Daniel J. Jagger

2.7k total citations
56 papers, 1.6k citations indexed

About

Daniel J. Jagger is a scholar working on Sensory Systems, Molecular Biology and Cognitive Neuroscience. According to data from OpenAlex, Daniel J. Jagger has authored 56 papers receiving a total of 1.6k indexed citations (citations by other indexed papers that have themselves been cited), including 40 papers in Sensory Systems, 27 papers in Molecular Biology and 10 papers in Cognitive Neuroscience. Recurrent topics in Daniel J. Jagger's work include Hearing, Cochlea, Tinnitus, Genetics (39 papers), Connexins and lens biology (11 papers) and Hearing Loss and Rehabilitation (10 papers). Daniel J. Jagger is often cited by papers focused on Hearing, Cochlea, Tinnitus, Genetics (39 papers), Connexins and lens biology (11 papers) and Hearing Loss and Rehabilitation (10 papers). Daniel J. Jagger collaborates with scholars based in United Kingdom, New Zealand and Australia. Daniel J. Jagger's co-authors include Andrew Forge, Gary D. Housley, Jonathan Ashmore, John J. Kelly, Ruth Taylor, Matthew C. Holley, Nicholas P. Raybould, Marcelo N. Rivolta, Denise Greenwood and Graham Nevill and has published in prestigious journals such as Journal of Neuroscience, PLoS ONE and Brain.

In The Last Decade

Daniel J. Jagger

54 papers receiving 1.6k citations

Peers

Countries citing papers authored by Daniel J. Jagger

Since Specialization

Citations

This map shows the geographic impact of Daniel J. Jagger's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Daniel J. Jagger with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Daniel J. Jagger more than expected).

Fields of papers citing papers by Daniel J. Jagger

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Daniel J. Jagger. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Daniel J. Jagger. The network helps show where Daniel J. Jagger may publish in the future.

Co-authorship network of co-authors of Daniel J. Jagger

This figure shows the co-authorship network connecting the top 25 collaborators of Daniel J. Jagger. A scholar is included among the top collaborators of Daniel J. Jagger based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Daniel J. Jagger. Daniel J. Jagger is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

#	Work	Indexed citations
1	Mitochondrial dynamics regulate cell morphology in the developing cochlea 2024 ·Development ·James D.B. O’Sullivan, Stephen J. Terry, Claire A. Scott, Anwen Bullen, Daniel J. Jagger, Zoë F. Mann	1
2	Age‐related changes in P2Y receptor signalling in mouse cochlear supporting cells 2023 ·The Journal of Physiology ·(unknown), Jing‐Yi Jeng, Daniel J. Jagger, Walter Marcotti, Federico Ceriani	5
3	The timing of auditory sensory deficits in Norrie disease has implications for therapeutic intervention 2022 ·JCI Insight ·(unknown), (unknown), Neil J. Ingham, Aara Patel, (unknown), Lucy A. Anderson, (unknown), Dale Moulding, (unknown), Daniyal J. Jafree, David A. Long, (unknown), Karen P. Steel, Daniel J. Jagger, Andrew Forge, Wolfgang Berger, Jane C. Sowden, Maria Bitner‐Glindzicz	10
4	Functional P2X₇Receptors in the Auditory Nerve of Hearing Rodents Localize Exclusively to Peripheral Glia 2021 ·Journal of Neuroscience ·(unknown), (unknown), Jonathan E. Gale, Tobías Engel, R. Kopp, Annette Nicke, (unknown), Daniel J. Jagger	8
5	Characterizing human vestibular sensory epithelia for experimental studies: new hair bundles on old tissue and implications for therapeutic interventions in ageing 2015 ·Neurobiology of Aging ·Ruth Taylor, Daniel J. Jagger, Shakeel R. Saeed, Patrick Axon, Neil Donnelly, James R. Tysome, (unknown), Richard Irving, Peter Monksfield, Chris Coulson, Simon Freeman, Simon Lloyd, Andrew Forge	45
6	Connexins and gap junctions in the inner ear – it’s not just about K+ recycling 2014 ·Cell and Tissue Research ·Daniel J. Jagger, Andrew Forge	83
7	Spinster Homolog 2 (Spns2) Deficiency Causes Early Onset Progressive Hearing Loss 2014 ·PLoS Genetics ·Jing Chen, Neil J. Ingham, John J. Kelly, Shalini Jadeja, David Goulding, Johanna Pass, Vinit B. Mahajan, Stephen H. Tsang, Anastasia Nijnik, Ian J. Jackson, Jacqueline K. White, Andrew Forge, Daniel J. Jagger, Karen P. Steel	52
8	Gap Junctional Coupling is Essential for Epithelial Repair in the Avian Cochlea 2014 ·Journal of Neuroscience ·Daniel J. Jagger, (unknown), Andrew Forge	13
9	Connexin30 mediated intercellular communication plays an essential role in epithelial repair in the cochlea 2013 ·Journal of Cell Science ·Andrew Forge, Daniel J. Jagger, John J. Kelly, Ruth Taylor	27
10	Defining the Cellular Environment in the Organ of Corti following Extensive Hair Cell Loss: A Basis for Future Sensory Cell Replacement in the Cochlea 2012 ·PLoS ONE ·Ruth Taylor, Daniel J. Jagger, Andrew Forge	67
11	Contractility in Type III Cochlear Fibrocytes Is Dependent on Non-muscle Myosin II and Intercellular Gap Junctional Coupling 2012 ·Journal of the Association for Research in Otolaryngology ·John J. Kelly, Andrew Forge, Daniel J. Jagger	22
12	Assessing PCP in the Cochlea of Mammalian Ciliopathy Models 2011 ·Methods in molecular biology ·Daniel J. Jagger, Andrew Forge	5
13	Alström Syndrome protein ALMS1 localizes to basal bodies of cochlear hair cells and regulates cilium-dependent planar cell polarity 2010 ·Human Molecular Genetics ·Daniel J. Jagger, Gayle B. Collin, John J. Kelly, (unknown), Graham Nevill, Chantal M. Longo-Guess, (unknown), Kärin Halsey, David F. Dolan, Jan D. Marshall, Jürgen Κ. Naggert, Andrew Forge	76
14	TRPC‐like conductance mediates restoration of intracellular Ca ²⁺ in cochlear outer hair cells in the guinea pig and rat 2006 ·The Journal of Physiology ·Nicholas P. Raybould, Daniel J. Jagger, Refik Kanjhan, Denise Greenwood, Peter Laslo, (unknown), Christian Soeller, Mark B. Cannell, Gary D. Housley	28
15	Neuromodulation in the Spiral Ganglion: Shaping Signals from the Organ of Corti to the CNS 2006 ·The Journal of Membrane Biology ·Didier Dulon, Daniel J. Jagger, Xi Lin, Robin L. Davis	18
16	Compartmentalized and Signal-Selective Gap Junctional Coupling in the Hearing Cochlea 2006 ·Journal of Neuroscience ·Daniel J. Jagger, Andrew Forge	84
17	Allosteric Modulation of Native Cochlear P2X Receptors: Insights from Comparison with Recombinant P2X<sub>2</sub> Receptors 2003 ·Audiology and Neurotology ·Refik Kanjhan, Nicholas P. Raybould, Daniel J. Jagger, Denise Greenwood, Gary D. Housley	18
18	A-type potassium currents dominate repolarisation of neonatal rat primary auditory neurones in situ 2002 ·Neuroscience ·Daniel J. Jagger, Gary D. Housley	38
19	Positional Analysis of Guinea Pig Inner Hair Cell Membrane Conductances: Implications for Regulation of the Membrane Filter 2001 ·Journal of the Association for Research in Otolaryngology ·Nicholas P. Raybould, Daniel J. Jagger, Gary D. Housley	26
20	Regulation of ionic currents by protein kinase A and intracellular calcium in outer hair cells isolated from the guinea-pig cochlea 1999 ·Pflügers Archiv - European Journal of Physiology ·Daniel J. Jagger, Jonathan Ashmore	25

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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