Sample publications:
54
Enhancing Evanescent Wave Coupling of Near-Surface Waveguides with Plasmonic Nanoparticles.
Sensors 2023, 23, 3945;
53
Sites of Circadian Clock Neuron Plasticity Mediate Sensory Integration and Entrainment.
2021;
52
Evaluation of Optogenetic Electrophysiology Tools in Human Stem Cell-Derived Cardiomyocytes.
Frontiers in Physiology 8 October 2017;
51
A neural network underlying circadian entrainment and photoperiodic adjustment of sleep and activity in Drosophila.
Journal of Neuroscience, 36(35), 9084-9096. 2016;
50
Optogenetic Control of Gene Expression in Drosophila.
PLOS one, September 18, 2015;
49
Analysis of functional neuronal connectivity in the Drosophila brain
J Neurophysiol. 2012 Jul 15; 108(2): 684–696;
48
Differentially timed extracellular signals synchronize pacemaker neuron clocks.
PLoS Biol. 2014 September; 12(9);
47
TRPM8 contributes to sex dimorphism by promoting recovery of normal sensitivity in a mouse model of chronic migraine.
Nature Communications, ( 2022) 13:6304;
46
Androgenic TRPM8 activity drives sexual dimorphism in a murine model of chronic migraine.
Research Square October 19th, 2021;
45
Sites of Circadian Clock Neuron Plasticity Mediate Sensory Integration and Entrainment.
2021;
44
A compact microscope for voltage imaging.
Journal of Optics, Volume 24, Number 5 2022;
43
Conformational Changes in the 5-HT3A Receptor Extracellular Domain Measured by Voltage Clamp Fluorometry.
Molecular Pharmacology October 3, 2019;
42
Synchronized Retrovirus Fusion in Cells Expressing Alternative Receptor Isoforms Releases the Viral Core into Distinct Sub-cellular Compartments
PLoS Pathogens, Volume 8, Number 5, 2012;
41
Cotransporter-mediated water transport underlying cerebrospinal fluid formation
Nature Communicationsvolume 9, Article number: 2167 (2018);
40
A novel inwardly rectifying K+ channel, Kir2.5, is upregulated under chronic cold stress in fish cardiac myocytes.
Journal of Experimental Biology 2008 211: 2162-2171;
39
Full mutational mapping of titratable residues helps to identify proton-sensors involved in the control of channel gating in the Gloeobacter violaceus pentameric ligand-gated ion channel.
PLOS Biology December 27, 2017;
38
Optical Quantification of Intracellular pH in Drosophila melanogaster Malpighian Tubule Epithelia with a Fluorescent Genetically-encoded pH Indicator.
J. Vis. Exp. (126), e55698, doi:10.3791/55698 (2017);
37
Fusion of Mature HIV-1 Particles Leads to Complete Release of a Gag-GFP-Based Content Marker and Raises the Intraviral pH.
PLoS ONE Volume 8, Number 8 2013;
36
Exocytotic release of ATP by preBötzinger Complex astrocytes contributes to the hypoxic ventilatory response via a calcium-dependent P2Y1 receptor mechanism;
35
Connectivity, Organization, and Network Coordination of the Drosophila Central Circadian Clock;
34
EFFECT OF ECONAZOLE AND BENZYDAMINE ON SENSORY NEURONS IN CULTURE.
JPP No 6/2016 article 06;
33
Independent role for presynaptic FMRP revealed by an FMR1 missense mutation associated with intellectual disability and seizures.
PNAS vol. 112 no. 4, 949–956;
32
Optogenetic Control of Gene Expression in Drosophila.
PLOS one, September 18, 2015;
31
Spatiotemporal Coding of Individual Chemicals by the Gustatory System.
The Journal of Neuroscience, 2 September 2015, 35(35): 12309-12321;
30
Evaluating the Functionality of Conjunctiva Using a Rabbit Dry Eye Model.
Journal of Ophthalmology Volume 2016 (2016);
29
Visualization of retrovirus uptake and delivery into acidic endosomes.
Biochemical Journal Mar 15, 2011, 434 (3) 559-569;
28
Basolateral and central amygdala differentially recruit and maintain dorsolateral striatumdependent cocaine-seeking habits.
NATURE COMMUNICATIONS 14 Dec 2015;
27.
Human sensory neurons: membrane properties and sensitization by inflamatory mediators.
PAIN 155 (2014) 1861-1870;
26.
Size-Dependent Cellular Uptake and Expulsion of Single-Walled Carbon Nanotubes: Single Particle Tracking and a Generic Uptake Model for Nanoparticles.
ACS Nano, 2009, 3 (1), pp 149–158;
25.
Analysis of functional neuronal connectivity in the Drosophila brain.
J Neurophysiol. 2012 Jul 15; 108(2): 684–696;
24,
23,
22,
21,
20,
19,
18,
17,
16,
15,
14,
13,
12,
11,
10,
6,
7,
8,
9,
1,
2,
3,
4,
5
|