ADVERTISEMENT

404

Not Found

Is this what you were looking for?

tag mars rover genetics genomics evolution

Pufferfish Genomes Probe Human Genes
Ricki Lewis | Mar 17, 2002 | 7 min read
It may be humbling to think that humans have much in common with pufferfish, but at the genome level, the two are practically kissing cousins. "In terms of gene complement, we are at least 90% similar—probably higher. There are big differences in gene expression levels and alternate transcripts, but if you're talking about diversity, number and types of proteins, then it's pretty difficult to tell us apart," says Greg Elgar, group leader of the Fugu genome project at the Medical Research C
David Botstein
The Scientist Staff | Jul 27, 2003 | 4 min read
First Person | David Botstein Courtesy of Frank Wojciechowski At the age of 60, David Botstein, microarray and genetics pioneer, is learning to play the cello. As a young man, Botstein seriously considered being a musician, but he knew the talent just wasn't there. "I did play the violin, badly," he admits. Yet his love of music is so ingrained--his brother, Leon, is music director for the American Symphony Orchestra--that even as an undergraduate at Harvard, he "ran with the musicians."
Scientists Debate RNA's Role At Beginning Of Life On Earth
Ricki Lewis | Mar 30, 1997 | 9 min read
Sidebar: RNA's Role at Beginning of Life - For Further Information Before there was life, there were chemicals. The idea that ribonucleic acid (RNA), because of its catalytic capability and multiple roles in protein synthesis, was the chemical that led directly to life is termed the RNA world hypothesis. Although the phrase "RNA world" is generally attributed to Walter Gilbert, Harvard University's Carl M. Loeb University Professor, in a short 1986 paper, the idea of RNA's importance at the beg
Using Transgenesis to Create Salt-Tolerant Plants
Ricki Lewis | Mar 3, 2002 | 6 min read
Crop agriculture has succeeded because growers have identified and cultivated useful plant variants through selective breeding and environmental alterations. Transgenic technology improves the precision of agriculture, modifying crops in ways that are uniquely useful that probably would not have arisen naturally. Salt tolerance is one such coveted trait. Recent research on promoting salt tolerance through transgenesis focuses on boosting salt-sequestering physiological mechanisms within species,

Run a Search

ADVERTISEMENT