By incubating the reduced MoFe protein from Azotobacter vinelandii with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its a...By incubating the reduced MoFe protein from Azotobacter vinelandii with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol,Azotobacter vinelandii with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol, with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol, but also with a mixture of 4Fe∶4S clusters and another cluster which had two structure units of 1Mo∶3Fe∶4S bridged by three -OCH 3- at the Mo atoms. Neither the reconstituent solution nor the mixture could reactivate apo MoFe proteins from the mutants deleting nifE and nifH genes and from the mutant UW 45 , which could be reactivated by the FeMoco extracted from the MoFe protein. The results indicated that the FeMoco deficient MoFe proteins from these mutants seemed to be reconstituted only by the clusters which were probably structures only similar to FeMoco. The partially metallocluster deficient MoFe protein could be reconstituted by the clusters with a certain kind of structure and composition; and was changed into different nitrogenase proteins with the ability to fix nitrogen.展开更多
The Deltanif E MoFe protein (Deltanif E Av1) was obtained by a chromatography on DE52, Sephacryl S-300 and Q-Sepharose columns from the unheated crude extract of nifE-deleted mutant strain (DJ35) of Azotobacter vinela...The Deltanif E MoFe protein (Deltanif E Av1) was obtained by a chromatography on DE52, Sephacryl S-300 and Q-Sepharose columns from the unheated crude extract of nifE-deleted mutant strain (DJ35) of Azotobacter vinelandii Lipmann. The analysis by SDS-PAGE showed that the Delta nif EAv1 was similar to OP MoFe protein (Av1) of A. vinelandii in the kinds and molecular weights of subunits (alpha and beta subunit). When complemented with nitrogenase Fe protein (M), the A nif EAv1 had hardly any proton-reduction activity, but could be significantly activated by FeMoco extracted from OP Av1. After the Delta nif E Av1 was treated with an excess o-phenanthroline (o-phen) and chromatographied on Sephadex G-25 column under atmosphere of Ar, Delta nif E Av1(C) was obtained. In the presence of both Av2 and MgATP regeneration system, the Delta nif EAv1(C), rather than A nif EAv1, was significantly activated in vitro by a reconstituent solution containing Mn which composed of KMnO4, ferric homocitrate, Na2S, Na2S2O4 (DT) and dithiothreitol (DTT). But in the absence of MgATP or Av2, the activation of Delta nifE Av1(C) did not happen. It indicates that activation of Delta nif EAv1 by RS-Mn requires the pretreatment with o-phen and the simultaneous presence of Av2 and MgATP.展开更多
A MoFe protein (ΔnifE Av1) with a purity of ~80% was purified from a nifE-deleted mutant of Azotobacter vinelandii DJ35. Compared with MoFe protein purified from wild-type strain OP (OP Av1), ΔnifE Av1 had the same...A MoFe protein (ΔnifE Av1) with a purity of ~80% was purified from a nifE-deleted mutant of Azotobacter vinelandii DJ35. Compared with MoFe protein purified from wild-type strain OP (OP Av1), ΔnifE Av1 had the same subunits composition, and had immune reaction with antibody to OP Av1, but its relative mobility in anaerobic native polyacrylamide gel electrophoresis (PAGE) was a little larger than that of OP Av1. Metal analysis showed that Mo and Fe contents of ΔnifE Av1 both apparently decreased. When complemented with OP Fe protein, ΔnifE Av1 had no C2H2-reduction activity, but it could be in vitro activated by FeMoco extracted from OP Av1. The circular dichroism (CD) spectrum of ΔnifE Av1 at ~450 nm was similar to that of OP Av1, while the EPR signal at g≈3.7 was absolutely silent, and the signal intensities at g≈4.3 and 2.0 decreased by 75% and 50%, respectively. The results indicated that ΔnifE Av1 purified from DJ35 was a FeMoco-deficient but P-cluster-con- taining MoFe protein.展开更多
文摘By incubating the reduced MoFe protein from Azotobacter vinelandii with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol,Azotobacter vinelandii with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol, with O phenanthroline under air and chromatographying the incubated solution on Sephadex G 25 column, inactive MoFe protein could be obtained. Its acetylene reduction activity was remarkably recovered not only by incubation with the reconstituent solution composed of KMnO 4,ferric homocitrate, Na 2S and dithiothreitol, but also with a mixture of 4Fe∶4S clusters and another cluster which had two structure units of 1Mo∶3Fe∶4S bridged by three -OCH 3- at the Mo atoms. Neither the reconstituent solution nor the mixture could reactivate apo MoFe proteins from the mutants deleting nifE and nifH genes and from the mutant UW 45 , which could be reactivated by the FeMoco extracted from the MoFe protein. The results indicated that the FeMoco deficient MoFe proteins from these mutants seemed to be reconstituted only by the clusters which were probably structures only similar to FeMoco. The partially metallocluster deficient MoFe protein could be reconstituted by the clusters with a certain kind of structure and composition; and was changed into different nitrogenase proteins with the ability to fix nitrogen.
文摘The Deltanif E MoFe protein (Deltanif E Av1) was obtained by a chromatography on DE52, Sephacryl S-300 and Q-Sepharose columns from the unheated crude extract of nifE-deleted mutant strain (DJ35) of Azotobacter vinelandii Lipmann. The analysis by SDS-PAGE showed that the Delta nif EAv1 was similar to OP MoFe protein (Av1) of A. vinelandii in the kinds and molecular weights of subunits (alpha and beta subunit). When complemented with nitrogenase Fe protein (M), the A nif EAv1 had hardly any proton-reduction activity, but could be significantly activated by FeMoco extracted from OP Av1. After the Delta nif E Av1 was treated with an excess o-phenanthroline (o-phen) and chromatographied on Sephadex G-25 column under atmosphere of Ar, Delta nif E Av1(C) was obtained. In the presence of both Av2 and MgATP regeneration system, the Delta nif EAv1(C), rather than A nif EAv1, was significantly activated in vitro by a reconstituent solution containing Mn which composed of KMnO4, ferric homocitrate, Na2S, Na2S2O4 (DT) and dithiothreitol (DTT). But in the absence of MgATP or Av2, the activation of Delta nifE Av1(C) did not happen. It indicates that activation of Delta nif EAv1 by RS-Mn requires the pretreatment with o-phen and the simultaneous presence of Av2 and MgATP.
基金supported by the State Key Basic Research and Developmental Plan of China(Grant No.001CB1089-06)the National Natural Science Foundation of China(Grant No.30270296)the National Science Foundation for Distin-guished Young Scholars of China(Grant No.20403024).
文摘A MoFe protein (ΔnifE Av1) with a purity of ~80% was purified from a nifE-deleted mutant of Azotobacter vinelandii DJ35. Compared with MoFe protein purified from wild-type strain OP (OP Av1), ΔnifE Av1 had the same subunits composition, and had immune reaction with antibody to OP Av1, but its relative mobility in anaerobic native polyacrylamide gel electrophoresis (PAGE) was a little larger than that of OP Av1. Metal analysis showed that Mo and Fe contents of ΔnifE Av1 both apparently decreased. When complemented with OP Fe protein, ΔnifE Av1 had no C2H2-reduction activity, but it could be in vitro activated by FeMoco extracted from OP Av1. The circular dichroism (CD) spectrum of ΔnifE Av1 at ~450 nm was similar to that of OP Av1, while the EPR signal at g≈3.7 was absolutely silent, and the signal intensities at g≈4.3 and 2.0 decreased by 75% and 50%, respectively. The results indicated that ΔnifE Av1 purified from DJ35 was a FeMoco-deficient but P-cluster-con- taining MoFe protein.
