TY - JOUR
T1 - Microsatellite discovery from BAC end sequences and genetic mapping to anchor the soybean physical and genetic maps
AU - Shoemaker, Randy C.
AU - Grant, David
AU - Olson, Terry
AU - Warren, Wesley C.
AU - Wing, Rod
AU - Yu, Yeisoo
AU - Kim, Hyeran
AU - Cregan, Perry
AU - Joseph, Bindu
AU - Futrell-Griggs, Montona
AU - Nelson, Will
AU - Davito, Jon
AU - Walker, Jason
AU - Wallis, John
AU - Kremitski, Colin
AU - Scheer, Debbie
AU - Clifton, Sandra W.
AU - Graves, Tina
AU - Nguyen, Henry
AU - Wu, Xiaolei
AU - Luo, Mingcheng
AU - Dvorak, Jan
AU - Nelson, Rex
AU - Cannon, Steven
AU - Tomkins, Jeff
AU - Schmutz, Jeremy
AU - Stacey, Gary
AU - Jackson, Scott
N1 - Generated from Scopus record by KAUST IRTS on 2019-11-20
PY - 2008/4/1
Y1 - 2008/4/1
N2 - Whole-genome sequencing of the soybean (Glycine max (L.) Merr. 'Williams 82') has made it important to integrate its physical and genetic maps. To facilitate this integration of maps, we screened 3290 microsatellites (SSRs) identified from BAC end sequences of clones comprising the 'Williams 82' physical map. SSRs were screened against 3 mapping populations. We found the AAT and ACT motifs produced the greatest frequency of length polymorphisms, ranging from 17.2% to 32.3% and from 11.8% to 33.3%, respectively. Other useful motifs include the dinucleotide repeats AG, AT, and AG, with frequency of length polymorphisms ranging from 11.2% to 18.4% (AT), 12.4% to 20.6% (AG), and 11.3% to 16.4% (GT). Repeat lengths less than 16 bp were generally less useful than repeat lengths of 40-60 bp. Two hundred and sixty-five SSRs were genetically mapped in at least one population. Of the 265 mapped SSRs, 60 came from BAC singletons not yet placed into contigs of the physical map. One hundred and ten originated in BACs located in contigs for which no genetic map location was previously known. Ninety-five SSRs came from BACs within contigs for which one or more other BACs had already been mapped. For these fingerprinted contigs (FPC) a high percentage of the mapped markers showed inconsistent map locations. A strategy is introduced by which physical and genetic map inconsistencies can be resolved using the preliminary 4x assembly of the whole genome sequence of soybean. © 2008 NRC.
AB - Whole-genome sequencing of the soybean (Glycine max (L.) Merr. 'Williams 82') has made it important to integrate its physical and genetic maps. To facilitate this integration of maps, we screened 3290 microsatellites (SSRs) identified from BAC end sequences of clones comprising the 'Williams 82' physical map. SSRs were screened against 3 mapping populations. We found the AAT and ACT motifs produced the greatest frequency of length polymorphisms, ranging from 17.2% to 32.3% and from 11.8% to 33.3%, respectively. Other useful motifs include the dinucleotide repeats AG, AT, and AG, with frequency of length polymorphisms ranging from 11.2% to 18.4% (AT), 12.4% to 20.6% (AG), and 11.3% to 16.4% (GT). Repeat lengths less than 16 bp were generally less useful than repeat lengths of 40-60 bp. Two hundred and sixty-five SSRs were genetically mapped in at least one population. Of the 265 mapped SSRs, 60 came from BAC singletons not yet placed into contigs of the physical map. One hundred and ten originated in BACs located in contigs for which no genetic map location was previously known. Ninety-five SSRs came from BACs within contigs for which one or more other BACs had already been mapped. For these fingerprinted contigs (FPC) a high percentage of the mapped markers showed inconsistent map locations. A strategy is introduced by which physical and genetic map inconsistencies can be resolved using the preliminary 4x assembly of the whole genome sequence of soybean. © 2008 NRC.
UR - http://www.nrcresearchpress.com/doi/10.1139/G08-010
UR - http://www.scopus.com/inward/record.url?scp=43549118881&partnerID=8YFLogxK
U2 - 10.1139/G08-010
DO - 10.1139/G08-010
M3 - Article
SN - 0831-2796
VL - 51
JO - Genome
JF - Genome
IS - 4
ER -