Have you ever asked yourself the question why my eyes are this color? Or any question as to why we look the way we do. All of our features come down to our genetics. Those genetics are family traits that are passed down through our bloodlines. It all comes down to what is considered the fundamental building blocks of life, our DNA.
DeoxyriboNucleic Acid is the actual name for DNA. We have all heard of DNA for years, but what do you really know about it. What is DNA made of? In this paper we will talk about this mini miracle called DNA. Like any good story we need to start at the beginning.
DNA was discovered in 1868 by a Swiss medical student named Johann Friedrich Miescher. Miescher was working with pus from a surgical would, where he was investigating the white blood cells. It was in these white blood cells that he found the instruction booklet for making us who we are. It is important to note that DNA is in every living being.
Even though Miescher discovered DNA in 1868, it would be over 80 more years before DNA was actually considered actual genetic material. After Miescher found DNA, the medical and scientific communities of that era felt that DNA was too simple to actually be genetic material. It was not until James Watson and Francis Crick came along that DNA would be recognized for all that it is.
Watson and Crick were the ones to delve deeper into the DNA configuration. What they would learn is that the structure is actually a coiled double helix on a 34 degree pitch (Hallick, 1995). They would further discover that DNA is a long complex polymer made from repeating nucleotide. So complex and long in fact that it has been recorded that a humans chromosome number one is 85 nanometers long and contains 220 million base pairs ("Deoxyribonucleic acid (dna)," 2012).
The double helix DNA structure is made from alternating sugar and phosphate bonds. Holding these sugar and phosphate bonds together is hydrogen. Earlier we mentioned that in early DNA discovery it was considered too simple to be actually viable genetic material. This was thought due to the four base materials that are found in all DNA. These are adenine, cytosine, guanine and thymine (Simon & Dicker, 2012).
DNA is made up of nucleotides, and a strand of DNA is known as a polynucleotide. A nucleotide is made up of three parts: A phosphate (phosphoric acid), a sugar (Deoxyribose in the case of DNA), and an organic nitrogenous base2 of which there are four. The four bases are as followed: Adenine (A), Cytosine
The molecule consisted of a double helix with phosphates, deoxyribose sugar molecules, and nitrogenous bases. If the spirals were split, the DNA could replicate, which explained why genes were transferred from parents to their children. Additionally, the order of compounds on the DNA indicated that there was a unique ‘code’ on each strand. Watson and Crick believed that this ‘code’ was translated into specific proteins. , ,
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
When you are building something you would most likely use a blueprint. A blueprint is the instructions to help the builder build his creation. DNA is like a blueprint for your body. DNA is like instructions to help you grow, survive, and reproduce. And thanks to James D. Watson’s discovery it revealed the understanding of living things in the means of structure and interaction molecules. Watson’s said in quote “It is necessary to be slightly underemployed if you want to do something significant.” James D. Watson was born in Chicago, Illinois on April 6, 1928. Watson is an intelligent and gifted man and helped discover the structure of DNA; his scientific knowledge as an American molecular biologist, zoologist, and geneticist attributed to his success
It was in 1984 when Alec Jeffreys, a British geneticist, discovered that specific sequences of DNA did not add to the function of a gene but were still constant throughout it. (Britannica). Jeffreys called these minisatellites and determined that each individual organism had a unique arrangement of minisatellites (Britannica). In the early uses of DNA fingerprinting, it was only used for identifying genetic diseases and disorders but people quickly realized that it could be used in many different areas of science (hubpages). Years after the discovery of DNA fingerprinting, it had been used to solve the first immigration case, the first paternity case, and even helped identify the first identical twins (le.ac.uk). The first methods of DNA fingerprinting were accurate, but you would have had needed to acquire a large amount of DNA. Over time, the advancement of science has led to major advances that formed the basis of DNA profiling techniques. These newer methods are still used today and allow scientist to use skin, blood, semen, and hair to gather DNA (le.ac.uk). In 1988 DNA fingerprinting was used for the first time in a criminal investigation. Timothy Spe...
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.
DNA in forensic science has been around for a long time. DNA has had help in solving almost every crime committed. There have been a lot of crimes where people are raped or murdered and the person who did it runs free. Scientists can collect the littlest item they see at the scene, such as a cigarette butt or coffee cup and check it for DNA. People have spent years in jail for a crime they didn’t commit till DNA testing came into effect. People are getting out of jail after 20 years for a crime they didn’t commit, cause of the DNA testing. DNA has helped medical researchers develop vaccines for disease causing microbe. DNA has become a standard tool of forensics in many murders and rapes.
DNA, or deoxyribonucleic exists in all living organisms, is self-replicating and gives a person their unique characteristics. No two people have the same matching DNA. There are many different forms of DNA that are tested for situations such as criminal. Bodily fluids, hair follicles and bone tissues are some of the most common types of DNA that is tested in crime labs today. Although the discovery of DNA dates back to 1866 when Gregor Mendel proved the inheritance of factors in pea plants, DNA testing is relatively new and have been the prime factor when solving crimes in general. In 1966, scientists discovered a genetic code that made it possible to predict characteristics by studying DNA. This lead to genetic engineering and genetic counseling. In 1980, Organ was the first to have a conviction based off DNA fingerprinting and DNA testing in forensics cases became famous in 1995 during the O.J. Simpson trial (SMC History , 2011).
Have you ever wondered how exactly you got your eye color? It starts with eye color genetics. Eye color genetics are the DNA (deoxyribonucleic acid) make-up behind your eye color. Your eye color has a huge effect on how you perceive the world. Without eye color, you wouldn’t be able to decipher colors. Eye color genetics are important to the very culmination of your being.
"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.
Firstly, in order to compresence the complexity of our debate, we have to take in mind the definition of nature and nurture. Yes, is true that some of our characteristics are inherited by our ancestors, most of our physical characteristics, such as hair color and type; the pigmentation of our skin, those are a product of our genes thus our DNA (Jewel, 2007).
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.
Enzymes are protein molecules that are made by organisms to catalyze reactions. Typically, enzymes speeds up the rate of the reaction within cells. Enzymes are primarily important to living organisms because it helps with metabolism and the digestive system. For example, enzymes can break larger molecules into smaller molecules to help the body absorb the smaller pieces faster. In addition, some enzyme molecules bind molecules together. However, the initial purpose of the enzyme is to speed up reactions for a certain reason because they are “highly selective catalysts” (Castro J. 2014). In other words, an enzyme is a catalyst, which is a substance that increases the rate of a reaction without undergoing changes. Moreover, enzymes work with
DNA (deoxyribonucleic acid) is a self-replicating molecule or material present in nearly all living organisms as the main constituent in chromosomes. It encodes the genetic instructions used in the development and functioning of all known living organisms and many viruses. 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). Scientist use the term “double helix” to describe DNA’s winding, two-stranded chemical structure. This shape looks much like a twisted ladder and gives the DNA the power to pass along biological instructions with great precision.
...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).