Robert L. McFeeters scite author profile

SUMMARY The activity of RING finger ubiquitin ligases (E3) is dependent on their ability to facilitate transfer of ubiquitin from ubiquitin-conjugating enzymes (E2) to substrates. The G2BR domain within the E3 gp78 binds selectively and with high affinity to the E2 Ube2g2. Through structural and functional analyses, we determine that this occurs on a region of Ube2g2 distinct from binding sites for ubiquitin-activating enzyme (E1) and RING fingers. Binding to the G2BR results in conformational changes in Ube2g2 that affect ubiquitin loading. The Ube2g2:G2BR interaction also causes an ~ 50-fold increase in affinity between the E2 and RING finger. This results in markedly increased ubiquitylation by Ube2g2 and the gp78 RING finger. The significance of this G2BR effect is underscored by enhanced ubiquitylation observed when Ube2g2 is paired with other RING finger E3s. These findings uncover a mechanism whereby allosteric effects on an E2 enhance E2-RING finger interactions and consequently ubiquitylation.

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Structural Mobility of the Extracellular Ligand-Binding Core of an Ionotropic Glutamate Receptor. Analysis of NMR Relaxation Dynamics

McFeeters

Oswald

2002

Biochemistry

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Ionotropic glutamate receptors play important roles in a variety of neuronal processes and have been implicated in multiple neurodegenerative diseases. The extracellular ligand-binding (S1S2) core of the GluR2 subtype can be expressed in bacteria as a soluble, monomeric protein with binding properties essentially identical to those of the intact receptor. The crystal structure of this protein has been determined in the presence and absence of various agonists and antagonists [Armstrong, N., Sun, Y., Chen, G. Q., and Gouaux, E. (1998) Nature 395, 913-917; Armstrong, N., and Gouaux, E. (2000) Neuron 28, 165-181]. The protein consists of two lobes, with the S1 segment composing the majority of lobe 1 and the S2 segment composing most of lobe 2. A domain closure upon ligand binding has been postulated, but details of intradomain motions have not been investigated. In this paper, the backbone motions of the ligand-binding core of GluR2 bound to glutamate were studied using (15)N longitudinal (T1) and transverse (T2) relaxation measurements as well as [1H]-15N nuclear Overhauser effects at 500 and 600 MHz. Residues in the agonist-binding pocket exhibited two main classes of motion. Those contacting the alpha-substituents of the ligand glutamate exhibited minimal internal motion, while those contacting the gamma-constituents exhibited exchange dynamics, indicating two dynamically distinct portions of the binding pocket. Also, two residues in transdomain linkers between lobes 1 and 2 show exchange, lending new insight into the previously proposed domain closure hypothesis. Finally, concerted motion of helix F suggests a pathway for ligand dissociation without the necessity of domain reopening.

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Essential Oil Characterization of Thymus vulgaris from Various Geographical Locations

Satyal

Murray

McFeeters

et al. 2016

Foods

152

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Thyme (Thymus vulgaris L.) is a commonly used flavoring agent and medicinal herb. Several chemotypes of thyme, based on essential oil compositions, have been established, including (1) linalool; (2) borneol; (3) geraniol; (4) sabinene hydrate; (5) thymol; (6) carvacrol, as well as a number of multiple-component chemotypes. In this work, two different T. vulgaris essential oils were obtained from France and two were obtained from Serbia. The chemical compositions were determined using gas chromatography–mass spectrometry. In addition, chiral gas chromatography was used to determine the enantiomeric compositions of several monoterpenoid components. The T. vulgaris oil from Nyons, France was of the linalool chemotype (linalool, 76.2%; linalyl acetate, 14.3%); the oil sample from Jablanicki, Serbia was of the geraniol chemotype (geraniol, 59.8%; geranyl acetate, 16.7%); the sample from Pomoravje District, Serbia was of the sabinene hydrate chemotype (cis-sabinene hydrate, 30.8%; trans-sabinene hydrate, 5.0%); and the essential oil from Richerenches, France was of the thymol chemotype (thymol, 47.1%; p-cymene, 20.1%). A cluster analysis based on the compositions of these essential oils as well as 81 additional T. vulgaris essential oils reported in the literature revealed 20 different chemotypes. This work represents the first chiral analysis of T. vulgaris monoterpenoids and a comprehensive description of the different chemotypes of T. vulgaris.

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Structure and physiological function of the human KCNQ1 channel voltage sensor intermediate state

Taylor

Kang

Hou

et al. 2020

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Voltage-gated ion channels feature voltage sensor domains (VSDs) that exist in three distinct conformations during activation: resting, intermediate, and activated. Experimental determination of the structure of a potassium channel VSD in the intermediate state has previously proven elusive. Here, we report and validate the experimental three-dimensional structure of the human KCNQ1 voltage-gated potassium channel VSD in the intermediate state. We also used mutagenesis and electrophysiology in Xenopus laevisoocytes to functionally map the determinants of S4 helix motion during voltage-dependent transition from the intermediate to the activated state. Finally, the physiological relevance of the intermediate state KCNQ1 conductance is demonstrated using voltage-clamp fluorometry. This work illuminates the structure of the VSD intermediate state and demonstrates that intermediate state conductivity contributes to the unusual versatility of KCNQ1, which can function either as the slow delayed rectifier current (IKs) of the cardiac action potential or as a constitutively active epithelial leak current.

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