The Future
of Chemistry
Chemistry for the
Future
As chemists, biologists, physicists, and other scientists
continue to unveil nature's secrets, a flood of facts accumulates with stunning
momentum. Each answer is a new beginning— material for new experiments. Many
researchers assert that there's never been a more exciting time to be a
scientist. After much effort was spent in the last century finding individual
puzzle pieces, scientists can now revel in the process of fitting the pieces
together.
Not that everything's been figured out— not by a long shot.
The science of today beckons researchers to think big—to integrate singular
items, and even single pathways—into the grander scheme of what it is that
makes entire organisms tick with such precision.
Perhaps ironically, as science grows larger in scope and
broader in focus, some of the most promising tools to synthesize the hows,
whats, and wheres of human biology are exceedingly tiny. Micromachines, tiny
biosensors, and miniature molecular reaction vessels will undoubtedly be
standard items in a chemist's toolbox in 10 or 20 years.
Unraveling—and making sense of—the genetic instructions that
spell life for organisms as diverse as flies, plants, worms, and people has
sparked a most exciting revolution. Every minute of every day, scientists all
over the world work feverishly, weaving a compelling tale of the chemistry that
underlies our health.
It's all very exciting, but the progress mandates still more
work. Much more work! Among the questions still awaiting answers are these:
How do the 6-foot long stretches of DNA in every cell in our
bodies know how to keep our biochemical factories running smoothly?
Who will find a way to outwit resistant bacteria?
When will someone figure out how to fight disease by
manipulating the intricate sugar coatings on our cells?
Who will invent the tools that will revolutionize chemistry
labs of the future?
What unexpected places hold treasure troves for new
medicines?
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