Parfait R, de Béthune M P, Cocito C
Mol Gen Genet. 1978 Oct 25;166(1):45-51. doi: 10.1007/BF00379728.
Virginiamycin S (VS, a type B component of the synergistin group of antibiotics) is fluorescent in solution: the fluorescence intensity is proportional to VS concentration. The intensity of VS fluorescence was found to increase upon addition of 50S ribosomal subunits, and this variation (deltaI 416 nm) to be proportional to the concentration of 50S subunits. This new technique was, then, used to measure the binding reaction of VS to ribosomes. Similar patterns of linkage were obtained for ribosomes and large subunits, whereas very little fixation to 30S particles was detected. The binding reaction was virtually instantaneous at any temperature, and, for saturating VS, was not influenced by Mg++ concentration in the range 1 to 20 mM, nor by the replacement of 100 mM K+ with NH+4. The association constant of VS TO 50S particles was found to be KA=2.5 X 10(6)M-1, and from the Scatchard plot a v value of 0.9 was calculated, which points to a stoichiometric reaction leading to 1 mole VS bound per mole of 50S particles. Upon fixation of virginiamycin M (VM, a type A component of the synergistin group of antibiotics), the delta I of the VS-ribosome complex was increased, and a KA=15 x 10(6)M-1 was recorded for the association constant of VS to 50S particles. Such sixfold increase in the affinity of ribosomes for VS may account for the synergistic effect of the 2 virginiamycin components in sensitive bacteria.
维吉尼亚霉素S(VS,抗生素增效菌素组的B型成分)在溶液中具有荧光:荧光强度与VS浓度成正比。发现加入50S核糖体亚基后VS荧光强度增加,并且这种变化(416nm处的ΔI)与50S亚基的浓度成正比。然后,这项新技术被用于测量VS与核糖体的结合反应。核糖体和大亚基获得了相似的连接模式,而检测到与30S颗粒的结合非常少。在任何温度下,结合反应几乎是瞬间发生的,对于饱和的VS,在1至20mM范围内的Mg++浓度以及用NH4+替代100mM K+均不影响结合反应。发现VS与50S颗粒的缔合常数为KA = 2.5×10(6)M-1,从Scatchard图计算出v值为0.9,这表明是化学计量反应,导致每摩尔50S颗粒结合1摩尔VS。固定维吉尼亚霉素M(VM,抗生素增效菌素组的A型成分)后,VS-核糖体复合物的ΔI增加,并且记录到VS与50S颗粒的缔合常数KA = 15×10(6)M-1。核糖体对VS亲和力的这种六倍增加可能解释了这两种维吉尼亚霉素成分在敏感细菌中的协同作用。
