ScienceIQ.com

All That Glitters

Gold is called a 'noble' metal because it does not oxidize under ordinary conditions. Its chemical symbol Au is derived from the Latin word 'aurum.' In pure form gold has a metallic luster and is sun yellow, but mixtures of other metals, such as silver, copper, nickel, platinum, palladium, tellurium, and iron, with gold create various color hues ...

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AllThatGlitters
Engineering

Bicycle Chain for Fleas

Sandia National Laboratories has engineered the world’s smallest chain. The distance between chain link centers is only 50 microns. In comparison, the diameter of a human hair is approximately 70 ... Continue reading

FleaBicycle
Chemistry

What Is A Mole?

No, it's not the furry little burrowing rodent with the star-shaped nose, from 'Wind In The Willows'... In chemistry, a mole is strictly defined as the number of particles of a pure material equal to ... Continue reading

WhatIsAMole
Biology

The Handsome Betta Fish

The Betta fish is possibly the most handsome tropical fish out there. We say handsome because the male of the species is the bigger and more exotic one. Referred to as the jewel of the Orient, Betta ... Continue reading

BettaFish
Biology

Are Bees Physicists?

Far-reaching research, and research that promises to join mathematics and biology, has been conducted by a mathematician at the University of Rochester, Barbara Shipman. She has described all the ... Continue reading

BeesPhysics

Tobacco Mosaic Virus

TobaccoMosaicVirusWe all know that AIDS, SARS and flu are all caused by viruses. Most people, however, don't realize that some of the earliest work on viruses was done on a common plant virus, Tobacco mosaic virus (TMV). Over 100 years ago, Martinus Beijerinck described a 'mosaic disease of tobacco' in which sick plants developed a yellow-green 'mosaic' symptom on their leaves. Beijerinck passed sap of infected leaves through porcelain filters and showed that the filtered sap was infectious. He concluded that something smaller than bacteria caused the disease and used the term virus to describe this unusual agent of disease.

Wendell Stanley used TMV to demonstrate the 'non-living' nature of viruses. He showed that TMV could be crystallized and that virus crystals were still infectious when placed back in tobacco. For this revolutionary work, he received a Nobel Prize in Chemistry in 1946. Viruses are composed mostly of a nucleic acid (DNA or RNA) and coat protein that covers the nucleic acid. Ten years later, Heinz Frankel-Conrat used TMV to show that the genetic material was nucleic acid (RNA), and not protein, when he proved that TMV nucleic acid was infectious. He took the virus apart, and using only its nucleic acid, was able to infect plants that went on to produce complete viruses.

Today, TMV remains both an important source of disease for a wide variety of plants and an essential tool for the advanced study of viruses. It was the first virus for which the entire nucleic acid was sequenced and the first virus for which plants were genetically engineered to create TMV-resistant plants.