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Thomas Huber

Researcher at Australian National University

Publications -  204
Citations -  20261

Thomas Huber is an academic researcher from Australian National University. The author has contributed to research in topics: Medicine & Neutrino. The author has an hindex of 47, co-authored 159 publications receiving 17918 citations. Previous affiliations of Thomas Huber include Cooperative Research Centre & University of Queensland.

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W-band orientation selective DEER measurements on a Gd3+/nitroxide mixed-labeled protein dimer with a dual mode cavity

Ilia Kaminker, +7 more
- 01 Feb 2013 - 
TL;DR: A novel dual-mode cavity that matches this large frequency separation dramatically increases the sensitivity of DEER measurements, allowing evolution times as long as 12 μs in a protein, and opens the possibility of accessing distances of 8 nm and longer.
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The structure of the PII–ATP complex

Yibin Xu, +4 more
- 01 Apr 2001 - 
TL;DR: In this paper, the structure of P-II with ATP was solved using a hexagonal crystal form (form I) and two different crystal forms (forms II and III) that were obtained by co-crystallization of P II with ATP.
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Phosphoregulators: Protein Kinases and Protein Phosphatases of Mouse

Alistair R. R. Forrest, +7 more
- 01 Jun 2003 - 
TL;DR: A computational approach to identify and classify all of the protein kinases and phosphatases present in the mouse gene complement and comment on the complementary nature of cDNA and genome-based gene detection and the impact of the FANTOM2 transcriptome project.
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Evidence for neutrino emission from the nearby active galaxy NGC 1068

Rasha Abbasi, +381 more
- 04 Nov 2022 - 
TL;DR: Murase et al. as mentioned in this paper found that NGC 1068 has an excess of 79−20+22 neutrinos at tera-electron volt energies, with a global significance of 4.2σ, which they interpret as associated with the active galaxy.
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Sensitive NMR Approach for Determining the Binding Mode of Tightly Binding Ligand Molecules to Protein Targets

Wan-Na Chen, +7 more
- 24 Mar 2016 - 
TL;DR: A sensitive nuclear magnetic resonance (NMR) approach to determine the binding mode of tightly binding lead compounds in complex with difficult target proteins, relying instead on a tert-butyl group as a chemical label.