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worksheet - Humble ISD
... ________ 1. Process of making RNA from DNA ________ 2. Cell location for translation ________ 3. Type of RNA that carries a disposable copy of DNA’s instructions ________ 4. Conversion of genetic code to a protein ________ 5. Structural component of ribosome; type of RNA ________ 6. Coding segments ...
... ________ 1. Process of making RNA from DNA ________ 2. Cell location for translation ________ 3. Type of RNA that carries a disposable copy of DNA’s instructions ________ 4. Conversion of genetic code to a protein ________ 5. Structural component of ribosome; type of RNA ________ 6. Coding segments ...
Chapter 9: DNA - Elmwood Park Memorial High School
... 4. Watson and Crick used the X-ray ____________________________ photographs of Wilkins and Franklin to build their model of DNA. 5. The process of making new DNA is called ________________________________. 6. The point at which the double helix separates during replication is called the ______ ...
... 4. Watson and Crick used the X-ray ____________________________ photographs of Wilkins and Franklin to build their model of DNA. 5. The process of making new DNA is called ________________________________. 6. The point at which the double helix separates during replication is called the ______ ...
15.3 Gene Technologies in Detail
... suspended in gel move through the gel because of an electric charge. a. The DNA forms “lanes.” b. Used to compare DNA, such as that of a suspect or a victim. ...
... suspended in gel move through the gel because of an electric charge. a. The DNA forms “lanes.” b. Used to compare DNA, such as that of a suspect or a victim. ...
Forensics_DNA Structure_2013
... acids in a particular protein. Protein- fundamental component of living cells ...
... acids in a particular protein. Protein- fundamental component of living cells ...
Test Topics and Study Questions for Unit 7 DNA and Protein
... 1. Given a template strand of DNA be able to replicate it using the base-pairing rules 2. Know where DNA replication occurs 3. Know what the roles DNA helicase and DNA polymerase enzymes are in replication. 4. Know why transcription must occur and where it occurs 5. Know how RNA is made through tran ...
... 1. Given a template strand of DNA be able to replicate it using the base-pairing rules 2. Know where DNA replication occurs 3. Know what the roles DNA helicase and DNA polymerase enzymes are in replication. 4. Know why transcription must occur and where it occurs 5. Know how RNA is made through tran ...
File - Biology with Radjewski
... Chi Square sex linked genetic problem. See example attached. DNA Structure and Replication (5 m/c) History of DNA o Griffith o Avery and MacLeod o Watson and Crick o Rosalind Franklin o Chargaff Know structure of DNA (diagram of DNA will be given) o Hydrogen bond vs. phosphodiester bond o Nucl ...
... Chi Square sex linked genetic problem. See example attached. DNA Structure and Replication (5 m/c) History of DNA o Griffith o Avery and MacLeod o Watson and Crick o Rosalind Franklin o Chargaff Know structure of DNA (diagram of DNA will be given) o Hydrogen bond vs. phosphodiester bond o Nucl ...
11.1 Replication of DNA
... Semi-conservative replication Sequence DNA helicase ……………………………….. Double helix unwinds and the two strands ………… Each exposed ……………… acts as a ……………. to which …………………. nucleotides are attracted Energy required to …………… nucleotides Activated nucleotides are joined by the enzyme DNA ...
... Semi-conservative replication Sequence DNA helicase ……………………………….. Double helix unwinds and the two strands ………… Each exposed ……………… acts as a ……………. to which …………………. nucleotides are attracted Energy required to …………… nucleotides Activated nucleotides are joined by the enzyme DNA ...
DrMoran
... make up genes. Genes make different things for our body. They are packaged up into chromosomes Chromosomes are like a big recipe box for our bodies and DNA is the recipe! ...
... make up genes. Genes make different things for our body. They are packaged up into chromosomes Chromosomes are like a big recipe box for our bodies and DNA is the recipe! ...
From DNA to proteins
... bonds with thymine (T) and guanine (G) always bonds with cytosine (C). theory that states that, in cells, information only flows form DNA to RNA to proteins (DNA RNA proteins) sequence of three nucleotides that codes for one amino acid molecule that stores genetic information in all organisms en ...
... bonds with thymine (T) and guanine (G) always bonds with cytosine (C). theory that states that, in cells, information only flows form DNA to RNA to proteins (DNA RNA proteins) sequence of three nucleotides that codes for one amino acid molecule that stores genetic information in all organisms en ...
Ch. 10 DNA, RNA, and Protein Synthesis Study Guide
... 9.) What does Helicase do during DNA replication? (and what Y-shaped region is formed?) ...
... 9.) What does Helicase do during DNA replication? (and what Y-shaped region is formed?) ...
NOTES: Nucleic Acids
... for the specific amino acid sequence of a protein • is copied and passed from one generation of cells to another (condensed DNA = chromosome) • Eukaryotes- nucleus • Prokaryotes- cytoplasm ...
... for the specific amino acid sequence of a protein • is copied and passed from one generation of cells to another (condensed DNA = chromosome) • Eukaryotes- nucleus • Prokaryotes- cytoplasm ...
ws: DNA Alphabet Activity
... Identify the “start” and “stop” codes on the Coded Alphabet. These codes indicate where each DNA sequence begins and ends. Use the Coded Alphabet to de-code each DNA Sequence and write them in the spaces below. De-Coded Sentences #1: __________________________________________________________ #2: ...
... Identify the “start” and “stop” codes on the Coded Alphabet. These codes indicate where each DNA sequence begins and ends. Use the Coded Alphabet to de-code each DNA Sequence and write them in the spaces below. De-Coded Sentences #1: __________________________________________________________ #2: ...
Lesson 2 * Carbohydrates
... replicated as the molecule unzips but the other strand (the 3’ to 5’ side, called the lagging strand) needs to be replicated in sections then joined together later by an enzyme called DNA ligase. ...
... replicated as the molecule unzips but the other strand (the 3’ to 5’ side, called the lagging strand) needs to be replicated in sections then joined together later by an enzyme called DNA ligase. ...
Exam #3 Study Guide
... Frameshift mutations may be caused by A specific gene is always found on only one strand of the DNA double helix. The strand that is not being transcribed into mRNA is called the: Which of the following could have a role in the reason that few mistakes occur in the process of DNA replication? Finish ...
... Frameshift mutations may be caused by A specific gene is always found on only one strand of the DNA double helix. The strand that is not being transcribed into mRNA is called the: Which of the following could have a role in the reason that few mistakes occur in the process of DNA replication? Finish ...
DNA Replication
... 1. Double stranded DNA that has been labeled with radioactive 14C is used as the template for replication. Replication is carried out in a medium containing only unlabeled nucleotides. After two rounds of replication, what percent of double stranded DNA molecules are radioactive? A) 25% B) 50% C) 7 ...
... 1. Double stranded DNA that has been labeled with radioactive 14C is used as the template for replication. Replication is carried out in a medium containing only unlabeled nucleotides. After two rounds of replication, what percent of double stranded DNA molecules are radioactive? A) 25% B) 50% C) 7 ...
Protein Synthesis 1 - Transcription Translation
... Translation: In this process, the RNA molecule is used to do what? ____________________________________ _________________________________________ ...
... Translation: In this process, the RNA molecule is used to do what? ____________________________________ _________________________________________ ...
Glossary of Terms – DNA and the production of proteins
... Structures found in nucleus which carry genetic information Molecule, found in the nucleus which carries the genetic code Strand of DNA which codes for a protein Subunit of DNA molecule which consists of a phosphate group, deoxyribose sugar and a base Parts of the DNA structure which pair up with on ...
... Structures found in nucleus which carry genetic information Molecule, found in the nucleus which carries the genetic code Strand of DNA which codes for a protein Subunit of DNA molecule which consists of a phosphate group, deoxyribose sugar and a base Parts of the DNA structure which pair up with on ...
Document
... 6. Scientists were surprised about how much the DNA molecule could do, because they thought only ____________________ molecules could give instructions and be copied during cell division. ...
... 6. Scientists were surprised about how much the DNA molecule could do, because they thought only ____________________ molecules could give instructions and be copied during cell division. ...
Study Guide for LS
... There are three types of mutations: insertion, deletion, and substitution. Insertion is when an extra base is added into the sequence. Deletion is when a base is deleted from the sequence. Substitution is when one base is substituted for another. A mutation in DNA could result in no change, de ...
... There are three types of mutations: insertion, deletion, and substitution. Insertion is when an extra base is added into the sequence. Deletion is when a base is deleted from the sequence. Substitution is when one base is substituted for another. A mutation in DNA could result in no change, de ...
DNA Replication
... 1. Double stranded DNA that has been labeled with radioactive 14C is used as the template for replication. Replication is carried out in a medium containing only unlabeled nucleotides. After two rounds of replication, what percent of double stranded DNA molecules are radioactive? A) 25% B) 50% ...
... 1. Double stranded DNA that has been labeled with radioactive 14C is used as the template for replication. Replication is carried out in a medium containing only unlabeled nucleotides. After two rounds of replication, what percent of double stranded DNA molecules are radioactive? A) 25% B) 50% ...
2 - Blue Valley Schools
... nucleotide nitrogenous base five-carbon sugar adenine guanine cytosine Erwin Chargaff Rosalind Franklin x-ray diffraction 2 nm 0.34 nm James Watson Francis Crick double strand DNA replication hydrogen bonds base pair sugar phosphate backbone semiconservative DNA ligase DNA repair Chapter 12 protein ...
... nucleotide nitrogenous base five-carbon sugar adenine guanine cytosine Erwin Chargaff Rosalind Franklin x-ray diffraction 2 nm 0.34 nm James Watson Francis Crick double strand DNA replication hydrogen bonds base pair sugar phosphate backbone semiconservative DNA ligase DNA repair Chapter 12 protein ...
DNA polymerase
![](https://commons.wikimedia.org/wiki/Special:FilePath/DNA_polymerase.png?width=300)
The DNA polymerases are enzymes that create DNA molecules by assembling nucleotides, the building blocks of DNA. These enzymes are essential to DNA replication and usually work in pairs to create two identical DNA strands from a single original DNA molecule. During this process, DNA polymerase “reads” the existing DNA strands to create two new strands that match the existing ones.Every time a cell divides, DNA polymerase is required to help duplicate the cell’s DNA, so that a copy of the original DNA molecule can be passed to each of the daughter cells. In this way, genetic information is transmitted from generation to generation.Before replication can take place, an enzyme called helicase unwinds the DNA molecule from its tightly woven form. This opens up or “unzips” the double-stranded DNA to give two single strands of DNA that can be used as templates for replication.