Stéphane Acoca scite author profile

A genome wide search for new BH3-containing Bcl-2 family members was conducted using position weight matrices (PWM) and identified a large (480 kDa), novel BH3-only protein, originally called LASU1 (now also known as Ureb-1, E3 histone , ARF-BP1, and Mule). We demonstrated that LASU1 is an E3 ligase that ubiquitinated Mcl-1 in vitro and was required for its proteasome-dependent degradation in HeLa cells. Of note, the BH3 domain of LASU1 interacted with Mcl-1 but not with Bcl-2 or Bcl-Xl. A competing BH3-ligand derived from Bim interacted with Mcl-1 and prevented its interaction with LASU1 in HeLa cells, causing elevation of the steady-state levels of Mcl-1. This suggests that the unliganded form of Mcl-1 is sensitive to LASU1-mediated degradation of Mcl-1.

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Molecular Formula Analysis by an MS/MS/MS Technique To Expedite Dereplication of Natural Products

Konishi

Kiyota

Draghici

et al. 2006

Anal. Chem.

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A facile and sensitive mass spectrometric method has been developed for the dereplication of natural products. The method provides information about the molecular formula and substructure of a precursor molecule and its fragments, which are invaluable aids in dereplication of natural products at their early stages of purification and characterization. Collision-induced MS/MS technique is used to fragment a precursor ion into several product ions, and individual product ions are selected and subjected to collision-induced MS/MS/MS analysis. This method enables the identification of the fragmentation pathway of a precursor molecule from its first-generation fragments (MS/MS), through to the nth generation product ions (MSn). It also allows for the identification of the corresponding neutral products released (neutral losses). Elements used in the molecular formula analysis include C, H, N, O, and S, as most natural products are constituted by these five elements. High-resolution mass separation and accurate mass measurements afforded the unique identification of molecular formula of small neutral products. Through sequential add-up of the molecular formulas of the small neutral products, the molecular formula of the precursor ion and its productions were uniquely determined. The molecular formula of the precursor molecule was then reversely used to identify or confirm the molecular formula of the neutral products and that of the productions. The molecular formula of the neutral fragments allowed for the identification of substructures, leading to a rapid and efficient characterization of precursor natural product. The method was applied to paclitaxel (C47H51NO14; 853 amu) to identify its molecular formula and its substructures, and to characterize its potential fragmentation pathways. The method was further validated by correctly identifying the molecular formula of minocycline (C23H27N3O7; 457 amu) and piperacillin (C23H27N5O7S; 517 amu).

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Stéphane Acoca

Small molecule obatoclax (GX15-070) antagonizes MCL-1 and overcomes MCL-1-mediated resistance to apoptosis

BH3‐ligand regulates access of MCL‐1 to its E3 ligase

Molecular Formula Analysis by an MS/MS/MS Technique To Expedite Dereplication of Natural Products

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