International Journal of Emerging Sciences ISSN: 2222-4254 1(1) April 2011 DNA Computation Based Approach for Enhanced Computing Power Kashif Hammed Department of Computer Science The Islamia University of Bahawalpur Bahawalpur‚ Pakistan gnetle_kashif@yahoo.com Abstract. DNA computing is a discipline that aims at harnessing individual molecules at the nano-scopic level for computational purposes. Computation with DNA molecules possesses an inherent interest for researchers in computers and
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DNA: DNA is a double-stranded nucleic acid that contains the genetic information for cell growth‚ division‚ and function. DNA‚ or deoxyribonucleic acid‚ is the hereditary material in humans and almost all other organisms. Most DNA is located in the cell nucleus but a small amount of DNA can also be found in the mitochondria .The information in DNA is stored as a code made up of four nitrogen bases which are adenine (A)‚ guanine (G)‚ cytosine (C)‚ and thymine (T). these nitrogen bases are bind with
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DNA profiling is a method of identifying an individual by unique characteristics of their DNA. A specific DNA pattern‚ called a profile‚ is obtained from an individual or a sample of tissue. This allows the comparison of the base sequence of two or more DNA samples to determine whether they are related. DNA profiling has many uses‚ in prevention of economic fraud‚ dietetic work‚ and classifying species‚ identifying bodies‚ forensic science‚ screening for disease‚ and investigating paternity.
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non germinated pea would consume more oxygen and from that question I made the hypothesis that if the garden pea has more water saturated in it than the other dry peas it would consume more oxygen because water is a key molecule in the facilitation of certain reaction and processes especially in cellular respiration. In conclusion‚ the lab demonstrated many critical things relating to cellular respiration. It showed that the rates of cellular respiration are greater in germinating peas than in non-germinating
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Review 2: Text DNA is a very special and important molecule that is in our life‚ DNA is found in the nucleus. DNA stores the data needed to make poly peptides‚then data in a nucleic acid is transferred to messenger RNA‚ which escapes the nucleus into a protein. According to the DNA and protein article DNA is used in many things but DNA is used to make pol-peptides. They are another word for proteins. When a cell makes a protein the direction are resembled from the part of an DNA. DNA strand and transcript
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The history of DNA structure discovery(sec.4.1): 1869- Johan miescher •studies the nuclei of white blood cells(isolated th material using HCL and digestive proteins •Named the substance nulclein and also found the material was rich in nitrogen and phosphorus. 1919-Pheobus levene •Discovered that DNA was made of chains of nucleotides *see nucleotide structure* 1920 DNAvsRNA * see chart •Thought that 4 nucleotides were connected in the same repeated pattern •protein gas 20 amino acids
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DNA Transcription The process of transcription is where a copy of a gene is made within DNA to use as RNA. It is located in the nucleus of eukaryotes and in the nucleoid of prokaryotes. DNA stores information encoded in a genetic code. The code consists of four letters and they are T (thymine)‚ G (guanine)‚ A (Adenine)‚ and C (cytosine). One gene codes for on protein. RNA is a molecule that copies information that is coded in another genetic code. This code also consists of the same four
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Associate Program Material DNA Worksheet Answer the following in at least 100 words: 1. Describe the structure of DNA. DNA is a polymer‚ which is a chemical compound or a mixture of compounds consisting of repeating structural units. These repeating structures are created through polymerization. The monomer‚ meaning one part‚ units of DNA are nucleotides. Each nucleotide consists of a five carbon sugar‚ also known as deoxyribose‚ and nitrogen containing base attached to the sugar
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Kate Kirby June 6‚ 2013 Title: Extraction of an Unknown Compound Purpose: The purpose of this experiment was to separate a mixture of two or more unknown compounds and identify them based on their melting point and reactivity with an acid or a base. Compound studied/Reactions: The organic solvent used in this experiment was methyl t-butyl ether (MTBE‚ 2-methoxy-2-methylpropane). The unknown that dissolved in the MTBE‚ but was insoluble in water. MBTE is very volatile and flammable. It was
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life (1). Significant developments have been made in gene monitoring techniques specifically in DNA microarrays which only very recently revolutionized genome expression analysis (1). Despite continuous improvements and modification to the technique‚ DNA microarrays are still no more than a glass microscope slide studded with individual immobile nucleotide fragments (1‚ 2). The fundamentals of DNA microarrays are set on complementary base-pairing (3)‚ and because the exact sequence and position
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