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203 results on '"Fitzgerald, James E."'

1. Tensor formalism for predicting synaptic connections with ensemble modeling or optimization

Author

Biswas, Tirthabir, Li, Tianzhi Lambus, and Fitzgerald, James E.

Subjects
Quantitative Biology - Neurons and Cognition, Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics
Abstract

Theoretical neuroscientists often try to understand how the structure of a neural network relates to its function by focusing on structural features that would either follow from optimization or occur consistently across possible implementations. Both optimization theories and ensemble modeling approaches have repeatedly proven their worth, and it would simplify theory building considerably if predictions from both theory types could be derived and tested simultaneously. Here we show how tensor formalism from theoretical physics can be used to unify and solve many optimization and ensemble modeling approaches to predicting synaptic connectivity from neuronal responses. We specifically focus on analyzing the solution space of synaptic weights that allow a threshold-linear neural network to respond in a prescribed way to a limited number of input conditions. For optimization purposes, we compute the synaptic weight vector that minimizes an arbitrary quadratic loss function. For ensemble modeling, we identify synaptic weight features that occur consistently across all solutions bounded by an arbitrary ellipsoid. We derive a common solution to this suite of nonlinear problems by showing how each of them reduces to an equivalent linear problem that can be solved analytically. Although identifying the equivalent linear problem is nontrivial, our tensor formalism provides an elegant geometrical perspective that allows us to solve the problem approximately in an analytical way or exactly using numeric methods. The final algorithm is applicable to a wide range of interesting neuroscience problems, and the associated geometric insights may carry over to other scientific problems that require constrained optimization., Comment: 31 pages, 6 figures, 2 tables

Published
2023

4. Geometric framework to predict structure from function in neural networks

Author

Biswas, Tirthabir and Fitzgerald, James E.

Subjects
Quantitative Biology - Neurons and Cognition, Condensed Matter - Disordered Systems and Neural Networks, Physics - Biological Physics
Abstract

Neural computation in biological and artificial networks relies on the nonlinear summation of many inputs. The structural connectivity matrix of synaptic weights between neurons is a critical determinant of overall network function, but quantitative links between neural network structure and function are complex and subtle. For example, many networks can give rise to similar functional responses, and the same network can function differently depending on context. Whether certain patterns of synaptic connectivity are required to generate specific network-level computations is largely unknown. Here we introduce a geometric framework for identifying synaptic connections required by steady-state responses in recurrent networks of threshold-linear neurons. Assuming that the number of specified response patterns does not exceed the number of input synapses, we analytically calculate the solution space of all feedforward and recurrent connectivity matrices that can generate the specified responses from the network inputs. A generalization accounting for noise further reveals that the solution space geometry can undergo topological transitions as the allowed error increases, which could provide insight into both neuroscience and machine learning. We ultimately use this geometric characterization to derive certainty conditions guaranteeing a non-zero synapse between neurons. Our theoretical framework could thus be applied to neural activity data to make rigorous anatomical predictions that follow generally from the model architecture., Comment: 46 pages, 12 figures, final version, corrected typos, minor clarifications, new Discussion material

Published
2020
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5. Threshold-Based Ordering of Sequential Actions during Drosophila Courtship

Author

McKellar, Claire E, Lillvis, Joshua L, Bath, Daniel E, Fitzgerald, James E, Cannon, John G, Simpson, Julie H, and Dickson, Barry J

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Neurosciences, Genetics, Basic Behavioral and Social Science, Behavioral and Social Science, Neurological, Animals, Courtship, Drosophila melanogaster, Male, Neurons, Sexual Behavior, Animal, Drosophila, behavior, courtship, motor control, sequence, spike counting, threshold, Medical and Health Sciences, Psychology and Cognitive Sciences, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Psychology
Abstract

Goal-directed animal behaviors are typically composed of sequences of motor actions whose order and timing are critical for a successful outcome. Although numerous theoretical models for sequential action generation have been proposed, few have been supported by the identification of control neurons sufficient to elicit a sequence. Here, we identify a pair of descending neurons that coordinate a stereotyped sequence of engagement actions during Drosophila melanogaster male courtship behavior. These actions are initiated sequentially but persist cumulatively, a feature not explained by existing models of sequential behaviors. We find evidence consistent with a ramp-to-threshold mechanism, in which increasing neuronal activity elicits each action independently at successively higher activity thresholds.

Published
2019

14. Impermanence of dendritic spines in live adult CA1 hippocampus

Author

Attardo, Alessio, Fitzgerald, James E., and Schnitzer, Mark J.

Subjects
Methyl aspartate -- Analysis, Dendritic cells -- Analysis, Mammals -- Genetic aspects -- Physiological aspects, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

The mammalian hippocampus is crucial for episodic memory formation (1) and transiently retains information for about 3-4 weeks in adult mice and longer in humans (2). Although neuroscientists widely believe that neural synapses are elemental sites of information storage (3), there has been no direct evidence that hippocampal synapses persist for time intervals commensurate with the duration of hippocampal-dependent memory. Here we tested the prediction that the lifetimes of hippocampal synapses match the longevity of hippocampal memory. By using time-lapse two-photon microendoscopy (4) in the CA1 hippocampal area of live mice, we monitored the turnover dynamics of the pyramidal neurons' basal dendritic spines, postsynaptic structures whose turnover dynamics are thought to reflect those of excitatory synaptic connections (5, 6). Strikingly, CA1 spine turnover dynamics differed sharply from those seen previously in the neocortex (7-9). Mathematical modelling revealed that the data best matched kinetic models with a single population of spines with a mean lifetime of approximately 1-2 weeks. This implies 100% turnover in ~2-3 times this interval, a near full erasure of the synaptic connectivity pattern. Although N-methyl-D-aspartate (NMDA) receptor blockade stabilizes spines in the neocortex (10, 11), in CA1 it transiently increased the rate of spine loss and thus lowered spine density. These results reveal that adult neocortical and hippocampal pyramidal neurons have divergent patterns of spine regulation and quantitatively support the idea that the transience of hippocampal-dependent memory directly reflects the turnover dynamics of hippocampal synapses., The hypothesis that synaptic connectivity patterns encode information has profoundly shaped research on long-term memory. In the hippocampus, synapses in basal CA1 mainly receive inputs from hippocampal area CA3, and [...]

Published
2015

33. Benchmarking implicit solvent folding simulations of the amyloid [beta](10-35) fragment

Author

Kent, Andrew, Jha, Abhishek K., Fitzgerald, James E., and Freed, Karl F.

Subjects
Glycoproteins -- Chemical properties, Glycoproteins -- Structure, Protein folding -- Analysis, Solvation -- Analysis, Chemicals, plastics and rubber industries
Abstract

The ability of implicit solvent model to describe equilibrium and dynamic properties of monomeric [beta]-amyloid proteins (10-35) is benchmarked. Results show that [beta]-amyloid protein (10-35) displays great flexibility.

Published
2008

34. Polypeptide motions are dominated by peptide group oscillations resulting from dihedral angle correlations between nearest neighbors

Author

Fitzgerald, James E., Jha, Abhishek K., Sosnick, Tobin R., and Freed, Karl F.

Subjects
Nuclear magnetic resonance spectroscopy -- Analysis, Polypeptides -- Structure, Polypeptides -- Properties, Protein research, Biological sciences, Chemistry
Abstract

Basic local backbone motions in unfolded chains are identified by performing simulations on a variety of peptide systems by using three popular force fields and for implicit and explicit solvent models. The correlated motion is viewed as a rocking of the plane of the peptide group, which is found both for fluctuations within each Ramachandran basin and during transit between different basins.

Published
2007

39. Whole-brain activity mapping onto a zebrafish brain atlas

Author

Randlett, Owen, primary, Wee, Caroline L, additional, Naumann, Eva A, additional, Nnaemeka, Onyeka, additional, Schoppik, David, additional, Fitzgerald, James E, additional, Portugues, Ruben, additional, Lacoste, Alix M B, additional, Riegler, Clemens, additional, Engert, Florian, additional, and Schier, Alexander F, additional

Published
2015
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48. Savvy hotel investors closely monitor investment cycles

Author

Fitzgerald, James E.

Subjects
Portfolio management -- Methods, Hotels and motels -- Investments -- Methods, Business, Travel industry, Company investment, Investments, Methods
Abstract

Hotel Portfolio Managers Anticipate Both Future Earnings and the Level of Investor interest With the U.S. hospitality industry experiencing record levels of profitability, some hotels may have already achieved peak [...]

Published
1997

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