SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W94743552> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W94743552 endingPage "317" @default.
W94743552 startingPage "297" @default.
W94743552 abstract "In genetics databases for crop plant species across the world, there are thousands of mapped loci that underlie quantitative traits, oligogenic traits, and simple traits recognized by association mapping in populations. The number of loci will increase as new phenotypes are measured in more diverse genotypes and genetic maps based on saturating numbers of markers are developed. A period of locus reevaluation will decrease the number of important loci as those underlying mega-environmental effects are recognized. A second wave of reevaluation of loci will follow from developmental series analysis, especially for harvest traits like seed yield and composition. Breeding methods to properly use the accurate maps of QTL are being developed. New methods to map, fine map, and isolate the genes underlying the loci will be critical to future advances in crop biotechnology. Microsatellite markers are the most useful tool for breeders. They are codominant, abundant in all genomes, highly polymorphic so useful in many populations, and both economical and technically easy to use. The selective genotyping approaches, including genotype ranking (indexing) based on partial phenotype data combined with favorable allele data and bulked segregation event (segregant) analysis (BSA), will be increasingly important uses for microsatellites. Examples of the methods for developing and using microsatellites derived from genomic sequences are presented for monogenic, oligogenic, and polygenic traits. Examples of successful mapping, fine mapping, and gene isolation are given. When combined with high-throughput methods for genotyping and a genome sequence, the use of association mapping with microsatellite markers will provide critical advances in the analysis of crop traits." @default.
W94743552 created "2016-06-24" @default.
W94743552 creator A5039682348 @default.
W94743552 creator A5053968212 @default.
W94743552 date "2013-01-01" @default.
W94743552 modified "2023-09-23" @default.
W94743552 title "Molecular Mapping and Breeding with Microsatellite Markers" @default.
W94743552 cites W1498612512 @default.
W94743552 cites W1960233596 @default.
W94743552 cites W1966591610 @default.
W94743552 cites W1967110501 @default.
W94743552 cites W1970184042 @default.
W94743552 cites W1972986104 @default.
W94743552 cites W1978400253 @default.
W94743552 cites W1986618800 @default.
W94743552 cites W198886970 @default.
W94743552 cites W1989726089 @default.
W94743552 cites W1994973300 @default.
W94743552 cites W2002060951 @default.
W94743552 cites W2009842075 @default.
W94743552 cites W2012331775 @default.
W94743552 cites W2012986985 @default.
W94743552 cites W2013016183 @default.
W94743552 cites W2015086341 @default.
W94743552 cites W2015718283 @default.
W94743552 cites W2017316632 @default.
W94743552 cites W2028112617 @default.
W94743552 cites W2033306004 @default.
W94743552 cites W2034038998 @default.
W94743552 cites W2034848873 @default.
W94743552 cites W2037210253 @default.
W94743552 cites W2037600858 @default.
W94743552 cites W2044234033 @default.
W94743552 cites W2045262291 @default.
W94743552 cites W2047722327 @default.
W94743552 cites W2048221694 @default.
W94743552 cites W2049113610 @default.
W94743552 cites W2061744749 @default.
W94743552 cites W2061964545 @default.
W94743552 cites W2062582946 @default.
W94743552 cites W2066557259 @default.
W94743552 cites W2074042528 @default.
W94743552 cites W2076938330 @default.
W94743552 cites W2078992102 @default.
W94743552 cites W2080595997 @default.
W94743552 cites W2083390739 @default.
W94743552 cites W2085315239 @default.
W94743552 cites W2085840834 @default.
W94743552 cites W2087888447 @default.
W94743552 cites W2088207751 @default.
W94743552 cites W2090568649 @default.
W94743552 cites W2091810979 @default.
W94743552 cites W2094169637 @default.
W94743552 cites W2097906839 @default.
W94743552 cites W2100157296 @default.
W94743552 cites W2101145091 @default.
W94743552 cites W2101308897 @default.
W94743552 cites W2105813099 @default.
W94743552 cites W2106306436 @default.
W94743552 cites W2109951473 @default.
W94743552 cites W2110790973 @default.
W94743552 cites W2113395379 @default.
W94743552 cites W2116191599 @default.
W94743552 cites W2123717662 @default.
W94743552 cites W2125512764 @default.
W94743552 cites W2131016694 @default.
W94743552 cites W2131112579 @default.
W94743552 cites W2133372013 @default.
W94743552 cites W2141550398 @default.
W94743552 cites W2146108696 @default.
W94743552 cites W2146417460 @default.
W94743552 cites W2149499248 @default.
W94743552 cites W2159462333 @default.
W94743552 cites W2159474015 @default.
W94743552 cites W2160524963 @default.
W94743552 cites W2169773990 @default.
W94743552 cites W2496057729 @default.
W94743552 cites W2616754551 @default.
W94743552 cites W4242641176 @default.
W94743552 cites W4256580069 @default.
W94743552 doi "https://doi.org/10.1007/978-1-62703-389-3_20" @default.
W94743552 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23546799" @default.
W94743552 hasPublicationYear "2013" @default.
W94743552 type Work @default.
W94743552 sameAs 94743552 @default.
W94743552 citedByCount "3" @default.
W94743552 countsByYear W947435522015 @default.
W94743552 countsByYear W947435522018 @default.
W94743552 countsByYear W947435522020 @default.
W94743552 crossrefType "book-chapter" @default.
W94743552 hasAuthorship W94743552A5039682348 @default.
W94743552 hasAuthorship W94743552A5053968212 @default.
W94743552 hasConcept C104317684 @default.
W94743552 hasConcept C121212380 @default.
W94743552 hasConcept C122735190 @default.
W94743552 hasConcept C127716648 @default.
W94743552 hasConcept C130073038 @default.
W94743552 hasConcept C134443026 @default.