Veröffentlichungen

Schlüsselpublikationen

Stüttgen MC, Dietl A, Stoilova Eckert VV, de la Cuesta-Ferrer L, Blanke JH, Koß C, Jäkel F (2024) Influence of Reinforcement and Its Omission on Trial-by-Trial Changes of Response Bias in Perceptual Decision-Making. Journal of the Experimental Analysis of Behavior 121: 294.

Vandevelde JR, Yang JW, Albrecht S, Lam H, Kaufmann P, Luhmann HJ*, Stüttgen MC* (2023) Layer- and cell-type-specific differences in neural activity in mouse barrel cortex during a whisker detection task. Cerebral Cortex 33: 1361-1382. * equal contribution

Stoilova VV*, Knauer B*, Berg S, Rieber E, Jäkel F, Stüttgen MC (2020) Auditory cortex reflects goal-directed movement but is not necessary for behavioral adaptation in sound-cued reward tracking. Journal of Neurophysiology 124: 1056-1071. * equal contribution

Stüttgen MC*, Nonkes LJ*, Geis HA, Tiesinga PH, Houweling AR (2017) Temporally precise control of single neuron spiking by juxtacellular nanostimulation. Journal of Neurophysiology 117: 1363-1378. * equal contribution

Starosta S, Uengoer M, Bartetzko I, Lucke S, Güntürkün O, Stüttgen MC (2016) Context-specificity of both acquisition and extinction of a Pavlovian conditioned response. Learning and Memory 23: 639-643.

Software

MES Toolbox: a MATLAB toolbox for the computation of measures of effect size
DOWNLOAD MES TOOLBOX

MLIB: set of MATLAB functions for the basic analysis of spike data from neurophysiological experiments
DOWNLOAD MLIB TOOLBOX

MSTATS: set of MATLAB functions for statistical analysis
DOWNLOAD MSTATS TOOLBOX

Alle Veröffentlichungen

Koß C, de la Cuesta-Ferrer L, Stüttgen MC, Jäkel F (2024) Reconciling Signal-Detection Models of Criterion Learning with the Generalized Matching Law. Computational Brain & Behavior doi.org/10.1007/s42113-024-00212-w.

Stüttgen MC, Dietl A, Stoilova Eckert VV, de la Cuesta-Ferrer L, Blanke JH, Koß C, Jäkel F (2024) Influence of Reinforcement and Its Omission on Trial-by-Trial Changes of Response Bias in Perceptual Decision-Making. Journal of the Experimental Analysis of Behavior 121: 294.

Pusch R, Packheiser J, Azizi AH, Sevincik CS, Rose J, Cheng S, Stüttgen MC, Güntürkün O (2023) Working memory performance is tied to stimulus complexity. Communications Biology 6: 1119.

Lombardi A, Wang Q, Stüttgen MC, Mittmann T, Luhmann HJ, Kilb W (2023) Recovery kinetics of short-term depression of GABAergic and glutamatergic synapses at layer 2/3 pyramidal cells in the mouse barrel cortex. Frontiers in Cellular Neuroscience 17: 1254776.

Vandevelde JR, Yang JW, Albrecht S, Lam H, Kaufmann P, Luhmann HJ*, Stüttgen MC* (2023) Layer- and cell-type-specific differences in neural activity in mouse barrel cortex during a whisker detection task. Cerebral Cortex 33: 1361-1382. * equal contribution

Yeganeh F, Knauer B, Guimaraes-Backhaus R, Yang JW, Stroh A, Luhmann HJ*, Stüttgen MC* (2022) Effects of optogenetic inhibition of a small fraction of parvalbumin-positive interneurons on the representation of sensory stimuli in mouse barrel cortex. Scientific Reports 12: 19419.

Stoilova VV*, Knauer B*, Berg S, Rieber E, Jäkel F, Stüttgen MC (2020) Auditory cortex reflects goal-directed movement but is not necessary for behavioral adaptation in sound-cued reward tracking. Journal of Neurophysiology 124: 1056-1071. * equal contribution

Güntürkün O, Stüttgen MC, Starosta S, Pusch R, Gao M, Nitsche M, Ernst TE, Ladd ME, Quick HH, Timmann D (2020) Beyond the classic extinction network: a wider, comparative view. Neuroforum 26: 161-169.

Stoilova VV, Wette SA, Stüttgen MC (2019) A free-operant reward-tracking paradigm to study neural mechanisms and neurochemical modulation of adaptive behavior in rats. International Journal of Molecular Sciences 20: 3098.

Knauer B, Stüttgen MC (2019) Assessing the impact of single-cell stimulation on local networks in rat barrel cortex—a feasibility study. International Journal of Molecular Sciences 20: 2604.

van der Bourg A, Yang JW, Stüttgen MC, Reyes-Puerta V, Helmchen F, Luhmann H (2019) Temporal refinement of sensory-evoked activity across layers in developing mouse barrel cortex. European Journal of Neuroscience 50: 2955-2969.

Gao M, Lengersdorf D, Stüttgen MC, Güntürkün O (2019) Transient inactivation of the visual-associative nidopallium frontolaterale (NFL) impairs extinction learning and context encoding in pigeons. Neurobiology of Learning and Memory 158: 50-59.

Yang JW, Kilb W, Kirischuk S, Unichenko P, Stüttgen MC, Luhmann H (2018) Development of the whisker-to-barrel cortex system. Current Opinion in Neurobiology 53: 29-34.

Gao M, Lengersdorf D, Stüttgen MC, Güntürkün O (2018) NMDA receptors in the avian amygdala and the premotor arcopallium mediate distinct aspects of appetitive extinction learning. Behavioural Brain Research 343: 71-82.

Stüttgen MC, Schwarz C (2018) Barrel cortex: What is it good for? Neuroscience 368: 3-16.

Yang JW, Prouvot PH, Reyes-Puerta V, Stüttgen MC, Stroh A, Luhmann HJ (2017) Optogenetic modulation of a minor fraction of parvalbumin-positive interneurons specifically affects spatiotemporal dynamics of spontaneous and sensory-evoked activity in mouse somatosensory cortex in vivo. Cerebral Cortex 27: 5784-5803.

van der Bourg A, Yang JW, Reyes-Puerta V, Laurenczy B, Wieckhorst M, Stüttgen MC, Luhmann HJ, Helmchen F (2017) Layer-specific refinement of sensory coding in developing mouse barrel cortex. Cerebral Cortex 27: 4835-4850.

Starosta S, Bartetzko I, Stüttgen MC, Güntürkün O (2017) Integration of contextual cues into memory depends on "prefrontal" N-methyl-D-aspartate receptors. Neurobiology of Learning and Memory 144: 19-26.

Stüttgen MC*, Nonkes LJ*, Geis HA, Tiesinga PH, Houweling AR (2017) Temporally precise control of single neuron spiking by juxtacellular nanostimulation. Journal of Neurophysiology 117: 1363-1378. * equal contribution

Starosta S, Uengoer M, Bartetzko I, Lucke S, Güntürkün O, Stüttgen MC (2016) Context-specificity of both acquisition and extinction of a Pavlovian conditioned response. Learning and Memory 23: 639-643.

Kasties N, Starosta S, Güntürkün O, Stüttgen MC (2016) Neurons in the pigeon caudolateral nidopallium differentiate Pavlovian conditioned stimuli but not their associated reward value in a sign-tracking paradigm. Scientific Reports 6: 35469.

Luhmann HJ, Sinning A, Yang JW, Reyes-Puerta V, Stüttgen MC, Kirischuk S, Kilb W (2016) Spontaneous neuronal activity in developing neocortical networks: from single cells to large-scale interactions. Frontiers in Neural Circuits 10: 40.

Lengersdorf D, Marks D, Uengoer M, Stüttgen MC, Güntürkün O (2015) Blocking NMDA-receptors in the pigeon's "prefrontal" caudal nidopallium impairs appetitive extinction learning in a sign-tracking paradigm. Frontiers in Behavioral Neuroscience 9: 85.

Lengersdorf D, Pusch R, Güntürkün O, Stüttgen MC (2014) Single-neuron activity in the pigeon nidopallium caudolaterale reflects the formation and execution of perceptual decisions. European Journal of Neuroscience 40: 3316.

Güntürkün O, Stüttgen MC, Manns M (2014) Pigeons as model systems in cognitive neuroscience. e-neuroforum 5: 86. 

Lucke S, Lachnit H, Stüttgen MC, Uengoer M (2014) Binding extinction to contexts: the impact of context relevance during extinction learning. Learning and Behavior 42: 256.

Starosta S*, Stüttgen MC*, Güntürkün O (2014) Recording single neurons' action potentials from freely moving pigeons across three stages of learning. Journal of Visualized Experiments 88: e51283. *equal contribution

Striedter GF, Belgard TG, Chen C-C, Davis FP, Finlay BL, Güntürkün O, Hale ME, Harris JA, Hecht EE, Hof PR, Hofmann HA, Holland LZ, Iwaniuk AN, Jarvis ED, Karten HJ, Katz PS, Kristan WB, Macagno ER, Mitra PP, Moroz LL, Preuss TM, Ragsdale CW, Sherwood CC, Stevens CF, Stüttgen MC, Tsumoto T, Wilcynski W (2014) NSF workshop report: discovering general principles of nervous system organization by comparing brain maps across species. Journal of Comparative Neurology 522: 1445. This paper appeared simultaneously in Brain, Behavior and Evolution 83: 1.

Lengersdorf D, Stüttgen MC, Uengoer M, Güntürkün O (2014) Transient inactivation of the pigeon hippocampus or the nidopallium caudolaterale during extinction learning impairs extinction retrieval in an appetitive conditioning paradigm. Behavioural Brain Research 265: 93.

Chagas AM, Theis L, Sengupta B, Stüttgen MC, Bethge M, Schwarz C (2013) Functional analysis of ultra-high information rates conveyed by rat vibrissal primary afferents. Frontiers in Neural Circuits 7: 190.

Stüttgen MC, Kasties N, Lengersdorf D, Starosta S, Güntürkün O, Jäkel F (2013) Suboptimal criterion setting in a perceptual choice task with asymmetric reinforcement. Behavioural Processes 96: 59. 

Starosta S, Güntürkün O, Stüttgen MC (2013) Stimulus-response-outcome coding in the pigeon nidopallium caudolaterale. PLoS ONE 8: e57407. 

Hentschke H, Stüttgen MC (2011) Computation of measures of effect size for neuroscience data sets. European Journal of Neuroscience 34: 1887. 

Stüttgen MC, Schwarz C, Jäkel F (2011) Mapping spikes to sensations. Frontiers in Neuroscience 5: 125. 

Stüttgen MC, Yildiz A, Güntürkün O (2011) Adaptive criterion setting in perceptual decision making. Journal of the Experimental Analysis of Behavior 96: 155. 

Schmidt V, Arning L, Niesert HE, Stüttgen MC, Epplen JT, Beste C (2011) Variations in the GRIN2B gene are associated with risky decision-making. Neuropharmacology 61: 950. 

Braun C, Eisele E, Wühle A, Stüttgen MC, Schwarz C, Demarchi G (2011) Mislocalization of near-threshold tactile stimuli: a central or peripheral phenomenon? European Journal of Neuroscience 33: 409. 

Schwarz C, Hentschke H, Butovas S, Haiss F, Stüttgen MC, Gerdjikov TV, Bergner CG, Waiblinger C (2010) The head-fixed behaving rat - procedures and pitfalls. Somatosensory and Motor Research 27: 131. 

Stüttgen MC (2010) Toward behavioral benchmarks for whisker-related sensory processing. Journal of Neuroscience 30: 4827. 

Gerdjikov TV, Bergner CG, Stüttgen MC, Waiblinger C, Schwarz C (2010) Discrimination of vibrotactile stimuli in the rat whisker system - behavior and neurometrics. Neuron 65: 530. 

Stüttgen MC, Schwarz C (2010) Integration of vibrotactile signals for whisker-related perception in rats is governed by short time constants: comparison of neurometric and psychometric detection performance. Journal of Neuroscience 30: 2060.

Stüttgen MC, Schwarz C (2008) Psychophysical and neurometric detection performance under stimulus uncertainty. Nature Neuroscience 11: 1091. 

Stüttgen MC, Kullmann S, Schwarz C (2008) Responses of rat trigeminal ganglion neurons to longitudinal whisker stimulation. Journal of Neurophysiology 100: 1879. 

Stüttgen MC, Rüter J, Schwarz C (2006) Two psychophysical channels of whisker deflection in rats align with two neuronal classes of primary afferents. Journal of Neuroscience 26: 7933. 

Stuettgen MC, Hennig J, Reuter M, Netter P (2005) Novelty seeking but not BAS is associated with high dopamine as indicated by a neurotransmitter challenge test using mazindol as a challenge substance. Personality and Individual Differences 38: 1597. 

Barnes SJ, Pinel JP, Wig GS, Stüttgen MC, Hölzel CH (2003) Stimulation site determines the conditioned effects of kindling in rats: anterior neocortex versus amygdala. European Journal of Neuroscience 17: 1671.


Anschrift

Universitätsmedizin der Johannes Gutenberg-Universität

Institut für Pathophysiologie

Forschungsschwerpunkt Translationale Neurowissenschaften (FTN)

Duesbergweg 6

55128 Mainz