DOCSLIB.ORG

Cover June 2011

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Cover June 2011 z NOBEL LAUREATES IN Qui DNA RESEARCH n u SANGRAM KESHARI LENKA & CHINMOYEE MAHARANA F 1. Who got the Nobel Prize in Physiology or Medicine 1933) for discovering the famous concept that says chromosomes carry genes? a. Gregor Johann Mendel b. Thomas Hunt Morgan c. Aristotle d. Charles Darwin 5. Name the Nobel laureate (1959) for his discovery of the mechanisms in the biological 2. The concept of Mutations synthesis of ribonucleic acid and are changes in genetic deoxyribonucleic acid? information” awarded him a. Arthur Kornberg b. Har Gobind Khorana the Nobel Prize in 1946: c. Roger D. Kornberg d. James D. Watson a. Hermann Muller b. M.F. Perutz c. James D. Watson 6. Discovery of the DNA double helix fetched them d. Har Gobind Khorana the Nobel Prize in Physiology or Medicine (1962). a. Francis Crick, James Watson, Rosalind Elsie Franklin b. Francis Crick, James Watson and Maurice Willkins c. James Watson, Maurice Willkins, Rosalind Elsie Franklin 3. Identify the discoverer and d. Maurice Willkins, Rosalind Elsie Franklin and Francis Crick Nobel laureate of 1958 who found DNA in bacteria and viruses. a. Louis Pasteur b. Alexander Fleming c. Joshua Lederberg d. Roger D. Kornberg 4. A direct link between genes and enzymatic reactions, known as the famous “one gene, one enzyme” hypothesis, was put forth by these 7. They developed the theory of genetic regulatory scientists who shared the Nobel Prize in mechanisms, showing how, on a molecular level, Physiology or Medicine, 1958. certain genes are activated and suppressed. Name a. George Wells Beadle and Edward Lawrie Tatum these famous Nobel laureates of 1965. b. James D. Watson and Francis Crick a. Francis Crick, James Watson c. Maurice Wilkins and Rosalind Franklin b. George Wells Beadle and Edward Lawrie Tatum d. Marie Curie and Pierre Curie c. Francois Jacob, André Lwoff and Jacques Monod d. Arthur Kornberg and Har Gobind Khorana SCIENCE REPORTER, JUNE 2011 58 Fun Quiz 8. Identify the personality 13. The Nobel Prize in who was awarded the Nobel Physiology or Medicine Prize for his interpretation 1989 was awarded to them of the genetic code and its for their discovery of the function in protein cellular origin of synthesis with Robert W. retroviral oncogenes? Holley and Har Gobind a. Howard Martin Temin Khorana in 1959. and David Baltimore a. Francis Crick b. Michael Bishop and b. James Watson Harold Varmus c. Marshall W. Nirenberg c. M.F. Perutz and David Baltimore d. Roger D. Kornberg d. Francis Crick and James Watson The Nobel Prize in Physiology 9. 14. The Nobel Assembly at the Karolinska or Medicine (1969) was awarded to Institute in Stockholm, Sweden, awarded the him for discoveries concerning the Nobel Prize in Physiology or Medicine for 1993 genetic structure of viruses. jointly to them for their discovery of split genes. a. Joshua Lederberg a. Richard J. Roberts and Phillip A. Sharp b. Roger D. Kornberg b. Michael Bishop and Harold Varmus c. Marshall W. Nirenberg c. Howard Martin d. Alfred D. Hershe Temin and David Baltimore 10. They shared the Nobel Prize with Renato d. Roger D. Kornberg Dulbecco for their discoveries concerning “the and Alfred D. Hershey interaction between tumour viruses and the genetic material of the cell” in 1975. a. Roger D. Kornberg and Alfred D. Hershey b. Howard Martin Temin and David Baltimore 15. Nobel Prize in Physiology or Medicine in 1995 c. M.F. Perutz and for their discoveries concerning the genetic David Baltimore control of early embryonic development was d. Maurice Wilkins and awarded to… Howard Martin Temin a. Francis Crick, James Watson and Maurice Willkins b. Edward Lewis, Christiane Nusslein-Volhard and Maurice Willkins 11. Name the English c. Edward Lewis, Christiane Nusslein-Volhard and biochemist who was twice Eric Wieschaus the recipient of the Nobel d. Christiane Nusslein-Volhard and Eric Wieschaus Prize for Chemistry. The 1980 and Francis Crick Nobel award was given to him for his determination of the sequence of the nucleotides in the DNA of a virus. a. Linus Pauling b. John Bardeen c. Frederick Sanger d. Maria Sk³odowska-Curie 12. In 1983, this Nobel laureate in Physiology or Medicine was awarded for ANSWERS: her discovery of mobile 1. b 2. a 3. c 4. a 5. a 6. b genetic elements popularly 7. c 8. c 9. d 10. b 11. c 12. d known as jumping genes? 13. b 14. a 15. c a. Barbara McClintock Contributed by Mr Sangram Keshari Lenka, National Research Centre on b. Rosalind Elsie Franklin Plant Biotechnology, Indian Agricultural Research Institute, New Delhi-110012, c. Maria Sk³odowska-Curie Email: [email protected]; and Mr Chinmoyee Maharana, National Brain d. Carol W. Greider Research Centre, Manesar-122050, Haryana, Email: [email protected] 59 SCIENCE REPORTER, JUNE 2011.
Load more

Recommended publications
  • Francois Jacob Memorial
    RETROSPECTIVE RETROSPECTIVE Francois Jacob memorial Arthur B. Pardee1 Department of Adult Oncology, Dana-Farber Institute, Boston, MA 02115 Dr. Francois Jacob is one of a handful of the DNA would integrate into the bacterial chro- 20th century’smostdistinguishedlifescien- mosome and remain dormant or, at other tists. His research with Dr. Jacques Monod, times, would kill the cell. like that of Watson and Crick, provided the Jacob’s next major contribution, in collab- foundations for understanding mechanisms oration with Dr. Jacques Monod, was to in- of genetic regulation of life processes such vestigate how a gene is regulated. Remark- as cell differentiation and defects in diseases. ably, native E. coli synthesize β-galactosidase Jacob joined the College de France in 1964 only when lactose is available. Some mutated and shared the Nobel Prize in Physiology bacteria can make the enzyme in the absence or Medicine 1965 with Jacques Monod of inducer. Monod’s initial idea was that and Andre Lwoff. He was elected to the these constitutive bacteria activate the gene National Academy of Sciences (NAS) USA by synthesizing an intracellular lactose-like in 1969. inducer molecule. Jacob was born in 1920 in a French Jewish To investigate this model, interrupted family; his grandfather was a four-star gen- mating was applied to bring the β-galactosi- eral. He began to study medicine before dase gene of a donor bacterium into a consti- World War II, in which he served as a mil- tutive receptor. According to the induction itary officer in the Free French Army and was model, the mated cell should produce en- badly wounded in an air raid.
    [Show full text]
  • Key Stage 3 DNA Discoveries
    Key Stage 3 Their conclusions were built on by later scientists, and gradually the understanding of DNA developed. DNA Discoveries Are scientists still researching DNA? Student worksheet Yes! All of the DNA in a human nucleus is called the genome. In What makes you, you? 2003, scientists finished an important project, the Human Genome Project, which deciphered the whole DNA code. The simple answer is DNA. This is a chemical Scientists around the world are using this information to work found in the nucleus of your cells. It is a code out what each section, called a gene, does. We now know the that tells your cells what proteins to make. genes that cause inherited diseases, can clone whole mammals These proteins are what give you your and even build artificial cells by creating new genomes. characteristics such as eye colour, blood group and if you have curly or straight hair. Your task You inherited your DNA from your parents - You are going to create a banner for your classroom that charts half from your father and half from your the timeline of DNA discoveries. mother, when an egg was fertilised by a 1. Work in a group of 2-4. sperm. This fertilised egg, which contained 2. Each group will be given one scientist to research, and some your unique DNA, divided to form the millions useful websites. of cells that make up you. 3. Fill in the information on your piece of DNA. How do we know all this? 4. When the timeline is complete, work as a class to put it in the correct order.
    [Show full text]
  • 書 名 等 発行年 出版社 受賞年 備考 N1 Ueber Das Zustandekommen Der
    書 名 等 発行年 出版社 受賞年 備考 Ueber das Zustandekommen der Diphtherie-immunitat und der Tetanus-Immunitat bei thieren / Emil Adolf N1 1890 Georg thieme 1901 von Behring N2 Diphtherie und tetanus immunitaet / Emil Adolf von Behring und Kitasato 19-- [Akitomo Matsuki] 1901 Malarial fever its cause, prevention and treatment containing full details for the use of travellers, University press of N3 1902 1902 sportsmen, soldiers, and residents in malarious places / by Ronald Ross liverpool Ueber die Anwendung von concentrirten chemischen Lichtstrahlen in der Medicin / von Prof. Dr. Niels N4 1899 F.C.W.Vogel 1903 Ryberg Finsen Mit 4 Abbildungen und 2 Tafeln Twenty-five years of objective study of the higher nervous activity (behaviour) of animals / Ivan N5 Petrovitch Pavlov ; translated and edited by W. Horsley Gantt ; with the collaboration of G. Volborth ; and c1928 International Publishing 1904 an introduction by Walter B. Cannon Conditioned reflexes : an investigation of the physiological activity of the cerebral cortex / by Ivan Oxford University N6 1927 1904 Petrovitch Pavlov ; translated and edited by G.V. Anrep Press N7 Die Ätiologie und die Bekämpfung der Tuberkulose / Robert Koch ; eingeleitet von M. Kirchner 1912 J.A.Barth 1905 N8 Neue Darstellung vom histologischen Bau des Centralnervensystems / von Santiago Ramón y Cajal 1893 Veit 1906 Traité des fiévres palustres : avec la description des microbes du paludisme / par Charles Louis Alphonse N9 1884 Octave Doin 1907 Laveran N10 Embryologie des Scorpions / von Ilya Ilyich Mechnikov 1870 Wilhelm Engelmann 1908 Immunität bei Infektionskrankheiten / Ilya Ilyich Mechnikov ; einzig autorisierte übersetzung von Julius N11 1902 Gustav Fischer 1908 Meyer Die experimentelle Chemotherapie der Spirillosen : Syphilis, Rückfallfieber, Hühnerspirillose, Frambösie / N12 1910 J.Springer 1908 von Paul Ehrlich und S.
    [Show full text]
  • Discovery of DNA Structure and Function: Watson and Crick By: Leslie A
    01/08/2018 Discovery of DNA Double Helix: Watson and Crick | Learn Science at Scitable NUCLEIC ACID STRUCTURE AND FUNCTION | Lead Editor: Bob Moss Discovery of DNA Structure and Function: Watson and Crick By: Leslie A. Pray, Ph.D. © 2008 Nature Education Citation: Pray, L. (2008) Discovery of DNA structure and function: Watson and Crick. Nature Education 1(1):100 The landmark ideas of Watson and Crick relied heavily on the work of other scientists. What did the duo actually discover? Aa Aa Aa Many people believe that American biologist James Watson and English physicist Francis Crick discovered DNA in the 1950s. In reality, this is not the case. Rather, DNA was first identified in the late 1860s by Swiss chemist Friedrich Miescher. Then, in the decades following Miescher's discovery, other scientists--notably, Phoebus Levene and Erwin Chargaff--carried out a series of research efforts that revealed additional details about the DNA molecule, including its primary chemical components and the ways in which they joined with one another. Without the scientific foundation provided by these pioneers, Watson and Crick may never have reached their groundbreaking conclusion of 1953: that the DNA molecule exists in the form of a three-dimensional double helix. The First Piece of the Puzzle: Miescher Discovers DNA Although few people realize it, 1869 was a landmark year in genetic research, because it was the year in which Swiss physiological chemist Friedrich Miescher first identified what he called "nuclein" inside the nuclei of human white blood cells. (The term "nuclein" was later changed to "nucleic acid" and eventually to "deoxyribonucleic acid," or "DNA.") Miescher's plan was to isolate and characterize not the nuclein (which nobody at that time realized existed) but instead the protein components of leukocytes (white blood cells).
    [Show full text]
  • Biochemistrystanford00kornrich.Pdf
    University of California Berkeley Regional Oral History Office University of California The Bancroft Library Berkeley, California Program in the History of the Biosciences and Biotechnology Arthur Kornberg, M.D. BIOCHEMISTRY AT STANFORD, BIOTECHNOLOGY AT DNAX With an Introduction by Joshua Lederberg Interviews Conducted by Sally Smith Hughes, Ph.D. in 1997 Copyright 1998 by The Regents of the University of California Since 1954 the Regional Oral History Office has been interviewing leading participants in or well-placed witnesses to major events in the development of Northern California, the West, and the Nation. Oral history is a method of collecting historical information through tape-recorded interviews between a narrator with firsthand knowledge of historically significant events and a well- informed interviewer, with the goal of preserving substantive additions to the historical record. The tape recording is transcribed, lightly edited for continuity and clarity, and reviewed by the interviewee. The corrected manuscript is indexed, bound with photographs and illustrative materials, and placed in The Bancroft Library at the University of California, Berkeley, and in other research collections for scholarly use. Because it is primary material, oral history is not intended to present the final, verified, or complete narrative of events. It is a spoken account, offered by the interviewee in response to questioning, and as such it is reflective, partisan, deeply involved, and irreplaceable. ************************************ All uses of this manuscript are covered by a legal agreement between The Regents of the University of California and Arthur Kornberg, M.D., dated June 18, 1997. The manuscript is thereby made available for research purposes. All literary rights in the manuscript, including the right to publish, are reserved to The Bancroft Library of the University of California, Berkeley.
    [Show full text]
  • Mobile DNA Elements in Shigella Flexneri and Emergence of An- Tibiotic Resistance Crisis
    International Journal of Genomics and Data Mining Palchauduri S, et al. Int J Genom Data Min 01: 111. Research Article DOI: 10.29011/2577-0616.000111 Mobile DNA Elements in Shigella flexneri and Emergence of An- tibiotic Resistance Crisis Sunil Palchaudhuri1*, Anubha Palchaudhuri2, Archita Biswas2 1Department of Immunology and Microbiology, Wayne State University School of Medicine, Detroit, USA 2Atlanta Health Centre, Kolkata, India *Corresponding author: Sunil Palchaudhuri,Department of Immunology and Microbiology, Wayne State University School of Medicine, 540 E Canfield St, Detroit, MI 48201, USA. Tel: +13135771335; Email: [email protected] Citation:Palchaudhuri S, Palchaudhuri A, Biswas A (2017)Mobile DNA Elements in Shigella flexneri and Emergence of Antibiotic Resistance Crisis. Int J Genom Data Min 01: 111. DOI: 10.29011/2577-0616.000111 Received Date: 18October, 2017; Accepted Date: 23 October, 2017; Published Date: 30 October, 2017 Introduction F Plasmid-Lederberg’s Fertility factor F of E. coli K-12. Prokaryotic mobile DNA elements were initially observed by • 100 Kb. Nobel Prize Winner Professor Barbara McClintock in 1983. Both • ori F-origin of F plasmid replication. (With the sequence for IS and Tn elements are defined as mobile DNA elements capable dna A gene to function) of inserting into many different sites of a single chromosome or different chromosomes as discrete, non-permuted DNA segments • rep-replication functions. [1,2]. In 1952 Dr Joshua Lederberg (a noble prize winner of 1958) • IS-insertion sequence (IS2, IS3 and IS1copies present in the has shown the presence of such elements IS1, IS2, IS3 and Tn host E. coli K-12.
    [Show full text]
  • Cambridge's 92 Nobel Prize Winners Part 2 - 1951 to 1974: from Crick and Watson to Dorothy Hodgkin
    Cambridge's 92 Nobel Prize winners part 2 - 1951 to 1974: from Crick and Watson to Dorothy Hodgkin By Cambridge News | Posted: January 18, 2016 By Adam Care The News has been rounding up all of Cambridge's 92 Nobel Laureates, celebrating over 100 years of scientific and social innovation. ADVERTISING In this installment we move from 1951 to 1974, a period which saw a host of dramatic breakthroughs, in biology, atomic science, the discovery of pulsars and theories of global trade. It's also a period which saw The Eagle pub come to national prominence and the appearance of the first female name in Cambridge University's long Nobel history. The Gender Pay Gap Sale! Shop Online to get 13.9% off From 8 - 11 March, get 13.9% off 1,000s of items, it highlights the pay gap between men & women in the UK. Shop the Gender Pay Gap Sale – now. Promoted by Oxfam 1. 1951 Ernest Walton, Trinity College: Nobel Prize in Physics, for using accelerated particles to study atomic nuclei 2. 1951 John Cockcroft, St John's / Churchill Colleges: Nobel Prize in Physics, for using accelerated particles to study atomic nuclei Walton and Cockcroft shared the 1951 physics prize after they famously 'split the atom' in Cambridge 1932, ushering in the nuclear age with their particle accelerator, the Cockcroft-Walton generator. In later years Walton returned to his native Ireland, as a fellow of Trinity College Dublin, while in 1951 Cockcroft became the first master of Churchill College, where he died 16 years later. 3. 1952 Archer Martin, Peterhouse: Nobel Prize in Chemistry, for developing partition chromatography 4.
    [Show full text]
  • Lecture Program
    EARL W. SUTHERLAND LECTURE EARL W. SUTHERLAND LECTURE The Earl W. Sutherland Lecture Series was established by the SPONSORED BY: Department of Molecular Physiology and Biophysics in 1997 DEPARTMENT OF MOLECULAR PHYSIOLOGY AND BIOPHYSICS to honor Dr. Sutherland, a former member of this department and winner of the 1971 Nobel Prize in Physiology or Medicine. This series highlights important advances in cell signaling. ROBERT J. LEFKOWITZ, MD NOBEL PRIZE IN CHEMISTRY, 2012 SPEAKERS IN THIS SERIES HAVE INCLUDED: SEVEN TRANSMEMBRANE RECEPTORS Edmond H. Fischer (1997) Alfred G. Gilman (1999) Ferid Murad (2001) Louis J. Ignarro (2003) MARCH 31, 2016 Paul Greengard (2007) 4:00 P.M. 208 LIGHT HALL Eric Kandel (2009) Roger Tsien (2011) Michael S. Brown (2013) 867-2923-Institution-Discovery Lecture Series-Lefkowitz-BK-CH.indd 1 3/11/16 9:39 AM EARL W. SUTHERLAND, 1915-1974 ROBERT J. LEFKOWITZ, MD JAMES B. DUKE PROFESSOR, Earl W. Sutherland grew up in Burlingame, Kansas, a small farming community DUKE UNIVERSITY MEDICAL CENTER that nourished his love for the outdoors and fishing, which he retained throughout INVESTIGATOR, HOWARD HUGHES MEDICAL INSTITUTE his life. He graduated from Washburn College in 1937 and then received his MEMBER, NATIONAL ACADEMY OF SCIENCES M.D. from Washington University School of Medicine in 1942. After serving as a MEMBER, INSTITUTE OF MEDICINE medical officer during World War II, he returned to Washington University to train NOBEL PRIZE IN CHEMISTRY, 2012 with Carl and Gerty Cori. During those years he was influenced by his interactions with such eminent scientists as Louis Leloir, Herman Kalckar, Severo Ochoa, Arthur Kornberg, Christian deDuve, Sidney Colowick, Edwin Krebs, Theodore Robert J.
    [Show full text]
  • Nobel Laureates Endorse Joe Biden
    Nobel Laureates endorse Joe Biden 81 American Nobel Laureates in Physics, Chemistry, and Medicine have signed this letter to express their support for former Vice President Joe Biden in the 2020 election for President of the United States. At no time in our nation’s history has there been a greater need for our leaders to appreciate the value of science in formulating public policy. During his long record of public service, Joe Biden has consistently demonstrated his willingness to listen to experts, his understanding of the value of international collaboration in research, and his respect for the contribution that immigrants make to the intellectual life of our country. As American citizens and as scientists, we wholeheartedly endorse Joe Biden for President. Name Category Prize Year Peter Agre Chemistry 2003 Sidney Altman Chemistry 1989 Frances H. Arnold Chemistry 2018 Paul Berg Chemistry 1980 Thomas R. Cech Chemistry 1989 Martin Chalfie Chemistry 2008 Elias James Corey Chemistry 1990 Joachim Frank Chemistry 2017 Walter Gilbert Chemistry 1980 John B. Goodenough Chemistry 2019 Alan Heeger Chemistry 2000 Dudley R. Herschbach Chemistry 1986 Roald Hoffmann Chemistry 1981 Brian K. Kobilka Chemistry 2012 Roger D. Kornberg Chemistry 2006 Robert J. Lefkowitz Chemistry 2012 Roderick MacKinnon Chemistry 2003 Paul L. Modrich Chemistry 2015 William E. Moerner Chemistry 2014 Mario J. Molina Chemistry 1995 Richard R. Schrock Chemistry 2005 K. Barry Sharpless Chemistry 2001 Sir James Fraser Stoddart Chemistry 2016 M. Stanley Whittingham Chemistry 2019 James P. Allison Medicine 2018 Richard Axel Medicine 2004 David Baltimore Medicine 1975 J. Michael Bishop Medicine 1989 Elizabeth H. Blackburn Medicine 2009 Michael S.
    [Show full text]
  • Introduction and Historical Perspective
    Chapter 1 Introduction and Historical Perspective “ Nothing in biology makes sense except in the light of evolution. ” modified by the developmental history of the organism, Theodosius Dobzhansky its physiology – from cellular to systems levels – and by the social and physical environment. Finally, behaviors are shaped through evolutionary forces of natural selection OVERVIEW that optimize survival and reproduction ( Figure 1.1 ). Truly, the study of behavior provides us with a window through Behavioral genetics aims to understand the genetic which we can view much of biology. mechanisms that enable the nervous system to direct Understanding behaviors requires a multidisciplinary appropriate interactions between organisms and their perspective, with regulation of gene expression at its core. social and physical environments. Early scientific The emerging field of behavioral genetics is still taking explorations of animal behavior defined the fields shape and its boundaries are still being defined. Behavioral of experimental psychology and classical ethology. genetics has evolved through the merger of experimental Behavioral genetics has emerged as an interdisciplin- psychology and classical ethology with evolutionary biol- ary science at the interface of experimental psychology, ogy and genetics, and also incorporates aspects of neuro- classical ethology, genetics, and neuroscience. This science ( Figure 1.2 ). To gain a perspective on the current chapter provides a brief overview of the emergence of definition of this field, it is helpful
    [Show full text]
  • Quiet Debut'' of the Double Helix: a Bibliometric and Methodological
    Journal of the History of Biology Ó Springer 2009 DOI 10.1007/s10739-009-9183-2 Revisiting the ‘‘Quiet Debut’’ of the Double Helix: A Bibliometric and Methodological note on the ‘‘Impact’’ of Scientific Publications YVES GINGRAS De´partement d’histoire Universite´ du Que´bec a` Montre´al C.P. 8888, Suc. Centre-Ville Montreal, QC H3C-3P8 Canada E-mail: [email protected] Abstract. The object of this paper is two-fold: first, to show that contrary to what seem to have become a widely accepted view among historians of biology, the famous 1953 first Nature paper of Watson and Crick on the structure of DNA was widely cited – as compared to the average paper of the time – on a continuous basis from the very year of its publication and over the period 1953–1970 and that the citations came from a wide array of scientific journals. A systematic analysis of the bibliometric data thus shows that Watson’s and Crick’s paper did in fact have immediate and long term impact if we define ‘‘impact’’ in terms of comparative citations with other papers of the time. In this precise sense it did not fall into ‘‘relative oblivion’’ in the scientific community. The second aim of this paper is to show, using the case of the reception of the Watson–Crick and Jacob–Monod papers as concrete examples, how large scale bibliometric data can be used in a sophisticated manner to provide information about the dynamic of the scientific field as a whole instead of limiting the analysis to a few major actors and generalizing the result to the whole community without further ado.
    [Show full text]
  • Eighty Years of Fighting Against Cancer in Serbia Ovarian Cancer Vaccine
    News Eighty years of fighting against cancer Recent study by Kunle Odunsi et al., Roswell Park Cancer Institute, Buffalo, in Serbia New York, USA, showed an effects of vaccine based on NY-ESO-1, a „cancer This year on December 10th, Serbian society for the fight against cancer has testis“ antigen in preventing the recurrence of ovarian cancer. NY-ESO-1 is a ovarian celebrated the great jubilee - 80 years of its foundation. The celebration took „cancer-testis“ antigen expressed in epithelial cancer (EOC) and is place in Crystal Room of Belgrade’s Hyatt hotel, gathering many distinguished among the most immunogenic tumor antigens defined to date. presence + guests from the country and abroad. This remarkable event has been held Author’s previous study point to the role of of intraepithelial CD8 - under the auspices of the President of Republic of Serbia, Mr. Boris Tadić. infiltrating T lymphocytes in tumors that was associated with improved survival of The whole ceremony was presided by Prof. Dr. Slobodan Čikarić, actual presi- patients with the disease. The NY-ESO-1 peptide epitope, ESO157–170, is recog- + + dent of Society, who greeted guests and wished them a warm welcome. Than nized by HLA-DP4-restricted CD4 T cells and HLA-A2- and A24-restricted CD8 + followed the speech of Serbian health minister, Prof. Dr. Tomica Milosavljević T cells. To test whether providing cognate helper CD4 T cells would enhance who pointed out the importance of preventive measures and public education the antitumor immune response, Odunsi et al., conducted a phase I clinical trial along with timely diagnosis and multidisciplinary treatment in global fight of immunization with ESO157–170 mixed with incomplete Freund's adjuvant + against cancer in Serbia.
    [Show full text]