Benign and pathological chromosomal imbalances [recurso electrónico] : microscopic and submicroscopic copy number variations (CNVs) in genetics and counseling / Thomas Liehr.

Por: Liehr, Thomas, 1965- [author.]Tipo de material: TextoTextoEditor: Amsterdam : Elsevier/AP, [2014]Fecha de copyright: 2014Descripción: 1 online resource (xix, 199 pages, 5 unnumbered pages of plates) : illustrations (some color)Tipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9780124046849; 0124046843; 1299833195; 9781299833197Otro título: Benign & pathological chromosomal imbalances [Título de cubierta]Tema(s): Genetics | Variation (Biology) | DNA Copy Number Variations | Chromosome Aberrations | Genetic Counseling | HEALTH & FITNESS -- Diseases -- General | MEDICAL -- Clinical Medicine | MEDICAL -- Diseases | MEDICAL -- Evidence-Based Medicine | MEDICAL -- Internal Medicine | Genetics | Variation (Biology)Género/Forma: Electronic books. | Electronic books.Formatos físicos adicionales: Print version:: Benign and pathological chromosomal imbalances.Clasificación CDD: 616.042 Clasificación LoC:QH430 | .L54 2014ebRecursos en línea: Libro electrónico ScienceDirectTexto
Contenidos:
Front Cover; Benign and Pathological Chromosomal Imbalances -- Microscopic and SubmicroscopicCopy Number Variations (CNVs) inGenetics and Counseling; Copyright; DISCLAIMER; CONTENTS; BIOGRAPHY; ABBREVIATIONS; FOREWORD; ACKNOWLEDGMENTS; Chapter 1 -- Introduction; 1.1. THE PROBLEM; 1.2. FREQUENCY AND CHROMOSOMAL ORIGIN OF CYTOGENETICALLY VISIBLE COPY NUMBER VARIANTS (CG-CNVS) WITHOUT CLINICAL CONSEQUENCES; 1.3. PRACTICAL MEANING OF CG-CNVS IN DIAGNOSTICS AND RESEARCH; 1.4. SUBMICROSCOPIC CNVS (MG-CNVS); Chapter 2 -- CG-CNVs: What Is the Norm?; 2.1. ACROCENTRIC CHROMOSOMES' SHORT ARM VARIANTS.
2.2. VARIANTS OF THE CENTROMERIC REGIONS2.3. VARIANTS OF NONCENTROMERIC HETEROCHROMATIN; 2.4. UNBALANCED CHROMOSOME ABNORMALITIES (UBCAS) WITHOUT CLINICAL CONSEQUENCES; 2.5. SMALL SUPERNUMERARY MARKER CHROMOSOMES (SSMCS); 2.6. EUCHROMATIC VARIANTS (EVS); 2.7. GONOSOMAL DERIVED CHROMATIN; 2.8. MG-CNVS; Chapter 3 -- Inheritance of CG-CNVs; 3.1. FAMILIAL CG-CNVS; 3.2. DE NOVO CG-CNVS; 3.3. MG-CNVS; Chapter 4 -- Formation of CG-CNVs; 4.1. ACROCENTRIC CHROMOSOMES' SHORT-ARM VARIANTS; 4.2. VARIANTS OF THE CENTROMERIC REGIONS; 4.3. VARIANTS OF NONCENTROMERIC HETEROCHROMATIN.
4.4. UNBALANCED CHROMOSOME ABNORMALITIES (UBCAS)4.5. SMALL SUPERNUMERARY MARKER CHROMOSOMES (SSMCS); 4.6. EUCHROMATIC VARIANTS (EVS); 4.7. GONOSOMAL-DERIVED CHROMATIN; 4.8. MG-CNVS; Chapter 5 -- Types of CG-CNVs; 5.1. HETEROCHROMATIC CG-CNVS; 5.2. EUCHROMATIC CG-CNVS; 5.3. SUBMICROSCOPIC CNVS (MG-CNVS); Chapter 6 -- CG-CNVs in Genetic Diagnostics and Counseling; 6.1. CG-CNVS IN DIAGNOSTICS; 6.2. CG-CNVS AND MG-CNVS IN REPORTING AND GENETIC COUNSELING; Chapter 7 -- Online Resources; 7.1. CG-CNVS; 7.2. MG-CNVS; Appendix -- Summary of CG-CNVs by Chromosome; A.1 CHROMOSOME 1; A.2 CHROMOSOME 2; A.3 CHROMOSOME 3.
A.4 CHROMOSOME 4A.5 CHROMOSOME 5; A.6 CHROMOSOME 6; A.7 CHROMOSOME 7; A.8 CHROMOSOME 8; A.9 CHROMOSOME 9; A.10 CHROMOSOME 10; A.11 CHROMOSOME 11; A.12 CHROMOSOME 12; A.13 CHROMOSOME 13; A.14 CHROMOSOME 14; A.15 CHROMOSOME 15; A.16 CHROMOSOME 16; A.17 CHROMOSOME 17; A.18 CHROMOSOME 18; A.19 CHROMOSOME 19; A.20 CHROMOSOME 20; A.21 CHROMOSOME 21; A.22 CHROMOSOME 22; A.23 X-CHROMOSOME; A.24 Y-CHROMOSOME; A.25 SHORT ANALYSIS OF THE SUMMARY OF CG-CNVS BY CHROMOSOME; REFERENCES; INDEX; Color plates.
Resumen: Benign & Pathological Chromosomal Imbalances systematically clarifies the disease implications of cytogenetically visible copy number variants (CG-CNV) using cytogenetic assessment of heterochromatic or euchromatic DNA variants. While variants of several megabasepair can be present in the human genome without clinical consequence, visually distinguishing these benign areas from disease implications does not always occur to practitioners accustomed to costly molecular profiling methods such as FISH, aCGH, and NGS. As technology-driven approaches like FISH and aCGH have yet to achieve the promise of universal coverage or cost efficacy to sample investigated, deep chromosome analysis and molecular cytogenetics remains relevant for technology translation, study design, and therapeutic assessment. Knowledge of the rare but recurrent rearrangements unfamiliar to practitioners saves time and money for molecular cytogeneticists and genetics counselors, helping to distinguish benign from harmful CG-CNV. It also supports them in deciding which molecular cytogenetics tools to deploy. Shows how to define the inheritance and formation of cytogenetically visible copy number variations using cytogenetic and molecular approaches for genetic diagnostics, patient counseling, and treatment plan development. Uniquely classifies all known variants by chromosomal origin, saving time and money for researchers in reviewing benign and pathologic variants before costly molecular methods are used to investigate. Side-by-side comparison of copy number variants with their recently identified submicroscopic form, aiding technology assessment using aCGH and other techniques.
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Tipo de ítem Biblioteca actual Colección Signatura Copia número Estado Fecha de vencimiento Código de barras
Libro Electrónico Biblioteca Electrónica
Colección de Libros Electrónicos QH430 .L54 2014 EB (Browse shelf(Abre debajo)) 1 No para préstamo 380190-2001

Includes bibliographical references and index.

Online resource; title from PDF title page (ebrary, viewed September 19, 2013).

Benign & Pathological Chromosomal Imbalances systematically clarifies the disease implications of cytogenetically visible copy number variants (CG-CNV) using cytogenetic assessment of heterochromatic or euchromatic DNA variants. While variants of several megabasepair can be present in the human genome without clinical consequence, visually distinguishing these benign areas from disease implications does not always occur to practitioners accustomed to costly molecular profiling methods such as FISH, aCGH, and NGS. As technology-driven approaches like FISH and aCGH have yet to achieve the promise of universal coverage or cost efficacy to sample investigated, deep chromosome analysis and molecular cytogenetics remains relevant for technology translation, study design, and therapeutic assessment. Knowledge of the rare but recurrent rearrangements unfamiliar to practitioners saves time and money for molecular cytogeneticists and genetics counselors, helping to distinguish benign from harmful CG-CNV. It also supports them in deciding which molecular cytogenetics tools to deploy. Shows how to define the inheritance and formation of cytogenetically visible copy number variations using cytogenetic and molecular approaches for genetic diagnostics, patient counseling, and treatment plan development. Uniquely classifies all known variants by chromosomal origin, saving time and money for researchers in reviewing benign and pathologic variants before costly molecular methods are used to investigate. Side-by-side comparison of copy number variants with their recently identified submicroscopic form, aiding technology assessment using aCGH and other techniques.

Front Cover; Benign and Pathological Chromosomal Imbalances -- Microscopic and SubmicroscopicCopy Number Variations (CNVs) inGenetics and Counseling; Copyright; DISCLAIMER; CONTENTS; BIOGRAPHY; ABBREVIATIONS; FOREWORD; ACKNOWLEDGMENTS; Chapter 1 -- Introduction; 1.1. THE PROBLEM; 1.2. FREQUENCY AND CHROMOSOMAL ORIGIN OF CYTOGENETICALLY VISIBLE COPY NUMBER VARIANTS (CG-CNVS) WITHOUT CLINICAL CONSEQUENCES; 1.3. PRACTICAL MEANING OF CG-CNVS IN DIAGNOSTICS AND RESEARCH; 1.4. SUBMICROSCOPIC CNVS (MG-CNVS); Chapter 2 -- CG-CNVs: What Is the Norm?; 2.1. ACROCENTRIC CHROMOSOMES' SHORT ARM VARIANTS.

2.2. VARIANTS OF THE CENTROMERIC REGIONS2.3. VARIANTS OF NONCENTROMERIC HETEROCHROMATIN; 2.4. UNBALANCED CHROMOSOME ABNORMALITIES (UBCAS) WITHOUT CLINICAL CONSEQUENCES; 2.5. SMALL SUPERNUMERARY MARKER CHROMOSOMES (SSMCS); 2.6. EUCHROMATIC VARIANTS (EVS); 2.7. GONOSOMAL DERIVED CHROMATIN; 2.8. MG-CNVS; Chapter 3 -- Inheritance of CG-CNVs; 3.1. FAMILIAL CG-CNVS; 3.2. DE NOVO CG-CNVS; 3.3. MG-CNVS; Chapter 4 -- Formation of CG-CNVs; 4.1. ACROCENTRIC CHROMOSOMES' SHORT-ARM VARIANTS; 4.2. VARIANTS OF THE CENTROMERIC REGIONS; 4.3. VARIANTS OF NONCENTROMERIC HETEROCHROMATIN.

4.4. UNBALANCED CHROMOSOME ABNORMALITIES (UBCAS)4.5. SMALL SUPERNUMERARY MARKER CHROMOSOMES (SSMCS); 4.6. EUCHROMATIC VARIANTS (EVS); 4.7. GONOSOMAL-DERIVED CHROMATIN; 4.8. MG-CNVS; Chapter 5 -- Types of CG-CNVs; 5.1. HETEROCHROMATIC CG-CNVS; 5.2. EUCHROMATIC CG-CNVS; 5.3. SUBMICROSCOPIC CNVS (MG-CNVS); Chapter 6 -- CG-CNVs in Genetic Diagnostics and Counseling; 6.1. CG-CNVS IN DIAGNOSTICS; 6.2. CG-CNVS AND MG-CNVS IN REPORTING AND GENETIC COUNSELING; Chapter 7 -- Online Resources; 7.1. CG-CNVS; 7.2. MG-CNVS; Appendix -- Summary of CG-CNVs by Chromosome; A.1 CHROMOSOME 1; A.2 CHROMOSOME 2; A.3 CHROMOSOME 3.

A.4 CHROMOSOME 4A.5 CHROMOSOME 5; A.6 CHROMOSOME 6; A.7 CHROMOSOME 7; A.8 CHROMOSOME 8; A.9 CHROMOSOME 9; A.10 CHROMOSOME 10; A.11 CHROMOSOME 11; A.12 CHROMOSOME 12; A.13 CHROMOSOME 13; A.14 CHROMOSOME 14; A.15 CHROMOSOME 15; A.16 CHROMOSOME 16; A.17 CHROMOSOME 17; A.18 CHROMOSOME 18; A.19 CHROMOSOME 19; A.20 CHROMOSOME 20; A.21 CHROMOSOME 21; A.22 CHROMOSOME 22; A.23 X-CHROMOSOME; A.24 Y-CHROMOSOME; A.25 SHORT ANALYSIS OF THE SUMMARY OF CG-CNVS BY CHROMOSOME; REFERENCES; INDEX; Color plates.

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