2000
DOI: 10.1101/gr.10.6.789
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A High-throughput AFLP-based Method for Constructing Integrated Genetic and Physical Maps: Progress Toward a Sorghum Genome Map

Abstract: Sorghum is an important target for plant genomic mapping because of its adaptation to harsh environments, diverse germplasm collection, and value for comparing the genomes of grass species such as corn and rice. The construction of an integrated genetic and physical map of the sorghum genome (750 Mbp) is a primary goal of our sorghum genome project. To help accomplish this task, we have developed a new high-throughput PCR-based method for building BAC contigs and locating BAC clones on the sorghum genetic map.… Show more

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Cited by 186 publications
(188 citation statements)
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“…The optimal cutoff will vary based on the fingerprint method, data acquisition, image analysis package, number of bands, and the amount of error and must be optimized for a given set of experimental parameters. Some tolerance/ cutoff variations are 7/1e-14 (Klein et al 2000), 5/1e-06 , 7/1e-09 (Zhu et al 1999), and 8/1e-09 (Marra et al 1997), and we use a tolerance 7 cutoff 1e-10 for complete digest BAC data for human chromosomes 9, 10, and 13.…”
Section: Discussionmentioning
confidence: 99%
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“…The optimal cutoff will vary based on the fingerprint method, data acquisition, image analysis package, number of bands, and the amount of error and must be optimized for a given set of experimental parameters. Some tolerance/ cutoff variations are 7/1e-14 (Klein et al 2000), 5/1e-06 , 7/1e-09 (Zhu et al 1999), and 8/1e-09 (Marra et al 1997), and we use a tolerance 7 cutoff 1e-10 for complete digest BAC data for human chromosomes 9, 10, and 13.…”
Section: Discussionmentioning
confidence: 99%
“…Zhu et al (1999) built a sequence ready map of chromosome 7 of the rice blast fungus Magnaporthe grisea by using BAC contigs assembled by hybridization and integrated with fingerprinted BAC contigs Hoskins et al (2000) integrated STS content, restriction fingerprinting, and polytene chromosome in situ hybridization to produce a Drosophila melanogaster map for 81% of the genome. Klein et al (2000) used amplified fragment length polymorphism (AFLP)-based markers integrated with fingerprints to map sorghum. To provide confirmation of overlap and information to merge contigs, the Sanger Centre traditionally has used markers with fingerprints (e.g., see Mungall et al 1997;Soderlund et al 1998).…”
mentioning
confidence: 99%
“…These sorghum maps contain DNA markers common to maize and other grass genetic maps, making crossreferencing between these species possible. Construction of an integrated physical and genetic map for sorghum has recently been initiated, using sixdimensional pooling of sorghum bacterial artificial chromosome (BAC) libraries, coupled with amplified fragment-length polymorphism technology (Klein et al, 2000; http://SorghumGenome.tamu.edu). This resource will facilitate map-based cloning of genes and the acquisition of sorghum gene sequences for comparative sequence analysis.…”
mentioning
confidence: 99%
“…An efficient way to provide these anchor points is by construction of a whole genome physical map from bacterial artificial chromosome (BAC) clones (Shizuya et al 1992;Rounsley et al 2009), in combination with BAC-end sequencing (Nelson and Soderlund 2009). BAC insert clones are relatively easy to generate and store and have proven to be effective for genome-wide physical map construction (Gregory et al 1997;Marra et al 1997;Klein et al 2000;Wu et al 2004). Hence, BAC-based physical maps combined with BAC-end sequencing have formed the basis of several whole genome sequencing projects (Sasaki et al 2005;Wei et al 2007).…”
mentioning
confidence: 99%