Leah A Krubitzer

Overview

Explore the profile of Leah A Krubitzer including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 24

Citations 322

Followers 0

Related Specialties

Neurology

Physiology

Science

Top 10 Co-Authors

Adele M H Seelke

James C Dooley

Dylan F Cooke

Elizabeth A Disbrow

Srikantan S Nagarajan

Sebastian S James

Stuart P Wilson

Joao G Franca

Kelly J Huffman

Johanna M Zumer

Published In

J Comp Neurol

J Neurophysiol

Proc Natl Acad Sci U S A

J Am Assoc Lab Anim Sci

Trends Neurosci

Affiliations

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Recent Articles

Reversible deactivation of motor cortex reveals that areas in parietal cortex are differentially dependent on motor cortex for the generation of movement

Bresee C, Cooke D, Goldring A, Baldwin M, Pineda C, Krubitzer L

J Neurophysiol . 2023 Dec; 131(1):106-123. PMID: 38092416

Primates are characterized by specializations for manual manipulation, including expansion of posterior parietal cortex (PPC) and, in Catarrhines, evolution of a dexterous hand and opposable thumb. Previous studies examined functional...

Comparing the development of cortex-wide gene expression patterns between two species in a common reference frame

James S, Englund M, Bottom R, Perez R, Connor K, Huffman K, et al.

Proc Natl Acad Sci U S A . 2022 Oct; 119(41):e2113896119. PMID: 36201538

Advances in sequencing techniques have made comparative studies of gene expression a current focus for understanding evolutionary and developmental processes. However, insights into the spatial expression of genes have been...

Functional characterization of the fronto-parietal reaching and grasping network: reversible deactivation of M1 and areas 2, 5, and 7b in awake behaving monkeys

Goldring A, Cooke D, Pineda C, Recanzone G, Krubitzer L

J Neurophysiol . 2022 Apr; 127(5):1363-1387. PMID: 35417261

In the present investigation, we examined the role of different cortical fields in the fronto-parietal reaching and grasping network in awake, behaving macaque monkeys. This network is greatly expanded in...

Modelling the emergence of whisker barrels

James S, Krubitzer L, Wilson S

Elife . 2020 Sep; 9. PMID: 32988453

Brain development relies on an interplay between genetic specification and self-organization. Striking examples of this relationship can be found in the somatosensory brainstem, thalamus, and cortex of rats and mice,...

Early postnatal gene expression in the developing neocortex of prairie voles (Microtus ochrogaster) is related to parental rearing style

Bottom R, Krubitzer L, Huffman K

J Comp Neurol . 2020 Jan; 528(17):3008-3022. PMID: 31930725

The earliest and most prevalent sensory experience includes tactile, thermal, and olfactory stimulation delivered to the young via contact with the mother, and in some mammals, the father. Prairie voles...

Limit cycle dynamics can guide the evolution of gene regulatory networks towards point attractors

Wilson S, James S, Whiteley D, Krubitzer L

Sci Rep . 2019 Nov; 9(1):16750. PMID: 31727996

Developmental dynamics in Boolean models of gene networks self-organize, either into point attractors (stable repeating patterns of gene expression) or limit cycles (stable repeating sequences of patterns), depending on the...

A Modular Approach to Vocal Learning: Disentangling the Diversity of a Complex Behavioral Trait

Wirthlin M, Chang E, Knornschild M, Krubitzer L, Mello C, Miller C, et al.

Neuron . 2019 Oct; 104(1):87-99. PMID: 31600518

Vocal learning is a behavioral trait in which the social and acoustic environment shapes the vocal repertoire of individuals. Over the past century, the study of vocal learning has progressed...

Alterations in cortical and thalamic connections of somatosensory cortex following early loss of vision

Dooley J, Krubitzer L

J Comp Neurol . 2018 Nov; 527(10):1675-1688. PMID: 30444542

Early loss of vision produces dramatic changes in the functional organization and connectivity of the neocortex in cortical areas that normally process visual inputs, such as the primary and second...

The Combinatorial Creature: Cortical Phenotypes within and across Lifetimes

Krubitzer L, Prescott T

Trends Neurosci . 2018 Oct; 41(10):744-762. PMID: 30274608

The neocortex is one of the most distinctive structures of the mammalian brain, yet also one of the most varied in terms of both size and organization. Multiple processes have...

10.

Neural Coding of Whisker-Mediated Touch in Primary Somatosensory Cortex Is Altered Following Early Blindness

Ramamurthy D, Krubitzer L

J Neurosci . 2018 May; 38(27):6172-6189. PMID: 29807911

Sensory systems do not develop and function independently of one another, yet they are typically studied in isolation. Effects of multisensory interactions on the developing neocortex can be revealed by...