Minimal Requirements for Growth of Brucella suis and Other Brucella Species

Abstract

Minimal nutritional requirements and temperature limits of growth were studied in Brucella suis and, comparatively, in a few other Brucella species. In a saline basic medium including thiosulphate, ammonium sulphate and glucose with addition of 2 or 4 vitamins (nicotinic acid, thiamin and panthotenic acid, biotin), 24 out of 25 B. suis, 4/6 B. melitensis and 1/6 B. abortus strains were able to grow. Some strains, however, needed to be initially induced to grow by other ingredients, CO2, other vitamins, or amino acids, or by a prolonged incubation. In the saline basic medium without ammonium, glutamic acid and/or alanine and arginine, with or without glucose, supported the growth of all the B. suis and B. melitensis strains, except 2 which required a sulphur amino acid. Five out of 6 B. abortus strains did not grow in either medium without addition of one or several aromatic amino acids or, for one strain, aspartic acid, or valine. One strain could also be induced to grow in ammonium medium by other amino acids. In a rich medium with yeast extract, all Brucella species grew at 18 degrees C and 42.5 degrees (except one) while most B. suis (14/17) grew also at 15 degrees C and 44 degrees C, in contrast to other brucellae of which a few strains only grew at these temperatures. In saline ammonium glucose medium, yeast extract at 0.1 g/l provided all the required vitamins and amino acids for all brucellae and at 1 g/l, it even provided enough nitrogen to support growth without ammonium. Such basic saline medium with yeast extract may be advantageously used in routine Brucella culture, instead of the classic undefined peptone mediums. B. suis biovar 1 strains did not differ significantly in their minimal nutritional requirements, precluding the use of these requirements to differentiate the strains, in particular the Chinese vaccine strain S2 from the reference strain 1330 or from other strains from different parts of the world. Finally, B. suis which is endowed with a nearly complete synthetic potential may represent the parental Brucella species from which the melitensis and abortus species may have evolved.