2013 Charlotte-Mecklenburg Schools Science Elective Resource
... Websites: General Website Resources: The Forensic Teacher Magazine (Free) CSI Web Adventures: Virtual Labs Mr. Wilbur’s Forensic Science Page The Science Spot 1) Possible student misconceptions may include: a) DNA is a living thing, ...
... Websites: General Website Resources: The Forensic Teacher Magazine (Free) CSI Web Adventures: Virtual Labs Mr. Wilbur’s Forensic Science Page The Science Spot 1) Possible student misconceptions may include: a) DNA is a living thing, ...
Lab 8
... color, height, blood type, and all other physical properties of your body. In our cells, DNA is found inside the nucleus, wrapped around basic protein molecules called histones (kind of like thread wrapped around a spool). This combination of DNA and protein is called a nucleosome. The DNA does not ...
... color, height, blood type, and all other physical properties of your body. In our cells, DNA is found inside the nucleus, wrapped around basic protein molecules called histones (kind of like thread wrapped around a spool). This combination of DNA and protein is called a nucleosome. The DNA does not ...
Biol 3301: Genetics Exam #3 Practice questions
... 10. (3) How does the mismatch repair system tell the newly replicated strand from the template strand? By determining which strand is methylated. The old (template) strand will be methylated. 11. (3) Once damaged bases are removed by ___DNA glycosylases____________, the resulting AP sites are repair ...
... 10. (3) How does the mismatch repair system tell the newly replicated strand from the template strand? By determining which strand is methylated. The old (template) strand will be methylated. 11. (3) Once damaged bases are removed by ___DNA glycosylases____________, the resulting AP sites are repair ...
View PDF - Mvla.net
... 5. What are the main differences between DNA and RNA. DNA has deoxyribose, RNA has ribose; DNA has 2 strands, RNA has one strand; DNA has thymine, RNA has uracil. 6. Using the chart on page 303, identify the amino acids coded for by these codons: UGGCAGUGC ...
... 5. What are the main differences between DNA and RNA. DNA has deoxyribose, RNA has ribose; DNA has 2 strands, RNA has one strand; DNA has thymine, RNA has uracil. 6. Using the chart on page 303, identify the amino acids coded for by these codons: UGGCAGUGC ...
DNA History, Structure, and Replication – Part 2
... enzyme performs the addition of new nucleotides to the new DNA complimentary side and also acts as a proofreader to help prevent errors in construction from occurring. Look at the name and see the function. Remember, “polymers” means “many units” or “many monomers”. In this case, the monomers are ca ...
... enzyme performs the addition of new nucleotides to the new DNA complimentary side and also acts as a proofreader to help prevent errors in construction from occurring. Look at the name and see the function. Remember, “polymers” means “many units” or “many monomers”. In this case, the monomers are ca ...
Slide 1
... 1) the majority of DNA in the human genome is transcribed into functional molecules RNA, and that these transcripts extensively overlap one another. This broad pattern of transcription challenges the long-standing view that the human genome consists of a relatively small set of discrete genes, along ...
... 1) the majority of DNA in the human genome is transcribed into functional molecules RNA, and that these transcripts extensively overlap one another. This broad pattern of transcription challenges the long-standing view that the human genome consists of a relatively small set of discrete genes, along ...
STATION 1: Nucleic acids
... (C) Comparing RNA produced under two different physiological conditions to understand patterns of gene expression (D) Comparing proteins produced under two different physiological conditions to understand their function (E) Evaluating the linkage relationships of genes 9) Two protein sequences are c ...
... (C) Comparing RNA produced under two different physiological conditions to understand patterns of gene expression (D) Comparing proteins produced under two different physiological conditions to understand their function (E) Evaluating the linkage relationships of genes 9) Two protein sequences are c ...
Southern Blots
... The bases in DNA will only pair in very specific ways: G with C and A with T In short DNA sequences, imprecise base pairing will not be tolerated Long sequences can tolerate some mispairing only if hydrogen bonding of the majority of bases in a sequence exceeds the energy required to overcome mispai ...
... The bases in DNA will only pair in very specific ways: G with C and A with T In short DNA sequences, imprecise base pairing will not be tolerated Long sequences can tolerate some mispairing only if hydrogen bonding of the majority of bases in a sequence exceeds the energy required to overcome mispai ...
Gene Section WT1 (Wilms' tumor suppressor gene) Atlas of Genetics and Cytogenetics
... 11p13 deletions/translocations can be seen in some cases. Oncogenesis Up to 15% of tumors show mainly biallelic inactivation of WT1 through deletion or mutation. ...
... 11p13 deletions/translocations can be seen in some cases. Oncogenesis Up to 15% of tumors show mainly biallelic inactivation of WT1 through deletion or mutation. ...
to 3
... D. A person with sickle cell anemia is resistant to may other genetic disorders E. It is caused by a point mutation ...
... D. A person with sickle cell anemia is resistant to may other genetic disorders E. It is caused by a point mutation ...
DNA - K.T. Leung
... 3.4Å between nucleotide base pairs. 34Å / 360° turn. 10 nucleotide base pairs / 360° turn. The process that forms double helix is called DNA hybridization. The order or sequence of these bases along the chain forms the genetic code. ...
... 3.4Å between nucleotide base pairs. 34Å / 360° turn. 10 nucleotide base pairs / 360° turn. The process that forms double helix is called DNA hybridization. The order or sequence of these bases along the chain forms the genetic code. ...
Section N – Regulation of transcription in eukaryotes
... myoD was identified as a gene to regulate gene expression in cell determination, commanding cells to form muscle. MyoD protein has been shown to activate muscle-specific gene expression directly. Overexpression of myoD can turn fibroblasts into muscle-like cells which express muscle-specific genes ...
... myoD was identified as a gene to regulate gene expression in cell determination, commanding cells to form muscle. MyoD protein has been shown to activate muscle-specific gene expression directly. Overexpression of myoD can turn fibroblasts into muscle-like cells which express muscle-specific genes ...
Biotechnology - clevengerscience
... bacteria • Insert new gene into plasmid • Insert plasmid into bacteria = vector • bacteria now expresses new gene and makes new protein transformed gene from other organism ...
... bacteria • Insert new gene into plasmid • Insert plasmid into bacteria = vector • bacteria now expresses new gene and makes new protein transformed gene from other organism ...
A. What is DNA?
... 3. Cells must be able to control genes by turning some genes off and turning other genes on. 4. Sometimes the DNA is twisted so tightly that no RNA can be made. Other times, chemicals bind to the DNA so that it cannot be used. 5. If the incorrect proteins are produced, the organism cannot function p ...
... 3. Cells must be able to control genes by turning some genes off and turning other genes on. 4. Sometimes the DNA is twisted so tightly that no RNA can be made. Other times, chemicals bind to the DNA so that it cannot be used. 5. If the incorrect proteins are produced, the organism cannot function p ...
Biotechnology-
... Recombinant DNA Technology: practice questions The following comprehension questions (at end of each chapter section) in Brooker, Concepts of Genetics are recommended: • Comprehension Questions (at end of each section): 19.1,19.2, 19.3. Answers to Comprehension Questions are at the very end of ever ...
... Recombinant DNA Technology: practice questions The following comprehension questions (at end of each chapter section) in Brooker, Concepts of Genetics are recommended: • Comprehension Questions (at end of each section): 19.1,19.2, 19.3. Answers to Comprehension Questions are at the very end of ever ...
Document
... What is PCR? (basically a xerox machine) • DNA replication gone crazy in a tube! • Makes many copies of a specific target sequence from a small amount of template DNA • Affects gene mapping and cloning and DNA sequencing and detection • Applications in the detection of specific mutations, criminal ...
... What is PCR? (basically a xerox machine) • DNA replication gone crazy in a tube! • Makes many copies of a specific target sequence from a small amount of template DNA • Affects gene mapping and cloning and DNA sequencing and detection • Applications in the detection of specific mutations, criminal ...
Forensic DNA Analysis
... • The two nucleotide chains are held together by hydrogen bonds •A always pairs with a T on the other strand; C always pairs with G ...
... • The two nucleotide chains are held together by hydrogen bonds •A always pairs with a T on the other strand; C always pairs with G ...
Unit 2 Lesson 6
... What does DNA look like? • ____________ are segments of DNA that relate to a certain trait. • The code in the nucleotide order has information about which ___________ the cells should build. • The types of proteins that your body makes help determine your ____________. ...
... What does DNA look like? • ____________ are segments of DNA that relate to a certain trait. • The code in the nucleotide order has information about which ___________ the cells should build. • The types of proteins that your body makes help determine your ____________. ...
Unit 1 content check list
... Describe how plants (meristems) and animals (stem cells) form specialised cells Describe the difference between; pleuripotent, totipotent and differentiated Give examples of how stem cells are being used in research Explain how stem cells can give information on cell processes Explain why stem cells ...
... Describe how plants (meristems) and animals (stem cells) form specialised cells Describe the difference between; pleuripotent, totipotent and differentiated Give examples of how stem cells are being used in research Explain how stem cells can give information on cell processes Explain why stem cells ...
Identification of disease genes Mutational analyses Monogenic
... If only ONE large consanguineous family with high LOD score, there is a need to demonstrate that the mutation causes a loss of function (easier for non-sense, truncating (frame shift) or splice mutations; functional studies for missense mutations) ...
... If only ONE large consanguineous family with high LOD score, there is a need to demonstrate that the mutation causes a loss of function (easier for non-sense, truncating (frame shift) or splice mutations; functional studies for missense mutations) ...
COMPARISON OF THREE DNA ISOLATION AND
... 60g Guanidium Thiocyanate, 20 ml of 0,5 M EDTA at pH 8, 5 ml of 10% Sarkosyl and distilled water to 100 ml of the solution) was added to bacterial suspension and left at RT for 10 min then subsequently cooled in ice. After that, an aliquot of 125 µl of 7.5 M ammonium acetate was added and the result ...
... 60g Guanidium Thiocyanate, 20 ml of 0,5 M EDTA at pH 8, 5 ml of 10% Sarkosyl and distilled water to 100 ml of the solution) was added to bacterial suspension and left at RT for 10 min then subsequently cooled in ice. After that, an aliquot of 125 µl of 7.5 M ammonium acetate was added and the result ...
A Frameshift Mutation Leading to Type 1
... 3'-end of the gene, but it can a t least indicate the presence or absence of both alleles. We elected to search for the genetic basis of the deficiency by sequencing amplified D N A of the exons and the flanking intron regions that code for the mature ATIII protein. A single base deletion in exon 3A ...
... 3'-end of the gene, but it can a t least indicate the presence or absence of both alleles. We elected to search for the genetic basis of the deficiency by sequencing amplified D N A of the exons and the flanking intron regions that code for the mature ATIII protein. A single base deletion in exon 3A ...