8. Cytosine makes up 38% of the nocleotides in a sample of DNA from an organism. Approximately, what percentage of the nucleotides in this sample will be thymine? 9. b. (c.) d. e. The cellular process involving synthesis of DNA. Starts at the replication fork with unwinding of DNA, priming of the strands by Primase and synthesis of complementary DNA strand from template strand by DNA polymerase incorporation of complementary nucleotides on the leading and lagging strands and then proof-reading by DNA polymerase 1, excision of RNA primers and repair of okazaki fragments with DNA ligase to the finished lagging strand and completion of the 2 daughter stands of DNA Transcription Semi-conservative DNA replication a. b. 38 24 12 31 It cannot be determined from the information provided. C. Translation (d Meiosis e. Chromatin remodeling 10. Cellular process of gene expression or turning on a gene. Involves proteins binding to the upstream of the gene and recruiting RNA polymerase binding to the gene promoter sequence and synthesis of complementary (to the gene) messenger RNA: (a.) Transcription b. Semi-conservative DNA replication C. Translation d. Meiosis e. Chromatin remodeling

Human Anatomy & Physiology (11th Edition)
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8.
9.
percentage of the nucleotides in this sample will be thymine?
Cytosine makes up 38% of the nucleotides in a sample of DNA from an organism. Approximately, what
38
b. 24
C12
d. 31
It cannot be determined from the information provided.
e.
The cellular process involving synthesis of DNA. Starts at the replication fork with unwinding of DNA,
priming of the strands by Primase and synthesis of complementary DNA strand from template strand by
DNA polymerase incorporation of complementary nucleotides on the leading and lagging strands and then
proof-reading by DNA polymerase I, excision of RNA primers and repair of okazaki fragments with DNA
ligase to the finished lagging strand and completion of the 2 daughter stands of DNA
a. Transcription
b.
10. Cellular process of gene expression or turning on a gene. Involves proteins binding to the upstream of the
complementary (to the gene) messenger RNA:
gene and recruiting RNA polymerase binding to the gene promoter sequence and synthesis of
Transcription
Semi-conservative DNA replication
C.
d.
e.
C.
(d₂
e.
C
d.
e.
C.
d.
e.
a.
b.
C.
d.
e.
Semi-conservative DNA replication
11. Cellular process of protein synthesis. Involves the ribosome binding to the mRNA, locating the start signal
or first AUG triplet codon, recruitment of the complementary tRNAs with their attached amino acid and
formation of peptide bonds between adjacent amino acids to form a polypeptide (protein).
a.
Transcription
b.
Semi-conservative DNA replication
Translation
Meiosis
Chromatin remodeling
Translation
Meiosis
Chromatin remodeling
12. The genetic code is:
a.
Translation
Meiosisely
Chromatin remodeling
The three base (triplet) nucleotide sequence (copied from the gene DNA to mRNA) that
determines which amino acid is placed in the protein primary sequence during translation
b. The amino acid sequence used to replicate DNA
The nucleotide sequence of the promoter which begins transcription
The amino acid sequence of the histones
The ethics of using genetically modified organisms
13. A single eukaryotic gene may produce several proteins from different combinations of exons and the
removal of introns by the spliceosome complex due to:
replication
a.
b. RNA interference (RNAI)
translation
alternative splicing
poly A tail and methyl G capping
2
Transcribed Image Text:8. 9. percentage of the nucleotides in this sample will be thymine? Cytosine makes up 38% of the nucleotides in a sample of DNA from an organism. Approximately, what 38 b. 24 C12 d. 31 It cannot be determined from the information provided. e. The cellular process involving synthesis of DNA. Starts at the replication fork with unwinding of DNA, priming of the strands by Primase and synthesis of complementary DNA strand from template strand by DNA polymerase incorporation of complementary nucleotides on the leading and lagging strands and then proof-reading by DNA polymerase I, excision of RNA primers and repair of okazaki fragments with DNA ligase to the finished lagging strand and completion of the 2 daughter stands of DNA a. Transcription b. 10. Cellular process of gene expression or turning on a gene. Involves proteins binding to the upstream of the complementary (to the gene) messenger RNA: gene and recruiting RNA polymerase binding to the gene promoter sequence and synthesis of Transcription Semi-conservative DNA replication C. d. e. C. (d₂ e. C d. e. C. d. e. a. b. C. d. e. Semi-conservative DNA replication 11. Cellular process of protein synthesis. Involves the ribosome binding to the mRNA, locating the start signal or first AUG triplet codon, recruitment of the complementary tRNAs with their attached amino acid and formation of peptide bonds between adjacent amino acids to form a polypeptide (protein). a. Transcription b. Semi-conservative DNA replication Translation Meiosis Chromatin remodeling Translation Meiosis Chromatin remodeling 12. The genetic code is: a. Translation Meiosisely Chromatin remodeling The three base (triplet) nucleotide sequence (copied from the gene DNA to mRNA) that determines which amino acid is placed in the protein primary sequence during translation b. The amino acid sequence used to replicate DNA The nucleotide sequence of the promoter which begins transcription The amino acid sequence of the histones The ethics of using genetically modified organisms 13. A single eukaryotic gene may produce several proteins from different combinations of exons and the removal of introns by the spliceosome complex due to: replication a. b. RNA interference (RNAI) translation alternative splicing poly A tail and methyl G capping 2
8.
9.
percentage of the nucleotides in this sample will be thymine?
Cytosine makes up 38% of the nucleotides in a sample of DNA from an organism. Approximately, what
38
b. 24
C12
d. 31
It cannot be determined from the information provided.
e.
The cellular process involving synthesis of DNA. Starts at the replication fork with unwinding of DNA,
priming of the strands by Primase and synthesis of complementary DNA strand from template strand by
DNA polymerase incorporation of complementary nucleotides on the leading and lagging strands and then
proof-reading by DNA polymerase I, excision of RNA primers and repair of okazaki fragments with DNA
ligase to the finished lagging strand and completion of the 2 daughter stands of DNA
a. Transcription
b.
10. Cellular process of gene expression or turning on a gene. Involves proteins binding to the upstream of the
complementary (to the gene) messenger RNA:
gene and recruiting RNA polymerase binding to the gene promoter sequence and synthesis of
Transcription
Semi-conservative DNA replication
C.
d.
e.
C.
(d₂
e.
C
d.
e.
C.
d.
e.
a.
b.
C.
d.
e.
Semi-conservative DNA replication
11. Cellular process of protein synthesis. Involves the ribosome binding to the mRNA, locating the start signal
or first AUG triplet codon, recruitment of the complementary tRNAs with their attached amino acid and
formation of peptide bonds between adjacent amino acids to form a polypeptide (protein).
a.
Transcription
b.
Semi-conservative DNA replication
Translation
Meiosis
Chromatin remodeling
Translation
Meiosis
Chromatin remodeling
12. The genetic code is:
a.
Translation
Meiosisely
Chromatin remodeling
The three base (triplet) nucleotide sequence (copied from the gene DNA to mRNA) that
determines which amino acid is placed in the protein primary sequence during translation
b. The amino acid sequence used to replicate DNA
The nucleotide sequence of the promoter which begins transcription
The amino acid sequence of the histones
The ethics of using genetically modified organisms
13. A single eukaryotic gene may produce several proteins from different combinations of exons and the
removal of introns by the spliceosome complex due to:
replication
a.
b. RNA interference (RNAI)
translation
alternative splicing
poly A tail and methyl G capping
2
Transcribed Image Text:8. 9. percentage of the nucleotides in this sample will be thymine? Cytosine makes up 38% of the nucleotides in a sample of DNA from an organism. Approximately, what 38 b. 24 C12 d. 31 It cannot be determined from the information provided. e. The cellular process involving synthesis of DNA. Starts at the replication fork with unwinding of DNA, priming of the strands by Primase and synthesis of complementary DNA strand from template strand by DNA polymerase incorporation of complementary nucleotides on the leading and lagging strands and then proof-reading by DNA polymerase I, excision of RNA primers and repair of okazaki fragments with DNA ligase to the finished lagging strand and completion of the 2 daughter stands of DNA a. Transcription b. 10. Cellular process of gene expression or turning on a gene. Involves proteins binding to the upstream of the complementary (to the gene) messenger RNA: gene and recruiting RNA polymerase binding to the gene promoter sequence and synthesis of Transcription Semi-conservative DNA replication C. d. e. C. (d₂ e. C d. e. C. d. e. a. b. C. d. e. Semi-conservative DNA replication 11. Cellular process of protein synthesis. Involves the ribosome binding to the mRNA, locating the start signal or first AUG triplet codon, recruitment of the complementary tRNAs with their attached amino acid and formation of peptide bonds between adjacent amino acids to form a polypeptide (protein). a. Transcription b. Semi-conservative DNA replication Translation Meiosis Chromatin remodeling Translation Meiosis Chromatin remodeling 12. The genetic code is: a. Translation Meiosisely Chromatin remodeling The three base (triplet) nucleotide sequence (copied from the gene DNA to mRNA) that determines which amino acid is placed in the protein primary sequence during translation b. The amino acid sequence used to replicate DNA The nucleotide sequence of the promoter which begins transcription The amino acid sequence of the histones The ethics of using genetically modified organisms 13. A single eukaryotic gene may produce several proteins from different combinations of exons and the removal of introns by the spliceosome complex due to: replication a. b. RNA interference (RNAI) translation alternative splicing poly A tail and methyl G capping 2
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