Diversity analysis and species identification in Lens using PCR generated markers

Using random amplified polymorphic DNA (RAPD) analysis we assessed the genetic relationships between 16 accessions and cultivars of lentil (Lens culinaris ssp. culinaris) in the Australian lentil breeding program. All lines exhibited polymorphism with a maximum dissimilarity value of 0.36. This indicated a limited degree of genetic variation. Polymerase chain reaction (PCR) with primers based on the flanking regions of the 5S rRNA gene from Pisum sativum amplified the non-translated spacer (NTS) region from within the 5S rRNA gene of Lens. Three distinct amplification banding patterns differentiated between restricted genomic DNA of Lens spp. L. culinaris ssp. culinaris and L. culinaris ssp. orientalis shared similar markers of two distinctly different NTS sizes. L. nigricans and L. odemensis shared the same amplification pattern of a single sized NTS region. However, L. ervoides contained two separate sizes of NTS, distinct from other Lens species. In an effort to widen the genetic base of cultivated lentil, these species-specific molecular markers may be used to follow potential introgression between species. This revised version was published online in July 2006 with corrections to the Cover Date.     

Inheritance of new genetic markers in lentil (Lens Miller)

Summary We report on the inheritance of 11 morphological markers and 17 isozymes in lentil (Lens culinaris). The monogenic inheritance of 11 morphological markers and 11 isozymes is confirmed. The inheritance of six isozymes (Aco-2, Enp, Est-3, Est-4, Lap-3, and Mdh-m) is reported for the first time in lentil. This brings the total number of described genes in lentil to 78. Cases of disturbed segregation were more frequent than expected by chance. It is suggested that disturbed segregation was in most cases caused by linkage with a piece of chromosome that showed preferential elimination in crosses between Lens culinaris ssp. odemensis and other subspecies. The prevalence of disturbed segregation in crosses with Lens culinaris ssp. odemensis could limit the usefulness of this subspecies in genetic and linkage studies.     

Wide mapping of a T-DNA insertion site in oilseed rape using bulk segregant analysis and comparative mapping

Doubled haploid oilseed rape lines segregating for a transgene inducing herbicide resistance (bar gene) were investigated for the wide mapping of the T-DNA insertion site. Bulk segregant analysis using presence/absence and intensity polymorphisms between the bulks, as well as comparative mapping with a linkage group deriving from another cross, led to the identification of 11 random amplified polymorphic DNA (RAPD) markers tightly or loosely linked to the bar gene. Ten RAPD loci out of 11 were located on the same side of the bar locus, strongly suggesting that the T-DNA integrated in a telomeric or subtelomeric position. The eleventh RAPD marker exhibited a strong segregation distortion, which could be the result of a heteroduplex formation. Comparison of the linkage groups obtained from the two crosses showed different recombination rates between markers, possibly reflecting differences in parental genetic backgrounds. Consequences and potential applications in transgene dispersal safety assessment studies are discussed.     

AFLP fingerprinting in Medicago spp.: Its development and application in linkage mapping

Cultivated alfalfa (Medicago sativa L., 2n= 4x= 32) is one of the most important forage crops in temperate climates. The genus Medicago includes diploid species that are a valuable source of wild germplasm for studying the reproductive system of alfalfa and its abnormalities. A linkage map of an apomeiotic mutant of Medicago falcata (L.) Arcang. (2n= 2x= 16) that spanned 368.6 cM and included 29 amplified fragment length polymorphism (AFLP), 35 random amplified polymorphic DNA (RAPD) and three restriction fragment length polymorphism (RFLP) loci was constructed using a one-way pseudo-testcross mapping strategy. The success of such a strategy depends on the presence of sufficiently high levels of heterozygosity in the individual plant which is being mapped and on the informativeness of the marker system that is used. In general: (1) highly informative and reproducible RAPD and AFLP fingerprints were generated and several genome-specific primers selected; (2) of 67 marker loci mapped, 51 were arranged in 11 main linkage groups and eight additional couples of linked marker loci were detected; (3) mapping of an F₁ population theoretically allowed a better estimation of linkage distances since it avoided segregation distortion (x² analyses revealed segregation distortion in only 5.2% of marker loci); (4) the high frequency of unlinked marker loci obtained suggests that, in this alfalfa genotype, DNA markers are distributed throughout the genome. This type of genetic map should find application and prove useful in marker-assisted selection and map-based breeding programmes in meiotic mutants of alfalfa for which there is a lack of suitable genetic markers.     

短季棉早熟性的分子标记及QTL定位

以两个陆地棉品种中棉所36×TM-1的207个F2单株为作图群体,筛选出73个多态性引物,25个SSR标记、35个RAPD标记和13个SRAP标记,构建了第一张以研究短季棉为主的包含43个标记,标记间的最小遗传距离为11.8 cM,最大遗传距离为48.9 cM,总长1174.0 cM的遗传连锁图谱,覆盖棉花基因组总长度的23.48%。检测到与短季棉早熟性状相关的12个QTLs,其中有8个QTLs呈簇分布在LG1连锁群上,找到对表型变异的贡献率在30%以上与全生育期、霜前花率和开花期有关的QTL各1个。     

RAPD and SCAR markers for resistance to acochyta blight in lentil

Resistance to ascochyta blight of lentil (Lens culinaris Medikus),caused by the fungus Ascochyta lentis, is determined by a single recessive gene, ral ₂, in the lentil cultivar Indian head. Sixty F₂ individuals from a cross between Eston (susceptible) and Indian head (resistant) lentil were analyzed for the presence of random amplified polymorphic DNA (RAPD) markers linked to the ral ₂gene, using bulked segregant analysis (BSA). Out of 800 decanucleotide primers screened, two produced polymorphic markers that co-segregated with the resistance locus. These two RAPD markers, UBC227₁₂₉₀and OPD-10₈₇₀, flanked and were linked in repulsion phase to the gene ral ₂ at 12 cm and 16 cm, respectively. The RAPD fragments were converted to SCAR markers. The SCAR marker developed from UBC227₁₂₉₀ could not detect any polymorphism between the two parents or in the F₂. The SCAR marker developed from OPD-10₈₇₀ retained its polymorphism. The polymorphic RAPD marker UBC227₁₂₉₀ and the SCAR marker developed from OPD-10₈₇₀ can be used together in a marker assisted selection program for ascochyta blight resistance in lentil. This revised version was published online in July 2006 with corrections to the Cover Date.     

Construction of a linkage map for watermelon (Citrullus lanatus (Thunb.) Matsum & Nakai) using random amplified polymorphic DNA (RAPD)

Summary A linkage map for watermelon (Citrullus lanatus) was constructed on the basis of RADP, ribosomal DNA restriction fragment length polymorphism (RFLP), isozyme, and morphological markers using F₁BC1. A segregating population of 78 individuals was the result of a backcross of a cultivated inbred line (H-7; Citrullus lanatus; 2n=22) and a wild form (SA-1; C. lanatus; 2n=22), in which the latter was the recurrent (male) parent. A total of 69 RAPD, one RFLP, one isozyme, and three morphological markers was found to segregate in the BC1 population. Linkage analysis revealed that 62 loci could be mapped to 11 linkage groups that extended more than 524 centimorgans (cM), while 12 loci segregated independently of all other markers. The locus for exocarp color was linked to two RAPD markers within a region of 5 cM on linkage group 4. The locus for flesh color was linked to a RAPD marker within a region of 30 cM on linkage group 6. The isozyme marker GOT was located on the linkage group 1. Linkage group 2 contained a locus for ribosomal DNA within 5 cM of a RAPD marker. Half of the RAPD markers on the linkage group 7 displayed severely distorted segregation. The construction of linkage map using molecular markers is necessary for the breeding of watermelon to introduce useful gene of wild watermelon efficiently. However the linkage map that was constructed for the most part on the basis of RAPD markers could not cover significant parts of the genome, the linkage map provides breeders of watermelons the possibility of tagging useful agronomic traits, as well as the gene for exocarp color.Abbreviations RAPD random amplified polymorphic DNA - RFLP restriction fragment length polymorphism - GOT glutamate oxaloacetate transaminase - MDH malate dehydrogenase - ACP acid phosphatase - 6PGH 6-phosphogluconate dehydrogenase     

Genetic variation within and between two cultivars of red clover (Trifolium pratense L.): Comparisons of morphological,isozyme, and RAPD markers

Summary Morphological, isozyme and random amplified polymorphic DNA (RAPD) markers were used to estimate genetic variation within and between cultivars of red clover (Trifolium pratense L.), an important temperate forage legume. Two cultivars of red clover, Essi from Europe and Ottawa from Canada, were evaluated. Six monogenic morphological characters were observed for 80 plants from each of these two cultivars. All six morphological loci were polymorphic in the cultivar Essi whereas only four loci were polymorphic in the cultivar Ottawa. Forty plants from each cultivar were assayed for isozyme markers. A total of 21 enzyme-coding loci with 43 alleles was detected using twelve enzyme systems. Thirteen and nine of these loci were polymorphic in Essi and Ottawa, respectively. The mean number of alleles per locus was 1.81 in Essi and 1.67 in Ottawa. Seventeen random 10-mer primers were screened for RAPD markers. Nine primers which gave clear and consistent amplified products were used to assay 20 individuals from each cultivar. Each primer gave from 7 to 20 amplified bands with an average of 14.8 bands per primer. One hundred and eight of 116 putative loci were polymorphic in Essi and 90 of 98 loci were polymorphic in Ottawa. High within-cultivar variation was observed in both cultivars using both isozyme and RAPD markers. This high polymorphism makes these markers useful for germplasm characterization and genetic studies in red clover.     

Random Amplified Polymorphic DNA (RAPD) Markers in Sugar Beet (Beta vulgaris L.): Mapping the Genes for Nematode Resistance and Hypocotyl Colour

The random amplified polymorphic DNA (RAPD) technique was adapted for segregation analysis in sugar beet. 83 I_O/I individuals were scored with a set of 20 arbitrary decamer primers. 4 preliminary linkage groups could be established, enclosing 9 RAPD markers, 2 isozyme loci, a gene for the hypocotyl colour and a gene for resistance to the root knot nematode (Heterodera schachtii Schm.).     

Construction of an integrated genetic map based on maternal and paternal lineages of tea (Camellia sinensis)

Genetic study on important traits of tea is difficult because of its self-incompatibility in nature. Moreover, development of a new variety usually needs more than 20 years, since it takes many years from seedling to matured plants for trait investigation. Genetic map is an essential tool for genetic study and breeding. In this study, we have developed an integrated genetic map of tea (Camellia sinensis) using a segregating F1 population derived from a cross between two commercial cultivars (‘TTES 19’ and ‘TTES 8’). A total of 574 polymorphic markers (including SSR, CAPS, STS, AFLP, ISSR and RAPD), 69 markers with highly significant levels of segregation distortion (P < 0.001) (12.0 %) were excluded from further analyses. Of the 505 mapped markers, there were 265 paternal markers (52.5 %), 163 maternal markers (32.3 %), 65 doubly heterozygous dominant markers (12.9 %), and 12 co-dominant markers (2.4 %). The co-dominant markers and doubly heterozygous dominant markers were used as bridge loci for the integration of the paternal and maternal maps. The integrated map comprised 367 linked markers, including 36 SSR, 3 CAPS, 1 STS, 250 AFLP, 13 ISSR and 64 RAPD that were assigned to 18 linkage groups. The linkage groups represented a total map length of 4482.9 cM with a map density of 12.2 cM. This genetic map has the highest genetic coverage so far, which could be applied to comparative mapping, QTL mapping and marker assisted selection in the future.     

A genetic linkage map of rhodesgrass based on an F1 pseudo-testcross population

The linkage relationships between 164 polymorphic amplified fragment length polymorphism (AFLP) and 25 restriction fragment length polymorphism (RFLP) fragments assayed in a pseudo‐testcross population generated from the mating of single genotypes from two divergent cultivars were used to construct female, ‘Katambora’ (‘Kat’) and male, ‘Tochirakukei’ (‘Toch’) parental genetic maps for rhodesgrass. The ‘Kat’ genetic map consists of 84 marker loci (72 AFLP and 12 RFLP markers) distributed on 14 linkage groups and spans a total length of 488.3 cM, with an average distance of 7.8 cM between adjacent markers. The ‘Toch’ genetic map consists of 61 marker loci (52 AFLP and nine RFLP) mapped on 12 linkage groups spanning a total length of 443.3 cM, with an average spacing of 9.0 cM between adjacent markers. About 23% of the markers remained unassigned. The level of segregation distortion observed in this cross was 11.1%. In both maps, linked duplicated RFLP loci were found. These linkage maps will serve as a starting point for linkage studies in rhodesgrass with potential application for marker‐assisted selection in breeding programmes.     

Development,characterization and mapping of microsatellite markers for lentil (Lens culinaris Medik.)

Lentil is the sixth most important pulse crop terms of production in the world, but the number of available and mapped SSR markers are limited. To develop SSR markers in lentil, four genomic libraries for (CA)n, (GA)n, (AAC)n and (ATG)n repeats were constructed. A total of 360 SSR primers were designed and validated using 15 Turkish lentil cultivars and genotypes. The most polymorphic repeat motifs were GA and CT, with a mean number of alleles per locus of 7.80 and 6.55, respectively. Seventy‐eight SSR primers amplified a total of 400 polymorphic alleles, whereas 71 SSR primers produced markers within the expected size range. For 78 polymorphic SSR primers, the average number of alleles per locus was 5.1 and PIC value ranged from 0.07 to 0.89, with an average of 0.58. A linkage map was constructed using 92 individual F₂ plants derived from a cross between Karacada? × Silvan, with 47 SSR markers. The SSR markers developed in this study could be used for germplasm classification and identification and mapping of QTL in lentil.     

A high-density integrative linkage map for <Emphasis Type="Italic">Gossypium hirsutum</Emphasis>

Sequence-related amplified polymorphism (SRAP) combined with SSRs, RAPDs, and RGAPs was used to construct a high density genetic map for a F₂ population derived from the cross DH962 (G. hirsutum accession) × Jimian5 (G. hirsutum cultivar). A total of 4,096 SRAP primer combinations, 6310 SSRs, 600 RAPDs, and 10 RGAPs produced 331, 156, 17 and 2 polymorphic loci, respectively. Among the 506 loci obtained, 471 loci (309 SRAPs, 144 SSRs, 16 RAPDs and 2 RGAPs) were assigned to 51 linkage groups. Of these, 29 linkage groups were assigned to corresponding chromosomes by SSR markers with known chromosome locations. The map covered 3070.2 cM with a mean density of 6.5 cM per locus. The segregation distortion in this population was 9.49%, and these distorted loci tend to cluster at the end of linkage groups or in minor clusters on linkage groups. The majority of SRAPs in this map provided an effective tool for map construction in G. hirsutum despite of its low polymorphism. This high-density linkage map will be useful for further genetic studies in Upland cotton, including mapping of loci controlling quantitative traits, and comparative and integrative analysis with other interspecific and intraspecific linkage maps in cotton.     

Varietal identification in Cichorium intybus L. and determination of genetic purity of F1 hybrid seed samples, based on RAPD markers

Random amplified polymorphic DNA (RAPD) markers were used to distinguish between several Cichorium intybus genotypes, comprising four white witloof inbred lines, three red witloof experimental inbred lines and a number of F1 hybrids derived from two white parents. Amplification conditions and reproducibility of RAPD patterns were examined. Comparison of polymerase chain reaction (PCR) products obtained by using 100 10-mer arbitrary primers allowed identification of all the lines analysed. With several primers, we defined line-specific RAPD markers, while with others polymorphism was more extensive, revealing several RAPD markers for several lines. All the differences were confirmed both on individual heads and young seedlings for each genotype. Because of the Mendelian segregation of these molecular markers, this method was applied to evaluate the genetic purity of F1 hybrid seed samples.     

基于SSR分子标记技术的葡萄种间杂交F1代鉴定

SSR分子标记技术以其多态性高、重复性好和检测方便快捷等优点,被广泛应用于植物F1代真假杂种的鉴定.为了长期有效的开展葡萄杂交育种工作,本研究以葡萄杂交组合'北冰红'×'贵人香'F1代159个单株及'双红'×'贵人香'F1代121个单株为试验材料,利用SSR分子标记技术结合田间形态学性状对葡萄杂交后代的真伪进行鉴定.在...     

甘蓝型油菜遗传图谱的构建及芥酸含量的QTL分析

一个由甘蓝型油菜品种Quantum (黄花、低芥酸)和人工合成的甘蓝型油菜品系No.2127-17（白花、高芥酸）为亲本材料建立的DH群体中芥酸呈现单基因的遗传模式。为了发展与芥酸紧密连锁的分子标记对其实行有效的控制,随机选择121个结实正常的DH系为作图群体,利用SSR和RAPD标记构建了一张甘蓝型油菜的遗传连锁图谱。在亲本间检测     

A genetic map of Welschriesling × Sirius for the identification of magnesium-deficiency by QTL analysis

Summary A genetic linkage map of grapevine was constructed with 92 progeny, which was derived from a cross of Welschriesling × Sirius using the pseudo-testcross strategy. Welschriesling is known for showing low magnesium uptake. The segregation pattern of this defect was compared with the segregation pattern of 251 molecular markers, 237 simple sequence repeat (SSR) and 14 random amplified polymorphic DNA (RAPD) marker. These markers were used to construct the parental genetic maps and could be arranged into 20 linkage groups. The maternal (Welschriesling) and the paternal (Sirius) maps were aligned in one consensus map. Mapmaker 3.0 software was used for the calculations of linkage groups. The genetic map rendered it possible to identify a QTL (quantitative trait loci) in linkage group 11. This loci can be associated with visual symptoms of Mg lack and the amount of Mg concentration in the leaves of the grape zone. The SSR markers VVS2 and VMC 6g1 showed the highest linkage to the core region of the Mg-QTL.     

Genetic analysis of Lolium. I. Identification of linkage groups and the establishment of a genetic map

A genetic map of Lolium has been produced using isozyme, restriction fragment length polymorphism (RFLP) and random amplified polymorphic DNA (RAPD) markers applied to a segregating family derived from an F₁ hybrid plant of L. perenne × L. multiflorum provenance, crossed on to a doubled haploid L. perenne. A total of 106 markers, out of a total of 160 polymorphic loci analysed, have been ascribed to seven linkage groups covering a map distance of 692cM, Two of these groups may be allocated to chromosomes 2 and 6 of the Lolium genome. The remaining unallocated markers, the majority of which showed severe segregation distortion, could be associated into small groups of two or three markers which showed no linkage with the main groups at a LOD of 2.8 or, if associated, could not be mapped in a satisfactory manner. This high incidence of disturbed segregations could be accounted for by the use of an interspecific hybrid between two species of differing genome size, with consequent cytological imbalance.     

Construction of high-resolution linkage map of the Ms locus, a restorer-of-fertility gene in onion (Allium cepa L.)

For the purpose of developing closely-linked molecular markers to the Ms locus, a restorer-of-fertility gene in onions (Allium cepa L.), bulked segregant analysis and randomly amplified polymorphic DNA (RAPD) analyses were utilized. Five RAPD markers polymorphic between male-fertile and male-sterile bulks were identified. These RAPD markers were converted into a simple PCR marker or cleaved amplified polymorphic sequence (CAPS) markers after sequencing the RAPD products and obtaining flanking sequences of the RAPD markers by genome walking. A linkage map was constructed with the Ms locus and flanking markers using a F₂ population. There was no recombinant between the Ms locus and two CAPS markers, jnurf05 and jnurf17. To increase resolution among these closely linked molecular markers and the Ms locus, a total of 1,346 F_2:3 and 2,927 F_2:4 plants were analyzed with two flanking markers for detection of recombinants. Segregation of male-fertility phenotypes in large-sized populations confirmed allelic segregation distortion in favor of the recessive Ms allele. Analysis of the recombinants with closely linked markers revealed only two recombinants between the Ms locus and the jnurf05 markers among 4,273 segregating plants, showing very tight linkage between the two loci. However, linkage disequilibrium between the two loci was not too strong among the breeding lines. Despite weak linkage disequilibrium, these tightly linked markers are useful in accurate marker-assisted selection of the Ms alleles and ultimate isolation of the Ms gene by map-based cloning approach.