Atividade antimicrobiana do líquido amniótico: importância do zinco e do fosfato

Rudge, Marilza Vieira Cunha; Ramos, Maria Delgi; De Luca, Laurival A; Trindade, Cleide Enoir Petean; Antonini Filho, Renzo.
J. bras. ginecol ; 100(1/2): 11-4, jan.-fev. 1990. tab
Artigo em Português | LILACS | ID: lil-88415

Documentos relacionados

  1. Role of Phosphate in Biomineralization.
  2. Medicago SPX1 and SPX3 regulate phosphate homeostasis, mycorrhizal colonization, and arbuscule degradation.
  3. The effects of inorganic phosphate on contractile function of slow skeletal muscle fibres are length-dependent.
  4. Phosphate (P<sub>i</sub>)-regulated heterodimerization of the high-affinity sodium-dependent P<sub>i</sub> transporters PiT1/Slc20a1 and PiT2/Slc20a2 underlies extracellular P<sub>i</sub> sensing independently of P<sub>i</sub> uptake.
  5. Vitamin D: Classic and Novel Actions.
  6. A kinetic model that explains the effect of inorganic phosphate on the mechanics and energetics of isometric contraction of fast skeletal muscle.
  7. A CRISPR/Cas9 deletion into the phosphate transporter SlPHO1;1 reveals its role in phosphate nutrition of tomato seedlings.
  8. Phosphate: known and potential roles during development and regeneration of teeth and supporting structures.
  9. It is diprotonated inorganic phosphate that depresses force in skinned skeletal muscle fibers.
  10. Phosphate and FGF-23 homeostasis after kidney transplantation.