AP Bio Ch 17 The Molecular Basis of Disease This chapter is only
... 19. What is a primer? 20. What is primase? ...
... 19. What is a primer? 20. What is primase? ...
MOLECULAR CLONING OF A GENE: With Recombinant DNA
... and your source dna with any single Restriction Endonuclease/Enzyme from many choices. d. Disruptable gene: a “reporter gene” with an easy phenotype to observe. The Polycloning Site is IN this gene, so if we clone a foreign gene into our vector, this reporter gene will be INACTIVATED/Disrupted (eg: ...
... and your source dna with any single Restriction Endonuclease/Enzyme from many choices. d. Disruptable gene: a “reporter gene” with an easy phenotype to observe. The Polycloning Site is IN this gene, so if we clone a foreign gene into our vector, this reporter gene will be INACTIVATED/Disrupted (eg: ...
DNA DNA Structure ~ The Specifics
... If we were to look at a distinct set of chemicals on the DNA molecule for instructions this is called a gene. Each one of these genes will be located at a specific location called a locus on a chromosome. One chromosome can carry hundreds or thousands of genes. The complete set of an organism’s here ...
... If we were to look at a distinct set of chemicals on the DNA molecule for instructions this is called a gene. Each one of these genes will be located at a specific location called a locus on a chromosome. One chromosome can carry hundreds or thousands of genes. The complete set of an organism’s here ...
Chapter 13 Genetic Engineering
... Transforming Plant Cells • A bacterium inserts a DNA plasmid into plant cells to create new unique plants • Ex. Plants resistant to pesticides ...
... Transforming Plant Cells • A bacterium inserts a DNA plasmid into plant cells to create new unique plants • Ex. Plants resistant to pesticides ...
Lecture ** - Telomeres
... a) 5'->3' DNA replication of "lagging strand" b) How does cell discriminate between DNA double-strand breaks (which are also “ends”) and the natural ends of chromosomes? The solution: telomeres! a) Telomere structure: Repetitive DNA sequences at ends of chromosomes • telomeric heterochromatin (gene ...
... a) 5'->3' DNA replication of "lagging strand" b) How does cell discriminate between DNA double-strand breaks (which are also “ends”) and the natural ends of chromosomes? The solution: telomeres! a) Telomere structure: Repetitive DNA sequences at ends of chromosomes • telomeric heterochromatin (gene ...
Mini lab 11.1 and 11.2
... omits significant parts or fails to complete. Assignment and its explanations are not accurate. Group did not demonstrate understanding or authentic knowledge Fails to complete ...
... omits significant parts or fails to complete. Assignment and its explanations are not accurate. Group did not demonstrate understanding or authentic knowledge Fails to complete ...
nitrogen bases
... 1. Label boxes a-d using the terms: Nitrogen base, Nucleotide, Deoxyribose (sugar), and Phosphate. Use your DNA Guided Notes. c. Deoxyribose (Sugar) a. Nitrogen base ...
... 1. Label boxes a-d using the terms: Nitrogen base, Nucleotide, Deoxyribose (sugar), and Phosphate. Use your DNA Guided Notes. c. Deoxyribose (Sugar) a. Nitrogen base ...
GE Nova Video Questions
... Note: This video is 15 minutes in total. The answers to the worksheet are found between 6.55 minutes and 10 minutes approx. ...
... Note: This video is 15 minutes in total. The answers to the worksheet are found between 6.55 minutes and 10 minutes approx. ...
DNA
... Structure of DNA • Base pairing rules – In DNA … • Adenine (A) always pairs with thymine (T) • Cytosine (C) always pairs with guanine (G) ...
... Structure of DNA • Base pairing rules – In DNA … • Adenine (A) always pairs with thymine (T) • Cytosine (C) always pairs with guanine (G) ...
Nucleic Acids and Protein Synthesis Review Guide
... Name the complementary strands of a DNA molecule (for example, adenine binds with….) What enzyme “unzips” the two strands of DNA in DNA replication? What does DNA polymerase do? If one strand of DNA is ATTCCG, what is the other complementary strand of DNA? What are the three types of RNA? What does ...
... Name the complementary strands of a DNA molecule (for example, adenine binds with….) What enzyme “unzips” the two strands of DNA in DNA replication? What does DNA polymerase do? If one strand of DNA is ATTCCG, what is the other complementary strand of DNA? What are the three types of RNA? What does ...
DNA as Videotape: Introductory Fact Sheet
... • DNA can be edited--for example, we can take DNA containing one gene from an animal (for example, the gene for insulin from humans) and splice it biologically into the DNA of a bacterium. • That bacterium can multiply, and its offspring will contain the insulin gene. • Those bacteria can make the i ...
... • DNA can be edited--for example, we can take DNA containing one gene from an animal (for example, the gene for insulin from humans) and splice it biologically into the DNA of a bacterium. • That bacterium can multiply, and its offspring will contain the insulin gene. • Those bacteria can make the i ...
Quiz Review: Chapter 11: Eukaryotic Genome Organization Chapter
... Telomeres are the “caps” at the end of chromosomes, composed of highly repetitive sequences of DNA. Each time a cell replicates its DNA prior to cell division, nucleotide(s) are result, leaving the new cell with less DNA than the parent cell. As a cell continues to divide, especially labile cells, t ...
... Telomeres are the “caps” at the end of chromosomes, composed of highly repetitive sequences of DNA. Each time a cell replicates its DNA prior to cell division, nucleotide(s) are result, leaving the new cell with less DNA than the parent cell. As a cell continues to divide, especially labile cells, t ...
Microbiology
... Compare and contrast biotechnology, recombinant DNA technology, and genetic engineering. Identify the roles of a clone and a vector in making recombined DNA. Compare selection and mutation. Define REs, and outline their use to make recombinant DNA. List some properties of vectors and describe their ...
... Compare and contrast biotechnology, recombinant DNA technology, and genetic engineering. Identify the roles of a clone and a vector in making recombined DNA. Compare selection and mutation. Define REs, and outline their use to make recombinant DNA. List some properties of vectors and describe their ...
3-Slides
... base pairs (4) linked to an inert backbone Chromosomes are packaged DNA All 23 in nuclei of all cells (except hemoglobin) ...
... base pairs (4) linked to an inert backbone Chromosomes are packaged DNA All 23 in nuclei of all cells (except hemoglobin) ...
Chapter 18 – Gene Mutations and DNA Repair
... • Incorrect alignment of homologous chromosomes • Crossing over results in an insertion in one molecule and a deletion in the other molecule • Can also cause expanded trinucleotide repeats ...
... • Incorrect alignment of homologous chromosomes • Crossing over results in an insertion in one molecule and a deletion in the other molecule • Can also cause expanded trinucleotide repeats ...
The C2C2-Zinc Finger GATA
... The C2C2-Zinc Finger GATAlike transcription factor family •The family can be divided into several types of zinc finger proteins, such as C2H2, C2HC, C2C2, C2HCC2C2, C2C2C2C2 etc, based on numbers and positions of Cystine and Histidine residues. •Zinc finger domain regulates gene expression in the e ...
... The C2C2-Zinc Finger GATAlike transcription factor family •The family can be divided into several types of zinc finger proteins, such as C2H2, C2HC, C2C2, C2HCC2C2, C2C2C2C2 etc, based on numbers and positions of Cystine and Histidine residues. •Zinc finger domain regulates gene expression in the e ...
Chapter 18 – Gene Mutations and DNA Repair
... • Incorrect alignment of homologous chromosomes • Crossing over results in an insertion in one molecule and a deletion in the other molecule • Can also cause expanded trinucleotide repeats ...
... • Incorrect alignment of homologous chromosomes • Crossing over results in an insertion in one molecule and a deletion in the other molecule • Can also cause expanded trinucleotide repeats ...
Ch 6 Review
... _____ 11. Which of the following statements about DNA is NOT true? a. DNA is found in all organisms. b. DNA is made up of five subunits. c. DNA has a structure like a twisted ladder. d. Mistakes can be made when DNA is copied. _____ 12. Within the cell, where are proteins assembled? a. the cytoplasm ...
... _____ 11. Which of the following statements about DNA is NOT true? a. DNA is found in all organisms. b. DNA is made up of five subunits. c. DNA has a structure like a twisted ladder. d. Mistakes can be made when DNA is copied. _____ 12. Within the cell, where are proteins assembled? a. the cytoplasm ...
Cell Transformation
... Quick Review Different enzymes can be used to cut, copy, and move segments of DNA. Characteristics produced by the segments of DNA may be expressed when these segments are inserted into new organisms, such as bacteria. Inserting, deleting, or substituting DNA segments can alter genes. (mutations) A ...
... Quick Review Different enzymes can be used to cut, copy, and move segments of DNA. Characteristics produced by the segments of DNA may be expressed when these segments are inserted into new organisms, such as bacteria. Inserting, deleting, or substituting DNA segments can alter genes. (mutations) A ...
2.5 Genetics - Elaine Galvin
... (Matching) RNA production (notion of both DNA and RNA must be given) The process of making a protein using the mRNA code a template A haploid sex cell which is capable of fusion The fusion of 2[haploid] gametes to form a [diploid] zygote An alternative form of a gene Has identical alleles [for a tra ...
... (Matching) RNA production (notion of both DNA and RNA must be given) The process of making a protein using the mRNA code a template A haploid sex cell which is capable of fusion The fusion of 2[haploid] gametes to form a [diploid] zygote An alternative form of a gene Has identical alleles [for a tra ...
Teacher PowerPoint - UNC Institute for the Environment
... Refers to changes in gene expression caused by mechanisms other than changes in the underlying DNA sequence. Enables a cell/organism to respond to its dynamic external environment during development and throughout life! Epigenetic changes to the genome can be inherited if these changes occur in cell ...
... Refers to changes in gene expression caused by mechanisms other than changes in the underlying DNA sequence. Enables a cell/organism to respond to its dynamic external environment during development and throughout life! Epigenetic changes to the genome can be inherited if these changes occur in cell ...