Detecting and Modeling Long Range Correlation in Genomic

... proteins. However, this structure has evolved by certain basic biological processes that modify the genome in a specific but stochastic manner, and has been shaped by selection pressure. With complete sequences of many genomes available, it is now possible to question whether all such genome evoluti ...

Chapter 28

... The length of DNA that can be incorporated into a virus is limited by the structure of the headshell. Nucleic acid within the headshell is extremely condensed. Filamentous RNA viruses condense the RNA genome as they assemble the headshell around it. Spherical DNA viruses insert the DNA into a preass ...

highly repetitive DNA

... • Packing ratio is the length of the DNA divided by the length into which it’s packaged • Smallest human chromosome (21) has 4x107 bp of DNA, 10 times size of E. coli genome • Equivalent to 14mm of extended DNA • In most condensed state the chromosome is about 2mm long • Packing ratio = 14000/2 = 70 ...

Document

... •Studied decatenation of intertwined pBR322 plasmids •Used ts mutations S. typhimurium; Mutations were in gryA (encodes gyrase), parC and parE (encode two subunits of topo IV) and parF (unrelated gene linked to parC and E) ...

strawberry dna extraction lab

... and note any other observations.) NOTES: ...

Mutation identification by whole genome sequencing

... I. We will continue with SNP mapping, and then move on to: II. Mutation Detection Through Whole Genome Sequencing A. Sequencing Methods 1. Conventional Sanger Sequencing a. dideoxy nucleotide triphosphates (ddNTPs), the key to the Sanger method 1) they terminate DNA polymerization because they lack ...

Zoo/Bot 3333

... For answers to the quiz, click here: 1. The pufferfish, Fugu has a relatively small genome for a vertebrate, with a haploid genome size of about 380 Mb. If this genome is digested with AvaII (an enzyme with the recognition sequence: 5’-GG(A or T)CC-3’ approximately how many DNA fragments would be pr ...

How is DNA packed in the nucleus?

...  identify all of the 20,000 to 25,000 genes in human DNA  store this information in databases  address the ethical, legal and social issues that arise from this project ...

DNA Replication Graphic Organizer

... REVIEW: Explain the TWO things an enzyme does in chemical reactions in the body… ...

Modeling DNA

RODENT GENOTYPING The proper identification of transgenic

... Polymerase Chain Reaction (PCR) requires the least amount of DNA. DNA for PCR analysis can be obtained by a variety of techniques that vary in terms of the discomfort the animal may experience. When animals are marked by ear punches or notches, sufficient tissue can be saved to do the PCR. If the an ...

After Gel Electrophoresis…

...  Helps us locate a gene of interest  Allows us to compare genes ...

DNA: The Secret of Life

... • We have two sets – Why? How? •Genes - sections of DNA that code for proteins • About 20,000 genes for humans ...

What are chromosomes made of?

... •  How many different types of subunit are there? ...

Southern transfer

... extent,. exposing segments of DNA normally enclosed within their strture in situ hybridization with radioactively labelled probes has been used to position a number of genes on the human cytogenetic map. ...

UNIT 4 PART 2 APPLIED GENETICS

... • Some genetic disorders may be detected before birth. • Biochemical tests may be done to look for a chemical disorder such as PKU. • Ultrasound may be used to detect physical disorder. ...

Chapter 20 Notes: DNA Technology

... from test tubes back into cells ...

common to all organisms

... 1. Fill out the COMPLIMENTARY DNA strands on each strip! 2. Cut all the pictures and gene segments apart from one another. 3. The human DNA strand is: ATG-TAC-AAC-GGA-CAG. Glue this one at the top of your notebook page! 4. Put the images in order from most to least related to human in your notebooks ...

FISH

... • The material doesn't contain metaphase chromosomes – Unsuccessful cultivation – It isn't possible to cultivate the tissue from patient (preimplantation analysis, rapid prenatal examinations, examinations of solid tumors or autopsy material) ...

Restriction Enzymes, Vectors, and Genetic Libraries

... Amplify the Product  Use ...

What organelle is responsible for storing DNA in eukaryotic cells

... order: the human species has 23 pairs, designated 1 to 22 in order of decreasing size and X and Y for the female and male sex chromosomes respectively. • Our definition: The place where all the genes of an organisms are held. • Other forms: chromosomes, chromosomal ...

Acc_Bio_Biotechnology_12

... perfect coat color, but at the same time they were also selecting the gene for congenital deafness! 8% of all Dalmatians in the US are bilaterally deaf and 22% are unilaterally deaf ...

Chromosomes and Mutations Chromosomes and

... Each human has 23 sets (pairs) of chromosomes, or 46 total chromosomes ...

Genomic Organization in Eukaryotes

DNA Bonds

...  The backbone is made of ...

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Comparative genomic hybridization

Comparative genomic hybridization is a molecular cytogenetic method for analysing copy number variations (CNVs) relative to ploidy level in the DNA of a test sample compared to a reference sample, without the need for culturing cells. The aim of this technique is to quickly and efficiently compare two genomic DNA samples arising from two sources, which are most often closely related, because it is suspected that they contain differences in terms of either gains or losses of either whole chromosomes or subchromosomal regions (a portion of a whole chromosome). This technique was originally developed for the evaluation of the differences between the chromosomal complements of solid tumor and normal tissue, and has an improved resoIution of 5-10 megabases compared to the more traditional cytogenetic analysis techniques of giemsa banding and fluorescence in situ hybridization (FISH) which are limited by the resolution of the microscope utilized.This is achieved through the use of competitive fluorescence in situ hybridization. In short, this involves the isolation of DNA from the two sources to be compared, most commonly a test and reference source, independent labelling of each DNA sample with a different fluorophores (fluorescent molecules) of different colours (usually red and green), denaturation of the DNA so that it is single stranded, and the hybridization of the two resultant samples in a 1:1 ratio to a normal metaphase spread of chromosomes, to which the labelled DNA samples will bind at their locus of origin. Using a fluorescence microscope and computer software, the differentially coloured fluorescent signals are then compared along the length of each chromosome for identification of chromosomal differences between the two sources. A higher intensity of the test sample colour in a specific region of a chromosome indicates the gain of material of that region in the corresponding source sample, while a higher intensity of the reference sample colour indicates the loss of material in the test sample in that specific region. A neutral colour (yellow when the fluorophore labels are red and green) indicates no difference between the two samples in that location.CGH is only able to detect unbalanced chromosomal abnormalities. This is because balanced chromosomal abnormalities such as reciprocal translocations, inversions or ring chromosomes do not affect copy number, which is what is detected by CGH technologies. CGH does, however, allow for the exploration of all 46 human chromosomes in single test and the discovery of deletions and duplications, even on the microscopic scale which may lead to the identification of candidate genes to be further explored by other cytological techniques.Through the use of DNA microarrays in conjunction with CGH techniques, the more specific form of array CGH (aCGH) has been developed, allowing for a locus-by-locus measure of CNV with increased resolution as low as 100 kilobases. This improved technique allows for the aetiology of known and unknown conditions to be discovered.

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Comparative genomic hybridization