In Situ Hybridisation: Application to Developmental Biology and Medicine by N. HarrisIn Situ Hybridisation: Application to Developmental Biology and Medicine by N. Harris

In Situ Hybridisation: Application to Developmental Biology and Medicine

EditorN. Harris, D. G. Wilkinson

Paperback | June 9, 2011

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Advances in our understanding of biological mechanisms have frequently been associated with the development of new techniques. In situ hybridization is a classic case of just such an advance. The technique effectively combines histochemistry with molecular biology and enables the rapid analysis of the distribution of RNA, or DNA, in the tissues. The information gained from this has caused something of a revolution in our understanding of developmental biology, since a fundamental aspect of development is the spatial and temporal expression of genes. In addition the technique has found application in the field of medicine, where it is giving new insights into the functioning of healthy tissues and the diagnosis and study of diseases. This book brings together contributions from leaders in the application of this technique and will help the reader review and be guided through the various options and variations of the technique.
Title:In Situ Hybridisation: Application to Developmental Biology and MedicineFormat:PaperbackDimensions:302 pages, 9.02 × 5.98 × 0.67 inPublished:June 9, 2011Publisher:Cambridge University PressLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:0521282276

ISBN - 13:9780521282277


Table of Contents

1. Non radio isotopic labels for in situ hybridisation histochemistry: a histochemist's view G. Coulton; 2. Use of haptenised nucleic acid probes in fluorescent in situ hybridisation A. K. Raap; 3. The use of complementary RNA probes for the identification and localisation of peptide messenger RNA in the diffuse neuroendocrine system A. Giaid; 4. Contributions of the spatial analysis of gene expression to the study of sea urchin development R. C. Aangerer; 5. Advantages and limitations of in situ hybridisation as exemplified by the molecular genetic analysis of Drosophila development P. W. Ingham; 6. The use of in situ hybridisation to study the localisation of maternal mRNAs during Xenopus oogenesis H. Perry-O'Keefe; 7. In situ hybridisation in the analysis of genes with potential roles in mouse embryogenesis D. G. Wilkinson; 8. Evolution of algal plasmids from eukaryotic endosymbionts G. I. McFadden; 9. Localisation of expression of male flower specific genes from maize by in situ hybridisation S. Y. Wright and A. J. Greenland; 10. Tissue preparation techniques for in situ hybridisation studies of storage-protein gene expression during pea seed development N. Harris; 11. Investigation of gene expression during plant gametogenesis by in situ hybridisation K. G. Jones; 12. Sexing the human conceptus by in situ hybridisation J. D. West; 13. Nonisotopic in situ hybridisation in human pathology C. S. Herrington; 14. The demonstration of viral DNA in human tissues by in situ hybridisation M. Wells.

Editorial Reviews

"...very useful for biologists, molecular biologists, biophysicists, and advanced students." Journal of Steroid Biochemistry and Molecular Biology