2023
Taylor MR, Berryhill M, Mathew D, and Murray NG. “Elevated smooth pursuit gain in collegiate athletes with sport-related concussion immediately following injury,” (2023) JOVR (accepted)
Tatarko A, Leonard A, and Mathew D. “A neonicotinoid pesticide alters Drosophila olfactory processing,” (2023) Scientific Reports 13 (1): 10606 [Link]
Odell S, Zito N, Clark D, and Mathew D. “Stability of olfactory behavior syndromes in the Drosophila larva,” (2023) Scientific Reports 13: 2398 [Link]
Hernandez K, Godoy L, Newquist G, Kellermeyer R, Alavi M, Mathew D, Kidd T. “Dscam1 overexpression impairs the function of the gut nervous system in Drosophila,” (2023) Developmental dynamics 252(1): 156-171 [Link]
2022
Odell SR, Clark D, Zito N, Jain R, Gong H, Warnock K, Carrion-Lopez R, Maixner C, Prieto-Godino L, Mathew D. “Internal state affects local neuron function in an early processing center to shape olfactory behavior in Drosophila larvae,” (2022) Scientific Reports 12 (1): 15767. [Link]
2021
Speth Z, Kaur G, Mazolewski D, Sisomphou R, Sia DDC, Pooraiiouby R, Vasquez-Gross H, Peterit J, Gulia-Nuss M, Mathew D, Nuss AB. Characterization of Anopheles stephensi Odorant Receptor 8, an abundant component of the mouthpart chemosensory transcriptome (2021) Insects 12(7):593 [Link]
Von Bartheld CS, Mathew D, Butowt R. New study on prevalence of anosmia in COVID-19 implicates the D614G virus mutation as a major contributing factor to chemosensory dysfunction (2021) Eur Arch Otorhinolaryngol 31:1-2 [Link]
2020
Mathew D. Loss of smell in COVID-19 patients: Lessons and opportunities (2020) Frontiers in Human Neuroscience 14:598465 [Link]
Patel A and Mathew D. A study of gene expression changes in human spinal and oculomotor neurons; Identifying potential links to sporadic ALS (2020) Genes 11(4): 448 [Link]
Slankster E, Kollala S, Baria D, Dailey-Krempel B, Jain R, Odell SR and Mathew D. Mechanism underlying Starvation-dependent modulation of olfactory behavior in Drosophila (2020) Scientific Reports 10(1):3119. [Link]
Young BA, Escanlon J, and Mathew D. Odors: from chemical structures to gaseous plumes. (2020) Neuroscience and Biobehavioral Reviews 111: 19-29. [Link]
2019
Slankster E, Lee C, Hess K, Odell SR, Mathew D. Effect of gut microbes on olfactory behavior of Drosophila melanogaster larva. BIOS 90(4): 227-238 [Link]
Slankster E, Odell SR, Mathew D. “Strength in diversity: functional diversity among olfactrory neurons of the same type”. Journal of Bioenergetics and Biomembranes 51(1):65-75 [Link]
2018
Clark DA, Odell SR, Armstrong JM, Turcotte M, Kohler D, Mathis A, Schmidt DR, Mathew D. Behavior Responses to Chemical and Optogenetic Stimuli in Drosophila Larvae. Frontiers in behavioral neuroscience 12:324. [Link]
Clark, D. A., Kohler, D., Mathis, A., Slankster, E., Kafle, S., Odell, S. R., Mathew D. Tracking Drosophila Larval Behavior in Response to Optogenetic Stimulation of Olfactory Neurons. J. Vis. Exp. (133), (2018). [Link]
2016
Newquist G, Novenschi A, Kohler D, Mathew D. “Differential contributions of Olfactory Receptor Neurons in a Drosophila olfactory circuit”, (2016) eNeuro 2016; 3(4) [Link]
Dennis’ publications pre-Mathew lab
Mathew D, Martelli C, Kelley-Swift E, Brusalis C, Gershow M, Samuel, A.D.T, Emonet T, Carlson JR. “Functional diversity among sensory receptors in a Drosophila olfactory circuit”, (2013) Proc Natl Acad Sci U S A. June 4; 110(23):E2134-43 [Link]
Gershow M, Berck M, Mathew D, Luo L, Kane EA, Carlson JR, Samuel ADT. “Controlling airborne chemical cues for studying navigation in small animals”, (2012) Nature Methods, Jan 15; 9(3):290-6 [Link]
Montague SA, Mathew D, Carlson JR. “Similar odorants elicit different behavioral and physiological responses, some supersustained” (2011) J Neurosci, May 25; 31(21): 7891-9 [Link]
Kreher SA, Mathew D, Kim J, Carlson JR. “Translation of sensory input into behavioral output via an olfactory system” (2008) Neuron July 10; 59(1): 110-24 [Link]
Ataman B, Ashley J, Gorczyca D, Gorczyca M, Mathew D, Wichmann C, Sigrist SJ and Budnik V. “Nuclear trafficking of Drosophila Frizzled-2 during synapse development requires the PDZ protein dGRIP” (2006) Proc Natl Acad Sci U S A. May 16; 103(20): 7841-6 [Link]
Mathew D, Ataman B, Chen J, Zhang Y, Cumberledge S and Budnik V. “Novel mechanism of wingless signaling at synapses via DFrizzled2 cleavage and nuclear import” (2005) Science Nov 25; 310 (5752): 1344-7. [Link]
See also commentary in ‘Science Perspectives’: Martinez Arias A. 2005. Cell signaling. Frizzled at the cutting edge of the synapse. Science Nov 25; 310 (5752): 1284-5. [Link]
Mathew D, Popescu A and Budnik V. “Drosophila amphiphysin functions during synaptic Fasciclin II membrane cycling” (2003) J Neurosci. Nov 19; 23(33): 10710-6. [Link]
Mathew D, Gramates LS, Packard M, Thomas U, Bilder D, Perrimon N, Gorczyca M, and Budnik V. “Recruitment of scribble to the synaptic scaffolding complex requires GUK-holder, a novel DLG binding protein” (2002) Curr Biol Apr 2; 12(7): 531-9. [Link]
Packard M, Mathew D, Budnik V. “FASt remodeling of synapses in Drosophila” (2003) Curr Opin Neurobiol Oct 13; (5): 527-34. [Link]
Packard M, Mathew D and Budnik V. “Wnts and TGF beta in synaptogenesis: old friends signalling at new places” (2003) Nat Rev Neurosci. Feb 4; (2): 113-20. [Link]
Mathew Lab 