A Molecular Cytogenetic Map of Sorghum Chromosome 1: Fluorescence in Situ Hybridization Analysis With Mapped Bacterial Artificial Chromosomes

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A Molecular Cytogenetic Map of Sorghum Chromosome 1: Fluorescence in Situ Hybridization Analysis With Mapped Bacterial Artificial Chromosomes

M. N. Islam-Faridi^a, K. L. Childs^b, P. E. Klein^c, G. Hodnett^a, M. A. Menz^d, R. R. Klein^d, W. L. Rooney^a, J. E. Mullet^b,c, D. M. Stelly^a,c, and H. J. Price^a
^a Department of Soil and Crop Sciences, Texas A&M University, College Station, Texas 77843
^b Department of Biochemistry and Biophysics, Texas A&M University, College Station, Texas 77843
^c Institute for Plant Genomics and Biotechnology, Texas A&M University, College Station, Texas 77843
^d USDA-ARS, Southern Plains Agricultural Research Center, College Station, Texas 77845

Corresponding author: M. N. Islam-Faridi, Texas A&M University, Heep Center (Rm. 435), 370 Olsen Blvd., College Station, TX 77843-2474., nfaridi{at}neo.tamu.edu (E-mail)

Communicating editor: M. J. SIMMONS

We used structural genomic resources for Sorghum bicolor (L.)Moench to target and develop multiple molecular cytogeneticprobes that would provide extensive coverage for a specificchromosome of sorghum. Bacterial artificial chromosome (BAC)clones containing molecular markers mapped across sorghum linkagegroup A were labeled as probes for fluorescence in situ hybridization(FISH). Signals from single-, dual-, and multiprobe BAC-FISHto spreads of mitotic chromosomes and pachytene bivalents wereassociated with the largest sorghum chromosome, which bearsthe nucleolus organizing region (NOR). The order of individualBAC-FISH loci along the chromosome was fully concordant to thatof marker loci along the linkage map. In addition, the orderof several tightly linked molecular markers was clarified byFISH analysis. The FISH results indicate that markers from thelinkage map positions 0.0–81.8 cM reside in the shortarm of chromosome 1 whereas markers from 81.8–242.9 cMare located in the long arm of chromosome 1. The centromereand NOR were located in a large heterochromatic region thatspans $~$ 60% of chromosome 1. In contrast, this region representsonly 0.7% of the total genetic map distance of this chromosome.Variation in recombination frequency among euchromatic chromosomalregions also was apparent. The integrated data underscore thevalue of cytological data, because minor errors and uncertaintiesin linkage maps can involve huge physical regions. The successfuldevelopment of multiprobe FISH cocktails suggests that it isfeasible to develop chromosome-specific "paints" from genomicresources rather than flow sorting or microdissection and thatwhen applied to pachytene chromatin, such cocktails providean especially powerful framework for mapping. Such a molecularcytogenetic infrastructure would be inherently cross-linkedwith other genomic tools and thereby establish a cytogenomicssystem with extensive utility in development and applicationof genomic resources, cloning, transgene localization, developmentof plant "chromonomics," germplasm introgression, and marker-assistedbreeding. In combination with previously reported work, theresults indicate that a sorghum cytogenomics system would bepartially applicable to other gramineous genera.

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