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Bug #4452 » non_transposed_metadata_example_1.csv

Mark Urban-Lurain, 10/15/2009 11:52 AM

 
1 
assessmentid,questionid,recordNum,score,response,responsefile,qid,qtitle,qlabel,qprompt,qchoice_1,qchoice_2,qchoice_3,qchoice_4,qchoice_5,qmetadatavocabulary,qmetadatavalue,qmetadatavocabulary_2,qmetadatavalue_2,qmetadatavocabulary_3,qmetadatavalue_3,?column?,qmetadatavalue_4,?column?,?column?,?column?,?column?,?column?,?column?,?column?,?column?,?column?,?column?,?column?,?column?
2 
jlee.3321.6,jlee.3322.7,1,1,1,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
3 
jlee.3321.6,jlee.3322.7,2,0,1,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
4 
jlee.3321.6,jlee.3322.7,3,0,1,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
5 
jlee.3321.6,jlee.3322.7,4,0,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
6 
jlee.3321.6,jlee.3322.7,5,0,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
7 
jlee.3321.6,jlee.3322.7,6,0,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
8 
jlee.3321.6,jlee.3322.7,7,0,3,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
9 
jlee.3321.6,jlee.3322.7,8,0,3,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
10 
jlee.3321.6,jlee.3322.7,9,1,3,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
11 
jlee.3321.6,jlee.3322.7,10,0,4,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
12 
jlee.3321.6,jlee.3322.7,11,0,4,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
13 
jlee.3321.6,jlee.3322.7,12,0,4,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
14 
jlee.3321.6,jlee.3322.7,13,1,4,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
15 
jlee.3321.6,jlee.3322.7,14,0,3,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
16 
jlee.3321.6,jlee.3322.7,15,0,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic,,,,,,,,,,,,
17 
jlee.3321.6,jlee.3322.7,16,1,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic
18 
jlee.3321.6,jlee.3322.7,17,0,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic
19 
jlee.3321.6,jlee.3322.7,18,1,2,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic
20 
jlee.3321.6,jlee.3322.7,19,1,3,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic
21 
jlee.3321.6,jlee.3322.7,20,1,4,,jlee.3322.7,QuestionTypeMultiple choice,Question jlee.3322.6," Polymers of polysaccharides, nucleic acids, and proteins are all synthesized from monomers by",A. connecting monosaccharides together.,B. the addition of water to each monomer.,C. the removal of water (dehydration reactions).,D. ionic bonding of the monomers.,E. the formation of disulfide bridges between monomers.,bloom,Knowledge,nbii,Chemical analysis,,Polymers,,nucleic
22 
jlee.3321.6,jlee.3323.7,1,0,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
23 
jlee.3321.6,jlee.3323.7,2,1,3,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
24 
jlee.3321.6,jlee.3323.7,3,0,4,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
25 
jlee.3321.6,jlee.3323.7,4,0,1,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
26 
jlee.3321.6,jlee.3323.7,5,0,3,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
27 
jlee.3321.6,jlee.3323.7,6,0,4,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
28 
jlee.3321.6,jlee.3323.7,7,0,1,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
29 
jlee.3321.6,jlee.3323.7,8,0,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
30 
jlee.3321.6,jlee.3323.7,9,1,4,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
31 
jlee.3321.6,jlee.3323.7,10,0,1,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
32 
jlee.3321.6,jlee.3323.7,11,0,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis,,,,
33 
jlee.3321.6,jlee.3323.7,12,0,3,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
34 
jlee.3321.6,jlee.3323.7,13,1,4,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
35 
jlee.3321.6,jlee.3323.7,14,0,3,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
36 
jlee.3321.6,jlee.3323.7,15,0,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
37 
jlee.3321.6,jlee.3323.7,16,1,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
38 
jlee.3321.6,jlee.3323.7,17,0,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
39 
jlee.3321.6,jlee.3323.7,18,1,2,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
40 
jlee.3321.6,jlee.3323.7,19,1,3,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
41 
jlee.3321.6,jlee.3323.7,20,1,4,,jlee.3323.7,QuestionTypeMultiple choice,Question jlee.3323.6," Upon chemical analysis, a particular protein was found to contain 438 amino acids. How many peptide bonds are present in this protein?",A. 20,B. 437,C. 438,D. 439,E. 876,bloom,Comprehension,nbii,Chemical analysis
42 
jlee.3321.6,jlee.3324.7,1,0,1,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
43 
jlee.3321.6,jlee.3324.7,2,0,1,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
44 
jlee.3321.6,jlee.3324.7,3,1,1,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
45 
jlee.3321.6,jlee.3324.7,4,0,2,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
46 
jlee.3321.6,jlee.3324.7,5,0,2,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
47 
jlee.3321.6,jlee.3324.7,6,0,2,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
48 
jlee.3321.6,jlee.3324.7,7,0,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension,,
49 
jlee.3321.6,jlee.3324.7,8,0,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
50 
jlee.3321.6,jlee.3324.7,9,0,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
51 
jlee.3321.6,jlee.3324.7,10,1,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
52 
jlee.3321.6,jlee.3324.7,11,0,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
53 
jlee.3321.6,jlee.3324.7,12,0,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
54 
jlee.3321.6,jlee.3324.7,13,1,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
55 
jlee.3321.6,jlee.3324.7,14,0,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
56 
jlee.3321.6,jlee.3324.7,15,0,2,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
57 
jlee.3321.6,jlee.3324.7,16,1,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
58 
jlee.3321.6,jlee.3324.7,17,0,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
59 
jlee.3321.6,jlee.3324.7,18,1,2,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
60 
jlee.3321.6,jlee.3324.7,19,1,3,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
61 
jlee.3321.6,jlee.3324.7,20,1,4,,jlee.3324.7,QuestionTypeMultiple choice,Question jlee.3324.6, The synthesis of which macromolecule listed below is not directed by a template?,A. Protein,B. DNA,C. mRNA,D. polysaccharide,E. rRNA,bloom,Comprehension
62 
jlee.3321.6,jlee.3325.7,1,0,2,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
63 
jlee.3321.6,jlee.3325.7,2,0,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
64 
jlee.3321.6,jlee.3325.7,3,0,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
65 
jlee.3321.6,jlee.3325.7,4,1,1,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
66 
jlee.3321.6,jlee.3325.7,5,0,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
67 
jlee.3321.6,jlee.3325.7,6,0,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
68 
jlee.3321.6,jlee.3325.7,7,0,1,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
69 
jlee.3321.6,jlee.3325.7,8,0,2,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
70 
jlee.3321.6,jlee.3325.7,9,0,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
71 
jlee.3321.6,jlee.3325.7,10,1,1,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
72 
jlee.3321.6,jlee.3325.7,11,0,2,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
73 
jlee.3321.6,jlee.3325.7,12,0,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
74 
jlee.3321.6,jlee.3325.7,13,0,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
75 
jlee.3321.6,jlee.3325.7,14,1,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
76 
jlee.3321.6,jlee.3325.7,15,0,2,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
77 
jlee.3321.6,jlee.3325.7,16,1,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
78 
jlee.3321.6,jlee.3325.7,17,0,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
79 
jlee.3321.6,jlee.3325.7,18,1,2,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
80 
jlee.3321.6,jlee.3325.7,19,1,3,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
81 
jlee.3321.6,jlee.3325.7,20,1,4,,jlee.3325.7,QuestionTypeMultiple choice,Question jlee.3325.6," Which of the following best describes the relationship between proteins, RNA and DNA?",A. RNA ? proteins ? DNA,B. proteins ? RNA ? DNA,C. RNA ? DNA ? proteins,D. DNA ? proteins ? RNA,E. DNA ? RNA ? protein,bloom,Comprehension
82 
jlee.3321.6,jlee.3326.7,1,0,1,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
83 
jlee.3321.6,jlee.3326.7,2,0,1,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
84 
jlee.3321.6,jlee.3326.7,3,0,1,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
85 
jlee.3321.6,jlee.3326.7,4,0,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
86 
jlee.3321.6,jlee.3326.7,5,1,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
87 
jlee.3321.6,jlee.3326.7,6,0,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
88 
jlee.3321.6,jlee.3326.7,7,0,3,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
89 
jlee.3321.6,jlee.3326.7,8,0,3,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
90 
jlee.3321.6,jlee.3326.7,9,0,3,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
91 
jlee.3321.6,jlee.3326.7,10,0,4,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
92 
jlee.3321.6,jlee.3326.7,11,1,4,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
93 
jlee.3321.6,jlee.3326.7,12,0,4,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
94 
jlee.3321.6,jlee.3326.7,13,0,4,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
95 
jlee.3321.6,jlee.3326.7,14,1,3,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
96 
jlee.3321.6,jlee.3326.7,15,0,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
97 
jlee.3321.6,jlee.3326.7,16,0,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
98 
jlee.3321.6,jlee.3326.7,17,1,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
99 
jlee.3321.6,jlee.3326.7,18,1,3,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
100 
jlee.3321.6,jlee.3326.7,19,1,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
101 
jlee.3321.6,jlee.3326.7,20,1,2,,jlee.3326.7,QuestionTypeMultiple choice,Question jlee.3326.6," If one strand of a DNA molecule has the sequence of bases 5� ATTGCA 3�, the complementary strand would have the sequence",A. 3� TUUCGU 5�,B. 3� TAACGT 5�,C. 3� UAACGU 5�,D. 5� TAACGT 3�,E. 5� TAAGCT 3�,bloom,Knowledge
102 
jlee.3321.6,jlee.3327.7,1,0,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
103 
jlee.3321.6,jlee.3327.7,2,0,3,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
104 
jlee.3321.6,jlee.3327.7,3,0,4,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
105 
jlee.3321.6,jlee.3327.7,4,0,1,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
106 
jlee.3321.6,jlee.3327.7,5,0,3,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
107 
jlee.3321.6,jlee.3327.7,6,1,4,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
108 
jlee.3321.6,jlee.3327.7,7,0,1,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
109 
jlee.3321.6,jlee.3327.7,8,0,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
110 
jlee.3321.6,jlee.3327.7,9,0,4,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
111 
jlee.3321.6,jlee.3327.7,10,0,1,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
112 
jlee.3321.6,jlee.3327.7,11,1,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
113 
jlee.3321.6,jlee.3327.7,12,0,3,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
114 
jlee.3321.6,jlee.3327.7,13,0,4,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
115 
jlee.3321.6,jlee.3327.7,14,1,3,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
116 
jlee.3321.6,jlee.3327.7,15,1,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
117 
jlee.3321.6,jlee.3327.7,16,0,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
118 
jlee.3321.6,jlee.3327.7,17,1,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
119 
jlee.3321.6,jlee.3327.7,18,0,3,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
120 
jlee.3321.6,jlee.3327.7,19,1,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
121 
jlee.3321.6,jlee.3327.7,20,1,2,,jlee.3327.7,QuestionTypeMultiple choice,Question jlee.3327.6, The above figure best illustrates,A. � 1-4 linkages in cellulose.,B. the primary structure of a protein.,C. the twisting of a fatty acid chain.,D. the secondary structure of a protein.,E. the double helix of DNA.,nbii,Proteins
122 
jlee.3321.6,jlee.3328.7,1,0,1,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
123 
jlee.3321.6,jlee.3328.7,2,0,1,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
124 
jlee.3321.6,jlee.3328.7,3,0,1,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
125 
jlee.3321.6,jlee.3328.7,4,0,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
126 
jlee.3321.6,jlee.3328.7,5,0,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
127 
jlee.3321.6,jlee.3328.7,6,0,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
128 
jlee.3321.6,jlee.3328.7,7,1,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
129 
jlee.3321.6,jlee.3328.7,8,0,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
130 
jlee.3321.6,jlee.3328.7,9,0,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
131 
jlee.3321.6,jlee.3328.7,10,0,4,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
132 
jlee.3321.6,jlee.3328.7,11,0,4,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
133 
jlee.3321.6,jlee.3328.7,12,1,4,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
134 
jlee.3321.6,jlee.3328.7,13,0,4,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
135 
jlee.3321.6,jlee.3328.7,14,0,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
136 
jlee.3321.6,jlee.3328.7,15,1,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
137 
jlee.3321.6,jlee.3328.7,16,0,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
138 
jlee.3321.6,jlee.3328.7,17,1,4,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
139 
jlee.3321.6,jlee.3328.7,18,0,3,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
140 
jlee.3321.6,jlee.3328.7,19,0,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
141 
jlee.3321.6,jlee.3328.7,20,1,2,,jlee.3328.7,QuestionTypeMultiple choice,Question jlee.3328.6," In complementary base pairing, a purine always pairs with",A. another purine,B. a pyrimidine,C. a monosaccharide,D. a phosphate,E. a carboxyl group,,Purine
142 
jlee.3321.6,jlee.3329.7,1,0,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
143 
jlee.3321.6,jlee.3329.7,2,0,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
144 
jlee.3321.6,jlee.3329.7,3,0,4,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
145 
jlee.3321.6,jlee.3329.7,4,0,1,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
146 
jlee.3321.6,jlee.3329.7,5,0,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
147 
jlee.3321.6,jlee.3329.7,6,0,4,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
148 
jlee.3321.6,jlee.3329.7,7,0,1,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
149 
jlee.3321.6,jlee.3329.7,8,1,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
150 
jlee.3321.6,jlee.3329.7,9,0,4,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
151 
jlee.3321.6,jlee.3329.7,10,0,1,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
152 
jlee.3321.6,jlee.3329.7,11,0,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
153 
jlee.3321.6,jlee.3329.7,12,1,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
154 
jlee.3321.6,jlee.3329.7,13,0,4,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
155 
jlee.3321.6,jlee.3329.7,14,0,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
156 
jlee.3321.6,jlee.3329.7,15,1,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
157 
jlee.3321.6,jlee.3329.7,16,0,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
158 
jlee.3321.6,jlee.3329.7,17,1,4,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
159 
jlee.3321.6,jlee.3329.7,18,0,3,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
160 
jlee.3321.6,jlee.3329.7,19,0,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
161 
jlee.3321.6,jlee.3329.7,20,1,2,,jlee.3329.7,QuestionTypeMultiple choice,Question jlee.3329.6, Which description of the �ends� of each molecule is correct?,A. Protein: free carboxyl and free amino,B. RNA: 5' OH and 3' PO4,C. Phospholipid: hydrophilic �tail� and hydrophobic �head�,D. DNA: parallel ends,,bloom,Application
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