Related references
Note: Only part of the references are listed.Brucella abortus Depends on Pyruvate Phosphate Dikinase and Malic Enzyme but Not on Fbp and GlpX Fructose-1,6-Bisphosphatases for Full Virulence in Laboratory Models
Amaia Zuniga-Ripa et al.
JOURNAL OF BACTERIOLOGY (2014)
Phylogenetic analysis of erythritol catabolic loci within the Rhizobiales and Proteobacteria
Barney A. Geddes et al.
BMC MICROBIOLOGY (2013)
Erythritol triggers expression of virulence traits in Brucella melitensis
Erik Petersen et al.
MICROBES AND INFECTION (2013)
Genetic characterization of a complex locus necessary for the transport and catabolism of erythritol, adonitol and L-arabitol in Sinorhizobium meliloti
Barney A. Geddes et al.
MICROBIOLOGY-SGM (2012)
Evaluation of the Effects of Erythritol on Gene Expression in Brucella abortus
Maria Cruz Rodriguez et al.
PLOS ONE (2012)
Interactions of the Human Pathogenic Brucella Species with Their Hosts
Vidya L. Atluri et al.
ANNUAL REVIEW OF MICROBIOLOGY, VOL 65 (2011)
Control and Eradication of Brucella melitensis Infection in Sheep and Goats
Jose M. Blasco et al.
VETERINARY CLINICS OF NORTH AMERICA-FOOD ANIMAL PRACTICE (2011)
Genome Sequence of Brucella abortus Vaccine Strain S19 Compared to Virulent Strains Yields Candidate Virulence Genes
Oswald R. Crasta et al.
PLOS ONE (2008)
Characterization of genes involved in erythritol catabolism in Rhizobium leguminosarum bv. viciae
Christopher K. Yost et al.
MICROBIOLOGY-SGM (2006)
Production of the siderophore 2,3-dihydroxybenzoic acid is required for wild-type growth of Brucella abortus in the presence of erythritol under low-iron conditions in vitro
BH Bellaire et al.
INFECTION AND IMMUNITY (2003)
Functional expression and characterization of EryA, the erythritol kinase of Brucella abortus, and enzymatic synthesis of L-erythritol-4-phosphate
AM Lillo et al.
BIOORGANIC & MEDICINAL CHEMISTRY LETTERS (2003)