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Appl Environ Microbiol. 1989 February; 55(2): 269-274
Copyright © 1989, American Society for Microbiology. All Rights Reserved.

Evidence from Liposome Encapsulation for Transport-Limited Microbial Metabolism of Solid Alkanes

R. M. Miller and R. Bartha^*

Department of Biochemistry and Microbiology, Cook College, Rutgers University, New Brunswick, New Jersey 08903

ABSTRACT

The recalcitrance of xenobiotics may be caused by an absence of transforming enzymes or by their inability to enter microbial cells. A nondestructive method for differentiating between these two possibilities is described. The solid n-alkanes octadecane (C₁₈) and hexatriacontane (C₃₆) were encapsulated into phosphatidylcholine bilayers (liposomes). The uptake and metabolism rates of encapsulated and unencapsulated substrates were then compared. During 1 h at 25°C, a Pseudomonas isolate took up 1.3% of radiolabeled and unencapsulated C₁₈ (solid state) versus 23.5% of labeled and encapsulated C₁₈. Growth at 25°C occurred with an apparent k_s of 2453 ± 148 mg/liter. Liposome encapsulation decreased this K_s to 60 ± 12 mg/liter. At 34°C, growth on C₁₈ (liquid state) occurred with an apparent K_s of 819 ± 83 mg/liter and on the readily available carbon source succinate, K_s values were 80 ± 10 and 13 ± 7 mg/liter at 25 and 34°C, respectively. At 25°C, the isolate grew on C₃₆ with an apparent K_s of 2,698 ± 831 mg/liter. Liposome encapsulation decreased the K_s more than 60-fold to 41 ± 7 mg/liter, resulting in the complete utilization of 400 mg of C₃₆ per liter in 16 h. Since controls excluded the metabolic utilization of phosphatidylcholine, the results clearly identify transport limitation as the cause for C₃₆ recalcitrance.

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FOOTNOTES

^* Corresponding author.

New Jersey Agricultural Experiment Station publication no. D-10534-02-88.

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Appl Environ Microbiol. 1989 February; 55(2): 269-274
Copyright © 1989, American Society for Microbiology. All Rights Reserved.

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