Jie Zhou scite author profile

The worldwide emergence of multidrug-resistant (MDR) and extensively drug-resistant (XDR) tuberculosis threatens to make this disease incurable. Drug resistance mechanisms are only partially understood, and whether the current understanding of the genetic basis of drug resistance in M. tuberculosis is sufficiently comprehensive remains unclear. Here we sequenced and analyzed 161 isolates with a range of drug resistance profiles, discovering 72 new genes, 28 intergenic regions (IGRs), 11 nonsynonymous SNPs and 10 IGR SNPs with strong, consistent associations with drug resistance. On the basis of our examination of the dN/dS ratios of nonsynonymous to synonymous SNPs among the isolates, we suggest that the drug resistance-associated genes identified here likely contain essentially all the nonsynonymous SNPs that have arisen as a result of drug pressure in these isolates and should thus represent a near-complete set of drug resistance-associated genes for these isolates and antibiotics. Our work indicates that the genetic basis of drug resistance is more complex than previously anticipated and provides a strong foundation for elucidating unknown drug resistance mechanisms.

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Acetylome Analysis Reveals Diverse Functions of Lysine Acetylation in Mycobacterium tuberculosis

Liu

Yang

Wang

et al. 2014

Molecular & Cellular Proteomics

144

169

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Is There a Catalytic Base in the Active Site of cAMP-Dependent Protein Kinase?

1997

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The carboxyl group of an aspartic acid in the active site of the serine-specific protein kinase, cAMP-dependent protein kinase, is poised near the hydroxyl proton of a peptide substrate in the X-ray crystallographic structure (Madhusudan et al., 1994), suggesting that this residue may act as a general-base catalyst in the phosphoryl transfer reaction. Indeed, several proposals have been made in this regard. We measured the pre-steady-state kinetics in this enzyme using a rapid quench flow technique to understand the role of this putative base. The phosphorylation of the peptide substrate, GRTGRRNSI, by cAMP-dependent protein kinase exhibited "burst" kinetics consistent with a mechanism in which the peptide is phosphorylated rapidly (154 s(-1)) and the product(s) is (are) released slowly (16 s(-1)). The replacement of Mg2+ with Mn2+ leads to a 13-fold reduction in this observed "burst" rate constant, suggesting that this transient is limited either by the phosphoryl transfer step or by a metal ion-dependent conformational change step. The influence of deuterium oxide on the pre-steady-state kinetics was monitored in the presence of both divalent metal ions, and no solvent isotope effect was measured on either "burst" phase. A large solvent isotope effect is observed on k(cat) in the presence of either metal ion, and a proton inventory analysis in the presence of Mg2+ indicates that two or more protons are transferred in the product release step. Finally, no pH dependence is observed on the "burst" rate constant using either Mg2+ or Mn2+ over the pH range of 6-9. The combined data do not support a mechanism involving a general-base catalyst whose pK(a) is greater than 5 or less than 10 if the "burst" phase is cleanly limited by the phosphoryl transfer step. If the "burst" phase is limited by a metal ion-dependent conformational change step, the measurement of the phosphoryl transfer step is obscured, and the participation of a base catalyst is indeterminate.

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Participation of ADP Dissociation in the Rate-Determining Step in cAMP-Dependent Protein Kinase

Zhou

Adams

1997

Biochemistry

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Pre-steady-state kinetic analyses of the catalytic subunit of cAMP-dependent protein kinase showed that the rate constant for phosphoryl transfer is fast and either the release of one or both of the products or a conformational change controls turnover [Grant, B., & Adams, J. A. (1996) Biochemistry 35, 2022-2029]. To determine which step or steps control turnover in the wild-type enzyme, we used a catalytic trapping technique to measure directly the dissociation rate constant for ADP. The phosphorylation of two peptide substrates, LRRASLG and GRTGRRNSI, was monitored using a rapid quench flow technique under conditions where saturating concentrations of ADP were preequilibrated with the enzyme before excess ATP and one of the substrates were added to trap the free enzyme and to start the phosphorylation reaction. Under ADP preequilibration conditions, no 'burst' phase was observed, and although the rate of linear, steady-state turnover was unaffected, the net production of phosphopeptide lagged behind the non-preequilibrated control. This phenomenon occurs due to the slow release of the product, and kinetic modeling suggests that this effect can be explained if the dissociation rate constant for ADP is 24 s-1 and solely limits turnover (kcat = 23 s-1) for the phosphorylation of LRRASLG. Using GRTGRRNSI, the dissociation rate constant for ADP is 35 s-1 and limits turnover (kcat = 29 s-1) if the reaction is initiated by the addition of enzyme. Under preequilibration conditions with either ATP or GRTGRRNSI, turnover is approximately 50% lower, suggesting that ADP release may partially control this parameter. This preequilibration effect can be explained by slowly interconverting enzyme forms with specific peptide-induced turnover properties. These studies indicate that ADP release is an essential rate-limiting component for turnover but also suggests that other factors contribute subtly when the structure of the substrate is altered.

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Zinc-binding capacity of yak casein hydrolysate and the zinc-releasing characteristics of casein hydrolysate-zinc complexes

Wang

Zhou

Tong

et al. 2011

Journal of Dairy Science

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Many factors affect the bioavailability of dietary Zn, which leads to its low availability in some food systems and Zn nutrient deficiency. However, some proteins or peptides can form complexes with Zn and increase its absorption and bioavailability in intestinal conditions. The purpose of this work was to determine the Zn-binding activity of yak casein hydrolysate (YCH) and examine its stability, solubility, and dialyzability in a simulated intestinal environment. The Zn-binding activity of YCH, prepared using alcalase, pepsin, trypsin, Flavozyme (Novo Nordisk Biochem Inc., Franklinton, NC), or papain, was investigated. Evidence for the formation of complexes between Zn and YCH also were detected by UV-visible spectroscopy and Fourier transform infrared spectroscopy. Results were that YCH prepared with alcalase and trypsin possessed the highest Zn-binding capacity compared with YCH prepared with pepsin, Flavozyme, or papain. The 6-h YCH obtained with alcalase showed the highest Zn-binding capacity. Compared with native yak casein, the Zn-binding activity of YCH was significantly lower, but its solubility and dialyzability were markedly higher under intestinal basic pH ranges. This is important because high solubility and dialyzability is associated with better bioavailability. Both UV-visible spectroscopy and Fourier transform infrared spectroscopy spectra indicated that some sites of YCH can bind with Zn ions and form complexes that make Zn more soluble and dialyzable under simulated intestinal conditions. Therefore, YCH-Zn complexes may have potential to improve Zn bioavailability.

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Jie Zhou

Genome sequencing of 161 Mycobacterium tuberculosis isolates from China identifies genes and intergenic regions associated with drug resistance

Acetylome Analysis Reveals Diverse Functions of Lysine Acetylation in Mycobacterium tuberculosis

Is There a Catalytic Base in the Active Site of cAMP-Dependent Protein Kinase?

Participation of ADP Dissociation in the Rate-Determining Step in cAMP-Dependent Protein Kinase

Zinc-binding capacity of yak casein hydrolysate and the zinc-releasing characteristics of casein hydrolysate-zinc complexes

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