SI Worksheet 10 1. What does coupling reactions mean? The
... 14. Another word for a non-protein organic molecule is ______________. What is an example of one? Coenzymes, NAD+) “nicotinamide adenine dinucleotide”, they help enzymes do their thing 15. What is an important example of a cofactor in the body? Mg 2+, most of the cofactors are metal ions that are i ...
... 14. Another word for a non-protein organic molecule is ______________. What is an example of one? Coenzymes, NAD+) “nicotinamide adenine dinucleotide”, they help enzymes do their thing 15. What is an important example of a cofactor in the body? Mg 2+, most of the cofactors are metal ions that are i ...
Unit1-KA5-Revision
... complementary to that of its specific substrate. 5-Explain the word “specific” as Each enzyme only works on one substrate because the applied to enzymes and their shape of the active site is only complementary to substrate that of its specific substrate. E.g. Amylase only breaks down starch. Enzymes ...
... complementary to that of its specific substrate. 5-Explain the word “specific” as Each enzyme only works on one substrate because the applied to enzymes and their shape of the active site is only complementary to substrate that of its specific substrate. E.g. Amylase only breaks down starch. Enzymes ...
Modified and Modifying Enzymes
... Restriction Enzymes • In the bacterial strain EcoR1, the sequence GAATTC will be methylated at the internal adenine base (by the EcoR1 methylase). • The EcoR1 endonuclease within the same bacteria will not cleave the methylated DNA. • Foreign viral DNA, which is not methylated at the ...
... Restriction Enzymes • In the bacterial strain EcoR1, the sequence GAATTC will be methylated at the internal adenine base (by the EcoR1 methylase). • The EcoR1 endonuclease within the same bacteria will not cleave the methylated DNA. • Foreign viral DNA, which is not methylated at the ...
Genetic Engineering
... distinguish between individuals of the same species using only samples of their DNA • Unless they are identical twins, individual organisms all have unique DNA. • The chemical structure of the DNA may be the ...
... distinguish between individuals of the same species using only samples of their DNA • Unless they are identical twins, individual organisms all have unique DNA. • The chemical structure of the DNA may be the ...
1.2.3.A DNAAnalysisF - Clayton School District
... DNA sequences from different suspects do not get mixed up. 5. Use your scissors (which represent the HaeIII restriction enzyme) to cut one of the DNA samples. Only cut your DNA samples when you see the pattern GGCC. Cut between the G and C. 6. Count the number of base pairs (bp) in each DNA fragment ...
... DNA sequences from different suspects do not get mixed up. 5. Use your scissors (which represent the HaeIII restriction enzyme) to cut one of the DNA samples. Only cut your DNA samples when you see the pattern GGCC. Cut between the G and C. 6. Count the number of base pairs (bp) in each DNA fragment ...
DNA to Proteins….a REVIEW
... 8. The amino acid ________________________ is represented by ACA. 9. __________ and __________ are mRNA codons for phenylalanine. 10. The genetic code is said to be universal because a codon represents the same ____________________________ in all organisms. ...
... 8. The amino acid ________________________ is represented by ACA. 9. __________ and __________ are mRNA codons for phenylalanine. 10. The genetic code is said to be universal because a codon represents the same ____________________________ in all organisms. ...
DNA and Central Dogma Study Guide
... c) Circle the bases that are purines. Square the bases that are pyrimidines. 2. What are the base paring rules? 3. Draw and label a nucleotide. 4. What term is used to describe the shape of DNA? Why? 5. What is the backbone of DNA made up of? 6. a) Label the sugars, phosphates, and missing bases in ...
... c) Circle the bases that are purines. Square the bases that are pyrimidines. 2. What are the base paring rules? 3. Draw and label a nucleotide. 4. What term is used to describe the shape of DNA? Why? 5. What is the backbone of DNA made up of? 6. a) Label the sugars, phosphates, and missing bases in ...
Notes - The University of Sydney
... Exonucleases “chew” from the ends of the nucleic acid. Endonucleases eg. Restriction enzymes, cleave internal phosphodiester bonds and are usually sequence specific. There are 3 types of restriction enzymes; types I, II and III. These enzymes are produced by certain species of bacteria to restrict b ...
... Exonucleases “chew” from the ends of the nucleic acid. Endonucleases eg. Restriction enzymes, cleave internal phosphodiester bonds and are usually sequence specific. There are 3 types of restriction enzymes; types I, II and III. These enzymes are produced by certain species of bacteria to restrict b ...
Supramolecular Factories Inspired by Processive Enzymes
... A vital feature of the efficiency for DNA replication is the ability to replicate many unique DNA strands simultaneously. Likewise, DTS also has the ability to synthesize multiple products in a single solution, as the chemical sequences of individual products are dependent on individual DNA template ...
... A vital feature of the efficiency for DNA replication is the ability to replicate many unique DNA strands simultaneously. Likewise, DTS also has the ability to synthesize multiple products in a single solution, as the chemical sequences of individual products are dependent on individual DNA template ...
notes File - selu moodle
... Used in DNA fingerprinting, genetic engineering, & forensic science for tests such as: Paternity testing Personal identification Sex determination Species exclusion ...
... Used in DNA fingerprinting, genetic engineering, & forensic science for tests such as: Paternity testing Personal identification Sex determination Species exclusion ...
Bio 102 Practice Problems
... 9. Suppose you want to clone the gene for human Hexokinase, so that you can use bacteria to produce the protein and obtain it in pure form for further study of its activity. a. Your first task is to isolate the hexokinase gene from the human genome. Assuming you have some human DNA on hand and acce ...
... 9. Suppose you want to clone the gene for human Hexokinase, so that you can use bacteria to produce the protein and obtain it in pure form for further study of its activity. a. Your first task is to isolate the hexokinase gene from the human genome. Assuming you have some human DNA on hand and acce ...
