Plant Cytogenetics and Cytogenomics

Schwarzacher, Trude, Liu, Qing, Pat Heslop-Harrison, J S, (Pat) Heslop-Harrison, J. S.

Chromosomes have been studied since the late nineteenth century in the disciplines of cytology and cytogenetics. Analyzing their numbers, features, and dynamics has been tightly linked to the technical development of preparation methods, microscopes, and chemicals to stain them, with latest continuing developments described in this volume. At the end of the twentieth and beginning of the twenty-first centuries, DNA technology, genome sequencing, and bioinformatics have revolutionized how we see, use, and analyze chromosomes. The advent of in situ hybridization has shaped our understanding of genome organization and behavior by linking molecular sequence information with the physical location along chromosomes and genomes. Microscopy is the best technique to accurately determine chromosome number. Many features of chromosomes in interphase nuclei or pairing and disjunction at meiosis, involving physical movement of chromosomes, can only be studied by microscopy. In situ hybridization is the method of choice to characterize the abundance and chromosomal distribution of repetitive sequences that make up the majority of most plant genomes. These most variable components of a genome are found to be species- and occasionally chromosome-specific and give information about evolution and phylogeny. Multicolor fluorescence hybridization and large pools of BAC or synthetic probes can paint chromosomes and we can follow them through evolution involving hybridization, polyploidization, and rearrangements, important at a time when structural variations in the genome are being increasingly recognized. This volume discusses many of the most recent developments in the field of plant cytogenetics and gives carefully compiled protocols and useful resources.