R
Ruth M. Empson
Researcher at University of Otago
Publications - 72
Citations - 4054
Ruth M. Empson is an academic researcher from University of Otago. The author has contributed to research in topics: Excitatory postsynaptic potential & Cerebellum. The author has an hindex of 33, co-authored 70 publications receiving 3624 citations. Previous affiliations of Ruth M. Empson include University of Oxford & University of Birmingham.
Papers
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Journal ArticleDOI
Transgenic mice for intersectional targeting of neural sensors and effectors with high specificity and performance.
Linda Madisen,Aleena R. Garner,Daisuke Shimaoka,Amy S. Chuong,Nathan C. Klapoetke,Lu Li,Alexander van der Bourg,Yusuke Niino,Ladan Egolf,Claudio Monetti,Hong Gu,Maya Mills,Adrian Cheng,Bosiljka Tasic,Thuc Nghi Nguyen,Susan M. Sunkin,Andrea Benucci,Andras Nagy,Atsushi Miyawaki,Fritjof Helmchen,Ruth M. Empson,Thomas Knöpfel,Edward S. Boyden,R. Clay Reid,Matteo Carandini,Hongkui Zeng +25 more
TL;DR: These novel transgenic lines greatly expand the ability to monitor and manipulate neuronal activities with increased specificity, and develop driver and double reporter mouse lines and viral vectors using the Cre/Flp and Cre/Dre double recombinase systems.
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Uranium bioaccumulation by a Citrobacter sp. as a result of enzymically mediated growth of polycrystalline HUO2PO4.
TL;DR: A Citrobacter sp.4H2O grown by chemical methods has a high capacity for accumulating metal phosphate, attributable to biomineralization; uranyl phosphate accumulates as polycrystalline HUO2PO4 at the cell surface.
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The perforant path projection to hippocampal area CA1 in the rat hippocampal-entorhinal cortex combined slice
Ruth M. Empson,Uwe Heinemann +1 more
TL;DR: Perforant path inputs activated prominent and effective disynaptic inhibition of CA1 cells, which has significance for the output of hippocampal processing during normal behaviour and also under pathological conditions.
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Unique inactivation properties of NAADP-sensitive Ca2+ release.
TL;DR: It is reported that non-releasing concentrations of NAadP fully and irreversibly inactivate the NAADP-sensitive Ca release mechanism, giving a one-shot Ca release, may be suited to irreversible cellular events.
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Diversity of layer 5 projection neurons in the mouse motor cortex.
TL;DR: These findings provide reliable phenotypic fingerprints to identify distinct M1 projection neuron classes as a tool to understand their unique contributions to motor function.