1 starting with datp and dctp draw the synthesis of d(ac) dinucleotide. 2 draw the guanine nucleobase and label all possible H- bond donors and H - bond acceptors 3 Name three types of RNA and briefly describe how each function
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1 starting with datp and dctp draw the synthesis of d(ac) dinucleotide.
2 draw the guanine nucleobase and label all possible H- bond donors and H - bond acceptors
3 Name three types of RNA and briefly describe how each function
4 The overall structure of dna is double helical and the bases between each strand from Watson Crick base pairs. Why does RNA make such different structure give two examples
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- Using Figures 8.7 and 8.9 as a guide, draw a dinucleotide composed of C and A. Next to this, draw the complementary dinucleotide in an antiparallel fashion. Connect the dinucleotides with the appropriate hydrogen bonds. FIGURE 8.9 The two polynucleotide chains in DNA run in opposite directions. The left strand runs 5 to 3, and the right strand runs 3 to 5. The base sequences in each strand are complementary. An A in one strand pairs with a T in the other strand, and a C in one strand is paired with a G in the opposite strand. FIGURE 8.7 Nucleotides can be joined together to form chains caled polynucleotides. Polynucleotides are polar molecules with a 5 end (at the phosphate group) and a 3 end (at the sugar group). An RNA polynucleotide is shown at the left, and a DNA polynucleotide is shown at the right.DNA 5' ATGGCTTCTCAATACTGCTTTGTTTTGGTT 3' template strand 3' TACCGAAGAGTTATGACGAAACAAAACCAA 5' coding strand Write down the sequence of nucleotides in a fragment of an m-RNA molecule that will be produced based on the information in the DNA fragment above (start with 5' and end with 3'). If you separate codons in MRNA with blank spaces, it will be easier to do the next step. MRNA: 5' Using a three-letter code for amino acids write the sequence of the first ten amino acids of the protein pectate lyase (refer to the table of 64 codons from a lecture or a textbook).1.Calculate the average number of nucleotide pair per micrometer of DNA double helix using the dimensions proposed by Watson and Crick. 2. Considering the number of base pairs, compute for the actual length of the given DNA strand in micrometer. (1m = 10,000Ao) 3' C G A C T A C 5' 5' G C T G A T G 3'
- 1 the overall structure of DNA is double helical and the bases between each strand form watson- crick base pairs. why does RNA make such different structure give atleast two examples. 2Draw a generic triacylgylcerol. Use R for the alkyl groups.10.) Draw a double-stranded DNA molecule (using different colors for each) model should clearly represent the sequence: A G T A C C G G G C A A Note: It should include items to represent - sugar molecules - phosphate molecules - 4 distinct nitrogenous base molecules (Adenine, Thymine, Cytosine, and Guanine) - two types of bonds between these molecules1. Which one of these indicated groups or bonds: hydroxyl; phosphate; triphosphate; nitrogen base; phosphodiester bond; hydrogen bond; is present in each of the following cases: The 3' position of the last nucleotide added to the leading strand. (a) (b) The 5' position of the first nucleotide of a RNA primer. (c) The 5' position of the first deoxyribonucleotide incorporated into an Okazaki fragment. The 3' position of the last nucleotide of the RNA primer in an Okazaki fragment. (e) The 5' position of any of the deoxyribonucleotides before incorporation.
- What are the complementary base pairs in DNA-RNA interactions? Answer format: Base 1(one letter symbol)-Base 2 (one letter symbol, or B-B*(hypothetical N-base) In the lengthening of a polynucleotide chain, which type of nucleotide subunit (name please not the formula) would bond to its 3’ end? How many 3’,5’-phosphodiester linkages are present in a tetranucleotide segment of a nucleic acid?Draw the structure of the RNA dinucleotide formed between cytidine-5’-monophosphate and adenosine-5’-monophosphate. Your structure should show cytidine with a free 5’ and adenosine with a free 3’.Suppose the following base sequence was found in a 20-base DNA polymer. 3'CAGTTACGGCTCCTAGGTTATAATTCGTTTC 5' a. What would be the first 5 bases at the 3' end of the complementary strand? b. What would be the first 10 bases at the 5' end of the complementary strand? c. Assuming the presence of the complementary strand, what is the percentage composition of the polymer with respect to the A-T base pair? with respect to the G-C base pair? d. In the given segment in problem 1, illustrate and indicate the direction of the synthesis of: i. a 5-nucleotide RNA primer ii. a 5-nucleotide Okazaki fragment
- 5’ - A T G G C C C A A C T G A C C - 3’ a. How many nucleotides are listed here b. How many codons are listed here c. What are the three structural components of one nucleotide D.Write the appropriate sequence for the complementary strand above or below the sequence shown. Be sure to include which end of the complementary strand is 5’ and which end is 3 E.If the above sequence is the coding strand, write the RNA strand that will be transcribedGiven the following eukaryotic DNA strand, transcribe and translate the DNA into a polypeptide using the 3’ – 5’ strand as the template. use drawings, diagrams, colours and annotations to describe how the DNA strand will be synthesized into a functional protein. 5’ - TATAAAAASSMSBMDATGSBDCCMBDBAATBSMDSTGTGTCCTMSBAG – 3’ (KEY: The letters SBMD are “made up” nucleic acids that depict non-coding regions in the DNA, hypothetically S pairs with B and M pairs with D).2A Draw the complete structure of the trinucleotide 5'-A-G-C-3' (DNA).