Molecular Cytogenetic Maps of Sorghum Linkage Groups 2 and 8

doi:10.1534/genetics.104.026765

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Molecular Cytogenetic Maps of Sorghum Linkage Groups 2 and 8

Jeong-Soon Kim^*^,, Patricia E. Klein^*, Robert R. Klein, H. James Price, John E. Mullet^* and David M. Stelly^*^,^,1

^* Institute for Plant Genomics and Biotechnology, Texas A&M University, College Station, Texas 77843
USDA-ARS, Southern Plains Agricultural Research Center, College Station, Texas 77845
Department of Soil and Crop Sciences, Texas A&M University, College Station, Texas 77843

^¹ Corresponding author: Department of Soil and Crop Sciences, Texas A&M University, 370 Olsen Blvd., College Station, TX 77843-2474.
E-mail: stelly{at}tamu.edu

To integrate genetic, physical, and cytological perspectivesof the Sorghum bicolor genome, we selected 40 landed bacterialartificial chromosome (BAC) clones that contain different linkagemap markers, 21 from linkage group 2 (LG-02) and 19 from linkagegroup 8 (LG-08). Multi-BAC probe cocktails were constructedfor each chromosome from the landed BACs, which were also preevaluatedfor FISH signal quality, relative position, and collective chromosomecoverage. Comparison to the corresponding linkage map revealedfull concordance of locus order between cytological and priorsegregation analyses. The pericentromeric heterochromatin constituteda large quasi-uniform block in each bivalent and was especiallylarge in the bivalent corresponding to LG-08. Centromere positionsin LG-02 and LG-08 were progressively delimited using FISH toidentify landed BACs for which the FISH signals visibly flankedthe centromere. Alignment of linkage and cytological maps revealedthat pericentromeric heterochromatin of these sorghum chromosomesis largely devoid of recombination, which is mostly relegatedto the more distal regions, which are largely euchromatic. Thissuggests that the sorghum genome is thus even more amenableto physical mapping of genes and positional cloning than theC-value alone might suggest. As a prelude to positional cloningof the fertility restorer, Rf1, FISH of BAC clones flankingthe Rf1 locus was used to delimit the chromosomal position ofthe gene. FISH of BACs that contain the most proximal linkagemarkers enabled localization of Rf1 to a $~$ 0.4-Mbp euchromaticregion of LG-08. Cytogenetic analyses of Rf1 and other traitloci will aid in assessing the feasibility of positional cloningand help formulate strategies required for cloning this andother agriculturally critical genes.

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