In the template strand direction towards the promoter

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This template strand is called the noncoding strand. The. DNA is double-stranded, but only one strand serves as a template for transcription at any given time. This .... The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand).Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene.Oct 26, 2010. ldhykv
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The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or "Antisense strand" runs in 3'- 5' direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of.

The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand). Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene.. Promoter sequences define the direction of transcription and indicate the DNA strand that will be transcribed. The strand which is from 5'-3' is the non-template strand and the strand.

The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand). Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene..

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The promoter is located towards the 5’ end of the structural gene with respect to the template strand. 2. The promoter is located towards the 3’ end of the structural gene with respect to the template strand. 3. The terminator is located towards the 3’ end of the structural gene with respect to the template strand. 4.. For long RNAs, the cDNA sequence together with the upstream promoter can be either subcloned from an available DNA template into a suitable plasmid or directly custom gene synthesized. Using the plasmid as a template, double-stranded DNA templates containing the promoter can be further prepared by PCR at large scale for in vitro transcription. Stephen Quake is the Lee Otterson Professor of Bioengineering and Professor of Applied Physics at Stanford University and is co-President of the Chan Zuckerberg Biohub. He received a B.S. in Physics and M.S. in Mathematics from Stanford University in 1991 and a doctorate in Theoretical Physics from the University of Oxford in 1994. As in DNA replication, RNA is synthesized in the 5′ —> 3′ direction. The DNA template strand is read 3′ -> 5′ by RNA polymerase and the new RNA strand is synthesized in the 5′ -> 3′ direction. RNA polymerase binds to the 3′ end of a gene (promoter) on the DNA template strand and travels toward the 5′ end.

Jul 07, 2022 · Template strand or “Antisense strand” runs in 3′- 5′ direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of the 3′ end of the template strand. From this sequence it cannot be determined how far the promoter would be from the 5′ end of the mRNA..

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one of two ends of a single linear strand of dna or rna, specifically the end at which the chain of nucleotides terminates at the third carbon atom in the furanose ring of deoxyribose or ribose (i.e. the terminus at which the 3' carbon is not attached to another nucleotide via a phosphodiester bond; in vivo, the 3' carbon is often still bonded to.

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Sep 12, 2021 · There is an area on the template DNA strand right before the gene of interest that is called the promoter region. This area has recognition sites that transcription factors and RNA polymerase....

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The stencil line is directed in the 5'-3'-direction. Coding strand is directed in 3 'to 5'. ... together with the sequences of the promoter, can be used by bioinformatic tools to predict genes by the ab initio method ... The coding strand is directed in the 3 'to 5' direction. transcription. Template strand: The template strand is. So the promoter region always comes before the coding region. It serves as a spot for the transcription apparatus to find Thio and also lets it know which strand is the template. Strand, The promoter is never transcribed into RNA, and the start site for the coding region will come directly after the promoter. This template strand is called the noncoding strand. The nontemplate strand is referred to as the coding strand because its sequence will be the same as that of the new RNA molecule. In. The register of the modeled snRNA promoter is defined by the nucleotide on the non-template (NT) strand at the upstream edge of TBP binding site starting at -30 nt, ascending in the 5′ to 3.

Promoter RNA pol In which direction will RNA polymerase read the template strand from BIS 2A 001 at University of California, Davis.. The promoter is located towards the 3’ end of the structural gene with respect to the template strand.3. The terminator is located towards the 3’ end of the structural gene with respect to the template strand.4. The terminator is located towards the 5’ end of the structural gene with respect to the template strand.The correct statements are:. The stencil line is directed in the 5'-3'-direction. Coding strand is directed in 3 'to 5'. ... together with the sequences of the promoter, can be used by bioinformatic tools to predict genes by the ab initio method ... The coding strand is directed in the 3 'to 5' direction. transcription. Template strand: The template strand is. Promoter RNA pol In which direction will RNA polymerase read the template strand from BIS 2A 001 at University of California, Davis..

Vocabulary- Transcription 1. Enzyme that uses a DNA template to copy a strand of RNA-RNA polymerase 2. Section of a gene where the RNA polymerase binds. It is not transcribed. -Promoter 3. Molecule made up of (usually a single) strand of nucleotides (A, C, U, G) -RNA 4. Segment of a gene that indicates the RNA polymerase to stop copying..

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Medicine is in one direction, health is in the other. ... , sanitized and approved by the medical establishment often extends to the promoter of the new invention. ... When we begin making water a big part of our lifestyle, we take our first steps toward true health. All life springs from water. We evolved from the sea.

The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand).Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene.Oct 26, 2010.

They are located upstream at the 5' end of the transcription initiation site in the structural gene. Promoter sequences define the direction of transcription and indicate the DNA strand that will be transcribed. The strand which is from 5'-3' is the non-template strand and the strand which runs from 3'-5' is known as the template strand. The template strand acts as a base for transcribing the mRNA and the others determines the appropriate base sequence for the mRNA. It actually acts as a template for the.

Oct 15, 2022 · The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or “Antisense strand” runs in 3'- 5' direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of ....

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Okazaki fragments are formed on the lagging strand for the synthesis of DNA in a 5′ to 3′ direction towards the replication fork. ... The ligase enzyme joins the Okazaki fragments together, making one strand.. During transcription, RNA Pol II binds to the non-coding template strand, reads the anti-codons, and transcribes their sequence to synthesize an RNA transcript with complementary bases. By convention, the coding strand is the strand used when displaying a DNA sequence. It is presented in the 5' to 3' direction. The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or “Antisense strand” runs in 3'- 5' direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of. Normally a coding strand of the gene runs from 5' to 3' direction. When it is transcribed, it produces an mRNA strand into the same direction 5' to 3'. During the transcription, 3' to 5' antisense strand is served as the template strand and initiates the mRNA synthesis. There is a transcription initiation site in the gene.

The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or “Antisense strand” runs in 3'- 5' direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of .... A template strand is the term that refers to the strand used by DNA polymerase or RNA polymerase to attach complementary bases during DNA replication or RNA transcription, respectively; either molecule moves down the strand in the 3′ to 5′ direction, and at each subsequent base, it adds the complement of the current Do you read DNA from 5 to 3?. The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or “Antisense strand” runs in 3'- 5' direction, opposite to the coding strand. Is the promoter located to the left of the template strand? Answer: The promoter is located to the left (upstream) of ....

Synthesis proceeds to the 3'end. Template is upper strand.; Synthesis proceeds to the 5' end. Template is lower strand.; Synthesis proceeds to the 5'end. Template is lower strand, Synthesis proceeds to the 3' end..

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A template strand is the term that refers to the strand used by DNA polymerase or RNA polymerase to attach complementary bases during DNA replication or RNA transcription, respectively; either molecule moves down the strand in the 3′ to 5′ direction, and at each subsequent base, it adds the complement of the current Do you read DNA from 5 to 3?.

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essential eukaryotic promoter sequence involved in binding transcription factors: ... nucleotides following the initiation site in the direction of mRNA transcription in general, sequences that are toward the 3' end relative to a site on the mRNA ... template strand: strand of DNA that specifies the complementary mRNA molecule:.

Jul 07, 2022 · What is the polarity of template strand? Complete answer: The template strand runs in a 3′ to 5′ direction. The strand of DNA not used as a template for transcription is called the coding strand, because it corresponds to the same sequence as the mRNA that will contain the codon sequences necessary to build proteins. Which is the coding strand?. During DNA * replication, double-stranded DNA molecules separate, and the cellular machinery uses each strand as a template for the synthesis of a new strand resulting in the formation of two identical copies of the original double-stranded molecule.. Dec 04, 2021 · The template strand is responsible for the amino acid sequence in synthesizing the polypeptide chain. The main difference between template and coding strand is that template strand only serves as the template for transcription whereas coding strand contains the exact same sequence of nucleotides in the mRNA except thymine. This article looks at .... Depending on the promoter, either strand of DNA can be used as the template strand. Which strand has the promoter sequence? sense strand Promoter sequences define the direction.

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Template strand is the DNA strand that acts as a template for RNA synthesis while the other strand is called coding strand. The key difference between these two strands is that template strand possesses the opposite base sequence of RNA while coding strand possesses the same base sequence of RNA (with the exception of thymine instead uracil ).

10/21/22, 12:37 PM Homework 3B: Attempt review 3/6 Question Complete 4.00 points out of 4.00 1.00 points out of 1.00 The figure below shows a replication fork. In which direction does the replication fork move as DNA replication occurs? 2 Question 3 Complete 1.00 points out of 1.00 The figure below shows a replication fork. In which direction does the replication fork move as. Strength refers to the ability of the promoter to initiate transcription as defined by the RNA polymerase leaving the promoter and beginning synthesis of a full length transcript. Strong and weak promoters can differ 1000 fold. Eukaryotic Promoter Protein-encoding Gene. Operon - a lot of genes controlled by a single promoter.

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The direction of the template strand is in 3’ to 5’, whereas the coding strand shows opposite directional polarity, i.e. 5’ to 3’ direction. The RNA polymerase reads the non-coding or template strand from the 3’-5’ direction and polymerizes the RNA transcript by adding complementary nucleotides relative to the template strand. The template strand is always read in the 3’ → 5’ direction. The template strand is the complimentary copy of the mRNA in its nucleotide base pair sequence. The other strand is called the coding strand. This coding strand is likThe template strand is also known as the anti-sense strand. It runs in the three prime (3’) to five prime (5’) direction.. currently, three types of known structures of this domain exist: (i) the highly similar structures, as solved for b. subtilis and e. coli, consisting of three helices (hi to hiii) packed in antiparallel manner ( 8, 10 ); (ii) the structure from t. maritima, where hi packs perpendicularly to hii and hiii ( 9 ); and (iii) the possibly disordered. An elegant genetic assay was designed by Bob Lahue in S. cerevisiae, taking advantage of the fact that the S. pombe ADH1 promoter exhibits specific spacing requirements to function in budding yeast. A CTG trinucleotide repeat was integrated in this promoter and the ADE8 gene was used as a reporter in a colony color assay.

This template strand is called the noncoding strand. The. DNA is double-stranded, but only one strand serves as a template for transcription at any given time. This ....

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Cell division Gene expression The entire template strand is copied. |Only the portion of the template DNA that codes for required genes is transcribed, or copied. The two strands are separated and In transcription, the codons of a then each strand's complementary gene are copied into messenger. 3 Attachments.. The sequence of the RNA polymer is complementary to that of the template DNA and is synthesized in a 5'→ 3′ orientation. This RNA strand is called the primary transcript and needs to be processed before it can be functional inside the cell. RNA polymerases interact with many proteins in order to accomplish their task. Nov 18, 2022 · Such run-off will occur if the product of G1 replication, which is used as the template for S-phase replication, contains DNA nicks (single-strand breaks) or gaps..

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The template strand runs in a 3’ to 5’ direction. The strand of DNA not used as a template for transcription is called the coding strand, because it corresponds to the same sequence as the mRNA that will contain the codon sequences necessary to build proteins. The coding strand is also called the sense strand.. Human respiratory syncytial virus (RSV) is without doubt one of the main causes of childhood acute decrease respiratory tract an infection worldwide. Related Assertion: The terminator is located towards 3' end of the coding strand and it usually defines the end of the process of transcription. Reason : During transcription, the.

one of two ends of a single linear strand of dna or rna, specifically the end at which the chain of nucleotides terminates at the third carbon atom in the furanose ring of deoxyribose or ribose (i.e. the terminus at which the 3' carbon is not attached to another nucleotide via a phosphodiester bond; in vivo, the 3' carbon is often still bonded to.

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Jul 07, 2022 · What is the polarity of template strand? Complete answer: The template strand runs in a 3′ to 5′ direction. The strand of DNA not used as a template for transcription is called the coding strand, because it corresponds to the same sequence as the mRNA that will contain the codon sequences necessary to build proteins. Which is the coding strand?. Based the growing RNA chain and the template DNA strand that would other- on the number of genes found in C. elegans and D. melanogaster it wise lead to double strand break and genomic instability [30]. ... the yeast splicing complex Prp19 was found to be along the gene in a 5′ to 3′ direction, synthesizing an alternation of necessary for. What is the polarity of template strand? Complete answer: The template strand runs in a 3′ to 5′ direction. The strand of DNA not used as a template for transcription is. (i) A subset of promoter interactions are maintained through completion of the protein conformational (twist) change, and (ii) concerted movement (shift) of all promoter-binding elements away.

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The template strand acts as a base for transcribing the mRNA and the others determines the appropriate base sequence for the mRNA. It actually acts as a template for the.

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11 years ago
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The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand).Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene.Oct 26, 2010. What is the initial target of RNA polymerase? a. the promoter b. the terminator region c. the template DNA a. the promoter RNA polymerase is guided by the.... a. RNA strand b. coding strand of DNA c. template strand of DNA c. template strand of DNA RNA that has hydrogen bonded to itself forms a ____. Stem loop.

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11 years ago
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This template strand is called the noncoding strand. The. DNA is double-stranded, but only one strand serves as a template for transcription at any given time. This .... Promoters can be very complex and work together with other DNA regions known as enhancers to ensure that you get good and robust transcription of that gene. It's been very interesting to study how DNA bends and puts the enhancer and the promoter in close proximity to initiate the transcription. This is an area that has really developed and. Things, Question asks. What is true about the elongation of the lagging street we have does not require a template. Strand produces Okazaki fragments, requires the action of our in a like case or proceeds by continually adding nucleotides to the three prime end so we can rule out choice in D because we know that D n a census for DNA replication occurs in the five prime to three prime direction. The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3' end of template strand = on 5' end of sense strand). Going along the sense strand, the way the gene is usually written (5' to 3', left to right) the promoter is "upstream" of the gene..

Resistance to chemo- and radiotherapy is a common event among cancer patients and a reason why new cancer therapies and therapeutic strategies need to be in continuous investigation and development. DNA damage response (DDR) comprises several pathways that eliminate DNA damage to maintain genomic stability and integrity, but different types of cancers are associated with DDR machinery defects.

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11 years ago
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The template strand is one of the DNA strands whose base sequence helps in building mRNA through complementary base sequencing. Template strand or “Antisense. promoter. Promoter sequences are DNA sequences that define where transcription of a gene by RNA polymerase begins. Promoter sequences are typically located directly upstream or at the 5' end of .... Dec 04, 2021 · The template strand is responsible for the amino acid sequence in synthesizing the polypeptide chain. The main difference between template and coding strand is that template strand only serves as the template for transcription whereas coding strand contains the exact same sequence of nucleotides in the mRNA except thymine. This article looks at ....

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11 years ago
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During DNA * replication, double-stranded DNA molecules separate, and the cellular machinery uses each strand as a template for the synthesis of a new strand resulting in the formation of two identical copies of the original double-stranded molecule..

Answer (1 of 2): The promoter is the binding site for RNA polymerase and basal transcription factors. RNA polymerase locates genes in DNA by searching for promoter regions.. DNA mismatch repair (MMR) is a system for recognizing and repairing erroneous insertion, deletion, and mis-incorporation of bases that can arise during DNA replication and recombination, as well as repairing some forms of DNA damage.. Mismatch repair is strand-specific. During DNA synthesis the newly synthesised (daughter) strand will commonly include errors.

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The dissociation of σ allows the core enzyme to proceed along the DNA template, synthesizing mRNA in the 5′ to 3′ direction at a rate of approximately 40 nucleotides per second. As elongation proceeds, the DNA is continuously unwound ahead of the core enzyme and rewound behind it (Figure 2).

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An elegant genetic assay was designed by Bob Lahue in S. cerevisiae, taking advantage of the fact that the S. pombe ADH1 promoter exhibits specific spacing requirements to function in budding yeast. A CTG trinucleotide repeat was integrated in this promoter and the ADE8 gene was used as a reporter in a colony color assay. The Structure of the Genetic Material (10–10) A series of experiments established DNA as the molecule of heredity. The Flow of Genetic Information from DNA to RNA to Protein (10–10) Genotype controls phenotype through the production of proteins. DNA Replication (10–10) Each DNA strand can serve as a template for another. BIG IDEAS.

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essential eukaryotic promoter sequence involved in binding transcription factors: ... nucleotides following the initiation site in the direction of mRNA transcription in general, sequences that are toward the 3' end relative to a site on the mRNA ... template strand: strand of DNA that specifies the complementary mRNA molecule:.

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10 years ago
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A template strand is the term that refers to the strand used by DNA polymerase or RNA polymerase to attach complementary bases during DNA replication or RNA transcription, respectively; either molecule moves down the strand in the 3' to 5' direction, and at each subsequent base, it adds the complement of the current .... Nov 18, 2022 · Such run-off will occur if the product of G1 replication, which is used as the template for S-phase replication, contains DNA nicks (single-strand breaks) or gaps..

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10 years ago
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A template strand is the term that refers to the strand used by DNA polymerase or RNA polymerase to attach complementary bases during DNA replication or RNA transcription, respectively; either molecule moves down the strand in the 3′ to 5′ direction, and at each subsequent base, it adds the complement of the current Do you read DNA from 5 to 3?.

Promoter is DNA sequence that provides binding site for RNA polymerase and it is the presence of a promoter in a transcription unit that defines the template and coding strand. It is located in the upstream of structural gene , and by convention it is called 5..

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9 years ago
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Reply to  Robert Farrington

Which strand is the promoter on? The promoter will be a double stranded sequence at the end of the gene where RNA polymerase starts (= on 3′ end of template strand = on 5′ end of sense strand). Going along the sense strand, the way the gene is usually written (5′ to 3′, left to right) the promoter is “upstream” of the gene..

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9 years ago
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The stencil line is directed in the 5'-3'-direction. Coding strand is directed in 3 'to 5'. ... together with the sequences of the promoter, can be used by bioinformatic tools to predict genes by the ab initio method ... The coding strand is directed in the 3 'to 5' direction. transcription. Template strand: The template strand is.

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Sigma binds to the promoter. (2) RNA Polymerase separates the DNA strands creating a Transcription Bubble. The template strand is threaded through a channel that leads to the active site inside RNA polymerase. Ribonucleoside triphosphates (NTPs)—the RNA building blocks—enter a channel in the enzyme and diffuse to the active site.

Okazaki fragments are formed on the lagging strand for the synthesis of DNA in a 5′ to 3′ direction towards the replication fork. ... The ligase enzyme joins the Okazaki fragments together, making one strand..

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9 years ago
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The DNA strand that mRNA is built from is called the template strand because it serves as a template for transcription. It is also called the antisense strand. The template strand runs in a 3' to 5' direction. Click to see complete answer. Also asked, does it matter which DNA strand is transcribed? Both the strands of a DNA can get transcribed.

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Template strand is the DNA strand that acts as a template for RNA synthesis while the other strand is called coding strand. The key difference between these two strands is that template strand possesses the opposite base sequence of RNA while coding strand possesses the same base sequence of RNA (with the exception of thymine instead uracil ). Jul 13, 2001 · At a consensus T7 promoter that directs initiation with +1 GGG T7 RNAP carries out an additional mode of RNA synthesis that involves slippage of the nascent transcript on the three C residues present in the template strand from +1 to +3, followed by incorporation of an additional G residue.16 Repeated cycles of this process result in the synthesis of poly(G) products ranging from two to 14 ....

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