Bold font indicates student coauthor; underlined font indicates undergraduate coauthor. Research Gate
Schaeffer EA, LaCour A, Donaldson TN, Linsenbardt DN, Davies S, Savage DD, Wallace DG, Clark BJ (2024). Organization of spontaneous spatial behaviors under dark conditions is unaffected in adult male and female long–Evans rats after moderate prenatal alcohol exposure. Behavioral Neuroscience.
|
link
|
Centa JL, Stratton MP, Pratt MA, Osterlund Oltmanns JR, Wallace DG, Miller SA, Weimer JM, Hastings ML (2023). Protracted CLN3 Batten disease in mice that genetically model an exon skipping therapeutic approach, Molecular Therapy: Nucleic Acid.
|
Hart M, Blackwell AA, Whishaw IQ, Wallace DG, Cheatwood JL (2023). Impairments and Compensation in String-pulling After Middle Cerebral Artery Occlusion in the Rat. Behavioural Brain Research. 114469.
|
|
Blackwell, A. A., Jodelka, F. M., Lake, R. I., Hastings, M. L., & Wallace, D. G. (2023). Spatial Disorientation Under Dark Conditions Across Development in an Alzheimer’s Disease Mouse Model. Neuroscience, 511, 53-69.
|
|
Blackwell AA, Tracz JA, Fesshaye AS, Tidmore A, Osterlund Oltmans JR, Schaeffer EA, Lake RI, Wallace DG, Britten RA (2023). Fine motor deficits exhibited in rat string-pulling behavior following exposure to sleep fragmentation and deep space radiation. Experimental Brain Research, 241(2), 427-440.
|
|
Schaeffer EA, Campbell N, Sampson H, Osterlund Oltmanns JR, Lake RI, Clark BJ, Wallace DG (2023). Cue polarization and representation in mouse home base behaviors. Animal Cognition, 26 (3), 861-883.
|
|
Osterlund Oltmanns JR, Schaeffer EA, Blackwell AA, Lake RI, Einhaus RM, Kartje GL, Wallace DG (2022). Age-related changes in the organization of spontaneously occurring behaviors. Behavioural Processes, 201, 104713
|
|
Foecking E, Segismundo A, Lotesto K, Westfall E, Bolduan A, Peter T, Wallace D, Kozlowski DA, Stubbs E, Marzo S, Byram S (2022). Testosterone Treatment Restores Vestibular Function by Enhancing Neuronal Survival in an Experimental Closed-Head Repetitive Mild Traumatic Brain Injury Model, Behavioural Brain Research.
|
|
Blackwell AA, Fesshaye A, Tidmore A, Lake RI, Wallace DG, Britten RA (2022). Rapid loss of fine motor skils after low dose space radiation exposure. Behavioural Brain Research.
|
Ton ST, Laghi JR, Tsai SY, Blackwell AA, Adamczyk NS, Osterlund Oltmanns JR, Britten RA, Wallace DG, Kartje GL (2022). Exposure to 5 cGy 28Si Particles Induces Long-Term Microglial Activation in the Striatum and Subventricular Zone and Concomitant Neurogenic Suppression. Radiation Research.
|
|
Osterlund Oltmanns JR, Schaeffer EA, Donaldson TN, Acosta G, Sanchez LM, S Davies, Savage DD, Wallace DG, Clark BJ (2022). Sexually dimorphic organization of open field behavior following moderate prenatal alcohol exposure. Alcoholism, Clinical and Experimental Research.
|
|
Grisley ED, Huber KN, Knapp AN, Butteiger DN, Banz WJ, MacLean JA, Wallace DG, Cheatwood JL (2022). Effects of dietary soy protein isolate versus isoflavones alone on poststroke skilled ladder Rung walking and cortical mRNA expression differ in adult male rats. Journal of Medicinal Food.
|
|
Schaeffer EA, Blackwell AA, Osterlund Oltmanns JR, Einhaus R, Lake R, Piwowar Hein C, Baulch JE, Limoli CL, Ton ST, Kartje GL, Wallace DG (2022). Differential organization of open field behavior in mice following acute or chronic simulated GCR exposure. Behavioural Brain Research, 416, 113577.
|
|
Osterlund Oltmanns JR, Lipton MH, Adamczyk N, Lake RI, Blackwell AA, Schaeffer EA, Tsai SY, Kartje GL, Wallace DG, (2021) Organization of exploratory behavior under dark conditions in female and male rats. Behavioural Processes, p.104437.
|
|
Banovetz MT, Lake R, Blackwell AA, Osterlund Oltmanns JR, Schaeffer EA, Yoder R, Wallace DG (2021). Effects of acquired vestibular pathology on the organization of mouse exploratory behavior. Experimental Brain Research. 239(4), 1125-1139.
|
|
Blackwell AA, Schell BD, Osterlund Oltmanns JR, Whishaw IQ, Ton ST, Adamczyk NS, Kartje GL, Britten RA, Wallace DG (2021). Skilled movement and posture deficits in rat string-pulling behavior following low dose space radiation (28Si) exposure. Behavioural Brain Research. 400, 113030.
|
|
Blackwell AA, Wallace DG (2020). Effects of string length on the organization of rat string‑pulling behavior. Animal cognition, 23, 415-425.
|
|
Singh S, Mandziak A, Barr K, Blackwell AA, Mohajerani MH, Wallace DG, Whishaw IQ (2019). Reach and grasp altered in pantomime string-pulling: A test of the action/perception theory in a bilateral reaching task. Experimental Brain Research.237, 3431-3447.
|
|
Donaldson TN, Jennings KT, Cherep LA, Blankenship PA, Blackwell AA, Yoder RM, Wallace DG (2019). Progression and stop organization reveals conservation of movement organization during dark exploration across rats and mice. Behavioural Processes. 162, 29-38.
|
|
Blankenship PA, Normann M, Donaldson TN, Baumeister J, McNeal N, Grippo AJ, Wallace DG (2019). Making waves: Comparing Morris water task performance in rats and prairie voles. Behavioural Brain Research. 360, 7-15.
|
|
Dudchenko PA, Wallace DG (2018). Neuroethology of spatial cognition. Current Biology 28, R1-R5.
|
|
Blackwell AA, Banovetz MT, Qandeel, Whishaw IQ, Wallace DG (2018). The structure of arm and hand movements in a spontaneous and food rewarded on-line string-pulling task by the mouse. Behavioural Brain Research. 345, 49-58.
|
|
Blackwell AA, Köppen JR, Whishaw IQ, Wallace DG (2018). String-pulling for food by the rat: Assessment of movement, topography and kinematics of a bilaterally skilled forelimb act. Learning and Motivation. 61, 63-73.
|
|
Blackwell AA, Widick WL, Cheatwood JL, Whishaw IQ, Wallace DG (2018). Unilateral Forelimb Sensorimotor Cortex Devascularization Disrupts the Topographic and Kinematic Characteristics of Hand Movements While String-pulling for Food in the Rat. Behavioural Brain Research. 338, 88-100.
|
|
Donaldson TA, Jennings KT, Cherep LA, McNeela AM, Depreux FF, Jodelka FM, Hastings ML, Wallace DG (2018). Antisense oligonucleotide therapy rescues disruptions in organization of exploratory movements associated with Usher syndrome type 1C in mice. Behavioural Brain Research. 338, 76-87.
|
|
Holzman JB, Valentiner DP, Hannan SM, Wallace DG, Orcutt HK (2017). High dose alcohol consumption predicts less reduction in post-traumatic stress symptoms after a campus mass shooting. Anxiety, Stress, & Coping, 1-10.
|
Wallace DG (2017). Sequential organization of movement kinematics is associated with spatial orientation across scales and species. Learning and Motivation 58, 27-36.
|
|
Blankenship PA, Cherep LA, Donaldson TN, Brockman SN, Trainer AD, Yoder RM, Wallace DG (2017). Otolith dysfunction alters exploratory movement in mice. Behavioural Brain Research, 325, 1-11.
|
|
Blankenship PA, Cheatwood JL, Wallace DG (2017). Unilateral lesions of the dorsocentral striatum (DCS) disrupt spatial and temporal characteristics of food protection behavior. Brain Structure and Function. 222 (6): 2697-2710.
|
|
Blankenship PA, Stuebing SL, Winter SS, Cheatwood JL, Benson JA, Whishaw IQ, Wallace DG (2016).The medial frontal cortex contributes to but does not organize rat exploratory behavior. Neuroscience, 336, 1-11.
|
|
Blankenship PA, Blackwell AA, Ebrahimi N, Benson JD, Wallace DG (2016). A history of adolescent binge drinking in humans is associated with impaired self-movement cue processing on manipulatory scale navigation tasks. Physiology & Behavior. 161, 130-139.
|
|
Köppen JR, Stuebing SS, Sieg M, Blackwell A, Blankenship PA , Cheatwood JL, Wallace DG (2016).Cholinergic deafferentation of the hippocampus causes non-temporally graded retrograde amnesia in an odor discrimination task. Behavioural Brain Research. 299, 97-104.
|
|
Rice JP, Wallace DG, Hamilton DA (2015). Lesions of the hippocampus or dorsolateral striatum disrupt distinct aspects of spatial navigation strategies based on proximal and distal information in a cued variant of the Morris water task. Behavioural Brain Research. 289, 105-117.
|
|
Köppen JR, Blankenship PA, Blackwell AA, Winter SS. Stuebing SS, Matuszewich L, Wallace DG (2015). Comparison of direction and distance estimation across spatial tasks: Absence of sexually dimorphic self-movement cues processing. Learning and Motivation. 51, 11-24.
|
|
Yoder RM, Goebel EA, Köppen JR, Blankenship PA, Blackwell AA, Wallace DG (2015). Otolithic information is required for homing in the mouse. Hippocampus. 25(8) 890-899.
|
|
Stout JM, Knapp AN, Banz WJ, Wallace DG, Cheatwood JL (2013). Subcutaneous daidzein administration enhances recovery of skilled ladder rung walking performance following stroke in rats. Behav Brain Res. 256: 428-31.
|
|
Köppen JR, Winter SS, Stuebing SL, Cheatwood JL, Wallace DG (2013). Infusion of GAT1-Saporin into the medial septum/vertical limb of the diagonal band disrupts self-movement cue processing and spares mnemonic function. Brain Structure Function. 218(5): 1099-114.
|
|
Winter SS, Köppen JR, Ebert TBN, Wallace DG (2013). Limbic system structures differentially contribute to exploratory trip organization of the rat. Hippocampus. 23(2): 139-152.
|
|
Köppen JR, Winter SS, Loda EL, Apger BP, Grimelli D, Hamilton DA, Wallace DG (2013). Analysis of movement kinematics on analogous spatial learning tasks demonstrates conservation of direction and distance estimation across humans (Homo sapiens) and rats (Rattus norvegicus). Journal of Comparative Psychology. 127(2): 179-193.
|
|
Wallace DG, Winter SS, Metz GA (2012). Serial pattern learning during skilled walking. Journal of Integrative Neuroscience. 11(1): 17-32.
|
|
Winter SS, Wagner SJ, McMillin JL, Wallace DG (2011). Mammillothalamic tract lesions disrupt dead reckoning in the rat. European Journal of Neuroscience. 33(2): 371-381.
|
|
Wallace DG, Köppen JR, Jones JL, Winter SS, Wagner SJ (2010). Navigating with fingers and feet: Comparative analysis of human and rat movement kinematics during non-visual spatial tasks. Journal of Comparative Psychology. 124(4): 381-94.
|
|
Gillani RL, Tsai SY, Wallace DG, O’Brien TE, Arhebamen E, Tole M, Schwab ME, Kartje GL (2010). Cognitive recovery in the aged rat after stroke and anti-Nogo-A immunotherapy. Behav Brian Res. 208(2): 415-24.
|
|
Martin MM, Winter SS, Cheatwood JL, Carter LA, Jones JL, Weathered SL, Wagner SJ, Wallace DG (2008). Organization of food protection behavior is differentially influenced by hippocampal and cortical cholinergic deafferentation. Brain Res.1241:122-35.
|
|
Wallace DG, Martin MM, Winter SS (2008). Fractionating dead reckoning: Role of the compass, odometer, logbook, and home base establishment in spatial orientation. Naturwissenschaften. 95(11):1011-26.
|
|
Wallace DG, Rowan JD, Fountain SB (2008). Determinants of phrasing effects in rat serial pattern learning. Anim Cogn. 11(2):199-214.
|
|
Martin MM, Wallace DG (2007). Selective hippocampal cholinergic deafferentation impairs self-movement cue use during a food hoarding task. Behavioural Brain Research. 183: 78-86.
|
|
Martin MM, Horn KL, Kusman KJ, Wallace DG (2007). Medial septum lesions disrupt exploratory trip organization: Evidence for septohippocampal involvement in dead reckoning. Physiology & Behavior. 90: 412-424.
|
|
Wallace DG, Choudhry S, Martin MM (2006).Comparative analysis of movement characteristics during dead reckoning based navigation in humans (Homo Sapiens) and rats (Rattus Norvegicus). Journal of Comparative Psychology. 120(4): 331-344.
|
|
Wallace DG, Wallace PS, Field E, Whishaw IQ (2006). Pharmacological manipulations of food protection behavior in rats: Evidence for dopaminergic contributions to time perception during a natural behavior. Brain Research. 1112(1): 213-21.
|
|
Wallace DG, Hamilton DA, Whishaw IQ (2006). Movement characteristics support a role for dead reckoning in organizing exploratory behavior. Anim Cogn. 9(3): 219-228.
|
|
Loewen I, Wallace DG, Whishaw IQ (2005). The development of spatial capacity in piloting and dead reckoning by infant rats: use of the huddle as a home base for spatial navigation. Dev Psychobiol. 46(4):350-61.
|
|
Wallace DG, Whishaw IQ (2003). NMDA lesions of Ammon's horn and the dentate gyrus disrupt the direct and temporally paced homing displayed by rats exploring a novel environment: evidence for a role of the hippocampus in dead reckoning. Eur J Neurosci. 18(3):513-23.
|
|
Whishaw IQ, Wallace DG (2003). On the origins of autobiographical memory. Behav Brain Res. 138(2):113-9.
|
|
Wallace DG, Fountain SB (2003). An associative model of rat serial pattern learning in three-element sequences. Q J Exp Psychol B. 56(3):301-20.
|
|
Wallace DG, Kolb B, Whishaw IQ (2003). Odor tracking in rats with orbital frontal lesions. Behav Neurosci. 117(3):616-20.
|
|
Wallace DG, Hines DJ, Pellis SM, Whishaw IQ (2002). Vestibular information is required for dead reckoning in the rat. J Neurosci. 22(22):10009-17.
|
|
Wallace DG, Fountain SB (2002). What is learned in sequential learning? An associative model of reward magnitude serial-pattern learning. J Exp Psychol Anim Behav Process. 28(1):43-63.
|
|
Wallace DG, Gorny B, Whishaw IQ (2002). Rats can track odors, other rats, and themselves: implications for the study of spatial behavior. Behav Brain Res. 131(1-2):185-92.
|
|
Wallace DG, Hines DJ, Whishaw IQ (2002). Quantification of a single exploratory trip reveals hippocampal formation mediated dead reckoning. J Neurosci Methods. 113(2):131-45.
|
|
Gorny JH, Gorny B, Wallace DG, Whishaw IQ (2002). Fimbria-fornix lesions disrupt the dead reckoning (homing) component of exploratory behavior in mice. Learn Mem. 9(6):387-94.
|
|
Whishaw IQ, Hines DJ, Wallace DG (2001). Dead reckoning (path integration) requires the hippocampal formation: evidence from spontaneous exploration and spatial learning tasks in light (allothetic) and dark (idiothetic) tests. Behav Brain Res.127(1-2):49-69.
|
|
Fountain, S. B., Benson, A. M., & Wallace, D. G. (2000). Number, But Not Rhythmicity, of Temporal Cues Determines Phrasing Effects in Rat Serial-Pattern Learning. Learn and Mot 31, 301–322.
|
|
Chapters
Fountain, S. B., Rowan, J. D., Muller, M. D., Smith, D. P. A., Chenoweth, A. M., & Wallace, D. G. (2006). Sequence production paradigms for exploring the organization of sequential behavior. In M. J. Anderson (Ed.), Tasks and Techniques: A Sampling of Methodologies for the Investigation of Animal Learning, Behavior, and Cognition. Hauppauge, NY: Nova Science Publishers.
Wallace, D.G., Whishaw I.Q. (2005). Dead Reckoning. In I.Q. Whishaw, B. Kolb. (Eds). The Behavior of the Laboratory Rat: A Handbook With Tests. New York, NY:Oxford University Press.
Wallace, D. G., Hines, D. J., Gorny, J. H., & Whishaw, I.Q. (2003). A role for the hippocampus in dead reckoning: An ethological analysis using natural exploratory and food carrying tasks. In K. Jeffery. (Ed). Biological Basis of Navigation. New York, NY: Oxford University Press.
Fountain, S. B., Wallace, D. G., & Rowan, J. D. (2001). The organization of sequential behavior. In S. B. Fountain, M. D. Bunsey, J. H. Danks, M. K. McBeath (Eds.), Animal Cognition and Sequential Behavior: Behavioral, Biological, and Computational Perspectives. Norwell, MA: Kluwer Academic Publishers.
Wallace, D.G., Whishaw I.Q. (2005). Dead Reckoning. In I.Q. Whishaw, B. Kolb. (Eds). The Behavior of the Laboratory Rat: A Handbook With Tests. New York, NY:Oxford University Press.
Wallace, D. G., Hines, D. J., Gorny, J. H., & Whishaw, I.Q. (2003). A role for the hippocampus in dead reckoning: An ethological analysis using natural exploratory and food carrying tasks. In K. Jeffery. (Ed). Biological Basis of Navigation. New York, NY: Oxford University Press.
Fountain, S. B., Wallace, D. G., & Rowan, J. D. (2001). The organization of sequential behavior. In S. B. Fountain, M. D. Bunsey, J. H. Danks, M. K. McBeath (Eds.), Animal Cognition and Sequential Behavior: Behavioral, Biological, and Computational Perspectives. Norwell, MA: Kluwer Academic Publishers.