5.4.1: Synthesis of a Protein Procedure 3. Transcribe the DNA into mRNA Sequence A: AGA AGG GAG GAU UUG CAA GGU GGC CAA GAA UUA GGC GGC GGU CCC GGG GCG GGG AGU CUU CAA CCA Sequence B: AGU CUG CAA AAA CGG GGC AUU GUU GAA CAA UGU UGU ACC AGU AUU UGC AGU CUC UAC CAG UUC GAG AAU UAC UGA Sequence C: AUG UUU GUA CAU UUG UGU GGG AGU CAC CUG GUU GAG CGU UGU AUU UGG UUU GUG GCG AGC GCG GCU UUU UCU AUA 4. Beginning sequence: Sequence C since it starts with AUG (the starting codon) Middle sequence:
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During protein digestion‚ a water molecule is added which breaks down the carbonyl-carbon-nitrogen sin the peptide bonds of proteins causing the liberation of amino acids. This process is referred to as proteolysis. Water molecules break down the carbonyl-carbon-nitrogen single bond (peptide bond) that holds single amino acid molecules together (Caroline Ritchie‚ 2013. This process is called hydrolysis and is catalysed by protease. The three main protease enzymes produced during digestion are pepsin
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CHEM120 Week 7 iLab: DNA‚ mRNA‚ and Protein (30 points) Name: Kaylee Klefman Complete the two questions below. Each question has four parts. This assignment is two pages long. Question 1: For the following double-stranded DNA sequence‚ -CATTGACCGTAA- -GTAACTGGCATT- Answer the following questions: a) Assume that RNA polymerase will read the top strand of DNA as the “template” to synthesize mRNA. What will be the sequence of the mRNA synthesized? (3 points) The new mrna
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DNA synthesis inhibitors Nucleic acid inhibitors are chemicals which inhibit the production of nucleic acids including both DNA and RNA. DNA and RNA inhibitors inhibit enzyme action in DNA replication in the same way as the topoisomerase inhibitors we discussed earlier. Topoisomerase inhibitors (1) (10) are chemicals which interfere with the enzymes that allow DNA strands to separate and to re-join‚ a process that is required for the division of bacteria and without which DNA cannot effectively
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Understanding the Functions of Proteins and DNA Ingrid Waldron‚ Biology Department‚ University of Pennsylvania‚ 2012 These key concepts and activities are suggested as part of an introductory unit on biological molecules (or as an introduction to a unit on molecular biology). The overarching goal is to help students understand that proteins and DNA are not just abstract concepts in biology textbooks but rather crucial components of our bodies that affect familiar functions and characteristics
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DATE: 11/10/12 COURSE CODE: BIOL 2365 Comparative Biochemistry TITLE: Proteins and Amino Acids RESULTS: Table 1: The results of experiment 1; the Lowry Test Volume of Standard Protein/ Unknown (mL) Absorbance at 750 nm 0 0.000 0.1 0.017 0.3 0.135 0.3 0.155 0.5 0.230 0.7 0.323 0.7 0.310 1.0 0.457 1.0 Unknown 1a 0.463 1.0 Unknown 1b 0.433 1.0 Unknown 2a 0.237 1.0 Unknown 2b 0.159 Table 2: The results of Experiment 2; Ninhydrin Test Amino acid Color X
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extra hydrogen bonds on top of each other‚ making extra-tough microfibrils that cannot be digested by most organisms. Proteins accomplish many different tasks‚ including structural support‚ storage‚ transport‚ movement‚ and defense against foreign substances. One noteworthy type of protein‚ called an enzyme‚ acts as a catalyst‚ speeding up chemical reactions in the cell. All proteins are composed of the same set of 20 amino acids‚ and each amino acid differs from the other only by the "R group" attached
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The investigation on the average mass of DNA with the mass of banana‚ strawberry and kiwi. Purpose: The purpose of this lab is to investigate the comparison between the amount of DNA per gram of fruit that can be extracted from a banana‚ strawberry and kiwi and to determine which one has more DNA. Hypothesis: The banana genome contains 837 MBPs and the strawberry genome contains 206 MBPs and the kiwi genome contains 128 MBPs. This states that there are more base pairs in a banana genome
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What is the function of non-coding DNA besides structural? There has been speculation about Non-coding’s function. Non-coding DNA has been said to be “Junk DNA” until scientists have found evidence for it having a structural function. More scientists are now trying to find more functions that Non-coding DNA might have. Non-coding DNA lies between genes on the Chromosome and does not code for amino acids. Regular DNA is also found in the Chromosome‚ but it does code for amino acids with help from
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RNA uses uracil instead of the thymine in DNA. DNA replicates itself and RNA is synthesized from RNA on an as-needed basis. Their stability and reaction is also different. DNA is more stable and less reactive than RNA because of the deoxyribose sugar’s C-H bonds. It is stable in alkaline conditions; DNA has smaller grooves‚ which makes it harder for enzymes to “attack.” RNA is more reactive because of the ribose sugar’s C-OH‚ hydroxyl‚ bonds. Unlike DNA‚ it is not stable in alkaline conditions and
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