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BORN EDUCATION MARRIED PRIZE

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Presentation on theme: "BORN EDUCATION MARRIED PRIZE"— Presentation transcript:

1 BORN EDUCATION MARRIED PRIZE
Aziz sancar BORN EDUCATION MARRIED PRIZE

2 Aziz Sancar Born: 8 September 1946, Savur, Turkey Affiliation at the time of the award: University of North Carolina, Chapel Hill, NC, USA Prize motivation: "for mechanistic studies of DNA repair" Prize share: 1/3

3 AZIZ SANCAR Sancar received his primary education near his hometown of Savur. He then completed his MD degree in Istanbul University of Turkey and completed his PhD degree on the photoreactivating enzyme of E. coli in 1977 at the University of Texas at Dallas[15] in the laboratory of Claud Stan Rupert, now Professor Emeritu

4 BORN Aziz Sancar was born into a lower-middle-class family, where he spoke Arabic with his parents and Turkish with his siblings, in the Savur district of Mardin Province, southeastern Turkey on September 8, His oldest brother; Kenan Sancar is a retired Brigadier-General of the Turkish Armed Forces.He is the cousin of HDP Mardin deputy Mithat Sancar. He was the seventh of eight children. His parents were illiterate; however, they put great emphasis on education.He was educated by idealistic teachers who received their education in the Village Institutes, he later stated that this was a great inspiration to him. Throughout his school life, Sancar had great academic success that was noted by his teachers. He wanted to study chemistry whilst at high school, but was persuaded to study medicine after five of his classmates also got into medicine along with him. As such, he studied medicine at the Faculty of Medicine of Istanbul University. In an interview, Sancar stated that in his youth, he was nationalist but he didn't participate in activities

5 EDUCATION Sancar received his primary education near his hometown of Savur. He then completed his MD degree in Istanbul University of Turkey and completed his PhD degree on the photoreactivating enzyme of E. coli in 1977 at the University of Texas at Dallas in the laboratory of Claud Stan Rupert, now Professor Emeritus.

6 WORK Living cells have DNA molecules that carry an organism's genes. For the organism to live and develop, its DNA cannot change. DNA molecules are not completely stable, and they can be damaged. In 1983, through studies of bacteria, Aziz Sancar showed how certain protein molecules, certain repair enzymes, repair DNA damaged by ultraviolet (UV) light. These discoveries have increased our understanding of how the living cell works, the causes of cancer and aging processes.

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8 The cells’ toolbox for DNA repair
The Nobel Prize in Chemistry 2015 is awarded to Tomas Lindahl, Paul Modrich and Aziz Sancar for having mapped, at a molecular level, how cells repair damaged DNA and safeguard the genetic information. Their work has provided fundamental knowledge of how a living cell functions and is, for instance, used for the development of new cancer treatments. Each day our DNA is damaged by UV radiation, free radicals and other carcinogenic substances, but even without such external attacks, a DNA molecule is inherently unstable. Thousands of spontaneous changes to a cell’s genome occur on a daily basis. Furthermore, defects can also arise when DNA is copied during cell division, a process that occurs several million times every day in the human body. The reason our genetic material does not disintegrate into complete chemical chaos is that a host of molecular systems continuously monitor and repair DNA. The Nobel Prize in Chemistry 2015 awards three pioneering scientists who have mapped how several of these repair systems function at a detailed molecular level.

9 In the early 1970s, scientists believed that DNA was an extremely stable molecule, but Tomas Lindahl demonstrated that DNA decays at a rate that ought to have made the development of life on Earth impossible. This insight led him to discover a molecular machinery, base excision repair, which constantly counteracts the collapse of our DNA. Aziz Sancar has mapped nucleotide excision repair, the mechanism that cells use to repair UV damage to DNA. People born with defects in this repair system will develop skin cancer if they are exposed to sunlight. The cell also utilises nucleotide excision repair to correct defects caused by mutagenic substances, among other things. Paul Modrich has demonstrated how the cell corrects errors that occur when DNA is replicated during cell division. This mechanism, mismatch repair, reduces the error frequency during DNA replication by about a thousandfold. Congenital defects in mismatch repair are known, for example, to cause a hereditary variant of colon cancer. The Nobel Laureates in Chemistry 2015 have provided fundamental insights into how cells function, knowledge that can be used, for instance, in the development of new cancer treatments.

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13 RESOURCE Wikipedia Photo News paper senanur ersöz EN 301

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