School of Chemistry, Aristotle University of Thessaloniki, Thessaloniki, Greece.
J Plant Physiol. 2010 Jun 15;167(9):675-82. doi: 10.1016/j.jplph.2010.01.016. Epub 2010 Feb 26.
Two isoforms of NDPKs (diphosphonucleoside kinases: E.C. 2.7.4.6.) named S-NDPK-A and S-NDPK-B were separated and purified from shoots of Alyssum murale (19th day of growth), a nickel accumulator plant, by a four-step procedure involving ammonium sulphate precipitation and DEAE-sepharose and hydroxyapatite column chromatography. Shoot NDPKs underwent autophosphorylation, proved thermostable, displayed similar molecular mass of 105,000, and consisted of six catalytic subunits. The size of subunits of S-NDPK-A and S-NDPK-B were 18 and 16kDa, respectively. The autophosphorylated S-NDPK-A and S-NDPK-B displayed isoelectric points (pI) of 5.8 and 6.6, respectively. The shoot NDPKs using NDPs (diphosphonucleosides) as substrates were metal dependent, while these underwent autophosphorylation in the absence of metal. The specificity of S-NDPK-A, S-NDPK-B and root NDPK-B (R-NDPK-B); towards mixtures of purino- and pyrimidino-NDPs were tested by TLC (thin layer chromatography). UDP and CDP (pyrimidino-NDPs) and GDP (purino-NDP) were exclusively phosphorylated, using (gamma-(32)P) ATP as phosphate donor, by S-NDPK-A and R-NDPK-B, respectively. Both purino- and pyrimidino-NDPs were phosphorylated by S-NDPK-B. The above isoforms also displayed differences in preference towards a mixture of ADP, GDP, dGDP, TDP, dCDP, CDP and UDP in the presence of Cu(2+), Zn(2+), Mg(2+), Mn(2+), Ni(2+), Ca(2+), Hg(2+) or Co(2+). For example, GDP was mainly phosphorylated by R-NDPK-B independently of the metal used, TDP was mainly phosphorylated by S-NDPK-A in the presence of Mg(2+), Mn(2+), Ca(2+) or Co(2+) and S-NDPK-B was capable of phosphorylating more or less independently of the metal used. The purified and characterized NDPK isoforms may play different biological roles according to their preference towards NDPs.
从镍超积累植物 Alyssum murale(生长第 19 天)的芽中,通过包括硫酸铵沉淀和 DEAE-琼脂糖和羟磷灰石柱层析的四步程序,分离和纯化了两种命名为 S-NDPK-A 和 S-NDPK-B 的 NDPK(二磷酸核苷激酶:EC 2.7.4.6.)同工酶。芽 NDPK 经历了自动磷酸化,证明具有热稳定性,显示出相似的 105,000 的分子量,并由六个催化亚基组成。S-NDPK-A 和 S-NDPK-B 的亚基大小分别为 18 和 16kDa。自动磷酸化的 S-NDPK-A 和 S-NDPK-B 的等电点(pI)分别为 5.8 和 6.6。使用 NDP(二磷酸核苷)作为底物的芽 NDPK 是金属依赖性的,而在没有金属的情况下,这些 NDPK 经历自动磷酸化。通过 TLC(薄层层析)测试了 S-NDPK-A、S-NDPK-B 和根 NDPK-B(R-NDPK-B)对 purino-和 pyrimidino-NDP 混合物的特异性。分别使用(γ-(32)P)ATP 作为磷酸供体,S-NDPK-A 和 R-NDPK-B 仅磷酸化 UDP 和 CDP(嘧啶二磷酸核苷)和 GDP(嘌呤二磷酸核苷)。S-NDPK-B 还磷酸化 purino-和 pyrimidino-NDP。上述同工酶在 Cu(2+)、Zn(2+)、Mg(2+)、Mn(2+)、Ni(2+)、Ca(2+)、Hg(2+)或 Co(2+)存在下,对 ADP、GDP、dGDP、TDP、dCDP、CDP 和 UDP 混合物的偏好也存在差异。例如,R-NDPK-B 独立于使用的金属,主要磷酸化 GDP,S-NDPK-A 在 Mg(2+)、Mn(2+)、Ca(2+)或 Co(2+)存在下主要磷酸化 TDP,S-NDPK-B 能够或多或少独立于使用的金属进行磷酸化。根据它们对 NDP 的偏好,纯化和表征的 NDPK 同工酶可能发挥不同的生物学作用。