Interferon-Gamma Release Assay is Not Appropriate for the Diagnosis of Active Tuberculosis in High-Burden Tuberculosis Settings: A Retrospective Multicenter Investigation.

Background: Interferon-gamma release assay (IGRA) has been used in latent tuberculosis (TB) infection and TB diagnosis, but the results from different high TB-endemic countries are different. The aim of this study was to investigate the value of IGRA in the diagnosis of active pulmonary TB (PTB) in China.

Methods: We conducted a large-scale retrospective multicenter investigation to further evaluate the role of IGRA in the diagnosis of active PTB in high TB-epidemic populations and the factors affecting the performance of the assay.

Turnover-dependent inactivation of the nitrogenase MoFe-protein at high pH.

Proton uptake accompanies the reduction of all known substrates by nitrogenase. As a consequence, a higher pH should limit the availability of protons as a substrate essential for turnover, thereby increasing the proportion of more highly reduced forms of the enzyme for further study. The utility of the high-pH approach would appear to be problematic in view of the observation reported by Pham and Burgess [(1993) Biochemistry 32, 13725-13731] that the MoFe-protein undergoes irreversible protein denaturation above pH 8.

The sixteenth iron in the nitrogenase MoFe protein.

Another iron in the fire: X-ray anomalous diffraction studies on the nitrogenase MoFe protein show the presence of a mononuclear iron site, designated as Fe16, which was previously identified as either Ca(2+) or Mg(2+). The position of the absorption edge indicates that this site is in the oxidation state +2. The high sequence conservation of the residues coordinated to Fe16 emphasizes the potential importance of the site in nitrogenase.

Modulation of the redox properties of the flavin cofactor through hydrogen-bonding interactions with the N(5) atom: role of alphaSer254 in the electron-transfer flavoprotein from the methylotrophic bacterium W3A1.

The functional effects of hydrogen-bonding interactions at the N(5) atom of the flavin cofactors in the oxidized state have not been well established in flavoproteins. The unique properties of the electron-transfer flavoprotein from the methylotrophic bacteria W3A1 (wETF) were used to advantage in this study to evaluate this interaction. In wETF, the side-chain hydroxyl group of alphaSer254 serves as a hydrogen bond donor to the N(5) atom in the oxidized state of the flavin.

Nonresonance Raman study of the flavin cofactor and its interactions in the methylotrophic bacterium W3A1 electron-transfer flavoprotein.

Nonresonance Raman spectroscopy has been used to investigate the protein-flavin interactions of the oxidized and anionic semiquinone states of the electron-transfer flavoprotein from the methylotrophic bacteria W3A1 (wETF) in solution. Several unique features of oxidized wETF were revealed from the Raman data. The unusually high frequency of the Raman band for the C(4)=O of the flavin suggests that hydrogen-bonding interactions with the C(4)O are very weak or nonexistent in wETF.