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1.
M. L. Xu S. S. Korban 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2000,101(5-6):844-851
Using the amplified fragment length polymorphism (AFLP) technique combined with a ”narrow-down” bulk segregant strategy enabled
us to quickly identify 15 tightly linked AFLP markers to the Vf gene that confers resistance to the apple scab disease. High-resolution mapping placed all 15 AFLP markers within an interval
of 0.6 cM around the Vf region; 7 of them were found to be inseparable from the Vf gene, 1 was localized left of, and the remaining 7 located right of the Vf gene. In addition, eight previously identified RAPD markers were also mapped, but only three, including M18, AM19, and AL07,
were localized within this short interval, and none co-segregated with the Vf gene. The saturation of the Vf region with AFLP markers will accelerate both marker-assisted selection and map-based cloning. The advantages of this ”narrow-down”
strategy, estimation of physical distances among AFLP markers, and their potential application are also discussed.
Received: 22 December 1999 / Accepted: 25 March 2000 相似文献
2.
Construction of a 550 kb BAC contig spanning the genomic region containing the apple scab resistance gene Vf 总被引:2,自引:0,他引:2
Patocchi A Vinatzer BA Gianfranceschi L Tartarini S Zhang HB Sansavini S Gessler C 《Molecular & general genetics : MGG》1999,262(4-5):884-891
A positional cloning project was started in apple with the aim of isolating the Vf resistance gene of Malus floribunda 821. Vf confers resistance against apple scab, the most important disease in apple orchards. A chromosome walk starting from two
molecular markers (M18-CAPS and AM19-SCAR) flanking Vf was performed, using a bacterial artificial chromosome (BAC) library containing inserts of the cultivar Florina, which is
heterozygous for Vf. Thirteen BAC clones spanning the region between the two markers were identified in nine chromosome walking steps. The size
of the resulting contig is approximately 550 kb. In order to map the Vf region in more detail, we analyzed over 2000 plants from different populations segregating for Vf with markers produced from BAC end sequences. In this way, we were able to restrict the possible location of the Vf gene to a minimum of five clones spanning an interval of approximately 350 kb.
Received: 4 July 1999 / Accepted: 16 September 1999 相似文献
3.
Narrowing down the region of the<Emphasis Type="Italic"> Vf</Emphasis> locus for scab resistance in apple using AFLP-derived SCARs 总被引:4,自引:0,他引:4
Huaracha E Xu M Korban SS 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2004,108(2):274-279
A narrow-down strategy to restrict the Vf region, which controls resistance to the fungal disease apple scab in apple, to a genetic distance of 0.4 cM is presented. Using 11 AFLP-derived SCARs and three RAPD-derived SCARs, all linked to the Vf gene, we subjected 1,412 scab-resistant individuals from 16 mapping populations to genotype analysis. Eleven recombinant individuals were identified within a genetic distance of 0.9 cM around the Vf gene. Using these 11 recombinants, we achieved fine-resolution of several AFLP-derived SCAR markers surrounding the Vf gene, resulting in the following genetic linkage map: ACS-6 and ACS are located left of the Vf gene at genetic distances of 0.2 cM and 0.1 cM, respectively; ACS-7 and ACS-9 are inseparable from the Vf gene; ACS-8, ACS-10, and ACS-4 are located to the right of the Vf gene at genetic distances of 0.1 cM, 0.4 cM, and 0.5 cM, respectively; the remaining five SCARs—ACS-11, ACS-5, ACS-2, ACS-1, and AL07—are inseparable and are located right of the Vf gene at a genetic distance of 0.7 cM. By integrating this linkage data with our previous physical map, we generated a revised map of the narrowed-down region of Vf.Communicated by P. Langridge 相似文献
4.
RAPD markers linked to the Vf gene for scab resistance in apple 总被引:14,自引:0,他引:14
S. Tartarini 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,92(7):803-810
Scab (Venturia inaequalis) is one of the most harmful diseases of apple, significantly affecting world apple production. The identification and early selection of resistant genotypes by molecular markers would greatly improve breeding strategies. Bulked segregant analysis was chosen for the identification of RAPD markers linked to the Vf scab resistant gene. Five different RAPD markers, derived from the wild species Malus floribunda. 821, were identified, and their genetic distance from Vf gene was estimated. The markers OPAM192200 and OPAL07580 were found to be very closely linked to the Vf gene. This result was indirectly confirmed by the analysis of resistant genotypes collected from various breeding programmes. Except for cv Murray, which carries the Vm gene, all these resistant genotypes showed the markers OPAM192200 and OPAL07580. 相似文献
5.
AFLP-derived SCARs facilitate construction of a 1.1 Mb sequence-ready map of a region that spans the Vf locus in the apple genome 总被引:2,自引:0,他引:2
The availability of high-density anchored markers is a prerequisite for reliable construction of a deep coverage BAC contig, which leads to creation of a sequence-ready map in the target chromosomal region. Unfortunately, such markers are not available for most plant species, including woody perennial plants. Here, we report on an efficient approach to build a megabase-size sequence-ready map in the apple genome for the Vf region containing apple scab resistance gene(s) by targeting AFLP-derived SCAR markers to this specific genomic region. A total of 11 AFLP-derived SCAR markers, previously tagged to the Vf locus, along with three other Vf-linked SCAR markers have been used to screen two apple genome BAC libraries. A single BAC contig which spans the Vf region at a physical distance of approximately 1,100 kb has been constructed by assembling the recovered BAC clones, followed by closure of inter-contig gaps. The contig is 4 ×deep, and provides a minimal tiling path of 16 contiguous and overlapping BAC clones, thus generating a sequence-ready map. Within the Vf region, duplication events have occurred frequently, and the Vf locus is restricted to the ca. 290 kb region covered by a minimum of three overlapping BAC clones. 相似文献
6.
G. J. King F. H. Alston L. M. Brown E. Chevreau K. M. Evans F. Dunemann J. Janse F. Laurens J. R. Lynn C. Maliepaard A. G. Manganaris P. Roche H. Schmidt S. Tartarini J. Verhaegh R. Vrielink 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1998,96(5):699-708
Apple scab, caused by the fungus Venturia inaequalis (Cke.) Wint., is an important disease in commercial apple production. A mapping population of 155 individuals, derived from
a cross between the apple varieties ‘Prima’ (resistant)בFiesta’ (susceptible), was scored for response to the disease in
replicated field and glasshouse trials throughout Europe. Twenty data sets were selected and cluster analysis was used to
form a consensus score for the population fitting a 1 : 1 segregation ratio of resistance:susceptibility. The progeny were
scored with molecular markers. A detailed map covering 54 cM of the ‘Prima’ linkage group containing the Vf gene for scab resistance was constructed using 24 molecular markers linked to the resistance gene. One isoenzyme marker (Pgm-1), six RFLP markers and 17 RAPD markers formed a linkage group with the consensus measure of resistance to scab. Four marker
bridges were established with the corresponding ‘Fiesta’ linkage group with additional markers (one isozyme, one RFLP, three
RAPD and one AFLP). A low chi-square value indicated a good fit of the marker ordering, which was in close agreement with
previously reported linkage positions for some of the markers and Vf. Differences were observed in the ability of different scoring methods to resolve susceptible and resistant classes. The
results obtained for the consensus classification of resistance to scab for the population may suggest the presence of virulent
inocula at some sites, which could overcome the Vf gene for resistance. The consequences of relying on individual scoring occasions for studying Vf scab resistance are discussed in the context of linkage analysis, conventional breeding selection, and marker-assisted selection.
Received: 23 July 1997 / Accepted: 31 October 1997 相似文献
7.
Introgression of the Vf source of scab resistance and distribution of linked marker alleles within the Malus gene pool 总被引:1,自引:0,他引:1
G. J. King S. Tartarini L. Brown F. Gennari S. Sansavini 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1999,99(6):1039-1046
A chromosomal region originating from Malus floribunda 821 confers Vf scab resistance to many isolates of Venturia inaequalis. Twelve DNA markers located in this region were used to scan the equivalent of 31 cM in 98 Malus accessions. This allowed a molecular diagnosis of a source of resistance in apple germplasm with the aid of pedigree information,
and in the context of a limited marker survey representing other chromosomes. At least five marker alleles were present in
all scab-resistant breeding selections or varieties arising from M. floribunda. The validity of findings based on RAPD markers was confirmed with SCAR assays and Southern-hybridisation experiments. The
order of markers determined in previous mapping studies was confirmed and sets of recombinants identified that establish reliable
fine-mapping orders within 0.7 cM of the resistance locus. None of the marker alleles were present in the accessions that
are either susceptible or possess weak polygenic resistance to scab. The presence of some alleles corresponding to those present
at least 5.3 cM from Vf in M. floribunda was detected in some accessions. Other major sources of scab resistance do not appear to possess alleles in common with the
Vf region, which will simplify future allelism tests. The results are discussed in the context of the introgression of resistance
loci together with marker-assisted selection. The use of breeding pedigrees to assist in fine-scale mapping and map-based
cloning is discussed.
Received: 16 February 1999 / Accepted: 11 March 1999 相似文献
8.
J.M. Soriano S.G. Joshi M. van Kaauwen Y. Noordijk R. Groenwold B. Henken W.E. van de Weg H.J. Schouten 《Tree Genetics & Genomes》2009,5(3):475-482
Apple scab, caused by the fungal pathogen Venturia inaequalis, is one of the most devastating diseases for the apple growing in temperate zones with humid springs and summers. Breeding
programs around the world have been able to identify several sources of resistance, the Vf from Malus floribunda 821 being the most frequently used. The appearance of two new races of V. inaequalis (races 6 and 7) in several European countries that are able to overcome the resistance of the Vf gene put in evidence the necessity of the combination of different resistance genes in the same genotype (pyramiding). Here,
we report the identification and mapping of a new apple scab resistance gene (Vd3) from the resistant selection “1980-015-25” of the apple breeding program at Plant Research International, The Netherlands.
This selection contains also the Vf gene and the novel V25 gene for apple scab resistance. We mapped Vd3 on linkage group 1, 1 cM to the south of Vf in repulsion phase to it. Based on pedigree analysis and resistance tests, it could be deduced that 1980-015-25 had inherited
Vd3 from the founder “D3.” This gene provides resistance to the highly virulent EU-NL-24 strain of race 7 of V. inaequalis capable of overcoming the resistance from Vf and Vg.
JMS and SGJ contributed equally to this work 相似文献
9.
Genetic mapping of the pear scab resistance gene Vnk of Japanese pear cultivar Kinchaku 总被引:1,自引:0,他引:1
Terakami S Shoda M Adachi Y Gonai T Kasumi M Sawamura Y Iketani H Kotobuki K Patocchi A Gessler C Hayashi T Yamamoto T 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2006,113(4):743-752
Pear scab (caused by Venturia nashicola) is one of the most harmful diseases of pears, especially Japanese and Chinese pear species. The molecular identification and early selection of resistant plants could greatly improve pear breeding. We have identified the position of the scab resistance gene, designated Vnk in an indigenous Japanese pear cultivar Kinchaku, within the pear genome by using simple sequence repeat (SSR) markers derived from pear and apple. The position of Vnk was identified in the central region of linkage group 1 of Kinchaku. Several amplified fragment length polymorphism (AFLP) markers linked to Vnk were obtained by bulked segregant analysis. Among them, the AFLP marker closest to Vnk was converted into a sequence tagged site (STS) marker. Four random amplified polymorphic DNA (RAPD) markers previously found to be loosely associated with Vnk (Iketani et al. 2001) were successfully converted into STS markers. Six markers (one SSR Hi02c07 and five STSs converted from AFLP and RAPD) showed tight linkages to Vnk, being mapped with distances ranging from 2.4 to 12.4 cM. The SSR CH-Vf2, which was isolated from a BAC clone of the contig containing the apple scab gene Vf, was mapped at the bottom of linkage group 1 in Kinchaku, suggesting that the Vnk and Vf loci are located in different genomic regions of the same homologous linkage group. 相似文献
10.
Phenotypic Reaction and Genetic Analysis Using AFLP-derived SCARs for Resistance to Apple Scab 总被引:2,自引:0,他引:2
E. M. Huaracha M. L. Xu K. Gasic E. Pauwels A. van den Putte J. W. Keulemans S. S. Korban 《Journal of Phytopathology》2004,152(5):260-266
Six sequence‐characterized amplified region (SCAR) markers linked to the apple scab resistance gene Vf were evaluated for their utility in marker‐assisted selection (MAS) in apple breeding. Of the six SCARs used in this study, ACS‐6 was located left of the Vf gene, ACS‐7 and ACS‐9 co‐segregated with Vf, and ACS‐8, ACS‐4, ACS‐5 were located right of the Vf gene. Three families derived from crosses between scab‐resistant and scab‐susceptible cultivars, including ‘Liberty’ × ‘Deljub’, ‘Liberty’ × ‘Delcorf’, and ‘Florina’ בDelcorf’, previously screened for scab resistance following greenhouse inoculation with the fungal pathogen Venturia inaequalis, were genotyped and compared with phenotypic reactions to scab infection in the field. For each family, a subset progeny of 30 seedlings (propagated onto Malling 9 rootstock and of 7 years old) was selected based on fungal sporulation according to the following scheme. Ten seedlings with no visible scab sporulation on leaves were given phenotypic scores of 0 (deemed resistant); 10 seedlings with moderate scab sporulation were given phenotypic scores of 1.0 (deemed moderately resistant); and 10 seedlings with heavy sporulation were given phenotypic scores of 2.0 (deemed susceptible). DNA was isolated from leaf tissue collected from all 90 seedlings, parents and Malus floribunda 821, the original source of the Vf gene, and screened with all six SCARs. All six SCARs were present in the two scab‐resistant parents, ‘Liberty’ and ‘Florina’, and M. floribunda 821; while, the two scab‐susceptible parents, ‘Deljub’ and ‘Delcorf’, lacked all SCARs. All SCARs were either present or absent in varying numbers of seedlings in each progeny with phenotypic ratings of either 0 (resistant) or 1.0 (moderately resistant); while all seedlings with phenotypic ratings of 2.0 (susceptible) lacked all SCARs. The inconsistencies between phenotypic scab ratings and SCAR marker data are discussed. 相似文献
11.
Screening apples for OPD20/600 using sequence-specific primers 总被引:13,自引:0,他引:13
H. Yang S. S. Korban 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,92(2):263-266
Apple scab, caused by Venturia inaequalis (Cke.) Wint., is the most serious disease of apple trees in many areas of the world. Resistance to V. inaequalis, derived from the small-fruited species Malus floribunda 821, is determined by a major dominant gene, Vf. Using random decamer primers, we identified a RAPD marker, OPD20/600, which is linked to the Vf gene. OPD20/600 was then cloned and sequenced. Sequence-specific primers based on the marker were used to further screen M. floribunda 821, 7 scab-susceptible apple cultivars, 10 scab-resistant apple cultivars, and 28 scab-resistant Coop selections. The sequence-specific primers allowed identification of polymorphisms of OPD20/600 based on the presence or absence of a single band. The advantages of sequence-specific primers over decamer primers for developing genetic markers are discussed. 相似文献
12.
A detailed linkage map around an apple scab resistance gene demonstrates that two disease resistance classes both carry the V
f gene 总被引:4,自引:0,他引:4
S. E. Gardiner H. C. M. Bassett D. A. M. Noiton V. G. Bus M. E. Hofstee A. G. White R. D. Ball R. L. S. Forster E. H. A. Rikkerink 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,93(4):485-493
A detailed genetic map has been constructed in apple (Malus x domestica Borkh.) in the region of the v
f gene. This gene confers resistance to the apple scab fungus Venturia inaequalis (Cooke) Wint. Linkage data on four RAPD (random amplified polymorphic DNA) markers and the isoenzyme marker PGM-1, previously reported to be linked to the v
f gene, are integrated using two populations segregating for resistance to apple scab. Two new RAPD markers linked to v
f (identified by bulked segregant analysis) and a third marker previously reported as being present in several cultivars containing v
f are also placed on the map. The map around v
f now contains eight genetic markers spread over approximately 28 cM, with markers on both sides of the resistance gene. The study indicates that RAPD markers in the region of crab apple DNA introgressed with resistance are often transportable between apple clones carrying resistance from the same source. Analysis of co-segregation of the resistance classes 3A (weakly resistant) and 3B (weakly susceptible) with the linked set of genetic markers demonstrates that progeny of both classes carry the resistance gene.This work was supported in part by grants from the New Zealand Foundation for Research Science and Technology (FoRST) Programme 94-HRT-07-366 and ENZA New Zealand (International) 相似文献
13.
Construction and characterization of a bacterial artificial chromosome library of apple 总被引:8,自引:0,他引:8
B. A. Vinatzer H.-B. Zhang S. Sansavini 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1998,97(7):1183-1190
A bacterial artificial chromosome (BAC) library has been constructed from apple (Malus×domestica Borkh.) using the variety “Florina”, which is resistant to scab (Venturia inaequalis) by virtue of the Vf gene. Since apple leaves are rich in polyphenols, high-molecular-weight DNA was extracted from leaf nuclei with a protocol
adapted to apple. The nuclei were then embedded in agarose microbeads and partially digested by varying ratios of EcoRI to EcoRI methylase. The resulting DNA fragments were size-selected by pulsed-field gel electrophoresis, ligated to the BAC cloning
vector pECBAC1 and transformed into Escherichia coli cells by electroporation. A total of 36 864 recombinant clones (BACs) were obtained. The library has an average insert size
of 120 kb and represents approximately 5×apple haploid-genome equivalents. It was screened with six cDNA probes using the
chemiluminescent DIG system. An average of 4.4 clones was detected for each locus. The apple BAC library will be used to isolate
the Vf scab resistance gene through map-based cloning. In this connection the library was screened with a marker closely linked
to the Vf gene and six positive clones have been isolated. This library should thus be well suited for map-based gene cloning, in particular
for the isolation of the Vf gene and for the construction of a physical map of the apple genome.
Received: 19 February 1998 / Accepted: 30 April 1998 相似文献
14.
L. Gianfranceschi B. Koller N. Seglias M. Kellerhals C. Gessler 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1996,93(1-2):199-204
Large-scale marker-assisted selection requires highly reproducible, consistent and simple markers. The use of genetic markers is important in woody plant breeding in general, and in apple in particular, because of the high level of heterozygosity present in Malus species. We present here the transformation of two RAPD markers, which we found previously to be linked to the major scab resistance gene Vf, into more reliable and reproducible markers that can be applied directly to apple breeding. We give an example of how the use of such markers can speed up selection for the introduction of scab resistance genes into the same plant, reducing labour and avoiding time-consuming test crosses. We discuss the nature and relationship of the scab resistance gene Vf to the one present in Nova Easygro, thought to be Vr. 相似文献
15.
The apple production in temperate regions with spring rains, the Scab caused by the fungus Venturia inaequalis is the most important constraint. To produce spotless apples and avoid damage that develops during storage, growers apply
fungicide on a regular or weather-determined basis. All major apple cultivars are highly susceptible to this disease. To limit
the need for fungicide applications, apple breeders are currently introgressing disease resistance from wild Malus accessions into commercial lines. The first attempts to do this were made 100 years ago. As apples are self-incompatible,
pseudo-backcrossing is used to eliminate unwanted traits from wild Malus and select new cultivars that are attractive to both producers and consumers. This process, from the first cross of a commercial
cultivar with a wild, disease-resistant Malus, is extremely long due to apple’s long juvenile phase, the need for more than seven backcross steps and the high heterozygosity
of this genus. Therefore, most of today’s scab-resistant cultivars rely on a single introduction of scab resistance from Malus floribunda 821, referred to as Vf. In this paper, we trace the history of Vf from its initial identification through its use in breeding
and commercial production. We sum up the literature describing how and where Vf resistance has been overcome by new pathotypes
of V. inaequalis. Finally, we describe the current knowledge of the genes behind Vf resistance, its mode of action and the use of Vf genes in gene technology. 相似文献
16.
Krystyna Rybka Masaru Miyamoto Shingo Nakamura Shinji Kawasaki 《Acta Physiologiae Plantarum》1997,19(4):521-528
A contig of clones from BAC rice genomic library encompassing blast resistance gene Pi-b was constructed. On an average eight clones (8 ± 2.6) were picked up by each marker, which was expected basing on the BAC
library size (Nakamura et al. 1997). The 2.4 cM distance between flanking RFLP markers G 1234 and RZ 213 (Miyamoto et al. 1996) was spanned with 4 steps of contig including 25 clones. The physical distance of 370 kb between flanking markers corresponds
to a small ratio of physical and genetical distances (155 kb/cM) due to a probable structure of the gene locus near the telomeric
end of the chromosome. Markers cosegregating with blast resistance against Magnoporthe grisea were localized in a 2 kb restriction fragment. A new border marker was found on the telomeric side of the Pi-b gene, less than 10 kb from cosegregating markers. No clear marker for the centromeric side of the gene was found but the
position of Pi-b rice blast resistant gene was narrowed to within at least 50 kb, which is to our knowledge the most precised estimation of
the position of this gene. 相似文献
17.
Aligning male and female linkage maps of apple (Malus pumila Mill.) using multi-allelic markers 总被引:12,自引:0,他引:12
C. Maliepaard F. H. Alston G. van Arkel L. M. Brown E. Chevreau F. Dunemann K. M. Evans S. Gardiner P. Guilford A. W. van Heusden J. Janse F. Laurens J. R. Lynn A. G. Manganaris A. P. M. den Nijs N. Periam E. Rikkerink P. Roche C. Ryder S. Sansavini H. Schmidt S. Tartarini J. J. Verhaegh M. Vrielink-van Ginkel G. J. King 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》1998,97(1-2):60-73
Linkage maps for the apple cultivars ‘Prima’ and ‘Fiesta’ were constructed using RFLP, RAPD, isozyme, AFLP, SCAR and microsatellite
markers in a ‘Prima’בFiesta’ progeny of 152 individuals. Seventeen linkage groups, putatively corresponding to the seventeen
haploid apple chromosomes, were obtained for each parent. These maps were aligned using 67 multi-allelic markers that were
heterozygous in both parents. A large number of duplicate RFLP loci was observed and, in several instances, linked RFLP markers
in one linkage group showed corresponding linkage in another linkage group. Distorted segregation was observed mainly in two
regions of the genome, especially in the male parent alleles. Map positions were provided for resistance genes to scab and
rosy leaf curling aphid (Vf and Sd
1, respectively) for the fruit acidity gene Ma and for the self-incompatibility locus S. The high marker density and large number of mapped codominant RFLPs and some microsatellite markers make this map an ideal
reference map for use in other progenies also and a valuable tool for the mapping of quantitative trait loci.
Received: 17 November 1997 / Accepted: 9 December 1997 相似文献
18.
A physical map covering the nsv locus that confers resistance to Melon necrotic spot virus in melon (Cucumis melo L.) 总被引:1,自引:0,他引:1
Morales M Orjeda G Nieto C van Leeuwen H Monfort A Charpentier M Caboche M Arús P Puigdomènech P Aranda MA Dogimont C Bendahmane A Garcia-Mas J 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2005,111(5):914-922
Melon necrotic spot virus (MNSV) is a member of the genus Carmovirus, which produces severe yield losses in melon and cucumber crops. The nsv gene is the only known natural source of resistance against MNSV in melon, and confers protection against all widespread
strains of this virus. nsv has been previously mapped in melon linkage group 11, in a region spanning 5.9 cM, saturated with RAPD and AFLP markers.
To identify the nsv gene by positional cloning, we started construction of a high-resolution map for this locus. On the basis of the two mapping
populations, F2 and BC1, which share the same resistant parent PI 161375 (nsv/nsv), and using more than 3,000 offspring, a high-resolution genetic map has been constructed in the region around the nsv locus, spanning 3.2 cM between CAPS markers M29 and M132. The availability of two melon BAC libraries allowed for screening
and the identification of new markers closer to the resistance gene, by means of BAC-end sequencing and mapping. We constructed
a BAC contig in this region and identified the marker 52K20sp6, which co-segregates with nsv in 408 F2 and 2.727 BC1 individuals in both mapping populations. We also identified a single 100 kb BAC that physically contains the
resistance gene and covers a genetic distance of 0.73 cM between both BAC ends. These are the basis for the isolation of the
nsv recessive-resistance gene. 相似文献
19.
Patocchi A Bigler B Koller B Kellerhals M Gessler C 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2004,109(5):1087-1092
Reports from several European countries of the breakdown of the Vf resistance, the most frequently used source of resistance in breeding programs against apple scab, emphasize the urgency of diversifying the basis of apple scab resistance and pyramiding different apple scab resistances with the use of their associated molecular markers. GMAL 2473 is an apple scab resistant selection thought to carry the resistance gene Vr. We report the identification by BSA of three AFLP markers and one RAPD marker associated with the GMAL 2473 resistance gene. SSRs associated with the resistance gene were found by (1) identifying the linkage group carrying the apple scab resistance and (2) testing the SSRs previously mapped in the same region. One such SSR, CH02c02a, mapped on linkage group 2, co-segregates with the resistance gene. GMAL 2473 was tested with molecular markers associated with other apple scab resistance genes, and accessions carrying known apple scab resistance genes were tested with the SSR linked to the resistance gene found in GMAL 2473. The results indicate that GMAL 2473 does not carry Vr, and that a new apple scab resistance gene, named Vr
2, has been identified. 相似文献
20.
A linkage map of the Ixodes scapularis genome was constructed based upon segregation amongst 127 loci. These included 84 random amplified polymorphic DNA (RAPD)
markers, 32 Sequence-Tagged RAPD (STAR) markers, 5 cDNAs, and 5 microsatellites in 232 F1 intercross progeny from a single, field-collected P1 female. A preliminary linkage map of 616 cM was generated across 14 linkage groups with one marker every 10.8 cM. Assuming
a genome size of ∼109 bp, the relationship of physical to genetic distance is ∼300 kb/cM in the I. scapularis genome.
This revised version was published online in July 2006 with corrections to the Cover Date. 相似文献