纳摩尔

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  • nanomole
纳摩尔纳摩尔
  1. 表观解离常数(Kd)在纳摩尔范围内,在生物应用中具有足够的敏感性。另外,多种生物体中重要的金属离子对1的荧光没有影响,如Ca2+、Mg2+等。

    Apparent dissociation constant ( Kd ) was in the nanomolar range , which afforded sufficient sensitivity for biological applications .

  2. 结果表明,将未修饰PNA与聚合微球吸附或封装在自体红细胞,均可在纳摩尔浓度水平实现反义活性。

    Both delivery through polymeric microspheres and encapsulation into erythrocytes allowed the antisense activity of unmodified PNAs at nanomolar concentration .

  3. 同时,纳摩尔浓度的OA和CalA明显抑制青杆花粉萌发以及花粉管的生长,并导致部分青杆花粉管畸形生长。

    At nanomolar concentrations , OA and CalA clearly inhibited pollen germination and tube growth and led to abnormal morphology of pollen tubes .

  4. 从我们目前的了解看,此研究首次表明,在巨噬细胞中,肽核酸能在纳摩尔浓度水平发挥反义效果。

    To our knowledge , this is the first evidence of in vitro PNA antisense effect at nanomolar concentrations in phagocytic cells .