Glenn C Turner
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Explore the profile of Glenn C Turner including associated specialties, affiliations and a list of published articles.
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28
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2371
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Recent Articles
1.
Shuai Y, Sammons M, Sterne G, Hibbard K, Yang H, Yang C, et al.
Elife
. 2025 Jan;
13.
PMID: 39879130
The mushroom body (MB) is the center for associative learning in insects. In , intersectional split-GAL4 drivers and electron microscopy (EM) connectomes have laid the foundation for precise interrogation of...
2.
Farrants H, Shuai Y, Lemon W, Monroy Hernandez C, Zhang D, Yang S, et al.
Nat Methods
. 2024 Sep;
21(10):1916-1925.
PMID: 39304767
Genetically encoded fluorescent calcium indicators allow cellular-resolution recording of physiology. However, bright, genetically targetable indicators that can be multiplexed with existing tools in vivo are needed for simultaneous imaging of...
3.
Srinivasan S, Daste S, Modi M, Turner G, Fleischmann A, Navlakha S
PLoS Biol
. 2023 Oct;
21(10):e3002206.
PMID: 37906721
Sparse coding can improve discrimination of sensory stimuli by reducing overlap between their representations. Two factors, however, can offset sparse coding's benefits: similar sensory stimuli have significant overlap and responses...
4.
Rajagopalan A, Darshan R, Hibbard K, Fitzgerald J, Turner G
Proc Natl Acad Sci U S A
. 2023 Sep;
120(39):e2221415120.
PMID: 37733736
Foraging animals must use decision-making strategies that dynamically adapt to the changing availability of rewards in the environment. A wide diversity of animals do this by distributing their choices in...
5.
A modular chemigenetic calcium indicator enables in vivo functional imaging with near-infrared light
Farrants H, Shuai Y, Lemon W, Monroy Hernandez C, Yang S, Patel R, et al.
bioRxiv
. 2023 Jul;
PMID: 37503182
Genetically encoded fluorescent calcium indicators have revolutionized neuroscience and other biological fields by allowing cellular-resolution recording of physiology during behavior. However, we currently lack bright, genetically targetable indicators in the...
6.
Ahmed M, Rajagopalan A, Pan Y, Li Y, Williams D, Pedersen E, et al.
Curr Biol
. 2023 Jun;
33(13):2742-2760.e12.
PMID: 37348501
The ability to discriminate sensory stimuli with overlapping features is thought to arise in brain structures called expansion layers, where neurons carrying information about sensory features make combinatorial connections onto...
7.
Modi M, Rajagopalan A, Rouault H, Aso Y, Turner G
Elife
. 2023 Jun;
12.
PMID: 37318123
Memory guides behavior across widely varying environments and must therefore be both sufficiently specific and general. A memory too specific will be useless in even a slightly different environment, while...
8.
Abdelfattah A, Zheng J, Singh A, Huang Y, Reep D, Tsegaye G, et al.
Neuron
. 2023 Apr;
111(10):1547-1563.e9.
PMID: 37015225
The ability to optically image cellular transmembrane voltages at millisecond-timescale resolutions can offer unprecedented insight into the function of living brains in behaving animals. Here, we present a point mutation...
9.
Zhang Y, Rozsa M, Liang Y, Bushey D, Wei Z, Zheng J, et al.
Nature
. 2023 Mar;
615(7954):884-891.
PMID: 36922596
Calcium imaging with protein-based indicators is widely used to follow neural activity in intact nervous systems, but current protein sensors report neural activity at timescales much slower than electrical signalling...
10.
Ahmed M, Rajagopalan A, Pan Y, Li Y, Williams D, Pedersen E, et al.
bioRxiv
. 2023 Feb;
PMID: 36747712
Animals can discriminate myriad sensory stimuli but can also generalize from learned experience. You can probably distinguish the favorite teas of your colleagues while still recognizing that all tea pales...