SEJARAH VIROLOGI TUMBUHAN Kuliah ke-2 SEJARAH VIROLOGI TUMBUHAN
Tulipomania – late 16th century Before it was known to be caused by a virus, tulips with color breaking symptoms were prized and traded for large sums of goods – this led to “tulipomania” in the late 1500’s Traded for 1 Viceroy tulip bulb: 4 tons of wheat 8 tons of rye 4 fat oxen 8 fat pigs 12 fat sheep 2 hogsheads of wine 4 barrels of beer 2 barrels of butter 1000 lbs of cheese 1 bed with accessories 1 full dress suit 1 silver goblet
Adolf Mayer –1886 – showed that Tobacco mosaic virus was transmissible, could not find bacteria or fungi associated with disease TMV
Dmitri Ivanowski - 1892– showed that Tobacco mosaic virus was not retained by filters that retained all bacteria known at that time
Martinus Beijerinck - 1898– repeated demonstration that Tobacco mosaic virus was not retained by filters that retained all bacteria known at that time Believed results Did extensive dilution experiments Showed diffusion of infectious agent through agar Named “contagium vivum fluidum”, later virus
Wendell Stanley – 1935 At Rockefeller Foundation in Princeton Crystallized TMV, thought it was only protein TMV Stanley Hall, U.C. Berkeley
Bawden and Pirie - 1936 Crystallized Tomato bushy stunt virus (TBSV); find that it and TMV contain phosphorous – conclude that it is not a protein, but is a nucleoprotein TMV TBSV
Markham and Smith - 1949 Two classes of particles in purified Turnip yellow mosaic virus preparations: light ones containing only protein, which were not infectious heavy ones containing protein+nucleic acid, which were infectious empty full
Myron Brakke - 1951 Development of density gradient centrifugation Isopycnic: particles reach position of equal density in gradient Rate-zonal: Particles sediment differentially through medium as a function of size, shape, and density Equilibrium zonal: Combination of the above
Fraenkel-Conrat 1955-1956 Virus Aa: protein RNA A capsid a protein Complete, infectious TMV particles can be reconstituted in vitro from the RNA and protein components RNA alone is infectious RNA can be “transcapsidated” in protein from closely related virus; resulting virus has properties of RNA strain RNA reconstitute in vitro inoculate plants symptoms (A) extract virus virus Aa
Crick and Watson – 1956 TMV virions are composed of one nucleic acid and many identical protein subunits: RNA does not have the coding capacity to make many different subunits
Casper and Klug – 1962 Structure of Tomato bushy stunt virus solved by X-ray crystallography, the first icosahedral virus so determined
Heinz Sanger – 1978 Complete sequence of Potato spindle tuber viroid First pathogen sequence to be determined Yielded relatively little information that was immediately useful 1 cggaactaaa ctcgtggttc ctgtggttca cacctgacct cctgagcaaa aaagaaaaaa gataggcggc tcggaggagc gcttcaggga tccccgggga aacctggagc gaactggcaa aaaaggacgg tggggagtgc ccagcggccg acaggagtaa ttcccgccga aacagggttt tcacccttcc tttcttcggg tgtccttcct cgcgcccgca ggaccacccc tcgccccctt tgcgctgtcg cttcggctac tacccggtgg aaacaactga agctcccgag aaccgctttt tctctatctt cttgcttccg gggcgagggt gtttagccct tggaaccgca gttggttcct 359
Paul Ahlquist – 1984 Infectious viral RNA transcribed in vitro from cDNA clones Done with Brome mosaic virus – with 3 RNAs Brought reverse genetics to RNA viruses RNA Inoculate plants RNA cDNA
Roger Beachy – 1986 Transgenic plants expressing TMV coat protein are resistant to virus infection First example of “pathogen-mediated resistance”
Bill Dougherty – 1991 RNA was critical component in resistance in pathogen-mediated resistance All of the hallmarks that later came to be associated with PTGS and RNAi were first observed with Tobacco etch virus (TEV) (1993 Lindbo et al., Plant Cell 5:1749-1759)