Identification And Characterization Of Genetic Components In Autism Spectrum Disorders 2019

Identification and Characterization of Genetic Components in Autism Spectrum Disorders 2019

Author : Merlin G Butler

Publisher : Mdpi AG

Page : 256 pages

File Size : 49,72 MB

Release : 2022-04-26

Category : Medical

ISBN : 9783036536095

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Book Description

The Identification of the Genetic Components of Autism Spectrum Disorders 2019 will serve as a resource for laboratory and clinical scientists as well as translational-based researchers, primary healthcare providers or physicians, psychologists/psychiatrists, neurologists, developmental pediatricians, clinical geneticists, and other healthcare providers, teachers, caregivers and students involved in autism spectrum disorders (ASD) with the goal to translate information directly to the clinic, education and home setting. Other professionals, students and families might find this textbook of value based on better awareness, causes and understanding of genetic components leading to autism and open avenues for treatment. Genetics play a role with up to 90% of autism, with over 800 currently recognized genes contributing to causes, clinical presentation, treatment, and counseling of family members. This textbook includes 13 chapters divided into three sections (clinical, genetics, other) written by experts in the field dedicated to research and clinical care, description, treatment and generating relevant reviews for ASD and related disorders impacting gene expression, profiling, and pathways. Identification of potential risk factors will be discussed, including obesity, microbiota, malignancy, and the immune system, as well as their direct or indirect contribution to ASD treatment and causation.



Identification and Characterization of Genetic Components in Autism Spectrum Disorders 2020

Author : Merlin G Butler

Publisher : Mdpi AG

Page : 204 pages

File Size : 26,86 MB

Release : 2022-04-28

Category : Medical

ISBN : 9783036536118

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Book Description

The Identification of the Genetic Components of Autism Spectrum Disorders 2020 will be a useful resource for laboratory and clinical scientists, translational-based researchers, primary healthcare providers and physicians, psychologists/psychiatrists, neurologists, developmental pediatricians, clinical geneticists, teachers, special educators, and caregivers involved with individuals who have autism spectrum disorders (ASD), with the goal to translate information directly to the clinical, education and home settings. Other professionals, students at all levels, and families who are interested in this important neurodevelopmental disorder will find this textbook of value by obtaining a better awareness of the causes, testing, and understanding of genetic components leading to autism, and research that may open avenues for treatment with new approaches. This textbook includes nine chapters divided into three sections (clinical, genetics, other) written by experts in the field dedicated to genetics research and clinical care, description, and treatment by generating reviews for ASD and related disorders. These chapters include information on discoveries, risk factors, causation, diagnosis, treatment, and phenotyping with characterization of genomic or genetic factors and the environment, as genetics play an important role in up to 90% of individuals with autism via over 800 currently recognized genes.





The Identification of the Genetic Components of Autism Spectrum Disorders 2017

Author :

Publisher :

Page : pages

File Size : 17,18 MB

Release : 2017

Category : Electronic book

ISBN : 9783038425212

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Book Description

Annotation This textbook is dedicated to the study of genetic factors contributing to autism and includes a collection of original research and review articles related to this topic. Autism spectrum disorders (ASD) include a collection of neurodevelopmental disorders characterized by three recognized behavioral domains involving difficulties in communication, social interaction and repetitive behavior. ASD affects 1 to 2 percent of children and is on the increase worldwide. Significant genetic contributions and mechanisms underlie the causation of ASD. Advances in genetic technology and better awareness have led to a diagnosis of 50 to 70 percent of individuals with ASD primarily due to chromosomal abnormalities, submicroscopic deletions or duplications now identified with high-resolution microarray analysis, next-generation DNA (exome) sequencing of gene variants or mutations, recognized single gene disorders or metabolic disturbances. Through discovery by searching genomic databases and peer-reviewed research articles, nearly 800 genes have been identified to contribute to ASD. Highlights in the field of autism research, discovery and identification of genetic components with characterization will be addressed. Furthermore, reviews of current understanding of the causes and diagnostic approaches for ASD and related syndromes will be presented along with discussion of psychiatric/behavior comorbidities and related features, environmental risk factors, parental attitudes and treatment.



The Identification of the Genetic Components of Autism Spectrum Disorders 2017

Author : Merlin G. Butler (Ed.)

Publisher :

Page : 462 pages

File Size : 14,75 MB

Release : 2017

Category : Biology (General)

ISBN :

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Book Description

This textbook is dedicated to the study of genetic factors contributing to autism and includes a collection of original research and review articles related to this topic. Autism spectrum disorders (ASD) include a collection of neurodevelopmental disorders characterized by three recognized behavioral domains involving difficulties in communication, social interaction and repetitive behavior. ASD affects 1 to 2 percent of children and is on the increase worldwide. Significant genetic contributions and mechanisms underlie the causation of ASD. Advances in genetic technology and better awareness have led to a diagnosis of 50 to 70 percent of individuals with ASD primarily due to chromosomal abnormalities, submicroscopic deletions or duplications now identified with high-resolution microarray analysis, next-generation DNA (exome) sequencing of gene variants or mutations, recognized single gene disorders or metabolic disturbances. Through discovery by searching genomic databases and peer-reviewed research articles, nearly 800 genes have been identified to contribute to ASD. Highlights in the field of autism research, discovery and identification of genetic components with characterization will be addressed. Furthermore, reviews of current understanding of the causes and diagnostic approaches for ASD and related syndromes will be presented along with discussion of psychiatric/behavior comorbidities and related features, environmental risk factors, parental attitudes and treatment.







Characterization of Neuronal Protein Complexes to Identify Molecular Underpinnings of Autism Spectrum Disorder

Author : Zhuoran Wu

Publisher :

Page : 0 pages

File Size : 48,75 MB

Release : 2018

Category :

ISBN :

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Book Description

Autism spectrum disorder (ASD), a complex neurodevelopmental disorder that affects brain development, social and communication skills in children and adults, poses a tremendous burden on caregivers and the healthcare system. Although advances in genetics has enabled the discovery of hundreds of ASD-associated genes, the biological context of how these ASD-linked risk genes contribute to the pathophysiology of the disorder remains unclear. The study of protein-protein interactions (PPI) offers a valuable framework for elucidating this biological context, so far only few human proteomics studies were targeted to ASD. Many cell-context-dependent human ASD interactions involved in neuronal processes are unknown. This study addresses this gap by systematically. Fourty six literature-validated ASD-linked proteins expressed in differentiated SH-SY5Y cells were studied using immunoprecipitation coupled with mass spectrometry (IP/MS) to generate a high-quality PPI network, outlining the organization of individual co-purified proteins in multiprotein complexes. Enrichment analysis confirmed the disease relevance of the PPI network and revealed significant enrichment for genes involved in gene expression, cellular transport and mitochondrial (mt) processes. From the high-confidence PPI network, two previously unreported interacting protein pairs of interest (i.e. FMRP-TWNK and DYRK1A-TRMT61B) linking mitochondria with ASD were selected for further characterization. Co-purifying proteins were validated experimentally by co-immunoprecipitation. Knockouts of the interacting protein pairs of interest were generated, with knockout efficacy confirmed by immunoblotting. The interaction between the ASD-linked fragile X mental retardation protein (FMRP) and the mt twinkle DNA helicase (TWNK) were found to play a role in maintaining mtDNA integrity. As well, a functional role between the dual-specificity tyrosine-phosphorylation regulated kinase (DYRK1A) and the mt tRNA methyltransferase 61B (TRMT61B) in tRNA methylation were established. While additional work is needed to dissect the molecular mechanisms of these interactions, the findings from this study offers support to the validity of the molecular models that were proposed. In conclusion, through this Master's thesis, I was able to demonstrate that the ASD-linked PPI network generated by IP/MS can offer a powerful means for discovering new ASD links and providing future directions for understanding the role of mt in ASD biology.