The trihydroxamate siderophore, hydroxamate K, has been purified from
culture filtrates of iron-deficient Rhizobium leguminosarum biovar vic
iae MNF710. The iron complex has a molecular weight of 828 and an abso
rption maximum at 443 nm (epsilon(M), = 1510). Fe-55 complexed to puri
fied hydroxamate K was taken up by MNF710, its hydroxamate-negative mu
tant MNF7102 and Rhizobium leguminosal um biovar trifolii WU95 via an
iron-regulated transport system, but Rhizobium meliloti U45 failed to
take up the iron-siderophore complex under any conditions. A similar p
attern of iron uptake was observed with ferrioxamine B. MNF710, MNF710
2, U45 and WU95 all transported Fe-55-ferrichrome but only the first t
hree strains took up Fe-55-ferrichrome A. All these Fe-55-trihydroxama
te uptake systems were iron-regulated in MNF710, MNF7102 and WU95. In
contrast, uptake of Fe-55-rhodotorulate, a dihydroxamate, was essentia
lly constitutive in all four organisms. Similarly, uptake of Fe-55-cit
rate and Fe-55-nitrilotriacetic acid was constitutive. None of the str
ains took up Fe-55 complexed with enterobactin or with pyoverdins from
Pseudomonas aeruginosa ATCC15692 (PAO1) and Pseudomonas fluorescens A
TCC17400.