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Rosalind franklin discovery of dna essay
What is the impact of the Human Genome Project on improving the lives of human beings
The importance of the human genome project
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James Watson and Francis Crick discovered the structure of DNA, but only by drawing on the work of many scientists who came before them. (Maddox, 2003) In 1944, Oswald T. Avery, Colin M. MacLeod, and Maclyn McCarty published “Studies on the Chemical Nature of the Substance Inducing Transformation of Pneumococcal Types”, which was the first scientific work to identify DNA as the molecule that carried genetic information, and became a breakthrough at that time. (Avery, Macleod, & McCarty, 1944) Before Avery and coworkers published their paper, there was very little interest in DNA among scientists in the field of genetics. Very little was known about DNA, however, early analyses suggested that it was a very simple molecule, at least in terms of its chemical composition. This view was best embodied by the so-called “tetranucleotide hypothesis”, which held that DNA was composed of equal amounts of four nucleotides, adenine, guanine, thymine, and cytosine. (Fredholm, 2003) DNA was thought to be “too simple” as a molecule to carry so much genetic information. Instead, there was much interest in proteins as the chemical identity of genes, which was understandable in light of the tetranucleotide hypothesis. In contrast to the supposed simplicity of DNA, proteins, composed of varying amounts of 20 amino acids, appeared to possess the chemical diversity required to function as genes.
Avery et al. made a remarkable contribution by investigating a process called transformation. In simple terms, transformation is a process through which cells undergo a genetic change following the uptake of foreign DNA. This information was not known prior to the work of Avery and coworkers. Transformation was originally discovered by Robert Griffi...
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...eta. Before Watson and Crick. Retrieved July 23, 2011, from PBS Online : http://www.pbs.org/wgbh/nova/evolution/before-watson-crick.html
Francis Crick and James Watson are recognized as the main scientists involved in the identification of DNA and its structure, which is one of the most important discoveries of the twentieth century. However, were it not for Rosalind Franklin, Linus Pauling, Colin Avery and Maurice Wilkins, the two men would likely not have made the discovery following the critical events that preceded their work.
McCarty, M. (2003, January). Genome.gov. Discovering Genes are made of DNA. Retrieved July 23, 2011, from Genome.gov website: www.genome.gov/10001772
The Human Genome Project (HGP) has served to explore our genetic environment to make us aware of the beneficial resources that might contribute to understanding and improving our lives.
Francis Crick: He does the same research with Watson and they are both teammates. He is also eager to know what is in DNA and the relationship of it with the double-helix, but at the same time is disorganised, and expected Watson to do a majority of work.
With a competitive spirit, people are driven to act in ways that they would not otherwise and the results can be drastic. In the case of James D. Watson and Francis Crick, in Watson’s novel the Double Helix, this sensation of competition leads to one of the greatest discoveries in biology. But the actions of Watson, Crick, and their competitors may or may not be justified for the results that they yield; the powerful conflict of rivalry has beneficial, detrimental, and questionably moral consequences that shaped the pathway to DNA’s structure.
How Watson and Crick’s Discovery of the Structure of DNA Influenced American Industries and Scientific Development in the United States
The following is a review of the book, The Double Helix, by James D. Watson that was published in 1968. Here the Norton Critical Edition will be used for page numbering and insights for this review, which was edited by Gunter S. Stent and published in 1980. The Double Helix is a personal recollection of the period of time when the structure of DNA was discovered. James D. Watson (Watson) along with Francis Crick (Crick) were the two scientists who published a paper in 1953 which purposed a structure for DNA. For the most part their structure has stood the test of time, and since that time period many people have wanted to know details of how they discovered DNA’s structure (pp. 3). Therefore Watson’s purpose in writing the book was to describe his personal view of the events that lead to discovery of DNA’s three-dimensional structure, when they happened in 1952-53. He is well qualified to give an account of these things, for he was there in the middle of everything; he was one of the main players. In order to describe the events, apart from his sharp memory, Watson used letters he wrote to his family to help him remember dates and details, as well as suggestions from his associates who reviewed his manuscript. In the following paragraphs I will summarize the text, and follow that with my own review of
In April of 1953, James Watson and Francis Crick published a game changing paper. It would blow the mind of the scientific community and reshape the entire landscape of science. DNA, fully knows as Deoxyribonucleic Acid is the molecule that all genes are made of. Though it is a relatively new term with regard to the age of science, the story of DNA and the path to its discovery covers a much broader timeframe and had many more contributors than James Watson and Francis Crick. After reading the paper the audience should have a better understanding of what DNA is, the most important experiments that contributed to its ultimate discovery and the names and contributions of the lesser-known scientists that helped Watson and Crick turn their idea
	X-ray crystallography helped determined the three dimensional structure of DNA when Franklin returned to England. She became the first person to find the molecule¡¯s sugar-phosphate backbone while working with a team of scientists at King¡¯s College in London. Unfortunately, leadership misunderstandings and personality conflicts depreciated Franklin¡¯s effectivness in the laboratory. Maurice Wilkins, the laboratory¡¯s second in command, returned from a vacation expecting Franklin to work under him. Franklin came to the laboratory with the understanding that she would be researching alone. While Franklin was direct and decisive, Wilkins tended to be alluding and passive-aggressive. As Franklin made further advances in DNA research, Wilkins secretly shared her findings with the famous duo of Watson and Crick, who were then working at Cambridge. Franklin¡¯s discoveries fueled their research machine, allowing them to advance beyond others in the field. They would eventually publish on DNA structure in 1953. Due to discriminatory procedures at King¡¯s College, Franklin eventually left to become the lead researcher at London¡¯s Birbeck College--upon agreeing not to work on DNA. She furthered her studies in coal and made significant advances in virology. Franklin died in 1958 of ovarian cancer. She lived 37 monumentally significant years.
In 1990, the first great stride of genetics took place. This was called the Human Genome Project, a large-scale operation that was designed to understand the human genome (genetic structure). Since its commencement, there have been many leaps and bounds that have taken place. For certain genetic issues that we once knew nothing about, we no...
"The discovery of the structure by Crick and Watson, with all its biological implications, has been one of the major scientific events of this century." (Bragg, The Double Helix, p1) In the story of The Double Helix, James Watson tells of the road that led to the discovery of life's basic building block-DNA. This autobiography gives insight into science and the workings within a professional research laboratory that few members of society will ever be able to experience. It also gives the reader an idea of the reality of life for one scientist and how he struggled with the problem of DNA. However, the author's style is marked by his lack of objectivity and inclusion of many biased opinions and personal prejudices.
James D. Watson is a molecular biologist, geneticist and zoologist. He is well known as one of the two men who discovered DNA. The other man who helped discover DNA is Francis Crick. Francis is a biologist, neurologist and a biophysicist.
The purpose of the human genome project was to select the best pairs of the genes and the desirable characteristics in the human beings to maintain the production of the organisms according to the desirable gene sequencing. This project was initiated to control the sequencing of the gene artificially [1]. The world’s largest biological plan was the human genome project as it was started on the large scale. The idea of this project was given by the researchers in 1984. The practical work started in 1990 to execute the project. The official declaration of the project carried out in 2003. The financial assistance was awarded to the program setup through the healthcare workplaces, where their engagement was significant. Another program
Tsou, J. A., Hagen, J. A., Carpenter, C. L., & Laird-Offringa, I. A. (2002, August 05). DNA
Simply put, DNA contains the instructions needed for an organism to develop, survive, and reproduce. The discovery and use of DNA has seen many changes and made great progress over many years. James Watson was a pioneer molecular biologist who is credited, along with Francis Crick and Maurice Wilkins, with discovering the double helix structure of the DNA molecule. The three won the Nobel Prize in Medicine in 1962 for their work (Bagley, 2013). Scientists use the term “double helix” to describe DNA’s winding, two-stranded chemical structure.
Sayre, 1 Unfortunately, most biology. classes credit the discovery of DNA's structure solely to Watson and Cricke. The importance of Rosalind Franklin's work is simply ignored.... ... middle of paper ... ...with the project of the project.
The Double Helix tells a tale of fierce competition, perseverance, and scientific innovation as we follow James Watson and his cohort Francis Crick on their quest to discover the secret to life, the structure of deoxyribonucleic acid. Although already fascinated with DNA, Watson struggled with finding chemistry exciting enough to learn it in depth. He had studied birds in college and thereby managed to avoid any formal chemistry or physics courses. As he later pursued a PhD in biochemistry, he realized he could put it off no longer and attempted to learn organic chemistry at Indiana University. However, after a mishap in the lab, he was encouraged instead to study nucleic acid chemistry with Herman Kalckar in Copenhagen. There, his mind strayed from his work and he began doing unauthorized research in the lab of Ole Maaløe, studying phages. Herman stopped teaching Watson after going through a divorce with his wife, and sent Watson off to a scientific conference in Naples. Although he was bored by many of the lectures, Maurice Wilkins’s talk about X-ray diffraction fascinated Watson. He was struck by an X-ray diffraction picture of DNA that Maurice presented and was determined to study the acid. He later got to know more about Maurice’s colleague, Rosalind Franklin, who was proud, stubborn, and very difficult to work with. Watson greatly admired the lecture given by the renowned Linus Pauling, who had discovered the structure of the alpha-helix and was thought of as the leader in DNA research in the scientific world.
...f the structure of DNA by James Watson and Francis Crick in 1953 that was extremely influential for future researchers. They determined that DNA was a double helix structure composed of base pairings, with a sugar phosphate backbone. This model explained how “genes can duplicate themselves [and] would eventually lead to our current understanding of many things, from genetic disease to genetic engineering” (Salem).