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Historical perspectives- Early evidence , DNA is the
genetic material
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Lecture no. 2
The Modern Era: The Impact of Molecular The Modern Era: The Impact of Molecular BiologyBiology
The molecular biology revolution in the middle of the Twentieth Century provided the means to study the role of genes in development.
The key technological advance for the study of gene control of development was the ability to isolate and clone genes.
The patterns of expression of individual genes could be followed by tracing the products of their expression.
Molecular biology obtained a very powerful tool to facilitate the study of nucleic acids when the polymerase chain reaction (PCR) was developed, which amplify specific sequences of DNA many-fold from a minute amount of starting material.
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Lecture no. 2
Molecular Biology TimelineMolecular Biology Timeline
The term molecular biology first appeared in mid 1800s in a report prepared for the Rockefeller Foundation by Warren Weaver.
Two studies performed in the 1860s provided the foundation for molecular biology.
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Gregor Mendel’s (Gregor Mendel’s (18651865) Three Laws of ) Three Laws of InheritanceInheritance
Friedrich Miescher (Friedrich Miescher (18691869) identified DNA & called it ) identified DNA & called it nucleinnuclein
Lecture no. 2
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Thomas H. Morgan (Thomas H. Morgan (19101910) discovers genes on ) discovers genes on chromosomeschromosomes
Beadle & TatumBeadle & Tatum ( (19411941) ) One gene-one One gene-one enzymeenzyme
Lecture no. 2
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Avery, Mcleod & McCarty ((19441944) ) DNA is genetic material
Lecture no. 2
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Watson, Crick, Franklin, Wilkins((19531953) ) Structure of DNA
Edwin Chargaff ((19501950) ) find C complements G and A complements T
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Brenner, Jacob & Meseleson ((19611961) ) Discovery of mRNA
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Central Dogma; Crick & Gamov
1956
Recombinant DNA made in vitro; P. Berg
1972
DNA cloned on a plasmid; H. Boyer & S. Cohen
1973
Discovery of reverse transcriptase; H. Temin
1973
Finished unraveling the code; Nirenberg & Khorana
1966
Lecture no. 2
Rapid DNA sequencing; F. Sanger & W. Gilbert
1977
Discovery of split genes; Sharp, Roberts et al.
1977
Discovery of ribozymes; T. Cech & S. Altman
1982
Creation of PCR; K. Mullis et al.
1986
Lecture no. 2
3 Characteristics of3 Characteristics of“The Genetic Material”:“The Genetic Material”:
Must be a stable form containing information about cell form and function.
Must replicate accurately. Capable of change to allow evolution.. Until 1944 it was not known which component of
chromosomes was the genetic material. Until 1953 it was not known how DNA could
encode genetic information.
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Lecture Lecture no.2no.2
Search for genetic materialSearch for genetic material
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Timeline of events:• 1890: Weismann - substance in the cell nuclei controls
development.• 1900: Chromosomes shown to contain hereditary
information, later shown to be composed of protein & nucleic acids.
• 1928: Griffith’s Transformation Experiment.• 1944: Avery’s Transformation Experiment.• 1953: Hershey-Chase Bacteriophage Experiment.• 1956: First demonstration that RNA is viral genetic
material.
Early StudiesEarly Studies
Beginning with the earliest observations concerning heredity, genetic material was assumed to exist.
Until the 1940s proteins were considered by geneticists to be the best candidates:
Very abundant in cells and did nifty things. Nucleic acids were similar, and just a couple of
nucleotides connected to each other…
Lecture Lecture no.2no.2
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Phoebus Levene proposed a tetranucleotide structure !! for DNA
He though that a DNA molecule contained only four units, each unit contain
phosphate-sugar-base -in order- linked together in a repeated manner, i.e. a
tetranucleotide.
Furthermore, he considered such a simple sequence could not allow DNA any
role in coding for anything.
This was later to be proved wrong by Chargaff.
Lecture Lecture no.2no.2
So…So…
It was widely thought that DNA was organized into repeating "tetranucleotides" in a way that could not carry genetic information.
Proteins, on the other hand, had 20 different amino acids and could have lots of variation.
Most geneticists focused on “transmission genetics” and passively accepted proteins as being the likely genetic material
Lecture Lecture no.2no.2
Molecular Biology 2000- PresentMolecular Biology 2000- Present
2000- The fly Drosophila melanogaster is one of the most intensively studied organisms in
biology and serves as a model system for the investigation of many developmental and cellular
processes common to higher eukaryotes, including humans. Scientists have determined the
nucleotide sequence of nearly all of the approximately 120-megabase euchromatic portion of
the Drosophila genome using a whole-genome shotgun sequencing strategy.
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The genome sequence of Drosophila melanogaster.
Science. 287:2185-95. 2000.
Lecture Lecture no.1no.1
Continue…Continue…
2001- The Human Genome Project (HGP) began in October 1990 with a primary goal of determining the sequence of chemical base pairs which make up DNA, and of identifying and mapping the approximately 20,000–25,000 genes of the human genome from both a physical and functional standpoint.
Due to widespread international cooperation and advances in the field of genomics (especially in sequence analysis), as well as major advances in computing technology, a 'rough draft' of the genome was finished in 2000 (announced jointly by U.S. President Bill Clinton and the British Prime Minister Tony Blair on June 26, 2000).
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http://www.ornl.gov/sci/techresources/Human_Genome/home.shtml
Lecture no. 2
Nobel Prize Laureates in Nobel Prize Laureates in Physiology or Medicine from 2006 Physiology or Medicine from 2006
to present to present
2006 - ANDREW Z. FIRE, and CRAIG C. MELLO for their discovery of RNA interference - gene silencing by double-stranded RNA.
2007- MARIO R. CAPECCHI, SIR MARTIN J. EVANS, and OLIVER SMITHIES for their discoveries of principles for introducing specific gene modifications in mice by the use of embryonic stem cells.
2009- ELIZABETH H. BLACKBURN, CAROL W. GREIDER, and JACK W. SZOSTAK for the discovery of how chromosomes are protected by telomeres and the enzyme telomerase
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Lecture no. 2
We are in the midst of a "Golden EraGolden Era" of biology,and the revolution is mostly about treating biology as an information science, and not only as specific biochemical technologies
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Lecture no. 2
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Homework:Can you identify the most important terms that you have gone through a lecture today and find a scientific definition for it.
Lecture no. 2