A high-density, integrated genetic linkage map of lettuce (Lactuca spp.) (original) (raw)
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A high-density, integrated genetic linkage map of lettuce (Lactuca spp.). Theor Appl Genet
2007
An integrated map for lettuce comprising of 2,744 markers was developed from seven intra-and inter-speciWc mapping populations. A total of 560 markers that segregated in two or more populations were used to align the individual maps. 2,073 AFLP, 152 RFLP, 130 SSR, and 360 RAPD as well as 29 other markers were assigned to nine chromosomal linkage groups that spanned a total of 1,505 cM and ranged from 136 to 238 cM. The maximum interval between markers in the integrated map is 43 cM and the mean interval is 0.7 cM. The majority of markers segregated close to Mendelian expectations in the intra-spe-ciWc crosses. In the two L. saligna £ L. sativa inter-speciWc crosses, a total of 155 and 116 markers in 13 regions exhibited signiWcant segregation distortion. Data visualization tools were developed to curate, display and query the data. The integrated map provides a framework for mapping ESTs in one core mapping population relative to phenotypes that segregate in other populations. It also provides large numbers of markers for marker assisted selection, candidate gene identiWcation, and studies of genome evolution in the Compositae.
Genetics
A detailed genetic map has been constructed from the F2 population of a single intraspecific cross of Lactuca sativa (n = 9). It comprises 319 loci, including 152 restriction fragment length polymorphism (RFLP), 130 random amplified polymorphic DNA (RAPD), 7 isozyme, 19 disease resistance, and 11 morphological markers. Thirteen major, four minor linkage groups and several unlinked markers are identified for this genome which is estimated to be approximately 1950 cM. RFLP and RAPD markers show similar distributions throughout the genome and identified similar levels of polymorphism. RAPD loci were much quicker to identify but more difficult to order. Procedures for generating accurate genetic maps and their limitations are described.
TAG Theoretical and Applied Genetics, 2001
AFLP markers were obtained with 12 EcoRI/ MseI primer combinations on two independent F 2 populations of Lactuca sativa × Lactuca saligna. The polymorphism rates of the AFLP products between the two different L. saligna lines was 39%, between the two different L. sativa cultivars 13% and between the L. sativa and L. saligna parents on average 81%. In both F 2 populations segregation distortion was found, but only Chromosome 5 showed skewness that was similar for both populations. Two independent genetic maps of the two F 2 populations were constructed that could be integrated due to the high similarity in marker order and map distances of 124 markers common to both populations. The integrated map consisted of 476 AFLP markers and 12 SSRs on nine linkage groups spanning 854 cM. The AFLP markers on the integrated map were randomly distributed with an average spacing between markers of 1.8 cM and a maximal distance of 16 cM. Furthermore, the AFLP markers did not show severe clustering. This AFLP map provides good opportunities for use in QTL mapping and marker-assisted selection.
A detailed linkage map of lettuce based on SSAP, AFLP and NBS markers
Theoretical and Applied Genetics, 2006
Molecular markers based upon a novel lettuce LTR retrotransposon and the nucleotide binding site-leucine-rich repeat (NBS-LRR) family of disease resistance-associated genes have been combined with AFLP markers to generate a 458 locus genetic linkage map for lettuce. A total of 187 retrotransposon-specific SSAP markers, 29 NBS-LRR markers and 242 AFLP markers were mapped in an F 2 population, derived from an interspecific cross between a Lactuca sativa cultivar commonly used in Europe and a wild Lactuca serriola isolate from Northern Europe. The cross has been designed to aid efforts to assess gene flow from cultivated lettuce into the wild in the perspective of genetic modification biosafety. The markers were mapped in nine major and one minor linkage groups spanning 1,266.1 cM, with an average distance of 2.8 cM between adjacent mapped markers. The markers are well distributed throughout the lettuce genome, with limited clustering of different marker types. Seventy-seven of the AFLP markers have been mapped previously and cross-comparison shows that the map from this study corresponds well with the previous linkage map.
An Ultra High-Density, Transcript-Based, Genetic Map of Lettuce
G3 (Bethesda, Md.), 2013
We have generated an ultra-high-density genetic map for lettuce, an economically important member of the Compositae, consisting of 12,842 unigenes (13,943 markers) mapped in 3,696 genetic bins distributed over nine chromosomal linkage groups. Genomic DNA was hybridized to a custom Affymetrix oligonucleotide array containing 6.4 million features representing 35,628 unigenes of Lactuca spp. Segregation of single-position polymorphisms was analyzed using 213 F7:8 recombinant inbred lines (RILs) that had been generated by crossing cultivated Lactuca sativa cv. Salinas and L. serriola acc. US96UC23, the wild progenitor species of L. sativa. The high level of replication of each allele in the recombinant inbred lines was exploited to identify single-position polymorphisms that were assigned to parental haplotypes. Marker information has been made available using GBrowse to facilitate access to the map. This map has been anchored to the previously published integrated map of lettuce provid...
Genetics, 1987
A detailed linkage map of lettuce was constructed using 53 genetic markers including 41 restriction fragment length polymorphism (RFLP) loci, five downy mildew resistance genes, four isozyme loci and three morphological markers. The genetic markers were distributed into nine linkage groups and cover 404 cM which may be 25-30% of the lettuce genome. The majority (31 of 34) of the RFLP probes detected single segregating loci, although seven of these may have been homologous to further monomorphic loci. When several loci were detected by a single probe, the loci were generally linked, suggesting tandem duplications. One probe, however, detected loci in three linkage groups suggesting translocations. The five downy mildew resistance genes (Dm1, Dm3, Dm4, Dm5/8 and Dm13), segregating in the Calmar x Kordaat cross, represented each of the four resistance gene linkage groups. Dm5/8 is flanked by two cDNA loci, each located 10 cM away. These flanking markers will be used to study the source...
Genetics, 1987
A detailed linkage map of lettuce was constructed using 53 genetic markers including 41 restriction fragment length polymorphism (RFLP) loci, five downy mildew resistance genes, four isozyme loci and three morphological markers. The genetic markers were distributed into nine linkage groups and cover 404 cM which may be 25-30% of the lettuce genome. The majority (31 of 34) of the RFLP probes detected single segregating loci, although seven of these may have been homologous to further monomorphic loci. When several loci were detected by a single probe, the loci were generally linked, suggesting tandem duplications. One probe, however, detected loci in three linkage groups suggesting translocations. The five downy mildew resistance genes (Dm1, Dm3, Dm4, Dm5/8 and Dm13), segregating in the Calmar x Kordaat cross, represented each of the four resistance gene linkage groups. Dm5/8 is flanked by two cDNA loci, each located 10 cM away. These flanking markers will be used to study the source of variation in downy mildew genes and are also part our strategy to clone resistance genes.
Recent molecular and breeding strategies in lettuce (Lactuca spp
2021
Lettuce (Lactuca spp.) is an annual and self-pollinating crop that belongs to the Asteraceae (Compositae) family. It is one of the most globally essential commercial vegetable crops, used in salads and sandwiches. The lettuce leaves are used to make a cigarette without nicotine. Seeds and stems contain edible oil and dried latex. Gene banks have conserved a large pool of lettuce's genetic resources, including wild Lactuca species with the same chromosome numbers 2n = 2x = 18. Lactuca species vary greatly in terms of geographical distribution and morphoagronomic characteristics. By crossing commercial varieties with locally adapted varieties, novel alleles can be introduced, increasing genetic diversity and making preselection for desirable traits easier. Lettuce breeders and geneticists' main objectives are to improve lettuce for various desirable traits, including tolerance to abiotic and biotic stress and high yield. These targets accomplished with modern genomics tools together with traditional breeding methods. This chapter discusses lettuce conservation and biodiversity, stages of lettuce breeding, agriculture practices, and conventional breeding techniques and their restrictions. It also includes modern plant breeding tools and marker-assisted breeding, editing of genome, and genetic engineering.
Population Structure in Cultivated Lettuce and Its Impact on Association Mapping
Journal of the American Society for Horticultural Science, 2008
The association mapping technique is a useful tool for detecting markers linked to the genes underlying the variation of a trait among elite cultivars. To avoid false-positive results due to unrecognized population structure in the analyzed set of individuals, the subpopulations need to be identified. Fifty-four lettuce (Lactuca sativa L.) cultivars representing five horticultural types important in North America, together with six accessions from two wild species (Lactuca saligna L. and Lactuca serriola L.), were assayed for polymorphism with target region amplified polymorphism (TRAP) marker loci. The model-based clustering approach recognized three main subpopulations in cultivated lettuce that are well separated from wild species. Although the clustering based on molecular markers was generally in good agreement with horticultural types, some cultivars were classified differently or showed mixed origin. The effect of population structure on association mapping was tested on four...