Christoph E Schreiner
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Explore the profile of Christoph E Schreiner including associated specialties, affiliations and a list of published articles.
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83
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3738
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Recent Articles
1.
Homma N, See J, Atencio C, Hu C, Downer J, Beitel R, et al.
Cereb Cortex
. 2024 Sep;
34(9.
PMID: 39270676
Cortical processing of auditory information can be affected by interspecies differences as well as brain states. Here we compare multifeature spectro-temporal receptive fields (STRFs) and associated input/output functions or nonlinearities...
2.
Hu C, Hasenstaub A, Schreiner C
J Neurosci
. 2024 Apr;
44(19).
PMID: 38561224
Coordinated neuronal activity has been identified to play an important role in information processing and transmission in the brain. However, current research predominantly focuses on understanding the properties and functions...
3.
Jia G, Sun Y, An P, Wu W, Shen Y, Liu H, et al.
Cereb Cortex
. 2024 Feb;
34(2).
PMID: 38367612
Consequences of perceptual training, such as improvements in discriminative ability, are highly stimulus and task specific. Therefore, most studies on auditory training-induced plasticity in adult brain have focused on the...
4.
Homma N, Atencio C, Schreiner C
Neuroscience
. 2021 May;
467:150-170.
PMID: 33951506
Sensory cortical neurons can nonlinearly integrate a wide range of inputs. The outcome of this nonlinear process can be approximated by more than one receptive field component or filter to...
5.
See J, Homma N, Atencio C, Sohal V, Schreiner C
Sci Rep
. 2021 Feb;
11(1):4064.
PMID: 33603027
Neuronal activity in auditory cortex is often highly synchronous between neighboring neurons. Such coordinated activity is thought to be crucial for information processing. We determined the functional properties of coordinated...
6.
Beitel R, Schreiner C, Vollmer M
J Neurophysiol
. 2020 Sep;
124(6):1798-1814.
PMID: 32997564
Auditory experience and behavioral training can modify perceptual performance. However, the consequences of temporal perceptual learning for temporal and spectral neural processing remain unclear. Specifically, the attributes of neural plasticity...
7.
Homma N, Hullett P, Atencio C, Schreiner C
Cell Rep
. 2020 Apr;
30(13):4445-4458.e5.
PMID: 32234479
During critical periods, neural circuits develop to form receptive fields that adapt to the sensory environment and enable optimal performance of relevant tasks. We hypothesized that early exposure to background...
8.
Kim K, Atencio C, Schreiner C
Nat Commun
. 2020 Feb;
11(1):1102.
PMID: 32107370
Auditory cortex neurons nonlinearly integrate synaptic inputs from the thalamus and cortex, and generate spiking outputs for simple and complex sounds. Directly comparing synaptic and spiking activity can determine whether...
9.
Shih J, Yuan K, Atencio C, Schreiner C
Cereb Cortex
. 2020 Feb;
30(5):3130-3147.
PMID: 32047882
Classic spectrotemporal receptive fields (STRFs) for auditory neurons are usually expressed as a single linear filter representing a single encoded stimulus feature. Multifilter STRF models represent the stimulus-response relationship of...
10.
See J, Atencio C, Sohal V, Schreiner C
Elife
. 2018 Jun;
7.
PMID: 29869986
The synchronous activity of groups of neurons is increasingly thought to be important in cortical information processing and transmission. However, most studies of processing in the primary auditory cortex (AI)...