comp - Imtech - Institute of Microbial Technology

... are shown connected with arrows. Dark lines connecting the alignment regions denote very weak or no alignment. The predicted coding regions of ROSETTA in human, and the corresponding regins in mouse, are shown (white) between the genes and the alignment regions. ...

JSReviewExam#4

... This review is meant to serve as a guide to ensure your notes are complete. You will need to be able to do/understand and READ YOUR BOOK! Simply filling out this review sheet will not be enough to earn a good grade. Chapter 13--Genomes  Definition of genome  No relationship between genome size and ...

Genetic Engineering

... Ligase An enzyme which is able to join two pieces of DNA. In genetic engineering, ligase enzymes are used to join DNA from two different sources to make recombinant DNA. ...

Using Parker Brother`s game CLUE to learn about DNA

... is reprinted with her permission for classroom use. Teachers, read the original article about this activity at this link. The DNA of humans is more alike than different. However, the technique of DNA fingerprinting to identify humans one from another looks at regions of the human genome where there ...

Lecture 27

... • Plasmids - circular DNA duplexes of 1 to 200 kb that contain the requisite genetic machinery (replication origin) necessary for autonomous replication in bacteria or yeast. • Types of plasmids are determined by their copy number. • Stringent control- one to a few copies per cell. • Relaxed control ...

1. Chromosome structure a. Nucleosome

... restriction enzymes; host cell (usually bacteria like E. coli) 2. Restriction enzymes cut genes at restriction sites to make blunt or sticky ends 3. Cut gene of interest (g.o.i.) with same enzyme to get same ends 4. Insert vector into host using: 1) transformation, 2) gene gun, 3) electroporation, 4 ...

Ch. 13 Genetic Engineering

... manipulating (moving) genes for practical purposes (useful)  Recombinant DNA: DNA made from 2 or more organisms that are different. ...

Bioinformatics and its applications

... Re-sequencing Comparative analysis Evolutionary studies Antibiotic resistance Waste cleanup Biotechnology ...

Fig1 from Nature Rev Mol. Cell Biol (Nov2003) 4(11):865

... ‘mobile’ DNA: transposable elements ...

Human Genetics

5` 3` 3` 5` w c A T coding or sense st template strand mRNA GA C GC

... Partitioning replicated chromosomes so that each daughter cell gets one copy of each chromosome The solution After replication of a chromosome… • hold the two sister chromatids together • target them to opposite poles • then separate the sisters ...

Chapter 14 Human Genetics

Malaria – The Biological Terminator

... that could not be killed! The reasons for this resurgence include the political and economic elimination of spraying programs and development of resistance of mosquitoes to DDT, the development of resistance of the parasites to anti-malarial drugs probably aggravated by misuse, and environmental cha ...

Study guideCh8

... Can bacteria conjugate to plant cells? What other method can inject DNA into plant cells? What is transduction? Do you understand the steps of transduction? How does bacterial DNA end up in a new bacterial cell via this method? In transformation, what kind of DNA is taken up by the cells? How is thi ...

supp-MBS 103-B

... Note: 1. Attempt all questions and return this part of the question paper to the invigilator after 20 Minutes. 2. Please tick (√) correct one only. Cutting, overwriting or any other marking are not allowed. 3. For answering please use Ball- pen only. Q.1 ...

Chapter 16 Recombination DNA and Genetic Engineering

... • Plasmids are circular DNA molecules in bacteria that carry only a few genes and can replicate independently of the single “main” chromosomes • When the plasmids is replicated, any foreign DNA that might have become incorporated into it is also replicated producing a DNA clone. ...

Detection and Measurement of Genetic Variation

... cutting or cleaving the DNA at specifically recognized sequences. These sequences are called restriction sites. For example, Escherichia coli produces a restriction enzyme called EcoR1, that recognizes the DNA sequence GAATTC so this enzyme cleaves the sequence between the G and the A, this produces ...

Biotechnology - The Bio Edge

Final Exam Review Sheet

... Know the biology of the Ti plasmid and the binary Ti plasmid system Explain how the binary Ti plasmid system and the microprojectile bombardment (biolistic) system is used to genetically engineer plants (i.e., know how to genetically engineer plants for expression of your favorite gene) What are rep ...

slides - Ehud Lamm

... At this point I wish to state that while I have used the term "band" in all of my papers, I was very careful to state in my article in Science that these cross striations "appear to run around an achromatic matrix." As to the ultimate nature of these "bands," I have not been, nor am I now, willing t ...

About Genetic Diseases

... To understand genetic diseases, we must first learn what chromosomes and genes are. Chromosomes are the “visible” genetic materials present in the cell nucleus and are mainly composed of DNA and histone proteins. With the exception of a few cell types, such as red blood cells, sperms and eggs, every ...

Bill Nye Genes Video WKSHT

... 5. How long is the DNA string model of science? 6. How many times longer is DNA than it is wide? 7. How does Bill define a Gene? 8. Why is the white blood cell dark on the computer screen? 9. What does the nucleus of the cell contain? 10. What can you do with DNA after you take it out of an organism ...

Bill Nye Genes Video WKSHT

... 5. How long is the DNA string model of science? About 20 6. How many times longer is DNA than it is wide? About 200 km 7. How does Bill define a Gene? A specific piece of DNA 8. Why is the white blood cell dark on the computer screen? Because it has chromosomes in it. 9. What can you do with DNA aft ...

Bill Nye: Genes

... 5. How long is the DNA string model of science? About 20 6. How many times longer is DNA than it is wide? About 200 km 7. How does Bill define a Gene? A specific piece of DNA 8. Why is the white blood cell dark on the computer screen? Because it has chromosomes in it. 9. What can you do with DNA aft ...

Name Date “Bill Nye: Genes” Video Worksheet 1. Where do your

... 5. How long is the DNA string model of science? About 20 6. How many times longer is DNA than it is wide? About 200 km 7. How does Bill define a Gene? A specific piece of DNA 8. Why is the white blood cell dark on the computer screen? Because it has chromosomes in it. 9. What can you do with DNA aft ...

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Genomic library

A genomic library is a collection of the total genomic DNA from a single organism. The DNA is stored in a population of identical vectors, each containing a different insert of DNA. In order to construct a genomic library, the organism's DNA is extracted from cells and then digested with a restriction enzyme to cut the DNA into fragments of a specific size. The fragments are then inserted into the vector using DNA ligase. Next, the vector DNA can be taken up by a host organism - commonly a population of Escherichia coli or yeast - with each cell containing only one vector molecule. Using a host cell to carry the vector allows for easy amplification and retrieval of specific clones from the library for analysis.There are several kinds of vectors available with various insert capacities. Generally, libraries made from organisms with larger genomes require vectors featuring larger inserts, thereby fewer vector molecules are needed to make the library. Researchers can choose a vector also considering the ideal insert size to find a desired number of clones necessary for full genome coverage.Genomic libraries are commonly used for sequencing applications. They have played an important role in the whole genome sequencing of several organisms, including the human genome and several model organisms.

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Genomic library