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Applied and Environmental Microbiology, June 1999, p. 2685-2690, Vol. 65, No. 6
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.

Mapping of Sugar and Amino Acid Availability in Soil around Roots with Bacterial Sensors of Sucrose and Tryptophan

C. H. Jaeger III,1,* S. E. Lindow,2 W. Miller,2 E. Clark,3 and M. K. Firestone1

Department of Environmental Sciences Policy and Management, Ecosystems Sciences Division,1 and Department of Plant and Microbial Biology,2 University of California, Berkeley, California 94720, and California Department of Justice, Berkeley, California 947103

Received 4 December 1998/Accepted 5 April 1999

We developed a technique to map the availability of sugars and amino acids along live roots in an intact soil-root matrix with native microbial soil flora and fauna present. It will allow us to study interactions between root exudates and soil microorganisms at the fine spatial scale necessary to evaluate mechanisms of nitrogen cycling in the rhizosphere. Erwinia herbicola 299R harboring a promoterless ice nucleation reporter gene, driven by either of two nutrient-responsive promoters, was used as a biosensor. Strain 299RTice exhibits tryptophan-dependent ice nucleation activity, while strain 299R(p61RYice) expresses ice nucleation activity proportional to sucrose concentration in its environment. Both biosensors exhibited up to 100-fold differences in ice nucleation activity in response to varying substrate abundance in culture. The biosensors were introduced into the rhizosphere of the annual grass Avena barbata and, as a control, into bulk soil. Neither strain exhibited significant ice nucleation activity in the bulk soil. Both tryptophan and sucrose were detected in the rhizosphere, but they showed different spatial patterns. Tryptophan was apparently most abundant in soil around roots 12 to 16 cm from the tip, while sucrose was most abundant in soil near the root tip. The largest numbers of bacteria (determined by acridine orange staining and direct microscopy) occurred near root sections with the highest apparent sucrose or tryptophan exudation. High sucrose availability at the root tip is consistent with leakage of photosynthate from immature, rapidly growing root tissues, while tryptophan loss from older root sections may result from lateral root perforation of the root epidermis.

* Corresponding author. Mailing address: Dept. of Environmental Sciences Policy and Management, Ecosystems Sciences Division, 151 Hilgard Hall, #3110, University of California, Berkeley, CA 94720-3110. Phone: (510) 643-2402. Fax: (510) 643-5098. E-mail: jaeger{at}nature.berkeley.edu.

Applied and Environmental Microbiology, June 1999, p. 2685-2690, Vol. 65, No. 6
0099-2240/99/$04.00+0
Copyright © 1999, American Society for Microbiology. All rights reserved.


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