Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04179 (MnSOD)
 2,777 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two-dimensional (2-D) gel electrophoresis was used to map Brucella melitensis proteins. The 2-D proteins map of B. melitensis B115 revealed 595 silver-stained protein spots separated by both isoelectric point and molecular mass. Twenty-five proteins were identified either by immunoblotting using monoclonal antibodies (MAbs) or by N-terminal microsequencing. The protein spots identified by MAbs were the 89 kDa outer membrane protein, DnaK, bacterioferritin, CP24, and BP26. Some spots were identified by N-terminal microsequencing as proteins whose sequences had been reported previously from Brucella, such as three heat-shock proteins, namely DnaK, GroEL and GroES; bacterioferritin; Cu-Zn superoxide dismutase; and the 50S ribosomal protein L7/L12. Other proteins had amino acid sequences homologous with those of various proteins from other bacteria found in protein databases: ClpP; the 10K-S protein; the ORFU phosphoprotein; succinyl-CoA synthetase alpha sub-unit; an inorganic pyrophosphatase; the Fe and/or Mn superoxide dismutase; the nucleoside diphosphate kinase, an amino acid ABC type transporter, and an electron transfer flavoprotein small subunit. Seven proteins were identified with N-terminal sequences not yet reported in databases. The 2-D map established in this study will be the basis for comparative studies of protein expression in Brucella.
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PMID:Mapping and identification of Brucella melitensis proteins by two-dimensional electrophoresis and microsequencing. 905 38

Escherichia coli K12 was used as a model system to determine whether ELF magnetic fields (MFs) are a general stress factor. The cells were exposed to ELF MFs (5-100 Hz) at a maximum intensity of 14 mT r. m.s. for circularly polarized MFs and 10 mT r.m.s. for vertically polarized MFs. The response of the cells to the MFs was estimated from the change in protein synthesis by using 2D PAGE. Approximately 1,000 proteins were separated on the 2D gels. The stress-responsive proteins such as CH10, DNAK, CH60, RECA, USPA, K6P1 and SODM were identified from the SWISS-2DPAGE database on the 2D gels. These proteins respond to most stress factors, including temperature change, chemical compounds, heavy metals, and nutrients. When the bacterial cells were exposed to each MF at 5-100 Hz under aerobic conditions (6.5 h) or at 50 Hz under anaerobic conditions (16 h) at the maximum intensity (7.8 to 14 mT r.m.s.), no reproducible changes were observed in the 2D gels. Changes in protein synthesis were detected by 2D PAGE with exposure to heat shock (50 degrees C for 30 min) or under anaerobic conditions (no bubbling for 16 h). Increases in the levels of synthesis of the stress proteins were observed in heat-shocked cells (CH60, CH10, HTPG, DNAK, HSLV, IBPA and some unidentified proteins) and in cells grown under anaerobic conditions (DNAK, PFLB, RECA, USPA and many unidentified proteins). These results suggest that 2D PAGE is sufficient to detect cell responses to environmental stress. The high-intensity ELF MFs (14 mT at power frequency) did not act as a general stress factor.
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PMID:Effect of ELF magnetic fields on protein synthesis in Escherichia coli K12. 1093 94

Activation of Cu/Zn superoxide dismutases (CuZnSODs) is aided by Cu incorporation and disulfide isomerization by Cu chaperone of SOD (CCS). As well, an Fe-S cluster scaffold protein, ISU, might alter the incorporation of Fe or Mn into yeast MnSOD (ySOD2), thus leading to active or inactive ySOD2. However, metallochaperones involved in the activation of FeSODs are unknown. Recently, we found that a chloroplastic chaperonin cofactor, CPN20, could mediate FeSOD activity. To investigate whether Fe incorporation in FeSOD is affected by CPN20, we used inductively coupled plasma mass spectrometry to analyze the ability of CPN20 to bind Fe. CPN20 could bind Fe, and the Fe binding to FeSOD was increased with CPN20 incubation. Thus, CPN20 might be an Fe chaperone for FeSOD activation, a role independent of its well-known co-chaperonin activity.
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PMID:Chaperonin 20 might be an iron chaperone for superoxide dismutase in activating iron superoxide dismutase (FeSOD). 2329 25