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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.
Don't refresh. All questions and answers are randomly picked and ordered every time you load a test.

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. Consist of a central carbon bound to an amino group - a carboxylic acid - a hydrogen atom - and an R group
Miller - Urey experiment
Amino acid (composition)
Monosaccharide
Actin - microtubules - intermediate filaments

2. Glutamic acid - Aspartic acid - Histidine - Lysine - Argenine
C - H - O - N - S
Complimentary bases
Charged amino acids
Prokaryote

3. 1 joule = 0.239 calories
Primary cell wall
Charged amino acids
Cell Theory
Joule <--> Calorie (conversion)

4. Simplest starch which is a long unbranching chain of glucose molecules
Phospholipid (composition)
Amylose
Cadherin
Intermediate filaments

5. Glycerol attached to 3 fatty acids. Also called triglyceride or triacylglycerol
Phosphdiester bond
Pyrimidines (characteristics)
Fat (composition)
Primary cell wall

6. The bond between two amino acids. Non - rotational because it has partial double - bond characteristics
Peptide bond
Starch
Pyrimidines (characteristics)
Prostaglandin

7. A combination of secondary structure bonding that forms characteristic patterns within protein strucure - such as the alpha - helix and the beta - pleated sheet
Motifs
xtrusion
Tight junctions
Aromatic amino acids

8. Glycine - Serine - Threonine - Asparagine - Glutamine
Polar uncharged amino acids
Steriod
Cytoplasm
Pinocytosis

9. The manner in which all macromolecules are assembled -- water is a product of the reaction
Miller - Urey experiment
Dehydration synthesis
Fibronectin
Secondary level of protein structure

10. The matrix of glycoproteins that animal cells deposit outside the plasma membrane which provide support - strength - and resilience
Extracellular matrix
Phospholipid (composition)
Monosaccharide
Aromatic amino acids

11. Two scientists attempted to reproduce the condition of the (assumed) earth's primitive ocean's under a reducing atmosphere. They produced some of the key molecules to life (amino acids and nucleotides).
Miller - Urey experiment
Dehydration synthesis
Amylopectin
First law of thermodynamics

12. Ancient prokaryotes that survive in extreme anaerobic conditions - such as deap sea vents; they lack peptidoglycan in their cell walls
Alpha glucose ring
Methanogens
Archaebacteria
Dehydration synthesis

13. A lipid that is composed of 4 fused carbon rings - commonly found in cell membranes.
Primary level of protein structure
Hypercholesterolemia
Steriod
Dynein

14. Protein that plays a major role in vesicle formation during receptor mediated endocytosis; forms a coated pit on the plasma membrane
Clathrin
Hypercholesterolemia
Glycoproteins
Phosphdiester bond

15. Responsible for moving organelles within a cell - also facilitate cell movement
Prostaglandin
Microtubules
Anchoring junction
Penicillin (mechanism of action)

16. 5 carbon sugar (ribose or deoxyribose) bound to a phosphate and a nitrogenous base
5 classes of amino acids
Bacteriorhodopsin
First law of thermodynamics
Nucleotide (composition)

17. (CH2O)n - n = number of carbon atoms
Anchoring junction
Pyrimidines (characteristics)
Dynein
Carbohydrates (empirical formula)

18. A short - branched polysaccharide with short - linear amylose branches that are typically 20-30 subunits
Functions or proteins
Prostaglandin
Amylopectin
Domains

19. Proteins - lipids - carbohydrates - nucleic acids
Cyanobacteria
5 classes of amino acids
Carbohydrates (empirical formula)
Major categories of macromolecules

20. Simple sugars; may be as few as three carbon atoms; those used in energy storage are 6 carbon chains that form rings in solution
Glycoproteins
Fat (characteristics)
Purines (characteristics)
Monosaccharide

21. Level of protein structure that is formed by the hydrogen bonds between the polar side groups of the main chain
Transport disaccharides (reasoning)
Denaturation
Secondary level of protein structure
Hemidesmosomes

22. Chlorophyll containing bacteria that played an important role in increasing the concentration of oxygen
ATP (composition)
Cyanobacteria
Actin - microtubules - intermediate filaments
Pyrimidines (characteristics)

23. Glycoproteins that forms a complex web that forms a protective layer of the surface of animal cells
Amylose
Proteoglycans
Adherins junctions
Carbohydrates (empirical formula)

24. Adenine and Guanine
Purines (identify)
Cadherin
Fat (characteristics)
Intermediate filaments

25. Mechanically attach the cytoskeleton of a cell to the cytoskeletons of other cells or to the extracellular matrix. Common in tissues experiencing mechanical stress - eg muscle and skin epithelium
Nucleolus
Hydrolysis
Countertransport
Anchoring junction

26. 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.
Transport disaccharides (reasoning)
Alpha glucose ring
DNA (location)
Extreme halophiles

27. Most common atoms found in biological molecules
Beta glucose ring
C - H - O - N - S
Gram positive bacteria
Hypercholesterolemia

28. Methane - producing archaebacteria - one of the most primitive archaebacteria that are alive today
Carbohydrates (empirical formula)
Secondary level of protein structure
Methanogens
Primary cell wall

29. Proteins with short chains of sugars attached to them; in eukaryotic cells they are important membrane proteins that allow cell - cell recognition and interaction
Secondary cell wall
Glycoproteins
C - H - O - N - S
Prostaglandin

30. Proteins that help another protein fold properly; elevated levels of this protein are found when the cell is exposed to elevated temperatures
Nucleotide (composition)
Hypercholesterolemia
Chaperone proteins
Flagellum

31. Cytosine - Uracile - Thymine
Pyrimidines (identify)
ATP (composition)
Integrins
Differences between RNA and DNA

32. Organelles found in plants and algae that perform photosynthesis and act as storage units; they all arise from the division of themselves
Peptide bond
Cenriole
Plastids
Domains

33. 5- carbon sugar - adenine - and a tri - phosphate group
Archaebacteria
Quaternary level of protein structure
ATP (composition)
Domains

34. A cluster in the nucleus of ribosomal RNA genes - ribosomal proteins - and the RNAs they produce: it is the site of mass ribosome production
Prokaryote
Alpha glucose ring
Nucleolus
Middle lamella

35. The sugar in RNA contains an extra hydroxyl group and RNA uses uracil instead of thymine
Tight junctions
Purines (identify)
Differences between RNA and DNA
Motifs

36. Insoluble polysaccharides made by plants that are formed stricly from glucose (alpha form).
Proteoglycans
Starch
First law of thermodynamics
Extreme thermophiles

37. The region surrounding a pair of centrioles
Amino acid (composition)
Centrosome
Denaturation
Glycolipids

38. A group of about 20 lipids that are modified fatty acids - 5- carbon ring w/ 2 nonpolar tails.
Prostaglandin
Denaturation
Proteoglycans
Clathrin

39. Two simple sugars joined together
Disaccharide
Cadherin
Anchoring junction
Nucleotide (composition)

40. 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
Desmosomes
Cytoskeleton
Purines (characteristics)
Secondary level of protein structure

41. Laid down when a plant cell is still growing; composed of chitin in fungi and cellulose in plants and protists
Prokaryote
First law of thermodynamics
Primary cell wall
Glycerol

42. A structure that some fully expanded plant cells produce; provides very strong structural support
Countertransport
Special function amino acids
Secondary cell wall
Beta glucose ring

43. 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.
Proteoglycans
Transport disaccharides (reasoning)
Antiport
Adherins junctions

44. Energy cannot be created or destroyed
First law of thermodynamics
Joule <--> Calorie (conversion)
Pinocytosis
Beta barrel

45. Adenine --- Thymine (DNA) - Adenine --- Uracil (RNA) - Guanine --- Cytosine
Centrosome
Complimentary bases
Hypercholesterolemia
Aromatic amino acids

46. Function section of a protein that is able to fold independently of the other sections - encoded by exons (functional sections of a gene)
Beta barrel
Domains
Primary cell wall
Cadherin

47. A special motor protien that moves along the microtubule toward its positive end; in most cells this movement is from the center to the periphery - in the axon it is anterograde transport
Beta barrel
Kinesin
Secondary cell wall
Amylose

48. Alanine - Valine - Leucine - Isoleucine
Nonpolar amino acids
Peptidoglycan
Phosphdiester bond
Miller - Urey experiment

49. A glucose ring formed with the hydroxyl group in the opposite plane of the methanol group
xtrusion
Plastids
Alpha glucose ring
Methanogens

50. A type of anchoring junction that connects the cytoskeletons of adjacent cells
Peptidoglycan
Major categories of macromolecules
Desmosomes
Differences between RNA and DNA