ALA Booklist (Mon Apr 01 00:00:00 CDT 2013)

Welcome to the lab of Dr. Randy Lewis, where goat embryos are injected with genes from golden orb weaver spiders. When the goats grow up, some of the females will produce spider silk proteins in their milk. The project aims to produce filaments with the varying degrees of strength and flexibility characteristic of spider silk. Practical applications range from space suits to artificial ligaments to lightweight bulletproof vests. A chapter on the "Ethical Concerns and Lifesaving Possibilities" of transgenic organisms lays out ethical objections to the research and counters each one with a response representing Dr. Lewis' point of view. The overall quality of the photos is quite good, and some pictures are exceptionally fine. At times the text seems aimed at very young children, as it includes details and anecdotes that are unlikely to interest older readers. However, the explanations of Lewis' research will be confusing to students without previous knowledge of genetics. While there's worthwhile information here, the presentation limits the audience for this attractive volume from the Scientists in the Field series.

Horn Book

Dr. Randy Lewis and his team have produced "spider goats" by injecting golden orb genetic material into developing goats, who then produce milk containing the spider silk protein; in sufficient quantities this could be of immense commercial value. The positive account glosses over controversy (one small section addresses the ethics of transgenic organisms). Excellent photographs document the fascinating research. Reading list. Glos., ind.

Kirkus Reviews

The Scientists in the Field series explores genetic engineering. Spider silk is useful in myriad ways but relatively rare in the natural world. Scientist Randy Lewis has spent his career searching for ways to produce more of this miracle fiber, using modern genetic techniques to make the genes of the golden orb weaver spider part of the heritage of goats, alfalfa and silkworms. His work is the subject of this latest series entry, which disappoints in its lack of clarity. An intriguing introduction to the spiders (illustrated with a photo of one on a child's face) is followed by a daunting explanation of DNA. Then, chapter by chapter, Heos describes the work that has produced transgenic animals and plants that will yield silk protein and even the silk itself. Final chapters describe Lewis' background, offer more detail about genetic procedures and silk production, and discuss ethical questions. Between each chapter is a substantial sidebar that usually fills the following double-page spread, confusing readers who have been led to expect something different from chapter-concluding transitional sentences. There are many characters to keep straight, and both scientists and goats are referred to by their first names. The lengthy text and difficult material will limit the audience for this, perhaps just to the science students offered directions for isolating strawberry DNA in one sidebar. (Nonfiction. 12-16)

School Library Journal (Mon Apr 01 00:00:00 CDT 2013)

Gr 5-9 This title explores the world of genetic engineering, focusing specifically on generating spider silk proteins in such quantity/quality as to warrant commercial development. Why spider silk? The title tells it succinctly. Stronger than steel, it is also flexible and stretchable, and can be spun into surgical sutures and artificial ligaments and woven into bulletproof vests and military-style body armor, among a host of other things. Heos's lively text, full of somewhat demanding concepts, takes readers into "Spider-Man" Randy Lewis's lab at the University of Wyoming, a world of transgenic alfalfa, bacterial "hosts" for spider DNA, and ultimately to a flock of transgenic goats whose milk now carries spider-silk proteins. Complex processes such as the isolation of a spider-silk gene, its introduction into a bacterium, and its subsequent removal to be injected into embryonic goats are lucidly described. As to ethical questions of "messing about" with the genetic code? Heos writes of the problems inherent if "escaping" transgenic pollen mixes into the world of nontransgenic flora. She speaks of the euthanization of transgenic goats that produce little or no spider-silk proteins in their milk, and even of non-transgenic goats to keep the herd a manageable size. And she speaks of people opposed to genetic engineering for moral and religious reasons, all the while providing scientific "best case" scenarios of its practical and beneficial applications. A complex, controversial topic, positively presented. Patricia Manning, formerly at Eastchester Public Library, NY