Davis W B, Byers B R
J Bacteriol. 1971 Aug;107(2):491-8. doi: 10.1128/jb.107.2.491-498.1971.
Kinetics of radioactive iron transport were examined in three strains of Bacillus megaterium. In strain ATCC 19213, which secretes the ferric-chelating secondary hydroxamic acid schizokinen, (59)Fe(3+) uptake from (59)FeCl(3) or the ferric hydroxamate Desferal-(59)Fe(3+) was rapid and reached saturation within 3 min. In strain SK11, which does not secrete schizokinen, transport from (59)FeCl(3) was markedly reduced; the two ferric hydroxamates Desferal-(59)Fe(3+) or schizokinen-(59)Fe(3+) increased both total (59)Fe(3+) uptake and the (59)Fe(3+) appearing in a cellular trichloroacetic acid-insoluble fraction, although 10 min was required to reach saturation. Certain characteristics of transport from both ferric hydroxamates and FeCl(3) suggest that iron uptake was an active process. The growth-inhibitory effect of aluminum on strain SK11 was probably due to the formation of nonutilizable iron-aluminum complexes which blocked uptake from (59)FeCl(3). Desferal or schizokinen prevented this blockage. A strain (ARD-1) resistant to the ferric hydroxamate antibiotic A22765 was isolated from strain SK11. Strain ARD-1 failed to grow with Desferal-Fe(3+) as an iron source, and it was unable to incorporate (59)Fe(3+) from this source. Growth and iron uptake in strain ARD-1 were similar to strain SK11 with schizokinen-Fe(3+) or the iron salt as sources. It is suggested that the ferric hydroxamates, or the iron they chelate, may be transported by a special system which might be selective for certain ferric hydroxamates. Strain ARD-1 may be unable to recognize both the antibiotic A22765 and the structurally similar chelate Desferal-Fe(3+), while retaining its capacity to utilize schizokinen-Fe(3+).
在三种巨大芽孢杆菌菌株中研究了放射性铁转运的动力学。在分泌铁螯合二级异羟肟酸裂殖菌素的ATCC 19213菌株中,从氯化铁(59)FeCl₃或异羟肟酸铁去铁胺 - (59)Fe³⁺摄取(59)Fe³⁺迅速,3分钟内达到饱和。在不分泌裂殖菌素的SK11菌株中,从(59)FeCl₃的转运显著减少;两种异羟肟酸铁去铁胺 - (59)Fe³⁺或裂殖菌素 - (59)Fe³⁺均增加了总(59)Fe³⁺摄取量以及出现在细胞三氯乙酸不溶性部分中的(59)Fe³⁺,尽管达到饱和需要10分钟。来自两种异羟肟酸铁和FeCl₃的转运的某些特征表明铁摄取是一个主动过程。铝对SK11菌株的生长抑制作用可能是由于形成了不可利用的铁 - 铝络合物,从而阻止了从(59)FeCl₃的摄取。去铁胺或裂殖菌素可防止这种阻断。从SK11菌株中分离出一种对异羟肟酸铁抗生素A22765具有抗性的菌株(ARD - 1)。ARD - 1菌株不能以去铁胺 - Fe³⁺作为铁源生长,并且无法从该来源掺入(59)Fe³⁺。ARD - 1菌株中的生长和铁摄取与以裂殖菌素 - Fe³⁺或铁盐为来源的SK11菌株相似。有人提出,异羟肟酸铁,或它们螯合的铁,可能通过一种特殊系统转运,该系统可能对某些异羟肟酸铁具有选择性。ARD - 1菌株可能无法识别抗生素A22765和结构相似的螯合物去铁胺 - Fe³⁺,同时保留其利用裂殖菌素 - Fe³⁺的能力。