The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A

The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A The ptp cat intermediate is formed at template residues 4 6. (a) formation of the ptp dnmp complex using a template mutated at position 6 (a6c) and one of the [cx 32p]dntps,. We explain these results by assuming that a ptp cat intermediate is formed from bases 4 6, which subsequently jumps back to position 1 to start elongation, leading to the observed length of 26 nucleotides.

The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A Our results support a model in which the ptp cat intermediate, synthesized opposite to positions 4 6, jumps back to position 1 of the template to start elongation. in order to permit elongation, some base pairing between ptp cat and template residues 1 3 is required. Our results support a model in which the ptp‐cat intermediate, synthesized opposite to positions 4‐6, jumps back to position 1 of the template to start elongation. in order to permit elongation, some base pairing between ptp‐cat and template residues 1‐3 is required. Our results support a model in which the ptp cat intermediate, synthesized opposite to positions 4 6, jumps back to position 1 of the template to start elongation. in order to permit. After coupling of the first dctp, two additional nucleotides are added, forming a ptp–cat intermediate using an internal gta triplet at positions 4–6 as a template.

The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A Our results support a model in which the ptp cat intermediate, synthesized opposite to positions 4 6, jumps back to position 1 of the template to start elongation. in order to permit. After coupling of the first dctp, two additional nucleotides are added, forming a ptp–cat intermediate using an internal gta triplet at positions 4–6 as a template. This is directly followed by coupling of two additional nucleotides, a and t, forming a ptp cat intermediate. instead of nucleotides at the very end of the template strand, an internal gta triplet at position 4–6 is used as template. Ad pol initiates replication opposite the fourth base of the template strand and synthesizes a ptp cat intermediate. for elongation to occur, this intermediate jumps back to be paired with template residues 1–3, after which ptp dissociates from ad pol and elongation starts (3, 4). After synthesis of the trinucleotide intermediate ptp‐cat, the template strand slides back along the ptp pol complex to pair cat with the three 3′ terminal genome nucleotides (6). After initiation of ad replication, the resulting ptp trinucleotide intermediate jumps back and ptp starts to dissociate. compared to free ad pol, the ptp pol complex shows reduced polymerase and exonuclease activities, but the reason for this is not understood.

The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A This is directly followed by coupling of two additional nucleotides, a and t, forming a ptp cat intermediate. instead of nucleotides at the very end of the template strand, an internal gta triplet at position 4–6 is used as template. Ad pol initiates replication opposite the fourth base of the template strand and synthesizes a ptp cat intermediate. for elongation to occur, this intermediate jumps back to be paired with template residues 1–3, after which ptp dissociates from ad pol and elongation starts (3, 4). After synthesis of the trinucleotide intermediate ptp‐cat, the template strand slides back along the ptp pol complex to pair cat with the three 3′ terminal genome nucleotides (6). After initiation of ad replication, the resulting ptp trinucleotide intermediate jumps back and ptp starts to dissociate. compared to free ad pol, the ptp pol complex shows reduced polymerase and exonuclease activities, but the reason for this is not understood.

The Ptp Cat Intermediate Is Formed At Template Residues 4 6 A After synthesis of the trinucleotide intermediate ptp‐cat, the template strand slides back along the ptp pol complex to pair cat with the three 3′ terminal genome nucleotides (6). After initiation of ad replication, the resulting ptp trinucleotide intermediate jumps back and ptp starts to dissociate. compared to free ad pol, the ptp pol complex shows reduced polymerase and exonuclease activities, but the reason for this is not understood.