Tao Xie scite author profile

Protein kinases intrinsically sample a number of conformational states with distinct catalytic and binding activities. We used nuclear magnetic resonance spectroscopy to describe in atomic-level detail how Abl kinase interconverts between an active and two discrete inactive structures. Extensive differences in key structural elements among the conformational states give rise to multiple intrinsic regulatory mechanisms. The findings explain how oncogenic mutants can counteract inhibitory mechanisms to constitutively activate the kinase. Energetic dissection revealed the contribution of the activation loop, the DFG motif, the regulatory spine and the gatekeeper residue to kinase regulation. Characterization of the transient conformation to which the drug imatinib binds enabled the elucidation of drug resistance mechanisms. Structural insight into inactive states highlights how they can be leveraged for the design of selective inhibitors.

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Proteomic analysis of human prostasomes

Utleg

et al. 2003

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The role of transporters in cellular heme and porphyrin homeostasis

Krishnamurthy

Xie

Schuetz

2007

Pharmacology & Therapeutics

224

190

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Digital economy: An innovation driver for total factor productivity

Pan

Xie

Wang

et al. 2022

Journal of Business Research

590

149

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Initial Proteome Analysis of Model MicroorganismHaemophilus influenzaeStrain Rd KW20

Kolker¹,

Purvine²,

Galperin

et al. 2003

J Bacteriol

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The proteome of Haemophilus influenzae strain Rd KW20 was analyzed by liquid chromatography (LC) coupled with ion trap tandem mass spectrometry (MS/MS). This approach does not require a gel electrophoresis step and provides a rapidly developed snapshot of the proteome. In order to gain insight into the central metabolism of H. influenzae, cells were grown microaerobically and anaerobically in a rich medium and soluble and membrane proteins of strain Rd KW20 were proteolyzed with trypsin and directly examined by LC-MS/MS. Several different experimental and computational approaches were utilized to optimize the proteome coverage and to ensure statistically valid protein identification. Approximately 25% of all predicted proteins (open reading frames) of H. influenzae strain Rd KW20 were identified with high confidence, as their component peptides were unambiguously assigned to tandem mass spectra. Approximately 80% of the predicted ribosomal proteins were identified with high confidence, compared to the 33% of the predicted ribosomal proteins detected by previous two-dimensional gel electrophoresis studies. The results obtained in this study are generally consistent with those obtained from computational genome analysis, two-dimensional gel electrophoresis, and whole-genome transposon mutagenesis studies. At least 15 genes originally annotated as conserved hypothetical were found to encode expressed proteins. Two more proteins, previously annotated as predicted coding regions, were detected with high confidence; these proteins also have close homologs in related bacteria. The direct proteomics approach to studying protein expression in vivo reported here is a powerful method that is applicable to proteome analysis of any (micro)organism.

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Tao Xie

Conformational states dynamically populated by a kinase determine its function

Proteomic analysis of human prostasomes

The role of transporters in cellular heme and porphyrin homeostasis

Digital economy: An innovation driver for total factor productivity

Initial Proteome Analysis of Model MicroorganismHaemophilus influenzaeStrain Rd KW20

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