DNA People - Biology Junction

...  Grow E. coli bacteria with radioactive 15N (its heavier than 14N) so bacteria incorporate heavy N into their DNA  Then grow in media with only 14N  Centrifuge DNA at different times to separate by size. (The more 15N it has the heavier it is)  Pattern shows which model is correct ...

DNA – The Building Blocks of Life

... responsible for some of the traits you can inherit from your parents. An example is the brown-eyed gene. This is a specific protein that’s made using the instructions from DNA. If this protein doesn’t get made (because you don’t have the brown eyed gene), you have no or little pigment and you hav ...

Unit 5 Free Response

... b. Cells regulate both protein synthesis and protein activity. Discuss TWO specific mechanisms of protein regulation in eukaryotic cells. c. The central dogma does not apply to some viruses. Select a specific virus or type of virus and explain how it deviates from the central dogma. ...

Genetic Engineering Guied Notes

... 1. Isolate the foreign DNA by using __Restriction Enzymes__ that cleave (cut) the donor DNA at very specific places 2. Vectors transfer the donor DNA into the host a. mechanical vectors = _carry DNA into a cell, micropipette or metal bullet________ b. biological vectors = virus or bacterial plasmid ...

DNA Structure and Function Notes

... James Watson and Francis Crick were the first to put together a model of DNA’s structure.  So, what does it look like? ...

Things to Cover for Exam 1

...  If the chromosome number of a diploid cell is 102, what is its haploid chromosome number?  What is a zygote and when is it formed?  Meiosis involves a single duplication of DNA followed by two successive cell divisions. When during meiosis do homologous chromosomes cross over? Ch. 10 “Foundation ...

Chapter 13 Genetic Engineering

... • Gel Electrophoresis- DNA Fragments are placed in certain gel wells and an electric voltage is passed through them. • DNA molecules move toward the opposite end of the gel. • Smaller DNA fragments move faster through the gel. ...

IV.F.9 FILLING RECESSED 3` ENDS OF DOUBLE

... The Klenow fragment of E. coli DNA polymerase is used instead of the holoenzyme. No DNase is used. Generally, only one of the four dNTPs is labeled. Which dNTPs are added to the reaction depends on the sequence of the protruding 5' termini at the ends of the DNA; e.g., to fill in recessed 3' ends cr ...

Resource - Chromosome Viewer (www

... Inside every one of our cells (except red blood cells) is a nucleus containing 23 pairs of chromosomes. These chromosomes are built from long strands of a ladder-shaped molecule called deoxyribonucleic acid (DNA). The DNA molecule, in turn, is made up of many smaller components. These nucleotides, o ...

ch 14 RTC - WordPress.com

... human genome project purpose: to determine the complete sequence (to order all the base pairs) of the human genome and to analyze this informaIon. funcIonal genomics’ purpose: to understand the exact role ...

DNA is an abbreviation for deoxyribonucleic acid

... much broader, encompassing a wide range of procedures designed to alter genetic material, not only copying genes, but in some cases, making completely new proteins. ...

Major Events in Genetics

... A gene is a genetic sequence that codes for an RNA. In protein coding genes, the RNA codes for a protein. ...

Notes from Lecture 1 - Tufts Computer Science

... There is a huge knowledge gap between data collection and understanding of the data. It’s publicly available, we just need to process and interpret it! How is this data organized? Either by organism or across-organisms. Which models do we want to look at? Yeast, worm, fly, mouse, rat, plants, human. ...

Name - Lyndhurst School District

...  Watson and Crick used her photograph to create the double helix but never gave her credit. She died just before they won the Nobel Prize.  Each unit of DNA called a nucleotide of DNA consists of 3 parts. ...

bacteriophage

... DNA molecule of 5386 nucleotides. It codes for 11 proteins, each of which has been identified. Adding together the size of all those proteins comes to 2330 amino acids, which1 would require 6990 nucleotides (3 2330) – substantially more than the total length of the genome Firstly the genes are very ...

Cell Cycle

... 14. What is meant by leading strand and lagging strand? What is meant by complementary base pairing? 15. In what direction (3’-5’ or 5’-3’) does replication take place? What does this mean? 16. What is a nucleosome? What is its relationship to a histone? 17. How does the DNA molecule repair itself? ...

Lecture 10

Chapter 12

... 1. What the window look like on a P-20 if you dialed in 6.3 µL? 2. What the window look like on a P-20 if you dialed in 11.7 µL? 3. What the window look like on a P-20 if you dialed in 15.3 µL? 4. What is the purpose of the “first stop” on the micropipettor? 5. What is the purpose of the “second sto ...

Activities for Bioengineering

... • How many pieces of DNA does the child have in common with the mother? 4 • Who is the father, C or D? D, notice the DNA section not common with the mother have to be common with the father. • What is the name of this technique? ...

Study Guide Unit 4 - Mrs. Wolodkowicz`s Biological Realm

... autosome, & sex linkage.  the components of DNA  the nitrogen bases & their complementary base pairs in DNA & RNA  functions of tRNA & mRNA  the laws of segregation & independent assortment  the terms: dominant, recessive, genotype, phenotype, homozygous, heterozygous, heredity, genetics, pureb ...

GBE 335 MOLECULAR GENETICS

Name

... 23. What causes the following conditions? A. Down’s Syndrome? B. Turner’s Syndrome, C. Klinefelter’s syndrome, D. fragile X disease. 24. What is a “Hox” gene. What do these genes control? What could theoretically happen if the gene for a fly antennae were inserted into the human gene for the head? ...

ORGANELLES AND PROTEIN SYNTHESIS Worksheet #3

... A. Organelle Functions and Protein Synthesis 1) Organelle Functions: a. Define the function of the following items and indicate if it is an organelle or not CELLULAR STRUCTURES: Plasma Membrane ...

BIO 220 Chapter 8 lecture outline Vocabulary Central dogma of

... 1. Be able to define all of the vocabulary used in lecture. 2. What is the central dogma of biology? Who proposed this theory? 3. What is the difference between the terms genotype and phenotype? Are bacteria typically diploid or haploid? What do diploid and haploid mean? 4. How many chromosomes does ...

Homeostasis

... BIOLOGY FIRST SEMESTER STUDY GUIDE: Don’t wait until the last minute to study all the information below. It’s a good idea to buddy up with someone. ...

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Cre-Lox recombination

In the field of genetics, Cre-Lox recombination is known as a site-specific recombinase technology, and is widely used to carry out deletions, insertions, translocations and inversions at specific sites in the DNA of cells. It allows the DNA modification to be targeted to a specific cell type or be triggered by a specific external stimulus. It is implemented both in eukaryotic and prokaryotic systems.The system consists of a single enzyme, Cre recombinase, that recombines a pair of short target sequences called the Lox sequences. This system can be implemented without inserting any extra supporting proteins or sequences. The Cre enzyme and the original Lox site called the LoxP sequence are derived from bacteriophage P1.Placing Lox sequences appropriately allows genes to be activated, repressed, or exchanged for other genes. At a DNA level many types of manipulations can be carried out. The activity of the Cre enzyme can be controlled so that it is expressed in a particular cell type or triggered by an external stimulus like a chemical signal or a heat shock. These targeted DNA changes are useful in cell lineage tracing and when mutants are lethal if expressed globally.The Cre-Lox system is very similar in action and in usage to the FLP-FRT recombination system.

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Cre-Lox recombination