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E-raamat: Fluorescence In Situ Hybridization (FISH): Application Guide

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  • Sari: Springer Protocols Handbooks
  • Ilmumisaeg: 17-Oct-2016
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662529591
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Fluorescence In Situ Hybridization (FISH): Application GuideSuurem pilt
  • Formaat: EPUB+DRM
  • Sari: Springer Protocols Handbooks
  • Ilmumisaeg: 17-Oct-2016
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662529591
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This manual offers detailed protocols for fluorescence in situ hybridization (FISH) and comparative genomic hybridization approaches, which have been successfully used to study various aspects of genomic behavior and alterations. Methods using different probe and cell types, tissues and organisms, such as mammalians, fish, amphibians (including lampbrush-chromosomes), insects, plants and microorganisms are described in 57 chapters. In addition to multicolor FISH procedures and special applications such as the characterization of marker chromosomes, breakpoints, cryptic aberrations, nuclear architectures and epigenetic changes, as well as comparative genomic hybridization studies, this 2nd edition describes how FISH can be combined with other techniques. The latter include immunostaining, electron microscopy, single cell electrophoresis and microdissection.This well-received application guide provides essential protocols for beginning FISHers and FISH experts alike working in the

fields of human genetics, microbiology, animal and plant sciences.

Part I Required Equipment and Probes for FISH Procedures.- Part II FISH Procedure.- Part III Material Suited for FISH Applications in Humans.- Part IV Multicolor-FISH-Probe Sets (mFISH) and Immunostaining.- Part V Interphase FISH.- Part VI Applications of FISH in Zoology, Botany and Microbiology.- Part VII Comparative Genomic Hybridization (CGH) and Array CGH.
Preface to First Edition vii
About the Editor xiii
Background 1(16)
Thomas Liehr
Anja Weise
Part I Required Equipment and Probes for FISH Procedures
Microscopy and Imaging
17(10)
Ivan Y. Iourov
Optical Filters and Light Sources for FISH
27(16)
Michael Sommerauer
Ingrid Feuerbacher
Alexander Krause
Classification of FISH Probes
43(6)
Thomas Liehr
Commercial FISH Probes
49(14)
Thomas Liehr
Generation of Paint Probes from Flow-Sorted and Microdissected Chromosomes
63(18)
Fengtang Yang
Vladimir Trifonov
Bee Ling Ng
Nadezda Kosyakova
Nigel P. Carter
FISH-Microdissection
81(20)
Nadezda Kosyakova
Thomas Liehr
Ahmed B. Hamid Al-Rikabi
Homemade Locus-Specific FISH Probes: Bacterial Artificial Chromosomes
101(8)
Thomas Liehr
Part II FISH Procedure
The Standard FISH Procedure
109(10)
Thomas Liehr
Katharina Kreskowski
Monika Ziegler
Katja Piaszinski
Katharina Rittscher
Microwave Treatment for Better FISH Results in a Shorter Time
119(4)
Anja Weise
Thomas Liehr
FISH with and Without COT1 DNA
123(12)
Vladimir A. Trifonov
Nadezhda V. Vorobieva
Natalia A. Serdyukova
Willem Rens
Formamide-Free Fluorescence In Situ Hybridization (FISH)
135(6)
Emanuela V. Volpi
One-Day Quick FISH
141(6)
Gabor Mehes
Tamas Csonka
Katalin Hegyi
Telomere Length Measurement by FISH
147(6)
Gordana Joksic
Ivana Joksic
Jelena Filipovic
Thomas Liehr
RNA Imaging in Living Cells
153(6)
Bin Ma
Naoko Tanese
The Replicative Detargeting FISH (ReD-FISH) Technique in Studies of Telomere Replication
159(12)
Nikolay Rubtsov
Natalya Zhdanova
Part III Material Suited for FISH Applications in Humans
Pre- and Postnatal Diagnostics and Research on Peripheral Blood, Bone Marrow, Chorion, Amniocytes, and Fibroblasts
171(10)
Anja Weise
Thomas Liehr
Application of FISH to Previously GTG-Banded and/or Embedded Cytogenetic Slides
181(4)
Thomas Liehr
Monika Ziegler
FISH in Uncultivated Amniocytes
185(4)
Anja Weise
Monika Ziegler
Thomas Liehr
Tumorcytogenetic Diagnostics and Research on Blood and Bone Marrow Smears or Effusions
189(6)
Eyad Alhourani
Moneeb A.K. Othman
Shaymaa S. Hussein Azawi
Thomas Liehr
Characterization of Mosaicism in Different Easy-to-Acquire Body Tissues Such As Buccal Smears, Skin Abrasions, Hair Root Cells, or Urine
195(6)
Thomas Liehr
Nadezda Kosyakova
Characterization of Archived Formalin-Fixed/Paraffin-Embedded or Cryofixed Tissue, Including Nucleus Extraction
201(8)
Thomas Liehr
FISH on Sperm, Spermatocytes and Oocytes
209(18)
Maria Oliver-Bonet
Part IV Multicolor-FISH-Probe Sets (mFISH) and Immunostaining
Two- to Three-Color FISH
227(6)
Thomas Liehr
Sven Hauke
Britta Meyer
Multiplex FISH and Spectral Karyotyping
233(8)
Thomas Liehr
Nadezda Kosyakova
FISH Banding Techniques
241(8)
Thomas Liehr
Nadezda Kosyakova
Anja Weise
cenM-FISH Approaches
249(8)
Thomas Liehr
Anja Weise
Nadezda Kosyakova
Heterochromatin-Directed mFISH (HCM-FISH)
257(4)
Thomas Liehr
Nadezda Kosyakova
Anja Weise
Ahmed B. Hamid Al-Rikabi
Subtelomeric and/or Subcentromeric Probe Sets
261(10)
Anja Weise
Thomas Liehr
Bar Coding Is Back
271(4)
Thomas Liehr
Ahmed B. Hamid Al-Rikabi
Anja Weise
Fluorescence In Situ Hybridization onto DNA Fibres Generated Using Molecular Combing
275(20)
Sandra Louzada
Jun Komatsu
Fengtang Yang
Parental Origin Determination FISH: Pod-FISH
295(6)
Anja Weise
Thomas Liehr
Simultaneous Fluorescence Immunostaining and FISH
301(26)
Christine J. Ye
Guo Liu
Henry H.Q. Heng
RNA-Directed FISH and Immunostaining
327(10)
Bin Ma
Naoko Tanese
Immunofluorescence Staining for Cytosine Modifications Like 5-Methylcytosine and Its Oxidative Derivatives and FISH
337(10)
Anna A. Pendina
Olga A. Efimova
Andrei V. Tikhonov
Olga G. Chiryaeva
Irina D. Fedorova
Alia S. Koltsova
Mikhail I. Krapivin
Sergey E. Parfenyev
Tatyana V. Kuznetzova
Vladislav S. Baranov
CENP Antibodies Used Additionally to FISH
347(8)
Elisabeth Klein
Thomas Liehr
Part V Interphase FISH
Interphase FISH in Diagnostics
355(6)
Thomas Liehr
Sven Hauke
Interphase FISH for Detection of Chromosomal Mosaicism
361(12)
Ivan Y. Iourov
Svetlana G. Vorsanova
Yuri B. Yurov
Comet-FISH
373(6)
Galina Hovhannisyan
Rouben Aroutiounian
Micronucleus FISH
379(6)
Galina Hovhannisyan
Tigran Harutyunyan
Thomas Liehr
Three-Dimensional Interphase Analysis Enabled by Suspension FISH
385(10)
Thomas Liehr
Nadezda Kosyakova
Part VI Applications of FISH in Zoology, Botany and Microbiology
Animal Probes and ZOO-FISH
395(22)
Fengtang Yang
Alexander S. Graphodatsky
Three-Dimensional Immunofluorescence In Situ Hybridization in Preimplantation Mouse Embryos
417(12)
Tiphaine Aguirre-Lavin
Nathalie Beaujean
Fish-FISH: Molecular Cytogenetics in Fish Species
429(16)
Cassia Fernanda Yano
Luiz Antonio Carlos Bertollo
Marcelo de Bello Cioffi
FISH in Lampbrush Chromosomes
445(14)
Anna Zlotina
Alia Krasikova
General Protocol of FISH for Insects
459(8)
Ana Paula Alves-Silva
Luisa Antonia Campos Barros
Silvia das Gracas Pompolo
FISH in Drosophila
467(6)
Amanda M. Larracuente
FISH on Insect Cells Transfected with Heterologous DNA
473(4)
Thomas Liehr
In Situ Hybridization to Plant Chromosomes
477(18)
Ekaterina D. Badaeva
Alevtina S. Ruban
Lata Aliyeva-Schnorr
Celia Municio
Susann Hesse
Andreas Houben
Yeast Chromosome Dynamics Revealed by Immuno FISH
495(16)
Harry Scherthan
FISHing for Food Microorganisms
511(20)
Benedetta Bottari
Andrea Mancini
Danilo Ercolini
Monica Gatti
Erasmo Neviani
Evaluation of Polymicrobial Involvement Using Fluorescence In Situ Hybridization (FISH) in Clinical Practice
531(14)
Alexander Swidsinski
Vera Loening-Baucke
Gold-FISH: In Situ Hybridization of Microbial Cells for Combined Fluorescence and Scanning Electron Microscopy
545(16)
Hannes Schmidt
Thilo Eickhorst
Part VII Comparative Genomic Hybridization (CGH) and Array CGH
Comparative Genomic Hybridization (CGH) and Microdissection-Based CGH (Micro-CGH)
561(6)
Thomas Liehr
Anita Glaser
Nadezda Kosyakova
Array CGH
567(20)
Eftychia Dimitriadou
Joris R. Vermeesch
Breakpoint Mapping of Balanced Chromosomal Rearrangements Using Array CGH of Microdissection-Derived FISH Probes
587(10)
Maria Isabel Melaragno
Mariana Moyses-Oliveira
Sequencing of Microdissection-Derived FISH Probes
597(8)
Jiri Stika
Oldrich Mazal
Index 605
Dr. Thomas Liehr, a biologist (diploma, PhD and postdoctoral degree in human genetics), has been working in molecular cytogenetics since 1991. He has been head of the molecular cytogenetic group at the Institute of Human Genetics, Jena, Germany since 1998; before he was a PhD fellow of the Herbert Quandt Stiftung der VARTA-AG at the Institute of Human Genetics, Erlangen, Germany. Working intensively in diagnostics, since 2002 he has been a specialist in human genetics diagnostics (FHG = Fachhumangenetiker), a title awarded by the German Society of Human Genetics (GfH), and a European registered Clinical Laboratory Geneticist (ErCLG) since 2015. Dr. Liehrs research fields include clinical genetics, leukemia cytogenetics and the (3D) structures of the interphase and the human chromosomes, as well as breakpoint characterization. The results of his research have been published in 5 books, >50 book chapters, >550 peer-reviewed papers, and ~800 abstracts. His particular expertiseis molecular cytogenetics including chromosomal heteromorphisms, small supernumerary marker chromosomes (sSMC) and uniparental disomy, fields for which he has collected all available literature and made it freely available on the Internet. Further, Dr. Liehr has multiple longstanding international collaborations with many scientists around the world including researchers in e.g. Armenia, Croatia, India, Morocco, Russia, Serbia, Thailand, and Brazil.
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