Characterization of the HeCo Mutant Mouse: A New Model of Subcortical Band Heterotopia Associated with Seizures and Behavioral Deficits

Abstract Subcortical band heterotopia (SBH), also known as double-cortex syndrome, is a neuronal migration disorder characterized by an accumulation of neurons in a heterotopic band below the normotopic cortex. The majority of patients with SBH have mild to moderate intellectual disability and intractable epilepsy. However, it is still not clear how cortical networks are organized in SBH patients and how this abnormal organization contributes to improper brain function. In this study, cortical networks were investigated in the barrel cortex in an animal model of SBH induced by in utero knockdown of Dcx, main causative gene of this condition in human patients. When the SBH was localized below the Barrel Field (BF), layer (L) four projection to correctly positioned L2/3 pyramidal cells was weakened due to lower connectivity. Conversely, when the SBH was below an adjacent cortical region, the excitatory L4 to L2/3 projection was stronger due to increased L4 neuron excitability, synaptic strength and excitation/inhibition ratio of L4 to L2/3 connection. We propose that these developmental alterations contribute to the spectrum of clinical dysfunctions reported in patients with SBH.

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p-box: a new graph model

Discrete Mathematics & Theoretical Computer Science ◽

10.46298/dmtcs.2121 ◽

2015 ◽

Vol Vol. 17 no. 1 (Graph Theory) ◽

Author(s):

Mauricio Soto ◽

Christopher Thraves-Caro

Keyword(s):

Graph Theory ◽

Graph Model ◽

Directed Path ◽

Outerplanar Graphs ◽

New Model ◽

Model Based ◽

Representative Element ◽

International Audience ◽

Graph Families

Graph Theory International audience In this document, we study the scope of the following graph model: each vertex is assigned to a box in ℝd and to a representative element that belongs to that box. Two vertices are connected by an edge if and only if its respective boxes contain the opposite representative element. We focus our study on the case where boxes (and therefore representative elements) associated to vertices are spread in ℝ. We give both, a combinatorial and an intersection characterization of the model. Based on these characterizations, we determine graph families that contain the model (e. g., boxicity 2 graphs) and others that the new model contains (e. g., rooted directed path). We also study the particular case where each representative element is the center of its respective box. In this particular case, we provide constructive representations for interval, block and outerplanar graphs. Finally, we show that the general and the particular model are not equivalent by constructing a graph family that separates the two cases.

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Mosaic DCX deletion causes subcortical band heterotopia in males

Neurogenetics ◽

10.1007/s10048-012-0339-4 ◽

2012 ◽

Vol 13 (4) ◽

pp. 367-373 ◽

Cited By ~ 13

Author(s):

Chloé Quélin ◽

Yoann Saillour ◽

Isabelle Souville ◽

Karine Poirier ◽

Marie Ange N’Guyen-Morel ◽

...

Keyword(s):

Subcortical Band Heterotopia ◽

Band Heterotopia

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Mosaic mutations of the LIS1 gene cause subcortical band heterotopia

Neurology ◽

10.1212/wnl.61.8.1042 ◽

2003 ◽

Vol 61 (8) ◽

pp. 1042-1046 ◽

Cited By ~ 79

Author(s):

F. Sicca ◽

A. Kelemen ◽

P. Genton ◽

S. Das ◽

D. Mei ◽

...

Keyword(s):

Subcortical Band Heterotopia ◽

Band Heterotopia

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A new model system for endometritis: Basic concepts and characterization of phenotypic and functional properties of bovine uterine neutrophils

Theriogenology ◽

10.1016/s0093-691x(96)00314-7 ◽

1996 ◽

Vol 46 (8) ◽

pp. 1339-1356 ◽

Cited By ~ 22

Author(s):

H. Zerbe ◽

H.-J. Schuberth ◽

M. Hoedemaker ◽

E. Grunert ◽

W. Leibold

Keyword(s):

Functional Properties ◽

Model System ◽

New Model ◽

Basic Concepts

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Improvement of RSM Prediction and Optimization by Using Box-Cox Transformation

Advances in Computational Intelligence and Robotics - Handbook of Research on Predictive Modeling and Optimization Methods in Science and Engineering ◽

10.4018/978-1-5225-4766-2.ch008 ◽

2018 ◽

pp. 156-191

Author(s):

Mustafa Çırak

Keyword(s):

Electrical Current ◽

Physicochemical Process ◽

Quadratic Model ◽

Operational Parameters ◽

New Model ◽

Engineering Technique ◽

Perfect Normality ◽

Mineral Industries ◽

Box Cox Transformation

Electrocoagulation can be effectively used in the elimination of the colloids from the tailings of the mineral industries. Owing to the numerous operational parameters of this physicochemical process, the best engineering technique for the characterization of the process is RSM. In this chapter, a non-transformed quadratic model is firstly formed considering the supernatant turbidity of the electrocoagulation experiments as a function of temperature, pH, and electrical current. Then, the non-normality and the heteroscedasticity of this initial model was indicated. These drawbacks were improved by using the Box-Cox transformation with λ of -0.32 and a new model with a perfect normality and homoscedasticity was obtained. The R2 value increased from 81.60% to 99.48% and adjusted R2 increased from 48.48% to 99.22% upon the transformation. According to the confirmed optimization results of the Box-Cox transformed model, the maximum desirability was obtained at pH of 5, temperature of 85°C, and electrical current of 0.25A, and the supernatant turbidity decreased down to 2.25 NTU.

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