Alon Itzkovitch scite author profile

Alon Itzkovitch

4Publications

46Citation Statements Received

379Citation Statements Given

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287

352

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Tel Aviv University

Publications

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A Probabilistic Model for Indel Evolution: Differentiating Insertions from Deletions

Loewenthal

Rapoport

Avram

et al. 2021

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Insertions and deletions (indels) are common molecular evolutionary events. However, probabilistic models for indel evolution are under-developed due to their computational complexity. Here we introduce several improvements to indel modeling: (1) While previous models for indel evolution assumed that the rates and length distributions of insertions and deletions are equal, here we propose a richer model that explicitly distinguishes between the two; (2) We introduce numerous summary statistics that allow Approximate Bayesian Computation (ABC) based parameter estimation; (3) We develop a method to correct for biases introduced by alignment programs, when inferring indel parameters from empirical datasets; (4) Using a model-selection scheme we test whether the richer model better fits biological data compared to the simpler model. Our analyses suggest that both our inference scheme and the model-selection procedure achieve high accuracy on simulated data. We further demonstrate that our proposed richer model better fits a large number of empirical datasets and that, for the majority of these datasets, the deletion rate is higher than the insertion rate.

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A probabilistic model for indel evolution: differentiating insertions from deletions

Loewenthal

Rapoport

Avram

et al. 2020

Preprint

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Insertions and deletions (indels) are common molecular evolutionary events. However, probabilistic models for indel evolution are under-developed due to their computational complexity. Here we introduce several improvements to indel modeling: (1) while previous models for indel evolution assumed that the rates and length distributions of insertions and deletions are equal, here, we propose a richer model that explicitly distinguishes between the two; (2) We introduce numerous summary statistics that allow Approximate Bayesian Computation (ABC) based parameter estimation; (3) We develop a neural-network model-selection scheme to test whether the richer model better fits biological data compared to the simpler model. Our analyses suggest that both our inference scheme and the model-selection procedure achieve high accuracy on simulated data. We further demonstrate that our proposed indel model better fits a large number of empirical datasets and that, for the majority of these datasets, the deletion rate is higher than the insertion rate. Finally, we demonstrate that indel rates are negatively correlated to the effective population size across various phylogenomic clades.

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Cue-approach training for food behavior

Itzkovitch¹,

Or²,

Schönberg³

2022

Current Opinion in Behavioral Sciences

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A computational model for individual differences in non-reinforced learning for individual items

Salomon

Itzkovitch

Daw

et al. 2022

Preprint

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Although research about preference formation and modification has classically focused on the role of external reinforcements, there is also increasing evidence for a key role of non-externally reinforced cognitive mechanisms such as attention and memory in preference modification. In a novel paradigm for behavioral change called the Cue-Approach training (CAT) task, preferences are modified via the mere association of images of stimuli with a neutral cue and a rapid motor response, without external reinforcements. The procedure’s efficacy has been replicated across dozens of studies, and the net behavioral change was linked with increased activity in a frontal value-based decision-making brain region during the post-training probe choice phase. However, the cognitive mechanisms during the training phase itself have not been elucidated. Based on the structure of the task alongside recent findings of the involvement of striatal and supplementary motor regions during training, we hypothesized that a motor-related learning process could be a prospective candidate. To test this hypothesis, we developed a computational model of the motor response pattern during training in a large corpus of data collected from 864 participants across 29 different CAT experiments. Using Bayesian modeling of the meta-analysis data, we developed a computational marker for individualized learning in the training task, which was found to be associated with the preference modification effect in the subsequent probe task, both at the participant-level as well as in the more granular individual-item level. Following the conclusions of the meta-analysis, in two additional experiments (a pilot study and a larger preregistered replication study) we aimed to affect learning efficacy by manipulating the training procedure difficulty. As hypothesized and preregistered, training difficulty was captured by the new computational marker identified on the previously collected samples. Manipulation of the training difficulty also resulted in a differential preference modification effect, suggesting a causal relationship between the motor learning captured by the computational model and the post-training behavioral change effect. Our work highlights a novel non-reinforced preference modification pathway, suggesting that attention and motor learning are linked to preference formation, and provides a computational framework to identify individualized training markers which could predict future behavioral change effects.

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Alon Itzkovitch

A Probabilistic Model for Indel Evolution: Differentiating Insertions from Deletions

A probabilistic model for indel evolution: differentiating insertions from deletions

Cue-approach training for food behavior

A computational model for individual differences in non-reinforced learning for individual items

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