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MCAT Biology 3

Subjects : mcat, science

Instructions:

Answer 50 questions in 15 minutes.
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Match each statement with the correct term.
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This is a study tool. The 3 wrong answers for each question are randomly chosen from answers to other questions. So, you might find at times the answers obvious, but you will see it re-enforces your understanding as you take the test each time.

1. A carrier protein that simultaneously moves one molecule in as it moves another out
Bacteria
Proteoglycans
Aromatic amino acids
Antiport

2. The bond between two sugar molecules
Glycogen
Glycosidic bond
Bacteriorhodopsin
Hydrolysis

3. A glucose ring formed with the hydroxyl group in the opposite plane of the methanol group
Cytoskeleton
Starch
Cytoplasm
Alpha glucose ring

4. Glutamic acid - Aspartic acid - Histidine - Lysine - Argenine
Collagen
Disaccharide
Charged amino acids
Cyanobacteria

5. Nonpolar - polar uncharged - charged - aromatic (nonpolar and polar uncharged) - special function
5 classes of amino acids
Hypercholesterolemia
Cyanobacteria
Cytoskeleton

6. A combination of secondary structure bonding that forms characteristic patterns within protein strucure - such as the alpha - helix and the beta - pleated sheet
Monosaccharide
Penicillin (mechanism of action)
Motifs
Cellulose

7. The inward movement of one molecule is coupled with the outward movement of another (across the cell membrane)
Phosphdiester bond
Glycosidic bond
Countertransport
Flagellum

8. Gram positive bacteria have a think - single - layered cell wall that retains the dye used in Gram - staining. Penicillin only works on gram - positive bacteria.
Gram positive bacteria
Peptide bond
Pinocytosis
Tight junctions

9. A special motor protein that moves along the microtubule toward the negative end; responsible for rentrograde axoplasmic transport
Antiport
Major categories of macromolecules
Dynein
Collagen

10. Level of protein structure that is formed by the hydrogen bonds between the polar side groups of the main chain
Major categories of macromolecules
Secondary level of protein structure
Pyrimidines (characteristics)
Dynein

11. A type of anchoring junction that connects the cytoskeletons of adjacent cells
Differences between RNA and DNA
Desmosomes
Extreme thermophiles
DNA (location)

12. Glycine - Serine - Threonine - Asparagine - Glutamine
Polar uncharged amino acids
Proteoglycans
Central vacuole
Archaebacteria

13. Manner in which macromolecules are broken down -- water is separated into H and OH
Beta barrel
Penicillin (mechanism of action)
Microtubules
Hydrolysis

14. Large - membrane bound sac in plant cells that stores proteins - pigments - and waste material
Amylose
Archaebacteria
Adherins junctions
Central vacuole

15. Small single - celled organisms that lack a definite nucleus and distinct interior compartments; they are encased within a rigid cell wall. Two main groups are archaebactera and bacteria
Prokaryote
Purines (characteristics)
Integrins
First law of thermodynamics

16. A network of integrins that connects the actin filaments of one cell with those of neighboring cells or with the extra cellular matrix
Functions or proteins
Cell Theory
Microtubules
Adherins junctions

17. Responsible for cellular movments like contraction - crawling - pinching during division or cytosis - and formation of cellular extensions
Actin (functions in cytoskeleton)
Methanogens
Gram positive bacteria
Gap junction

18. A form of endocytosis where an animal cell engulfs liquid matter
Pinocytosis
Charged amino acids
Rossman fold
Phosphdiester bond

19. Energy rich molecules that consist only of carbon and hydrogen
Aromatic amino acids
Intermediate filaments
Fat (composition)
Hydrocarbons

20. Adenine and Guanine
Actin (functions in cytoskeleton)
Fat (characteristics)
Keratin
Purines (identify)

21. Eukaryotic cell's internal protein scaffold which provides structural support and is extremely important for organizing the cell's activites; a dynamic system that is constantly forming and disassembling
Glycerol
Glycoproteins
Polar uncharged amino acids
Cytoskeleton

22. 1 joule = 0.239 calories
Motifs
Joule <--> Calorie (conversion)
Steriod
Beta glucose ring

23. A modified form of cellulose with a nitrogen group added to the glucose units; structural building material found in arthropods and cell walls of many fungi.
Chitin
Actin - microtubules - intermediate filaments
Disaccharide
Bacteria

24. Proteins - lipids - carbohydrates - nucleic acids
Major categories of macromolecules
Spectrin
Differences between RNA and DNA
Amylose

25. A hydrocarbon chain that terminates with a carboxyl group.
Secondary cell wall
Proteoglycans
Fatty acid
5 classes of amino acids

26. Function section of a protein that is able to fold independently of the other sections - encoded by exons (functional sections of a gene)
Special function amino acids
Clathrin
Proteoglycans
Domains

27. (CH2O)n - n = number of carbon atoms
Fat (composition)
Carbohydrates (empirical formula)
Chitin
Amylopectin

28. Small single - ringed structures: cytosine found in both DNA and RNA - uracil found in RNA - and thymine found in DNA
Domains
Chaperone proteins
Pyrimidines (characteristics)
Fat (composition)

29. Simple sugars; may be as few as three carbon atoms; those used in energy storage are 6 carbon chains that form rings in solution
Rossman fold
Monosaccharide
Extracellular matrix
Dynein

30. They connect the plasma membranes of adjacent cells in a sheet - preventing molecules from leaking between the cells.
Actin - microtubules - intermediate filaments
Cytoskeleton
Tight junctions
Cellulose

31. In prokaryotes - most of the genetic material lies in a single circular molecule of DNA that typically resides near the cetner of the cell. In eukaryotes - DNA is contained in the nucleus - which is surrounded by the nuclear envelope.
Extreme halophiles
Polar uncharged amino acids
Hypercholesterolemia
DNA (location)

32. Ancient prokaryotes that survive in extreme anaerobic conditions - such as deap sea vents; they lack peptidoglycan in their cell walls
Archaebacteria
Fatty acid
Amino acid (composition)
Integrins

33. Archaebacteria that live in extermely hot environments - such as hydrothermal vents under the ocean
Kinesin
Extreme thermophiles
Hydrolysis
Countertransport

34. The matrix of glycoproteins that animal cells deposit outside the plasma membrane which provide support - strength - and resilience
Hydrolysis
Aromatic amino acids
Intermediate filaments
Extracellular matrix

35. The second major group of prokaryotes that have very strong cell walls and are photosynthetic
Glycogen
Bacteria
Extreme thermophiles
Dehydration synthesis

36. Level of protein structure that involves the association of two more more separate polypeptide chains (the individual chains are referred to as subunits)
Domains
Quaternary level of protein structure
Gap junction
Bacteriorhodopsin

37. Cysteine - Methionine - Proline
Countertransport
Fibronectin
Prokaryote
Special function amino acids

38. Transmembrane proteins that play an important role in cell - cell adhesion; their function is dependent upon calcium; vertebrate migration of neurons is affected by which type of this protein is expressed on the cell's plasma membrane
Integrins
Cytoplasm
Purines (identify)
Cadherin

39. A type of intermediate filament found in epithelial cells
Plastids
Nucleolus
Keratin
Functions or proteins

40. Adenine --- Thymine (DNA) - Adenine --- Uracil (RNA) - Guanine --- Cytosine
Complimentary bases
Extreme halophiles
Microtubules
Glycerol

41. Protein that plays a major role in vesicle formation during receptor mediated endocytosis; forms a coated pit on the plasma membrane
Central vacuole
Pyrimidines (identify)
Countertransport
Clathrin

42. In eukaryotes - found extracellularly and involved with tissue recognition - eg ABO blood group markers
Antiport
Cellulose
Glycolipids
Archaebacteria

43. 5 carbon sugar (ribose or deoxyribose) bound to a phosphate and a nitrogenous base
Nucleotide (composition)
Dehydration synthesis
Cyanobacteria
Domains

44. Components of cytoskeleton
Actin - microtubules - intermediate filaments
Monosaccharide
Anchoring junction
Extreme halophiles

45. Simple sugars are turned into disaccharides so they can be transported without being metabolized (typically in plants). The enzymes that can break the bond and utilize the sugar are typically present only where the glucose is to be used.
Purines (characteristics)
Rossman fold
Tertiaty level of protein structure
Transport disaccharides (reasoning)

46. The unfolding of a protein caused by a shift in pH - ion concentration - or temperature.
Plastids
Functions or proteins
Fibronectin
Denaturation

47. A glucose ring formed with the hydroxyl group in the same plane as the methanol group
Spectrin
Hydrocarbons
Beta glucose ring
Functions or proteins

48. A semi - fluid matrix that fills the interior of the cell
Cytoplasm
Denaturation
Penicillin (mechanism of action)
Differences between RNA and DNA

49. The animal version of starch. An insoluble polysaccharide containing branched amylose chaings. (chain length is much greater than starch and there are more branches)
Secondary level of protein structure
Carbohydrates (empirical formula)
Glycogen
Integrins

50. A short - branched polysaccharide with short - linear amylose branches that are typically 20-30 subunits
Peptidoglycan
Amylopectin
Chromosome
Peptide bond