says that transfer of genetic information at the cellular level runs in one direction and: A. consists of three processes – replication – transcription – translation B. consists of three processes – replication – translation – transcription C. consists of two processes – from DNA to RNA and from RNA to protein D. consists of two processes – transcription – translation 193. What will be the sequence of nucleotides in anticodon, when the sequence of nucleotides in codon is A-U-G? A. C-A-U B. U-A-C C. U-T-C D. G-A-C 194. What happens during the replication? A. duplication of the genetic information B. synthesis of DNA molecule C. formation of two identical DNA molecules D. formation of mRNA 195. The process during which the duplication of genetic information occurs is known as? A. replication B. transcription C. duplication D. translation 196. The process during which the transfer of genetic information from DNA to mRNA occurs is known as? A. replication B. transcription C. duplication D. translation 197. The process during which the transfer of genetic information from nucleic acid to protein occurs is known as: A. replication B. transcription C. duplication D. translation 198. When does the replication of DNA occur in a cell? A. continuously B. only in the S-phase of the cell cycle C. only in the M-phase D. only during the meiosis FoM - Biology / 27. 199. What happens during the transcription? A. synthesis of DNA molecule B. synthesis of RNA molecule according to the DNA matrix C. copying of genetic information from DNA to mRNA D. translation of genetic information from mRNA to sequence of amino acids 200. Transcription refers to: A. RNA synthesis according to a DNA matrix B. protein synthesis according to an m-RNA matrix C. process of transcription of genetic information from DNA to RNA D. process of transcription of genetic information from codon to anticodon 201. Translation means: A. translation of genetic information from the sequence of nucleotides to the sequence of amino acids B. protein synthesis C. synthesis of m-RNA D. transcription of genetic information from DNA to RNA 202. Translation means: A. transcription of genetic information from DNA to m-RNA B. process of protein synthesis as the end of gene expression C. translation of genetic information from m-RNA into polypeptide chain D. translation of genetic information from the sequence of nucleotides into the sequence of amino acids 203. Why is the genetic code described as degenerative? A. different codons can specify the same amino acid B. the genetic code is mutated C. one codon specifies always just one amino acid D. each triplet consists of three nucleotides 204. Prokaryotic organisms genetic material consists of: A. one circular RNA molecule B. several single stranded DNA molecules C. single stranded DNA molecule D. double stranded circular DNA molecule, stabilized by proteins 205. Plasmids are: A. single stranded forms of RNA in bacteria B. linear forms of DNA in bacteria C. circular forms of RNA in eukaryotic cells D. circular DNA molecules in bacteria FoM - Biology / 28. 206. The basic laws of heredity were discovered by Mendel when cross-pollinating: A. peas B. roses C. corn D. beans 207. Mendel´s laws of heredity are valid only if: A. a single gene is encoding a single trait B. the parents are homozygotes, one of them is dominant, the other is recessive C. it is an autosomal heredity D. when observing several traits concurrently each gene is located on a different chromosome 208. Allele is: A. mutation of a gene B. particular form of a gene C. deletion of a gene D. insertion in the gene 209. What kinds of correlations of alleles can happen in a zygote? A. dominancy B. recessivity C. codominancy D. heterocodominancy 210. Heterozygote is individual: A. with male or female sex distinguished B. with two different alleles for certain trait C. with two or more genes for certain trait D. with different chromosomes in pairs 211. What is the heredity with complete dominance? A. when both alleles in gene are dominant B. when in the phenotype of heterozygote, only the dominant allele is expressed C. when no recessive trait emerges D. when two dominant alleles are in the genotype of heterozygote 212. If in the phenotype of a heterozygote, only the dominant allele is expressed, we can speak about: A. intermediate inheritance B. heredity with complete dominance C. heredity with incomplete dominance D. nonhomologous heredity 213. What is the heredity with incomplete dominance? A. when no recessive trait emerges in population B. when dominant and recessive alleles are present in the genotype of heterozygote FoM - Biology / 29. C. when in the phenotype of heterozygote the dominant allele as well as recessive one is expressed D. when in the phenotype of heterozygote both alleles are expressed 214. If in the phenotype of a heterozygote both alleles for certain trait are expressed, we can speak about: A. double heredity B. mixed heredity C. heredity with incomplete dominance D. intermediate inheritance 215. How can we write down the cross of homozygous dominant individual with heterozygous individual? A. aa x Aa B. AA x AB C. AA x Aa D. AA x ab 216. How can we write down the cross of homozygous recessive individual with heterozygous individual? A. aa x ab B. aa x Aa C. AA x Aa D. AA x AB 217. Select the scheme(s) of the cross of homozygous dominant individual with heterozygous individual: A. AA x Aa B. AA x AB C. Aa x ab D. AABB x AaBb 218. Select the scheme(s) of the cross of heterozygous individual and homozygous recessive individual: A. AB x aa B. Aa x ab C. Aa x aa D. AaBb x aabb 219. Select the scheme of the cross of two heterozygous individuals: A. AA x BB B. Aa x Aa C. Aa x Bb D. AaBb x AaBb FoM - Biology / 30. 220. Genotypic and phenotypic cross ratios differ when: A. we speak about heredity with complete dominance B. we speak about heredity with incomplete dominance C. we speak about intermediate inheritance D. they always differ 221. Genotypic and phenotypic cross ratios are identical when: A. we speak about heredity with complete dominance B. we speak about heredity with incomplete dominance C. we speak about dihybridism D. they always differ 222. Backcross (test cross) is the cross of: A. two homozygous individuals B. two heterozygous individuals C. homozygous dominant individual and heterozygous individual D. homozygous recessive individual and heterozygous individual 223. Red colour of flowers is completely dominant to white colour. What colour of flowers will the generation of hybrids have if white-flowered plants are crossed with red-flowered heterozygous plants? A. only red B. only white C. pink D. white or red 224. Red colour of flowers is completely dominant to white colour. What colour of flowers will the generation of hybrids have if white-flowered plants are crossed with red-flowered homozygous plants? A. only red B. only white C. only pink D. white or red 225. Red colour of flowers is completely dominant to white colour. What colour of flowers will the generation derived from red-flowered heterozygous plants have? A. red and white in the ratio 3:1 B. red and white in the ratio 1:1 C. red, pink and white in the ratio 1:2:1 D. only red 226. Red colour of flowers is incompletely dominant to white colour. What colour of flowers will the generation of hybrids have if white-flowered plants are crossed with heterozygous plants? A. 100% pink B. red and white in the ratio 1:1 FoM - Biology / 31. C. red, pink and white in the ratio 1:2:1 D. white and pink in the ratio 1:1 227. Red colour of flowers is incompletely dominant to white colour. What colour of flowers will the generation of hybrids have if white-flowered plants are crossed with red-flowered plants? A. only red B. only white C. only pink D. white or red 228. Red colour of flowers is incompletely dominant to white colour. What colour of flowers will the generation derived from heterozygous plants have? A. red and white in the ratio 3:1 B. red and white in the ratio 1:1 C. red, pink and white in the ratio 1:2:1 D. only red 229. Who did discover the role the chromosomes play in heredity? A. J. G. Mendel B. J. Watson C. T. H. Morgan D. G. H. Hardy 230. When we speak about dihybridism, how can we write down the scheme of the cross of homozygous dominant (for both traits) with homozygous recessive (for both traits) parent? A. AB x ab B. AABB x aabb C. AA x bb D. AA x BB 231. When we speak about dihybridism, how can we write down the scheme of a cross of two heterozygous parents (for both traits)|? A. AB x ab B. Ab x Ab C. AABB x AAbb D. AaBb x AaBb 232. When we speak about dihybridism, what alleles are formed by the individual, who is heterozygous for both traits? A. AB, Ab, aB, ab B. AB, ab C. AA, aa, BB, bb D. A, a, B, b 233. What is the number of recessive homozygotes in a panmictic population? A. p x p FoM - Biology / 32. B. p2 C. 2pq D. q2 234. What is the number of heterozygotes in a panmictic population? A. pq2 B. p + q C. (p x q) + (p x q) D. 2pq 235. What is the equation for the frequency of all genotypes in panmictic population? A. p2 + 2pq + q2 = 1 B. p + q = 1 C. p2 + q2 = 1 D. p2 x q2 = 1 236. If the gene has only two alternative forms, what is the equation of the frequency of alleles in the panmictic population? A. p2 + 2pq + q2 = 1 B. p + q = 1 C. p2 + q2 = 1 D. p2 x q2 = 1 237. Frequency of the dominant allele “A” is 50% and frequency of the recessive allele “a” is 50% in the population. What is the percentage of recessive homozygotes “aa” in this population? A. 25% B. 50% C. 0.5 D. 0.25 238. Frequency of the dominant allele “A” is 50% and frequency of the recessive allele “a” is 50% in the population. What is the percentage of dominant homozygotes “AA” in this population? A. 25% B. 0.25 C. 50% D. 0.5 239. Frequency of the dominant allele “A” is 50% and frequency of the recessive allele “a” is 50% in the population. What is the percentage of heterozygotes “Aa” in this population? A. 25% B. 0.25 C. 50% D. 0.5 FoM - Biology / 33. 240. 25% of population members carry the recessive trait. What is the frequency of members carrying the dominant trait in this population? A. 75% B. 50% C. 0.75 D. 0.25 241. Polygenic system consists of: A. neutral and recessive alleles B. quantitative alleles C. genes of small and large effect D. genes of small effect 242. Phenotype of quantitative traits is the result of: A. the combination of genotype and the environment effect B. the combination of genes of small effect and large effect C. the variability of polygenic system D. the sum of neutral and active alleles and the environment effect 243. Heritability is: A. the proportion of observable differences in a trait (quantitative) between individuals within a population that is due to genetic differences B. the relationship between neutral and active alleles C. the proportion of quantitative traits in the phenotype D. relationship between genotype and phenotype 244. What does it mean if the heritability quotient for human height is h2 = 0.7? A. dependence of human height on genotype is 70%, and on environment 30% B. 70% of alleles for human height is active and 30% is neutral C. human height is quantitative trait D. phenotypic variability of human height is 30% 245. What does it mean if the heritability quotient is h2 = 0? A. this trait does not depend on genotype B. it is the qualitative trait C. the trait depends only on environment D. the trait depends only on heredity 246. What does it mean if the heritability quotient is h2 = 1? A. this trait does not depend on genotype B. it is the quantitative trait C. the trait depends only on environment D. the trait depends only on genotype FoM - Biology / 34. 247. Is it true that all mammal females do have mammary glands in common? A. yes, they produce milk, the basic nourishment for young offspring B. yes, but not all mammal females do have nipples C. no, egg laying mammals do not have lactic glands D. no, all mammals have the fur and female nipples (lactic) in common 248. What is a meaning of the formation of septa in heart during the evolution? A. it gave rise to small circulation, so the blood could get from lungs to the heart faster B. the blood circulation could be regulated better by heart valves C. oxygenated and deoxygenated blood was separated, so the efficiency of the use of oxygen increased D. simultaneously with increased blood volume in the heart of terrestrial animals, the blood pressure has been decreased 249. Is it true that herbivores do have more complex digestive system than carnivores do? A. no, the structure of digestive system depends on evolutionary level of an animal B. no, more complex digestive system is characteristic for carnivores, because meat food is more difficult to be digested C. yes, herbivore’s stomach consists of 4 chambers and their intestine is longer D. yes, plants food is more difficult to be digested 250. Which animals do have amniotic sac, that protects the foetus? A. all of vertebrates B. just mammals C. egg laying animals D. terrestrial vertebrates 251. Vertebrates are characteristic by lactation and nourishing of young offspring. Is it true that all vertebrates do have lactic glands? A. no, they are not developed among egg laying mammals B. no, they are characteristic for placental mammals C. yes, but there is a difference in the development of nipples (lactic) D. yes, but egg laying mammals do not produce milk 252. What are basic types of animal tissues? A. epithelial, connective, muscle, nervous B. epithelial, osseous, muscle, nervous, blood C. epithelial, connective, chondral, osseous, blood, nervous, muscle D. squamous, osseous, chondral, muscle, nervous 253. Ciliated epithelium of human body: A. occurs in upper respiratory tract B. occurs in oviducts C. is located to three places in woman’s body D. occurs in the organ of Corti FoM - Biology / 35. 254. What is the characteristic feature of epithelia? A. stratified cell organization B. nourishment of upper cell levels is supplied by lower cell levels C. there is a lot of intercellular space D. they contain very little of intercellular matrix 255. Which of the following options represents the real epithelium type? A. absorptive B. adipose C. fibrous D. ciliated 256. What types of muscle tissue do we know? A. striated (excluding cardiac) and smooth B. striated, smooth and cardiac C. striated, involuntary and cardiac D. skeletal and smooth 257. Skeletal muscle cell: A. has the only one nucleus B. has more nuclei C. does not have the nucleus D. does not have mitochondria 258. Cardiac muscle is (according to the structure): A. striated, identical to skeletal B. a specific type of striated muscle C. the combination of skeletal and smooth muscle D. smooth with more nuclei 259. Which of the following options is considered to be the set of supporting tissues? A. connective tissue, cartilage, bone B. bone, collagen, periosteum C. epithelium, connective tissue, cartilage D. periosteum, collagen, connective tissue 260. What does the absorptive epithelium provide? A. substances uptake B. absorption C. excretion D. protection 261. What do glandular epithelium cells provide? A. absorption B. secretion FoM - Biology / 36. C. excretion D. substances uptake 262. What types of epithelia can be found in the digestive system of human body? A. tectorial B. glandular C. absorptive D. sensory 263. What type of epithelium does occur in respiratory tract? A. respiratory epithelium B. ciliated epithelium C. mucin D. absorptive epithelium 264. Which of the following options does provide the ability of contraction of muscle cells? A. actin and myosin B. nervimuscular junction C. nerve fibres D. myofibrils 265. Smooth muscles form the locomotion system of: A. all protostomes B. flat worms, roundworms, annelids (ring worms) and molluscs C. flat worms and roundworms only D. protostomes, echinoderms and tunicates 266. Striated (skeletal) muscles form the locomotion system of: A. arthropods and vertebrates B. vertebrates only C. molluscs, arthropods and vertebrates D. terrestrial animals 267. What fibres do form the striate muscle? A. mononuclear fibres B. multinuclear fibres C. nonnuclear fibres D. fibres that originated from the fusion of several cells 268. How many muscle fibres are there in the striated muscle (skeletal) fascicle? A. 10 – 100 B. no more than 10 C. several hundreds D. more than 1000 FoM - Biology / 37. 269. How do we call the state of muscle tension? A. muscle contraction B. muscle cramp C. muscle tone D. muscle excitability 270. Tendons and protective capsules of vital organs consist of: A. cartilage B. connection tissue C. epithelium D. tissue 271. Cartilage occurs: A. in intervertebral discs B. on the surface of bones C. in an epiglottis D. in teeth 272. Periosteum provides: A. protection as a bone capsule composed of connective tissue B. bone thickening and regeneration C. blood cells production D. the nourishment supply for the bone 273. Spongy osseous tissue occurs: A. in flat bones B. in the middle of long bones C. in heads of long bones D. on the surface of bones 274. We can say about bone marrow: A. when young, it is red, by ageing turns yellow B. it provides haematopoiesis in all bones during lifetime C. during adulthood, it provides haematopoiesis in certain bones D. it nourishes the bone 275. What has to be joined if we speak about complex joints? A. 2 bones by connective tissue B. 3 and more bones C. at least 4 bones D. bones and tendons 276. What is the most complex joint in human body? A. elbow joint B. hip joint FoM - Biology / 38. C. neck joint D. knee joint 277. How are bones connected to each other, besides the joints? A. by epithelial tissue B. by fibrous connective tissue C. by osseous tissue D. by cartilage 278. What parts of long bones do we distinguish? A. the middle part- diaphysis B. expanded joint ends – epiphysis C. growth plates – hypophysis D. upper and lower parts – paralysis 279. How many bones does the adult human skeleton consist of? A. 103 B. 206 C. 312 D. 316 280. Which bones do form the neurocranium (brain case)? A. occipital, zygomatic, temporal, parietal, frontal B. occipital, sphenoid, temporal, parietal, frontal C. occipital, sphenoid, zygomatic, frontal D. temporal, pallate, parietal, zygomatic 281. Which bones do form the splanchnocranium (facial skeleton)? A. vomer B. lacrimal C. sphenoic D. zygomatic 282. Girdle of the upper limb consists of: A. humerus and scapula B. sternum (breastbone) and humerus C. clavicle and scapula D. clavicle and sternum 283. Girdle of the lower limb (pelvic girdle) consists of: A. 2 pelvic bones and sacrum B. 2 pelvic bones, pubic bone and sacrum C. 1 pelvic bone, pubic bone and coccyx D. 1 pelvic bone, sacrum and pubic bone FoM - Biology / 39. 284. How many vertebrae does the backbone (spine) consist of? A. 5 cervical, 12 thoracic, 5 lumbar, 7 sacral and 4-5 coccygeal B. 7 cervical, 12 thoracic, 5 lumbar, 5 sacral and 4-5 coccygeal C. 7 cervical, 12 thoracic, 7 lumbar, 5 sacral and 4-5 coccygeal D. 5 cervical, 7 thoracic, 5 lumbar, 5 sacral and 4-5 coccygeal 285. Rib (thoracic) cage consists of: A. 12 thoracic vertebrae, 12 rib pairs and sternum (breast bone) B. 12 rib pairs, sternum (breast bone) and 1 pair of scapulae C. 12 pairs of thoracic vertebrae, sternum (breast bone) and 12 ribs D. 12 rib pairs, diaphragm and sternum (breast bone) 286. Which vertebrae are fused in adults? A. sacral and coccygeal B. lumbar and sacral C. iliac, ischiac and pubic D. sacral and pelvic 287. What bones is the hand consisted of? A. 7 carpal bones, 5 metacarpal bones and 15 phalanges B. 8 carpal bones, 5 metacarpal bones and 14 phalanges C. 8 carpal bones, 4 metacarpal bones and 14 phalanges D. 7 carpal bones, 4 metacarpal bones and 12 phalanges 288. Pelvis consists of 3 individual bones: A. pubic bone, ischium and sacrum B. ischium, sacrum and ilium C. ischium, pubic bone and ilium D. pubic bone, ilium and sacrum 289. Which spinal curvature may cause health problems? A. kyphosis B. scoliosis C. osteoporosis D. lordosis 290. Diaphysis is: A. the middle part of long bone B. the head of long bone C. the growth plate D. the inner part of bone 291. Epiphysisis is: A. the head of the joint of long bone B. the middle part of long bone FoM - Biology / 40. C. the sigmoid curvature of the spine D. the spot of connection of two bones 292. Knee joint consists of: A. femur B. fibula C. tibia D. patella (knee cap) 293. Which bone does not form the knee joint? A. femur B. fibula C. radius D. tibia 294. Meniscus is: A. the tendon that tightens the calf muscle to the heel B. the connective tissue in the knee joint C. is scientific term for knee cap D. semilunar cartilage between femur and tibia 295. How is the disease resulting to bones getting thin called? A. rachitis B. osteoporosis C. lordosis D. scoliosis 296. What is connected by the connective tissue? A. flat bones of the scull B. teeth and dental alveoli in lower and upper jaw C. bones of pelvis D. ribs and sternum (breast bone) 297. What is connected by a cartilage? A. ribs and sternum (breast bone) B. vertebrae of sacrum and coccyx C. bodies of vertebrae D. bones of girdles (lower and upper) 298. What is the difference between atlas (vertebra) and other vertebrae? A. it does not have a body B. it is formed only by the anterior and posterior arch C. its body is projected into the dens, by which it is connected with axis (vertebra) D. there is a fossette (for axis dens) in the anterior arch FoM - Biology / 41. 299. What is the difference between axis (vertebra) and other vertebrae? A. there is a fossette (for axis dens) in the anterior arch B. its body is projected into the dens, by which it is connected with atlas (vertebra) C. it is formed only by the anterior and posterior arch D. it does not have a body 300. Osteoporosis is disease resulting in: A. periosteum damage B. the higher risk of fracture C. the low bone density D. the knee joint abrasion 301. How many skeletal muscles are there (approximately) in the human body? A. 300 B. 400 C. 600 D. 800 302. What percentage of total body mass do muscles form? A. 36% (men) B. 32% (women) C. 36% (both sexes) D. 30% (both sexes) 303. What does it mean if we say that muscles are antagonistic to each other? A. one acts against the other B. if one is contracted, the other is relaxed C. they cooperate D. they are complementary 304. What does it mean if we say that muscles are synergic to each other? A. they are complementary during their motion B. one acts against the other C. their interaction is not possible D. they work co-ordinately 305. What muscles are used for the facial (mood) expression? A. just mimic B. just masticatory C. mimic together with masticatory D. mimic and cervical 306. Trapezius muscle provides: A. the position of scapula B. movements of upper limb FoM - Biology / 42. C. the movement of knee joint D. breathing movements 307. Achilles tendon attaches: A. calf muscle to knee B. sartorius muscle to the tibia C. calf muscle to calcaneus (heel bone) D. straight muscle of thigh (rectus femoris muscle) to calcaneus (heel bone) 308. What is the longest muscle in the human body? A. quadriceps femori muscle B. sartorius muscle C. triceps surae muscle (calf muscle) D. deltoid muscle 309. What does the “muscle tonus” mean? A. the state of residual muscle tension B. process of muscle contraction C. muscle tiredness (muscle fever) D. the state by which the metabolites are cumulated in muscles 310. What is the role of supra- and subhyoid muscles? A. they assist in mastication and swallowing B. they assist in eye moving C. they assist in coordinated tongue moving D. they assist in holding the head in the upright position 311. Trunk muscles consist of: A. back muscle group, chest muscle group, abdomen muscle group and pelvic floor muscle group B. chest muscle group and abdomen muscle group C. back muscle group and chest muscle group D. back muscle group, chest muscle group and abdomen muscle group 312. What muscles do belong to the surface back muscle group? A. trapezoid muscle B. latissimus dorsi muscle C. deltoid muscle D. rotatores muscles 313. What are the major muscles that control inhaling? A. external intercostal muscles B. internal intercostal muscles C. diaphragm D. abdominal muscles FoM - Biology / 43. 314. What are muscles that control exhaling? A. diaphragm B. external intercostal muscles C. abdominal muscles D. internal intercostal muscles 315. We can say about diaphragm: A. it separates the chest and abdominal cavity B. it separates the abdominal cavity and pelvic floor muscles C. its movement downward helps the exhalation D. its movement upward helps the inhalation 316. What do abdominal muscles provide? A. they form the abdominal press B. they help to defecate C. they help to empty the bladder D. they help to inhale 317. We can say about deltoid muscle: A. it belongs to the pelvic floor muscle group B. it belongs to the back muscle group C. it forms the upper limb girdle D. it helps to stretch arms sideways 318. We can say about sartorius muscle: A. it belongs to the anterior femur muscle group B. it is the flexor of femur C. it is the extensor of femur D. it is quadriceps 319. What morphological parts can we recognize on muscle? A. head, belly and a tail B. head and body C. body and projection D. body, fascicles and muscle fiber 320. What is the functional element of locomotion system? A. interconnection of muscle and bone B. nervimuscular junction C. motor unit (interconnection between nerve and muscle) D. myofibrile 321. The main energy source for the muscle contraction is: A. sugar (saccharide) B. protein FoM - Biology / 44. C. lipid D. nucleic acid 322. What is formed by the muscle contraction? A. nervimuscular junction B. myoglobin C. musculin D. actin-myosin complex 323. What basic proteins do myofilaments (muscle fibers) contain? A. actin and proline B. myosin and arginine C. actin, arginine and proline D. actin and myosin 324. Muscle fever originates from: A. the metabolites cumulation in muscle fibres B. the deficiency of oxygen C. the formation of actin-myosin complex failure D. the muscle tiredness 325. How many primary teeth (milk teeth; deciduous teeth) does human have? A. 32 B. 20 C. 14 D. 24 326. What teeth are never included in primary teeth (milk teeth; deciduous teeth)? A. canines B. premolars C. molars D. incisors 327. What teeth are included in primary teeth (milk teeth; deciduous teeth)? A. 4 incisors, 8 molars, 4 premolars B. 8 incisors, 2 canines, 6 molars C. 8 incisors, 4 canines, 8 molars D. 4 incisors, 8 canines, 8 molars 328. Peristaltic contractions are: A. contractions of esophagus wall that propel food from esophagus towards the stomach B. reflex contractions during the food swallowing C. contractions of stomach wall as a result of the defensive mechanism causing vomiting D. contractions of stomach wall providing the food mixing FoM - Biology / 45. 329. Which of salivary glands are be considered to be large salivary glands? A. subhyoid, submandibular, parotid B. sublingual, submandibular, parotid C. submandibular, submaxillary, parotid D. parotid, suhyoid, maxillary 330. Saliva contains: A. ptyalline B. chymosine C. amylases D. lysozyme 331. Is it true that in buccal (oral) cavity the absorption takes place? A. no, only mechanical and chemical digestion take place here B. no, the very beginning place of absorption is the stomach C. yes, the saccharides absorption starts here D. yes, some poisons and drugs are absorbed here 332. What is the name of the flap that encloses the entrance of the larynx during swallowing? A. epiglottis B. hyoid bone C. pharynx D. esophagus 333. What is the average stomach volume of adult human? A. 0.5 – 1l B. 1 – 2l C. 2 – 3l D. 3 – 5l 334. What is stomach wall consisted of? A. mucosa and 3 layers of smooth muscle B. mucosa, submucosa, smooth muscle and cartilage cover C. mucosa, submucosa and 3 layers of smooth muscle D. 3 layers of muscle covered with mucosa 335. Mucin is: A. protective layer of stomach wall formed by connective tissue B. alkaline (basic) mucus C. contained in gastric juice D. the activator of pepsinogen 336. What role does the hydrochloric acid play in digestion? A. it activates the inactive pepsinogen B. it modifies minerals substances chemically FoM - Biology / 46. C. it prevents the C vitamin destroying D. it prevents B vitamin group destroying 337. What enzymes are secreted by stomach mucosa? A. pepsin, chymosine and lipase B. pepsin, mucin and HCl C. lipase, amylase and pepsin D. mucin, pepsin, lipase and chymosin 338. Which of the following ducts (veins, arteries) does enter the duodenum? A. common bile duct B. pancreatic duct C. portal vein D. hepatic artery 339. The most intense absorption occurs in: A. stomach B. large intestine C. pancreas D. small intestine 340. What is the most important organ of absorption in vertebrates? A. large intestine B. small intestine C. buccal cavity D. rectum 341. The digestive gland(s) is: A. villi and microvilli B. liver C. gall bladder D. salivary glands 342. We can say about bile: A. it is produced by liver B. it is produced by gall bladder C. it emulsifies fats and helps their digestion D. it contains the lipase (enzyme) 343. Gall bladder provides: A. the bile production B. the lipase production C. the bile storage D. the bile decomposition FoM - Biology / 47. 344. What enzyme is present in saliva of vertebrates? A. trypsin B. trypsinogen C. lipase D. amylase 345. What enzymes are involved in saccharide digestion? A. ptyaline B. lipase C. chymosin D. amylase 346. What part of digestive tract does the saccharide digestion start in? A. buccal cavity B. stomach C. duodenum D. small intestine 347. What parts of digestive tract does the carbohydrates digestion occur in? A. buccal (oral) cavity B. stomach C. duodenum D. pancreas 348. Which enzymes are involved in protein digestion? A. pepsin B. trypsin C. mucin D. lysozyme 349. What parts of digestive tract does the protein digestion occur in? A. buccal cavity B. stomach C. liver D. duodenum 350. What is the function of HCl in the gastric juice? A. it activates pepsinogen B. it prevents the destroying of B and C vitamins C. it protects the stomach wall against self-digestion D. it destroys pathogenic microorganisms 351. What is the function of mucin in the digestive system? A. it activates pepsin together with HCl B. it protects the mucosa against the effect of pepsin and HCl FoM - Biology / 48. C. it breaks down proteins D. it is effective against bacteria 352. What is gastric juice consisted of? A. HCl, pepsin, trypcin, mucin B. mucin, HCl, pepsin, lysozyme C. HCl, pepsin, mucin D. pepsin, amylase, ptyaline 353. What enzymes does the gastric juice contain? A. pepsin, lipase, chymosin B. pepsin, mucin, ptyaline C. chymosin, mucin, pepsin D. amylase, lipase, trypsin 354. What is the largest gland in the human body? A. pancreas B. thyroid gland C. parotic salivary gland D. liver 355. Which parts is small intestine consisted of? A. duodenum B. jejunum C. pancreas D. ileum 356. What parts of digestive tract does the fat digestion occur in? A. buccal (oral) cavity B. stomach C. small intestine D. large intestine 357. What is the role of chymosin (enzyme) in digestion? A. it helps to curdle the milk (by infants) B. it breaks down fats C. it helps to digest carbohydrates D. it activates pepsinogen 358. What enzymes are important in fat digestion? A. bile B. lipase C. amylase D. trypsin FoM - Biology / 49. 359. What enzymes are present in pancreatic juice? A. trypsin, amylase, ptyalin B. pepsin, trypsin, lipase C. bile, lipase, ptyalin D. lipase, amylase, trypsin 360. Where does the digestion (chemical food processing) begin? A. in buccal (oral) cavity B. in esophagus C. in stomach D. in small intestine 361. Bile contains enzymes that help to break down: A. carbohydrates B. fat C. proteins D. it does not contain any enzyme 362. Pancreas is a gland that produces: A. only hormones B. only pancreatic juice with enzymes C. hormones and digestive(pancreatic) juice D. it is not a gland 363. The gastric juice of human contains: A. HCl, mucin, pepsin, lipase, chymosin B. HCl, mucin, pepsin, amylase C. only HCl, pepsin and chymosin D. only HCl, lipase, chymosin and pepsin 364. We can say about taste cells (receptors) in buccal (oral) cavity of human: A. they can distinguish 5 various taste qualities B. they can distinguish 4 various taste qualities C. all of them are evenly distributed in the buccal (oral) cavity D. they are stored in taste buds of tongue 365. Which of the following options does contain salivary glands that open into the buccal (oral) cavity? A. sublingual, submaxillar, zygomatic B. parotic, submaxillar, zygomatic C. submaxillar, sublingual, parotic D. submandibular, sublingual, parotic 366. What is the length of human large intestine? A. cca 1.5 m FoM - Biology / 50. B. cca 2.5 m C. cca 0.5 m D. cca 3 m 367. What happens in large intestine? A. reabsorption of water and salts B. intestinal gas production by intestinal bacteria C. completion of nutrients absorption (carbohydrates, fats, proteins) D. completion of fat absorption 368. The end product of the digestion of saccharides is: A. glucose B. fructose C. galactose D. maltose 369. The end products of the digestion of fats are: A. fatty acids B. amino acids C. glycerol D. glucose 370. The end products of the digestion of protein are: A. monopeptides B. amino acids C. nucleotides D. fatty acids 371. Vitamins form the important part of nutrition because: A. they serve as antioxidants in an organism B. they prevent the breakdown of proteins C. they catalyse the biochemical reactions D. they support the resistance of organism 372. The lack of C vitamin causes: A. hypervitaminosis B. scurvy (scorbut) C. rachitis D. colour blindness 373. The excess of a vitamin in an organism is known as: A. avitaminosis B. hypovitaminosis C. multivitaminosis D. hypervitaminosis FoM - Biology / 51. 374. What does the lack of vitamin in an organism cause? A. avitaminosis B. hypovitaminosis C. multivitaminosis D. hypervitamonosis 375. The important factor of blood coagulation is: A. B vitamin B. D vitamin C. E vitamin D. K vitamin 376. Vitamin D is: A. anticoagulant B. anti-rachitic vitamin C. anti-infective vitamin D. anti-scurvy vitamin 377. Components of the upper respiration tract are: A. paranasal sinuses, nasopharynx, pharynx B. nasal cavity and paranasal sinuses C. nasal cavity and nasopharynx D. nasal cavity and pharynx 378. Lower respiration tract consists of: A. pharynx, larynx and bronchial tubes B. nasopharynx, pharynx and bronchial tubes C. larynx, trachea and bronchial tubes D. trachea and bronchial tubes 379. Vocal folds (plica vocalis) are: A. stored in laryngeal cavity B. 2 vocal cords surrounding an opening between true vocal folds C. made of thin membranous epithelium D. longitudinal laryngeal cartilages 380. Visceral (pulmonary) pleura is: A. delicate serous membrane that covers the surface of the lung B. artery that carries the oxygenated blood to lungs C. vein that carries the oxygenated blood out of lungs D. a part of trachea that enters lungs 381. Alveoli are: A. branched capillaries in lungs B. vesicles in lungs FoM - Biology / 52. C. places of gas interchanging in lungs D. olfactory receptors in nasal cavity 382. Pulmonary ventilation is: A. the interchange of respiratory gases between alveoli and blood B. the pulmonary examination with spirometer C. the air interchange between lungs and the environment D. the alternation of inhaling and exhaling 383. Vital capacity of lungs is: A. the total volume of lungs B. the respiratory surface of lungs C. the volume of the air interchanged in lungs in 1 minute D. maximum amount of air that can be expelled from the lungs after a maximum inhalation 384. External respiration is: A. the gas interchange between lungs and the environment B. the gas interchange between alveoli and the blood C. the gas diffusion through the alveolar-capillary membrane D. the alternation of inhale and exhale 385. Internal breathing is: A. passing of the oxygen from lungs to the blood B. the gas interchange between the blood and tissues C. the cell breathing process(es) D. the formation of oxy-hemoglobin 386. Respiratory centre of human body is: A. in diencephalon B. in medulla oblongata and pons C. on the floor of 4th brain ventricle D. in temporal brain lobe 387. What muscles are important for breathing of vertebrates? A. abdominal muscles B. intercostal muscles C. pectoral muscles D. diaphragm 388. The interchange of gases across the alveolar-capillary membrane is provided: A. by osmosis B. by diffusion C. by ionic interaction D. along the concentration gradient FoM - Biology / 53. 389. What components of blood do provide the CO2 transport from tissues to the blood? A. red blood cells B. white blood cells C. blood plasma D. lymph 390. During the gas interchange the carbon dioxide in alveoli: A. is bonded to heme B. is bonded to globin C. is bonded to plasma D. diffuses from blood to the alveolar space 391. During the inflammatory disease the erythrocyte sedimentation rate: A. increases B. decreases C. does not change D. is irregular 392. What is the percentage of water in blood plasma? A. 91 – 92% B. 80 – 90 % C. 70 – 80% D. 93 – 97% 393. What are the functions of red blood cells? A. transfer of respiratory gases B. nutrition transfer C. pH maintaining D. thermoregulation 394. What is oxygen in red blood cells bonded to? A. heme B. agglutinogen C. iron D. hemoglobin 395. What group of animals does have red blood cells without the nucleus? A. all mammals B. all birds C. none of vertebrates D. only fish and amphibians do have nucleus in red blood cells 396. We can say about red blood cells of mammals: A. they do not have any organelles B. they are of discoid shape FoM - Biology / 54. C. they do not have a nucleus D. they contain hemoglobin 397. What is red blood cell functional lifetime? A. 12 days B. 120 days C. 1200 days D. more than 1200 days 398. Red blood cells are produced: A. in bone marrow B. also in liver at the beginning of embryogenesis C. also in lymphatic nodes at the beginning of embryogenesis D. in spleen 399. Where are red blood cells degraded? A. in liver B. in spleen C. in lymphocytes D. in lymphatic nodes 400. Hematocrit is: A. the amount of red blood cells B. the amount of white blood cells C. red blood cells and white blood cells ratio D. percentage of red blood cells in a total blood volume 401. Thrombocytes (blood platelets) are produced: A. in liver B. in spleen C. in lymphatic nodes D. in bone marrow 402. What processes do help to stop bleeding? A. vasoconstriction B. hemocoagulation C. agglutination D. activation of trombocytes 403. What is vasoconstriction? A. it is the reaction of vessel after injury B. it is the process of red blood cell passing to tissues C. it is the reaction of agglutinogen and agglutinine D. it is the conversion of fibrinogen to fibrin FoM - Biology / 55. 404. What is hemocoagulation? A. it is examination prior to blood transfusion B. it is sedimentation of red blood cells C. it is a formation of a blood clot D. it is a rection of blood vessel to injury 405. Which of the following organs participate in immunity? A. thymus B. spleen C. lymph nodes D. bone marrow 406. Thymus serves for: A. maturation of T-lymphocytes B. maturation of B-lymphocytes C. destruction of worn-out red blood cells D. production of hormones 407. We can say about thymus (sweetbread): A. it is the central organ of lymphatic system B. T-cells maturate there to form imunocompetent cells C. in the adulthood the lymphatic tissue is substituted with adipose tissue D. in the adulthood it turns to spleen 408. The lymphatic system consists of: A. the system of open lymphatic vessels B. the thin capillaries opened into blood circulatory system C. lymphatic nodes D. liver 409. B-lymphocytes provide: A. the cell immunity B. the antibody immunity C. the cytotoxic reaction D. the allergic reaction 410. What cells do provide the antibody immunity? A. T-lymphocytes B. B-lymphocytes C. H-lymphocytes D. memory cells 411. Natural (inborn) immunity depends: A. just on T-lymphocytes B. just on B-lymphocytes FoM - Biology / 56. C. on genetics D. on active immunity 412. Passive antibodies are: A. produced after the infection B. produced after vaccination C. delivered into the organism as ready-made or are obtained from mother D. are produced after conquering the infective disease 413. How do we know that there are some inflammatory processes in our body? A. the sedimentation is of higher rate B. the sedimentation is of lower rate C. there is an increase in number of white blood cells D. there is an increase in number of red blood cells 414. How many blood types do humans have? A. 2 B. 3 C. 4 D. 5 415. Where is the antigen of blood type located? A. on the surface of white blood cells B. on the surface of red blood cells C. on the surface of blood platelets D. in blood plasma 416. If the agglutinogen is B and agglutinin anti A, what blood type are we speaking about? A. B B. A C. 0 D. AB 417. If the agglutinogen is A and agglutinin anti B, what blood type are we speaking about? A. A B. B C. 0 D. AB 418. If there is no agglutinogen on the surface of erythrocytes, and if there is agglutinogen anti A and anti B in blood plasma, what blood type are we speaking about? A. B B. A C. 0 D. AB FoM - Biology / 57. 419. What blood types can patient with blood type of AB receive? A. AB B. A C. 0 D. B 420. During the cardiac cycle: A. the ventricular systole and atrial diastole alternate B. the atrial systole and ventricular diastole alternate C. the systole of right heart side and the diastole of left heart side alternate D. systole and diastole alternate 421. Veins are vessels that: A. carry blood towards the heart B. carry blood towards the right side of heart C. carry just deoxygenated blood D. have valves 422. Arteries are vessels that: A. carry blood towards left side of heart B. carry just oxygenated blood C. carry blood away from the heart D. have thicker walls than veins 423. Capillaries are vessels that: A. form the distributional system of vessels B. are formed only by one cell layer C. provide the nutrition interchange between the blood and tissues D. form the open system of vessels 424. Coronary arteries form: A. vessel network around alveoli B. their own cardiac cycle C. the blood cycle in kidneys D. capillary network anywhere in organism 425. The normal resting heart rate of healthy human is: A. 50 per minute B. 70 per minute C. 90 per minute D. 100 per minute 426. Minute volume of the heart is: A. amount of blood expelled per minute B. amount of blood which is oxygenated per minute FoM - Biology / 58. C. 5 liters of blood in averagei D. 2 liters of blood in average 427. Blood pressure is measured by: A. spirometer B. sphygmomanometer C. at a person´s upper arm (vein) D. at a person´s upper arm (artery) 428. Aorta originates from: A. the left atrium B. the left ventricle C. the right ventricle D. the right atrium 429. Pulmonary circulation starts: A. in the right heart atrium B. in the right heart ventricle C. in the left heart ventricle D. in lungs 430. The primary urine production is connected with: A. renal corpuscle B. glomelular filtration C. Bowman’s capsule D. canalicules of nephron 431. Definitive urine is produced by: A. renal tubules B. Bowman’s capsule C. loop of Henle D. the process of reabsorption 432. Homeostasis is: A. stagnation in the organism development B. stable blood overflow through the heart C. the identical genome of mother and offspring D. the stability of an inner environment 433. What substances should not be present in the urine of healthy person? A. blood and pus B. proteins and carbohydrates C. a lot of proteins D. increased amount of carbohydrates FoM - Biology / 59. 434. What is the difference between female and male urethra? A. female one is much shorter B. both are of the same length but part of female urethra is located in abdominal cavity C. female urethra provides only removing of urine from the body D. there is no difference between them 435. According to what principle does the excretory system of humans work? A. filtration of blood in kidneys B. excretion of blood to kidneys C. reabsorption of blood from kidneys D. dialysis of blood in kidneys 436. Renal tubules enter: A. the bladder B. the renal calyx C. the renal pelvis D. the efferent vein 437. What pigment does cause the skin coloration? A. keratin B. melanin C. tubulin D. melatin (melatonin) 438. What receptors are there in human skin? A. warm and cold receptors, touch, pressure and pain receptors B. warm receptors and tactile receptors C. positional, balance, touch and pain receptors D. thermoreceptors, radioreceptors and mechanoreceptors 439. When we speak about skin derivatives, what are we speaking about? A. just hair, nails and hairs B. just hair and nails C. hair, nails, hairs, cutaneous glands and lactic glands D. just hair, nails, hairs and cutaneous glands 440. Myelin sheath: A. covers the axon B. covers dendrites as well C. covers only a body of neuron D. covers neuroglia 441. Cerebrospinal fluid fills: A. the space between dura mater and arachnoid mater B. the brain ventricles and central canal of spinal cord FoM - Biology / 60. C. 2 ventricles of fore brain D. the central canal of spinal cord and the space between maters 442. What type of nerves does the vagus nerve belong to? A. cranial nerves B. thoracic nerves C. spinal nerves D. autonomic nerves 443. How many cranial nerves does the human have? A. 7 pairs B. 14 C. 20 D. 12 pairs 444. How many lumbar nerves does the human have? A. 10 pairs B. 7 pairs C. 5 pairs D. 8 pairs 445. What part of central nervous system is the evolutionary youngest? A. diencephalon B. midbrain C. cerebral cortex D. medulla oblongata 446. What brain part is considered to be the main control centre of inner organs? A. medulla oblongata B. hypothalamus C. cerebral cortex D. cerebellum 447. What nerve centre is involved in the balance maintenance of human body? A. cerebral cortex B. medulla oblongata C. diencephalon D. cerebellum 448. Where is the coordination centre located? A. in diencephalon B. in thalamus C. in cerebellum D. in medulla oblongata FoM - Biology / 61. 449. Cerebellum contributes to the control of: A. movement coordination B. motoric reflexes C. balance maintenance D. face mimics 450. How many brain ventricles are there in the brain? A. 2 B. 4 C. 6 D. 3 451. Medulla oblongata contributes to the control of: A. movement coordination B. face mimics C. vital reflexes D. the heart and vessels activity 452. Pons (pons Varolii) serves as: A. the centre of movement coordination and balance maintenance B. the centre of digestion reflexes C. the interconnection between the spinal cord and diencephalon with other brain parts D. the centre of unconditioned reflexes 453. What are the brain and spinal cord covered with? A. dura mater B. arachnoid mater C. tela chorioidea D. pia mater 454. Hormones are substances from chemical point of view: A. lipids B. phospholipids C. proteins D. carbohydrates 455. The basic principle of hormonal regulation is: A. aktivation of biochemical processes B. inhibition of biochemical processes C. feedback principle D. maintenance of constant hormone levels 456. Where do endocrinal glands secrete their product? A. blood B. surrounding tissue FoM - Biology / 62. C. lymph D. cerebrospinal fluid 457. Insulin is produced: A. in the islets of Langerhans in liver B. in the islets of Langerhans in pancreas C. in Malpighi cells of adrenals D. in Purkinje cells of cerebellum 458. What gland does produce the melatonin hormone? A. anterior pituitary (fore part of hypophysis) B. posterior pituitary (hind part of hypophysis) C. pancreas D. pineal gland (epiphysis) 459. What does the suprarenal gland produce? A. androgenic hormones B. cortisone C. adrenalin and noradrenalin D. cortisone and hydrocortisone 460. What gland is the thyrotrophic hormone produced by? A. thyroid gland B. pituitary gland (hypophysis) C. pineal gland (epiphysis) D. adrenal gland 461. What is the role of adrenalin? A. it helps to break the stress B. it increases the blood pressure C. it increases the blood sugar level D. it calms the nervous system down 462. Which hormone does cause the blood sugar level decrease? A. glucagon B. insulin C. adrenalin D. amygdalin 463. Which hormone does provide the glycogen cleavage in the liver and production of the glucose from amino acids? A. glucose B. insulin C. adrenalin D. glucagon FoM - Biology / 63. 464. What hormone does regulate the blood sugar level? A. glucose B. insulin C. adrenalin D. cortisone 465. We can say about somatotrophic hormone: A. it is the growth hormone B. it is produced by anterior pituitary (adenohypophysis) C. it is species specific D. its insufficiency in pubescence causes the acromegaly 466. The excess of the growth hormone may cause: A. nanism B. cretinism C. gigantism D. acromegaly 467. What gonadotrophic hormones do we know? A. pineal gland (epiphysis) hormones B. reproductive gland hormones C. hormones, that stimulate the activity of reproductive glands D. adenohypophysis hormones 468. We can say about epiphysis (pineal gland): A. it occurs in diencephalon B. it occurs in cerebellum C. it produces the melatonin hormone D. it produces the somatotrophic hormone 469. The insufficiency of hormone of thyroid gland may cause: A. nanism B. cretinism C. goiter (struma) D. acromegaly 470. What type of receptors do thermoreceptors belong to? A. mechanoreceptors B. photoreceptors C. chemo receptors D. radioreceptors 471. We can say about proprioreceptors: A. they are scattered throughout the corium (dermis) B. they inform about body position FoM - Biology / 64. C. they occur in muscles and tendons D. they inform about pressure changes 472. Which of the following options is mechanoreceptor? A. static receptor (inner ear) B. organ of Corti C. proprioreceptors D. ear bones 473. Organ of Corti occurs in: A. kidneys B. inner ear C. outer ear D. cochlear membranous labyrinth 474. What does the Eustachian tube provide? A. the perception of body position B. equalizing of the pressure between middle ear and nasopharynx C. the vibration of tympanic membrane (eardrum) during the sound perception D. the protection of vocal cords 475. Tympanic membrane (eardrum) is located between: A. external auditory canal and middle ear B. middle ear and cochlea C. Eustachian tube and middle ear D. cochlea and Eustachian tube 476. Ear bones transmit the sound in the direction: A. tympanic membrane (eardrum) - incus (anvil), maleus (hammer) - stapes (stirrup) B. tympanic membrane (eardrum) – maleus – incus – stapes C. maleus – incus – stapes – tympanic memebrane (eardrum) D. tympanic membrane (eardrum) – stapes – maleus – incus 477. Inner ear consists of: A. Eustachian tube B. cochlea and semicircular canals C. three ear bones and cochlea D. cochlear membranous labyrinth 478. What retinal receptors are used for colour perception (vision)? A. rods B. cones C. chromatin D. chlorophyll FoM - Biology / 65. 479. Where are receptors for the perception of body position located? A. in diencephalon B. in inner ear C. in middle ear D. in medulla oblongata 480. Human vision is: A. one-dimensional B. two-dimensional C. three-dimensional D. four-dimensional 481. When do women start to produce egg cells? A. during embryonic development B. in puberty C. after birth D. after achieving the ability to reproduce 482. The men’s spermatogenesis starts: A. before birth B. after birth C. during puberty D. with sexual life 483. How long does a sperm cell live? A. 12 hours B. 24 hours C. 2 days D. 5 days 484. How many sperm cells are formed during the spermatogenesis from one germ cell? A. 2 B. 3 C. 4 D. 5 485. Prostate gland is: A. paired endocrine organ B. unpaired exocrine organ C. unpaired organ made of connective tissue D. not a gland 486. How long does the women’s pregnancy last? A. 260 days B. 270 days FoM - Biology / 66. C. 280 days D. 290 days 487. What days of menstrual cycle do provide the highest probability of woman being fertilized? A. 12 – 16 B. 17 – 21 C. 22 – 26 D. 27 – 31 488. When is baby’s gender determined? A. in the first month of embryonic development B. in the third month of embryonic development C. by the birth D. in the moment of fertilization 489. How many egg cells do maturate in ovaries during the woman’s reproductive phase? A. 300 B. 400 C. 500 D. 600 490. Corpus luteum is formed: A. from maturated egg cell B. before egg cell maturation C. during ovulation D. from the cracked follicle 491. What hormone does corpus luteum produce? A. estrogene B. progesterone C.