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

Mandl, K.; Santiago, J.L.; Hack, R.; Fardossi, Adel; Regner, F.

doi:10.1007/s10681-005-9061-8

Cited by 29 publications

(21 citation statements)

References 16 publications

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“…This chromosome appears to be problematic as Lowe and Walker (2006) also could not construct a linkage group 15 for 'Riparia Gloire' (V. riparia), while the map for the other parent, 'Ramsey' (V. champinii), contained four markers spanning a region of 28 cM. Similarly, the map for 'Sirius' (an inter-species hybrid descendant from a cross of 'Bacchus' 9 'Villard Blanc') was absent, despite the fact that the consensus map contained eight markers (Mandl et al 2006). A map could also not be calculated for chromosome 15 in the 'VRH 3082 1-42' 9 'SK77 5/3' population investigated by Moreira et al (2011).…”

Section: Discussionmentioning

confidence: 97%

Detection of downy and powdery mildew resistance QTL in a ‘Regent’ × ‘RedGlobe’ population

et al. 2014

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One hundred and eighty six F 1 plants from a 'Regent' 9 'RedGlobe' cross were used to generate a partial linkage map with 139 microsatellite markers spanning all 19 chromosomes. Phenotypic scores for downy mildew, taken over two years, confirmed a major resistance QTL (Rpv3) against downy mildew in the interval VVIN16-cjvh to UDV108 on chromosome 18 of 'Regent'. This locus explained up to 62 % of the phenotypic variance observed. Additionally a putative minor downy mildew resistance locus was observed on chromosome 1 in one season. A major resistance locus against powdery mildew (Ren3) was also identified on chromosome 15 of 'Regent' in the interval UDV116 to VChr15CenGen06. This study established the efficacy of and validated the 'Regent'-derived downy and powdery mildew major resistance genes/QTL under South African conditions. Closely linked SSR markers for marker-assisted selection and gene pyramiding strategies were identified.

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Section: Discussionmentioning

confidence: 97%

Detection of downy and powdery mildew resistance QTL in a ‘Regent’ × ‘RedGlobe’ population

et al. 2014

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“…Due to high heterozygousity in out-breeding species, an F 1 population pseudo-testcross strategy has been widely used for linkage analysis (Grattapaglia and SederoV 1994;Arcade et al 2000;Porceddu et al 2002;Hanley et al 2002;Barcaccia et al 2003;La Rosa et al 2003;DoucleV et al 2004;Dirlewanger et al 2004;Graham et al 2004;Beedanagari et al 2005;Kenis and Keulemans 2005;Verde et al 2005;Lanteri et al 2006;Lowe and Walker 2006;Mandl et al 2006). Other mapping populations such as F 1 full-sib progeny (Maliepaard et al 1997;Venkateswarlu et al 2006) and BC 1 mapping populations (Lalli et al 2008) have also been used for linkage map construction.…”

Section: Introductionmentioning

confidence: 99%

“…Other mapping populations such as F 1 full-sib progeny (Maliepaard et al 1997;Venkateswarlu et al 2006) and BC 1 mapping populations (Lalli et al 2008) have also been used for linkage map construction. In a pseudo-testcross, a single full-sib population is generated by crossing two parents in which one parent is heterozygous at one locus, and the other parent is homozygous at other loci (Mandl et al 2006). Although the pseudo-testcross strategy has been widely used in the mapping of many out-breeding species, it is diYcult to determine if one of the parents is homozygous for any speciWc locus or loci.…”

Section: Introductionmentioning

confidence: 99%

A linkage map for flowering dogwood (Cornus florida L.) based on microsatellite markers

Wang

Wadl

Rinehart³

et al. 2008

Euphytica

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A genetic linkage map of Xowering dogwood (Cornus Xorida L.) was constructed using 94 individuals derived from a cross of two F 1 trees designated 97-6 and 97-7, which were originally from a cross between 'Appalachian Spring' and 'Cherokee Brave'. Out of approximately 800 SSR loci examined, 271 were polymorphic between 'Appalachian Spring' and 'Cherokee Brave', but were monomorphic between 97-6 and 97-7. These 271 segregating markers were used to build a linkage map for Xowering dogwood. Eleven linkage groups were obtained with a log-of-odds (LOD) value of 6.0 using JoinMap® 4.0 software, which matches the chromosome number of Xowering dogwood haploid genome. This linkage map consisted of 255 SSR loci, spanned a total of 1,175 centimorgans (cM) with an average internal distance of 4.6 cM. Several larger gaps and slight clustering of markers were present on this linkage map. This is the Wrst linkage map of Xowering dogwood and will be a fundamental tool for new gene identiWcation and marker-assisted selection in our Xowering dogwood breeding program.

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“…For Malverina the definition of chromosome 11 failed due to homozygous alleles. In the same group the QTL for Mg uptake was detected [17].…”

Section: Population 1929 (Grüner Veltliner X Malverina)mentioning

confidence: 84%

Breeding of fungal resistant varieties derived from Grüner Veltliner by chromosomal selection

et al. 2016

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Abstract. Traditional cultivar Grüner Veltliner is the most appreciated vine in Austrian viticulture. Due to organic growing the demand for mildew resistance within the same wine profile has increased. Cross breeding can provide such new genotypes which combine traits from different sources by parenthood. Linkage of traits with chromosomes or markers allows to predict some aspects of the phenotype. Equipped with chromosomal assisted selection the development of new varieties could be much easier and faster. On the base of two segregating populations derived from crosses of Grüner Veltliner with Malverina and Seyval blanc we could define correlation of chromosomes with some traits. Mainly ampelographic descriptors and resistance against mildew could be aligned. As a quality parameter of the wine Rotundone analyses were performed and could be attributed to chromosome 5 and 9. Selection supported by the composition of the parental chromosomes enables breeding with some arguments of design. The limits for free choice were the availability of sufficient different genotypes with a broad spectrum of chromosomal combinations. Recently released descendent cultivar Donauveltliner was selected due to the high rate of Traminer alleles.

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

Cited by 29 publications

References 16 publications

Detection of downy and powdery mildew resistance QTL in a ‘Regent’ × ‘RedGlobe’ population

Detection of downy and powdery mildew resistance QTL in a ‘Regent’ × ‘RedGlobe’ population

A linkage map for flowering dogwood (Cornus florida L.) based on microsatellite markers

Breeding of fungal resistant varieties derived from Grüner Veltliner by chromosomal selection

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