Tobacco mosaic virus
A monomeric unit of the much larger Tobacco Mosaic Virus
Virus classification
Group: Group IV ((+)ssRNA) Genus: Tobamovirus Species: Tobacco mosaic virus

Tobacco mosaic virus (TMV) is an RNA virus that infects plants, especially tobacco and other members of the family Solanaceae. The infection causes characteristic patterns (mottling and discoloration) on the leaves (thence the name). TMV was the first virus to be discovered. Although it was known from the late 19th century that an infectious disease was damaging tobacco crops, it was not until 1930 that the infectious agent was determined to be a virus.

History

In 1883, Adolf Mayer first described the disease that could be transferred between plants, similar to bacterial infections¹. Dimitri Ivanovski gave the first concrete evidence for the existence of a non-bacterial infectious agent, showing that infected sap remained infectious even after filtering through Chamberland filter candles, in 1892. However, he remained convinced despite repeated failures to produce evidence, that bacteria were the infectious agents. In 1898, Martinus Beijerinck showed that a filtered, bacteria-free culture medium still contained the infectious agent¹. Wendell Meredith Stanley crystallized the virus in 1935 and showed that it remains active even after crystallization¹. For his work, he was awarded 1/4 of the Nobel Prize in Chemistry in 1946², even though it was later shown some of his conclusions (in particular, that the crystals were pure protein, and assembled by autocatalysis) were incorrect.³ The first electron microscopical images of TMV were made in 1939 by Gustav Kausche, Edgar Pfankuch and Helmut Ruska - the brother of Nobel Prize winner Ernst Ruska.⁴ In 1955, Heinz Fraenkel-Conrat and Robley Williams showed that purified TMV RNA and its capsid (coat) protein assemble by themselves to functional viruses, indicating that this is the most stable structure (the one with the lowest free energy), and likely the natural assembly mechanism within the host cell.

The crystallographer Rosalind Franklin worked for Stanley for about a month at Berkeley, and later designed and built a model of TMV for the 1958 World's Fair at Brussels. In 1958, she speculated that the virus was hollow, not solid, and hypothesized that the RNA of TMV is single-stranded. This conjecture was proven to be correct after her death and is now known to be the + strand.

Structure

Schematic model of TMV: 1. nucleic acid (RNA), 2. capsomer (protomer), 3. capsid.

Electron micrograph of TMV particles stained to enhance visibility at 160,000x magnification.

Tobacco mosaic virus has a rod-like appearance. Its capsid is made from 2130 molecules of coat protein (see image above) and one molecule of genomic RNA 6390 bases long. The coat protein self-assembles into the rod like helical structure (16.3 proteins per helix turn) around the RNA which forms a hairpin loop structure (see the Electron Micrograph below). The protein monomer consists of 158 amino acids which are assembled into four main alpha-helices, which are joined by a prominent loop proximal to the axis of the virion. Virions are ~300 nm in length and ~18 nm in diameter.⁵ Negatively stained electron microphotographs show a distinct inner channel of ~4 nm. The RNA is located at a radius of ~6 nm and is protected from the action of cellular enzymes by the coat protein. There are three RNA nucleotides per protein monomer.⁶ TMV is a thermostable virus. On a dried leaf, it can withstand up to 120 degrees Fahrenheit (50 °C) for 30 minutes.

Replication

Following entry into its host via mechanical inoculation, the TMV RNA genome is not immediately translated. Instead the RNA is processed by a mechanism that is not yet understood. The resulting mRNAs encode several proteins, including the coat protein and an RNA-dependant RNA polymerase (RdRp). Thus TMV can replicate its own genome. After the coat protein and RNA genome of TMV have been synthesized, they spontaneously assemble into complete TMV virions in a highly organized process. The protomers come together to form disks composed of two layers of protomers arranged in a helical spiral. The helical capsid grows by the addition of protomers to the end of the rod. As the rod lengthens, the RNA passes through a channel in its center and forms a loop at the growing end. In this way the RNA can easily fit as a spiral into the interior of the helical capsid.⁷

Infection

When TMV infects a tobacco plant, the virus enters mechanically (For example through a ruptured plant cell wall) and replicates. After its multiplication, it enters the neighboring cells through plasmodesmata. For its smooth entry, TMV produces a 30,000 dalton protein called P30 which tends to enlarge the plasmodesmata. TMV most likely moves from cell-to-cell as a complex of the RNA, P30, and replicase proteins. The first symptom of this virus disease is a light green coloration between the veins of young leaves. This is followed quickly by the development of a “mosaic” or mottled pattern of light and dark green areas in the leaves. These symptoms develop quickly and are more pronounced on younger leaves. Mosaic does not result in plant death, but if infection occurs early in the season, plants are stunted. Lower leaves are subjected to “mosaic burn” especially during periods of hot and dry weather. In these cases, large dead areas develop in the leaves. This constitutes one of the most destructive phases of tobacco mosaic virus infection. Infected leaves may be crinkled, puckered, or enlongated.

Scientific and environmental impact

In plants, tobacco mosaic virus leads to severe crop losses⁸. It is known to infect members of nine plant families, and at least 125 individual species, including tobacco, tomato, pepper, cucumbers, and a number of ornamental flowers.⁹ There are many different strains.

The large amount of literature about TMV and its choice for many pioneering investigations in structural molecular biology, X-ray diffraction, virus assembly and disassembly, and so on, are fundamentally due to the large quantities that can be obtained, plus the fact that it does not infect animals. After growing a few infected tobacco plants in a greenhouse and a few simple laboratory procedures, a scientist can easily produce several grams of virus. As a result of this, TMV can be treated almost as an organic chemical, rather than an infective agent.^{verification needed}

References

1. ^ ^{a b c} Microsoft Word - Chapter 7.doc
2. ^ Wendell M. Stanley - Biography
3. ^ [1] Kay, L.E. (1986). W. M. Stanley's Crystallization of the Tobacco Mosaic Virus, 1930-1940. Isis 77: 450-472.
4. ^ G.A. Kausche, E. Pfankuch and H. Ruska (1939), Die Sichtbarmachung von pflanzlichem Virus im Übermikroskop, Naturwissenschaften 27: 292-299.
5. ^ Stryer, Lubert (1988). Biochemistry. Third Edition. W. H. Freeman and Company. ISBN 0-7167-1843-X. 
6. ^ Klug, Aaron (March 1999). "The tobacco mosaic virus particle: structure and assembly". Philosophical Transactions of the Royal Society B: Biological Sciences 354 (1383): 531–535. doi:10.1098/rstb.1999.0404. PMID 10212932. http://www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1692534. 
7. ^ Wiley Sherwood Woolverton (2008). microbiology. mcgraw hill. pp. 464- 465. 
8. ^ TB01
9. ^ Tomato-Tobacco Mosaic Virus Disease

flue-cured tobacco field manual published R.J.Reynolds Tobacco Company Winston-Salem,North Carolina, 1995

Further reading

• Creager, Angela N. The Life of a Virus: Tobacco Mosaic Virus as an Experimental Model, 1930-1965. Chicago, IL: University of Chicago Press, 2002.

External links

Wikimedia Commons has media related to: Tobacco mosaic virus

• Tobacco Mosaic Virus-Details
• Description of plant viruses - TMV - contains information on symptoms, hosts species, purification etc.
• [2] Further information
• [3] Electron microscope image of TM
• [4] Tobacco the musician.

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• This page was last modified on 3 January 2009, at 20:25.

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