1 Formation of phosphodiester bonds in nucleotides of new DNA
2 Formation of phosphodiester bonds in nucleotides of new RNA
3 Formation of phosphoester bonds in nucleotides of new DNA
4 Formation of N-glycosidic bonds in nucleotides of new DNA
Explanation:
DNA polymerase helps in formation of phosphodiester bonds in nucleotides of new DNA
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343037
In contrast to DNA Polymerase, RNA Primase
1 Synthesis of RNA primer that initiates DNA synthesis
2 Fills the gap between Okazaki fragment
3 Catalyses new strand in \(5^{\prime} \rightarrow 3^{\prime}\) direction
4 Checks & edits simultaneously during synthesis
Explanation:
In contrast to DNA Polymerase, RNA Primase, synthesis of RNA primer that initiates DNA synthesis
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343038
Match the columns I and II. Column I Column II A Replication fork P Polyploidy B Replication of DNA Q Small opening of the DNA helix C Failure in cell division after DNA replication R S-phase of the cell cycle
For long DNA molecules, since the two strands of DNA cannot be separated in its entire length (due to very high energy requirement), the replication occur within a small opening of the DNA helix, referred to as replication fork.
1 Formation of phosphodiester bonds in nucleotides of new DNA
2 Formation of phosphodiester bonds in nucleotides of new RNA
3 Formation of phosphoester bonds in nucleotides of new DNA
4 Formation of N-glycosidic bonds in nucleotides of new DNA
Explanation:
DNA polymerase helps in formation of phosphodiester bonds in nucleotides of new DNA
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343037
In contrast to DNA Polymerase, RNA Primase
1 Synthesis of RNA primer that initiates DNA synthesis
2 Fills the gap between Okazaki fragment
3 Catalyses new strand in \(5^{\prime} \rightarrow 3^{\prime}\) direction
4 Checks & edits simultaneously during synthesis
Explanation:
In contrast to DNA Polymerase, RNA Primase, synthesis of RNA primer that initiates DNA synthesis
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343038
Match the columns I and II. Column I Column II A Replication fork P Polyploidy B Replication of DNA Q Small opening of the DNA helix C Failure in cell division after DNA replication R S-phase of the cell cycle
For long DNA molecules, since the two strands of DNA cannot be separated in its entire length (due to very high energy requirement), the replication occur within a small opening of the DNA helix, referred to as replication fork.
1 Formation of phosphodiester bonds in nucleotides of new DNA
2 Formation of phosphodiester bonds in nucleotides of new RNA
3 Formation of phosphoester bonds in nucleotides of new DNA
4 Formation of N-glycosidic bonds in nucleotides of new DNA
Explanation:
DNA polymerase helps in formation of phosphodiester bonds in nucleotides of new DNA
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343037
In contrast to DNA Polymerase, RNA Primase
1 Synthesis of RNA primer that initiates DNA synthesis
2 Fills the gap between Okazaki fragment
3 Catalyses new strand in \(5^{\prime} \rightarrow 3^{\prime}\) direction
4 Checks & edits simultaneously during synthesis
Explanation:
In contrast to DNA Polymerase, RNA Primase, synthesis of RNA primer that initiates DNA synthesis
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343038
Match the columns I and II. Column I Column II A Replication fork P Polyploidy B Replication of DNA Q Small opening of the DNA helix C Failure in cell division after DNA replication R S-phase of the cell cycle
For long DNA molecules, since the two strands of DNA cannot be separated in its entire length (due to very high energy requirement), the replication occur within a small opening of the DNA helix, referred to as replication fork.
1 Formation of phosphodiester bonds in nucleotides of new DNA
2 Formation of phosphodiester bonds in nucleotides of new RNA
3 Formation of phosphoester bonds in nucleotides of new DNA
4 Formation of N-glycosidic bonds in nucleotides of new DNA
Explanation:
DNA polymerase helps in formation of phosphodiester bonds in nucleotides of new DNA
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343037
In contrast to DNA Polymerase, RNA Primase
1 Synthesis of RNA primer that initiates DNA synthesis
2 Fills the gap between Okazaki fragment
3 Catalyses new strand in \(5^{\prime} \rightarrow 3^{\prime}\) direction
4 Checks & edits simultaneously during synthesis
Explanation:
In contrast to DNA Polymerase, RNA Primase, synthesis of RNA primer that initiates DNA synthesis
BIOXII06: MOLECULAR BASIS OF INHERITANCE
343038
Match the columns I and II. Column I Column II A Replication fork P Polyploidy B Replication of DNA Q Small opening of the DNA helix C Failure in cell division after DNA replication R S-phase of the cell cycle
For long DNA molecules, since the two strands of DNA cannot be separated in its entire length (due to very high energy requirement), the replication occur within a small opening of the DNA helix, referred to as replication fork.
