Localization of Single- and Low-Copy Sequences on Tomato Synaptonemal Complex Spreads Using Fluorescence in Situ Hybridization (FISH)

Localization of Single- and Low-Copy Sequences on Tomato Synaptonemal Complex Spreads Using Fluorescence in Situ Hybridization (FISH)

Daniel G. Peterson^a, Nora L. V. Lapitan^b, and Stephen M. Stack^c
^a Department of Crop and Soil Sciences, University of Georgia, Athens, Georgia, 30602
^b Department of Soil and Crop Sciences, Colorado State University, Fort Collins, Colorado 80523
^c Department of Biology, Colorado State University, Fort Collins, Colorado 80523

Corresponding author: Daniel G. Peterson, Plant Genome Mapping Laboratory, University of Georgia, Riverbend Research Center, Rm. 162, 110 Riverbend Rd., Athens, GA 30602., dgp{at}arches.uga.edu (E-mail)

Communicating editor: W. F. SHERIDAN

Fluorescence in situ hybridization (FISH) is a powerful meansby which single- and low-copy DNA sequences can be localizedon chromosomes. Compared to the mitotic metaphase chromosomesthat are normally used in FISH, synaptonemal complex (SC) spreads(hypotonically spread pachytene chromosomes) have several advantages.SC spreads (1) are comparatively free of debris that can interferewith probe penetration, (2) have relatively decondensed chromatinthat is highly accessible to probes, and (3) are about ten timeslonger than their metaphase counterparts, which permits FISHmapping at higher resolution. To investigate the use of plantSC spreads as substrates for single-copy FISH, we probed spreadsof tomato SCs with two single-copy sequences and one low-copysequence (ca. 14 kb each) that are associated with restrictionfragment length polymorphism (RFLP) markers on SC 11. IndividualSCs were identified on the basis of relative length, arm ratio,and differential staining patterns after combined propidiumiodide (PI) and 4',6-diamidino-2-phenylindole (DAPI) staining.In this first report of single-copy FISH to SC spreads, theprobe sequences were unambiguously mapped on the long arm oftomato SC 11. Coupled with data from earlier studies, we determinedthe distance in micrometers, the number of base pairs, and therates of crossing over between these three FISH markers. Wealso observed that the order of two of the FISH markers is reversedin relation to their order on the molecular linkage map. SC-FISHmapping permits superimposition of markers from molecular linkagemaps directly on pachytene chromosomes and thereby contributesto our understanding of the relationship between chromosomestructure, gene activity, and recombination.

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