Author: Robbyn Smith van Frankenhuyzen
Publisher: Sleeping Bear Press
ISBN: 1627531432
Category : Juvenile Nonfiction
Languages : en
Pages : 50
Book Description
Illustrator Gijsbert van Frankenhuyzen and wife Robbyn team up again for another wildlife tale drawn from their encounters with the animal kingdom. Told in journal form and rendered in beautifully detailed artwork, the van Frankenhuyzens give a "day in the life" view as the fox Samantha begins her journey from injured kit to independent adult living on her own.Always respecting the boundaries between the wild and the human ways of life and based on years of work as licensed wildlife rehabilitators, Gijsbert and Robbyn recommend readers "do not try this at home." Saving Samantha is Gijsbert's fourteenth book with Sleeping Bear Press. He has also illustrated the best-selling The Legend of Sleeping Bear, The Legend of Leelanau, and most recently The Edmund Fitzgerald: Song of the Bell. He and Robbyn live with their daughters in Bath, Michigan, on a 40-acre farm.
Saving Samantha
Molecular Genetics of Host-Specific Toxins in Plant Disease
Author: Keisuke Kohmoto
Publisher: Springer Science & Business Media
ISBN: 9401152187
Category : Science
Languages : en
Pages : 400
Book Description
For investigators engaged in the study of toxins generally, and host-specific toxins in particular, it is a rare treat to attend a meeting in which toxins involved in plant pathogenesis are emphasized. A gathering of this type provides opportunity to consider the discovery of new toxins, their chemical structures, genes encoding enzymes that control their biosyntheses, their sites of action and physiological effects on plants, and their roles (if any) in pathological processes. Having acknowledged the inspiration fostered by a 'toxin meeting', however, it is important to point out that the program of this symposium was generously sprinkled with 'nontoxin' talks. These contributions generated cross-disciplinary discussion and promoted new ways of thinking about relationships among factors required for plant disease development. The point can be illustrated by considering just one example. We have in the past often regarded diseases mediated by host-specific toxins and diseases involving 'gene-for-gene' relationships as representing two different classes of fungal/plant interaction. This is largely because the key molecular recognition event in so-called 'toxin' diseases leads to compatibility, whereas the corresponding event in 'gene-for-gene' diseases leads to incompatibility. Yet the race specific elicitors produced by the 'gene-for-gene' fungi Cladosporium fulvum (De Wit, Adv. Bot. Res. 21:147- 185, 1995) and Rhynchosporium secalis (Rohe et a1. , EMBO J.
Publisher: Springer Science & Business Media
ISBN: 9401152187
Category : Science
Languages : en
Pages : 400
Book Description
For investigators engaged in the study of toxins generally, and host-specific toxins in particular, it is a rare treat to attend a meeting in which toxins involved in plant pathogenesis are emphasized. A gathering of this type provides opportunity to consider the discovery of new toxins, their chemical structures, genes encoding enzymes that control their biosyntheses, their sites of action and physiological effects on plants, and their roles (if any) in pathological processes. Having acknowledged the inspiration fostered by a 'toxin meeting', however, it is important to point out that the program of this symposium was generously sprinkled with 'nontoxin' talks. These contributions generated cross-disciplinary discussion and promoted new ways of thinking about relationships among factors required for plant disease development. The point can be illustrated by considering just one example. We have in the past often regarded diseases mediated by host-specific toxins and diseases involving 'gene-for-gene' relationships as representing two different classes of fungal/plant interaction. This is largely because the key molecular recognition event in so-called 'toxin' diseases leads to compatibility, whereas the corresponding event in 'gene-for-gene' diseases leads to incompatibility. Yet the race specific elicitors produced by the 'gene-for-gene' fungi Cladosporium fulvum (De Wit, Adv. Bot. Res. 21:147- 185, 1995) and Rhynchosporium secalis (Rohe et a1. , EMBO J.