DNA/Timelines: Difference between revisions

 

:'''1866''': [[Gregor Mendel]] identifies inheritance "factors" in pea plants.

:'''1869''': [[Friedrich Miescher]] isolates “nuclein” (DNA) from infected wounds.

:'''1900''': [[Karl Correns]], [[Hugo de Vries]] and [[Erich von Tschermak]] independently rediscover Mendel's laws.

:'''1910''': [[Thomas Hunt Morgan]] proposed a theory of sex-linked inheritance for the first mutation discovered in the fruit fly, [[Drosophila]], white eye.  

:'''1913''': Morgan and [[Alfred Sturtevant]] propose principle of gene linkage leading to the first genetic map.  

:'''1927''': [[Hermann J. Muller]] Used x-rays to cause artificial gene mutations in Drosophila.

:'''1928''': [[Frederick Griffith]] demonstrates a "transforming factor" that can transmit the ability of [[bacteria]] to cause [[pneumonia]] in mice.

:'''1929''': [[Phoebus Levene]] describes building blocks of DNA, including four types of base A,C, T, and G.

:'''1931''': [[Harriet Creighton]] and [[Barbara McClintock]] Demonstrated the cytological proof for crossing-over in [[maize]].

:'''1941''': [[George Beadle]] and [[Edward Tatum]] prove that a gene can produce its effect by regulating particular enzymes.

:'''1944''': [[Oswald Avery]], [[Colin MacLeod]], and [[Maclyn McCarty]] purified the transforming factor proposed in Griffith's experiment and show it is not protein, but DNA.

:'''Late 1940s''': Barbara McClintock developed the hypothesis of [[transposable element]]s.

:'''1950''': [[Alfred Hershey]] and [[Martha Chase]] use [[bacteriophage]] to confirm DNA is the molecule of heredity.  

:'''1950''': [[Erwin Chargaff]] discovered a one-to-one ratio of A:T and G:C in DNA samples from a variety of organisms.

:'''1951''': [[Rosalind Franklin]] created a high quality [[X-ray diffraction]] photograph to reveal more detail of the repeating structure of DNA.

:'''1953''': [[Francis Crick]] and [[James Watson]] deduce the three-dimensional structure of the DNA molecule using a combination of experimental data and model building.

:'''1958''': [[Arthur Kornberg]] purified a [[DNA polymerase]] from bacteria, and used it to synthesis DNA in a test tube.

:'''1958''': [[Matthew Meselson]] and [[Franklin Stahl]] demonstrated that DNA replicates by a semi-conservative mechanism.

:'''1966''': [[Marshall Nirenberg]] and [[Gobind Khorana]] crack the [[genetic code]] linking the DNA sequence of nucleotides to the protein sequence of amino acid residues.

:'''1967''': Discovery of [[DNA ligase]].

:'''1969''': FISH  

:'''1970''': [[Howard Temin]] discovered the of activity of [[reverse transcriptase]].

:'''1970''': [[Hamilton Smith]] and [[Kent Wilcox]] isolated the first [[restriction enzyme]], HindII, that cuts DNA at a very specific nucleotide sequence.

:'''1972''': [[Paul Berg]] creates the first recombinant DNA molecules, using restriction enzymes. This technology will be the beginning of the biotechnology industry.

:'''1973''': [[Annie Chang]] and [[Stanley Cohen]] showed that a recombinant DNA molecule can be maintained and replicated in E. coli.

:'''1973''': [[Joseph Sambrook]] refined [[DNA electrophoresis (first described in 1953) by using an agarose gel and staining the DNA with [[ethidium bromide]].

:'''1975''': An International meeting at [[Asilomar, California]] provided guidelines regulating recombinant DNA experimentation.

:'''1975''': [[Ed Southern]] developed the [[Southern blot]] for DNA. This name inspires similar blotting techniques for  RNA ([[northern blot]]) and protein ([[western blot]]).

:'''1976''': [[Herbert Boyer]] cofounds [[Genentech]], the first firm founded in the United States to apply recombinant DNA technology

:'''1977''': [[Frederick Sanger]], [[Allan Maxam]], and [[Walter Gilbert]] developed the chain termination (dideoxy) method for sequencing DNA.

:'''1978''': [[Somatostatin]], which regulates [[human growth hormone]]s, is the first human protein made using recombinant technology.

:'''1980''': [[Mark Skolnick]], [[Ray White]], [[David Botstein]], and [[Ronald Davis]] create [[RFLP marker]] map of [[human genome]].

:'''1981''': Three independent research teams announced the discovery of human [[oncogene]]s (cancer genes).

:'''1983''': [[James Gusella]] demonstrate that the [[Huntington's disease]] gene is on chromosome 4.

:'''1985''': [[Kary Mullis]] published a paper describing the [[polymerase chain reaction]] (PCR) a technique to amplify specific DNA sequences from minutes quantities of starting material.

:'''1985''': [[Alec Jeffreys]] devised a technique that uses DNA polymorphisms to distinguish between different individuals. He later coined the term [[DNA fingerprinting]] and this is now impotant for many paternity, immigration, and murder cases.  

:'''1986''': [[Leroy Hood]] and [[Lloyd Smith]] automate DNA sequencing with the goal of sequencing whole genomes.  

:'''1987''': US DOE officially begins [[human genome project]].

:'''1990''': [[BLAST algorithm]] developed to align DNA sequences and is the key to comparative genomics.

:'''1990''': The first occurance of gene replacement therapy to repair a defective ADA gene in a four year old girls T-cells.

:'''1993''': FlavrSavr tomatoes are the first genetically modified organisms to be marketed. They were engineered to ripen more slowly for longer shelf life.  

:'''1995''': [[Patrick Brown]] and Stanford University colleagues invent [[DNA microarray]] technology.

:'''1995''': Researchers at The Institute for Genomic Research publish first genome sequence of free-living organism: ''[[Haemophilus influenzae]]''.

:'''1998''': NIH begins SNP project to reveal human genetic variation.

:'''1999''': First human chromosome sequence published.

:'''2000''': Fruit fly genome sequenced using Celera’s whole-genome shotgun method.  

:'''2001''': Science and Nature publish annotations and analyses of human genome.

:'''2005''': [[HapMap]] published giving a huge resource of SNP's and information relating to human variation.