TABLE 2.

Overview of electron donor use by strain BC

Compound(s)	Concn used in this study	Growth with electron acceptorsa
		NO3−	O2	ClO3−
Carboxylic acidsb	10 mM	+	+c	+c
Glucose	10 mM	−	ND	ND
Fructose	10 mM	−	ND	ND
Xylose	10 mM	−	ND	ND
Alanine	10 mM	−	ND	ND
Glycine	10 mM	−	ND	ND
Glutamate	10 mM	+	ND	ND
Ethanol	10 mM	−	ND	ND
Methanol	10 mM	−	ND	ND
Glycerol	10 mM	+	ND	ND
Yeast extract	1 g/liter	+	ND	ND
Benzene	0.25 mM	−	+	+
Toluene	0.25 mM	−	+	+
Ethylbenzene	0.25 mM	−	−	ND
o-Xylene	0.1 mM	−	−	ND
m-Xylene	0.1 mM	−	−	ND
p-Xylene	0.1 mM	−	−	ND
Benzoate	1 mM	−	−	ND
Phenol	1 mM	−	+	+
p-Hydroxybenzoate	1 mM	−	−	ND
o-Cresol	1 mM	−	+	+
m-Cresol	1 mM	−	+	+
p-Cresol	1 mM	−	+	+
Monochlorobenzene	0.05 mM	−	−	−
Catechol	1 mM	−	+	+
Cyclohexanol	1 mM	−	−	ND
FeCl2	5 mM	−	ND	ND
Na2S	1 mM	−	ND	ND
H2d	170 kPa	−	ND	ND

^a+, growth; −, no growth; ND, not determined.

^bThe following carboxylic acids were tested: acetate, lactate, pyruvate, succinate, propionate, butyrate, malate, citrate, and fumarate.

^cOnly acetate was tested; the other carboxylic acids were not tested.

^dAcetate (1 mM) was added for heterotrophic biomass production.