Jie Tian scite author profile

Jie Tian

4Publications

97Citation Statements Received

56Citation Statements Given

How they've been cited

110

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Affiliations

China Pharmaceutical University, University of Miami, Shenyang Pharmaceutical University

Publications

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Stability, activity and flexibility in α-lactalbumin

Greene

Grobler

Malinovskii

et al. 1999

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alpha-Lactalbumins and the type-c lysozymes are homologues with similar folds that differ in function and stability. To determine if the lower stability of alpha-lactalbumin results from specific substitutions required for its adaptation to a new function, the effects of lysozyme-based and other substitutions on thermal stability were determined. Unblocking the upper cleft in alpha-lactalbumin by replacing Tyr103 with Ala, perturbs stability and structure but Pro, which also generates an open cleft, is compatible with normal structure and activity. These effects appear to reflect alternative enthalpic and entropic forms of structural stabilization by Tyr and Pro. Of 23 mutations, only three, which involve substitutions for residues in flexible substructures adjacent to the functional site, increase stability. Two are lysozyme-based substitutions for Leu110, a component of a region with alternative helix and loop conformations, and one is Asn for Lys114, a residue whose microenvironment changes when alpha-lactalbumin interacts with its target enzyme. While all substitutions for Leu110 perturb activity, a Lys114 to Asn mutation increases T(m) by more than 10 degrees C and reduces activity, but two other destabilizing substitutions do not affect activity. It is proposed that increased stability and reduced activity in Lys114Asn result from reduced flexibility in the functional site of alpha-lactalbumin.

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Functional Site in α-Lactalbumin Encompasses a Region Corresponding to a Subsite in Lysozyme and Parts of Two Adjacent Flexible Substructures

et al. 1996

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Aromatic cluster 1 of alpha-lactalbumin (LA), a substructure adjacent to the cleft, is important for its interaction with galactosyltransferase (GT) and effects on glucose binding in the lactose synthase complex [Grobler, J. A., Wang, M., Pike, A. K., & Brew, K. (1994) J. Biol. Chem. 269, 5106-5114]. The full extent of the functional region in LA has been probed by mutagenesis of residues that are near aromatic cluster 1 or within the cleft that corresponds to the active site in the homologous type c lysozymes. The conserved residues Val42, Gln54, and Ile59, which correspond to residues of lysozyme that act in substrate binding in subsites C to E, together with residues adjacent to aromatic cluster 1, were found to be not required for activity. In contrast, replacing Leu110, a component of the region corresponding to lysozyme subsite F, with His or Glu greatly reduces the affinity of LA for GT while the introduction of Arg lowers the synergism of LA and glucose binding to GT and also reduces the affinity of LA for GT. Substitutions for Ala106, which is adjacent to Leu110 in the structure, also perturb activity. The region of the cleft corresponding to subsite F is important for function in LA as well as in lysozyme since other components of this subsite, His32 and Phe31, are also crucial for LA activity. The qualitatively different effects of various substitutions for Leu110 may be mediated by their influence on His32 or by changes in the structure of the lactose synthase complex.

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New antibacterial isocoumarin glycosides from a wetland soil derived fungal strain Metarhizium anisopliae

Tian

et al. 2016

Bioorganic & Medicinal Chemistry Letters

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Nigegladines A–C, Three Thymoquinone Dimers from Nigella glandulifera

et al. 2017

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Nigegladines A-C (1-3), three thymoquinone dimers, were isolated from the seeds of Nigella glandulifera. Racemic 1 possesses a unique tricyclo[5.4.0.1]dodecane carbon skeleton, and compounds 2 and 3 are two unusual diterpenoid alkaloids with indole cores. Their structures were determined by extensive spectroscopic analyses, and that of 1 was confirmed by single-crystal X-ray diffraction. Both (+)-1 and (-)-1 exhibited significant protective effects against hypoxia/reoxygenation-induced H9c2 myocardial cell injury.

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Jie Tian

Stability, activity and flexibility in α-lactalbumin

Functional Site in α-Lactalbumin Encompasses a Region Corresponding to a Subsite in Lysozyme and Parts of Two Adjacent Flexible Substructures

New antibacterial isocoumarin glycosides from a wetland soil derived fungal strain Metarhizium anisopliae

Nigegladines A–C, Three Thymoquinone Dimers from Nigella glandulifera

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