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1.
Shigeki Moriya Hiroshi Iwanami Nobuhiro Kotoda Takashi Haji Kazuma Okada Shingo Terakami Naozumi Mimida Toshiya Yamamoto Kazuyuki Abe 《Tree Genetics & Genomes》2012,8(4):709-723
Identification of markers associated with genes of interest and quantitative trait loci (QTLs), combined with high-density genetic linkage maps, can help reduce labor and costs by enabling marker-assisted selection (MAS). In this study, a dwarfing apple rootstock cultivar ??JM7?? (Malus prunifolia × Malus pumila ??Malling 9??) and wild apple Malus sieboldii ??Sanashi 63?? (section Sorbomalus) were used for constructing genetic linkage maps. Here, a species from section Sorbomalus was used for the first time as a target species in a genome-wide mapping study. We also developed and mapped 137 novel-expressed sequence tag-simple sequence repeat (EST-SSR) markers. The genetic linkage maps of ??JM7?? and ??Sanashi 63?? consisted of 415 and 310 loci and spanned 998.0 and 981.8?cM, respectively, comparable to the reference map of Malus × domestica ??Discovery??. A BLASTN search revealed that all of the EST-SSR sequences used in this study exhibited very high homology to one or more previously characterized apple genome contigs. Although the most homologous contigs of 89 EST-SSRs were located within the same linkage groups (LGs) identified by mapping analysis, the other 48 EST-SSRs were aligned into contigs positioned in different LGs than those identified by mapping. When search criteria were expanded to include the five most homologous contigs of each EST-SSR, at least one of the top five contigs for 15 of these 48 EST-SSRs corresponded to the LG obtained by mapping. The maps of ??JM7?? and ??Sanashi 63?? may be useful for analyzing important rootstock characteristics and identifying markers for MAS. 相似文献
2.
F. Fernández-Fernández K. M. Evans J. B. Clarke C. L. Govan C. M. James S. Marić K. R. Tobutt 《Tree Genetics & Genomes》2008,4(3):587-479
Simple sequence repeat (SSR) markers developed from Malus, as well as Prunus, Pyrus and Sorbus, and some other sequence-tagged site (STS) loci were analysed in an interspecific F1 apple progeny from the cross ‘Fiesta’ × ‘Totem’ that segregated for several agronomic characters. A linkage map was constructed
using 259 STS loci (247 SSRs, four SCARs and eight known-function genes) and five genes for agronomic traits—scab resistance
(Vf), mildew resistance (Pl-2), columnar growth habit (Co), red tissues (Rt) and green flesh background colour (Gfc). Ninety SSR loci and three genes (ETR1, Rt and Gfc) were mapped for the first time in apple. The transferability of markers from other Maloideae to Malus was found to be around 44%. The loci are spread across 17 linkage groups, corresponding to the basic chromosome number of
Malus and cover 1,208 cM, approximately 85% of the estimated length of the apple genome. Interestingly, we have extended the top
of LG15 with eight markers covering 25 cM. The average map density is 4.7 cM per marker; however, marker density varies greatly
between linkage groups, from 2.5 in LG14 to 8.9 in LG7, with some areas of the genome still in need of further STS markers
for saturation.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users.
An erratum to this article can be found at 相似文献
3.
A major scab resistance gene called Va1 was identified in the Russian apple cultivar ‘Antonovka’ (accession APF22) conferring scab resistance under conditions of
natural scab infection in the field. After scab scorings over a period of 3 years, a 1:1 segregation was observed in the mapping
population 04/214 (‘Golden Delicious’ × ‘Antonovka’). The Va1 resistance gene provides sufficient broad spectrum resistance that is of use in apple resistance breeding and has been assigned
Rvi17 according the proposal for a new scab nomenclature (Bus et al., Acta Horticulturae 814:739–746, 2009). Analysis of simple sequence repeats (SSRs) located on the apple linkage group (LG) 1 showed that the Va1 locus is closely linked (1 cM) to SSR CH-Vf1 known to cosegregate with the Vf locus. A tight genetic association was also observed between a specific cleaved amplified polymorphic sequence marker (ARD-CAPS)
developed from the HcrVf paralog Vf2ARD present in ‘Antonovka’, but there is no indication yet for a causal relationship with Vf2ARD. Although the whole race spectrum of Va1 is still unknown, it was obvious that it acts against the scab races 6 and 7 which are able to overcome the resistance of
Malus floribunda 821. A second resistance factor (named Va2) was studied by race 1-specific scab tests based on grafted 04/214 clones. A 1:1-segregation ratio was observed, too, but
18 “phenotypic recombinants” were found after comparisons with the field scab data of the same genotypes. Va2 was mapped on LG 1 with a genetic distance of about 15 cM above CH-Vf1. The positions of the newly identified ‘Antonovka’
scab resistance factors are compared with previously reported Va mapping approaches and published results from quantitative trait loci analyses performed with different ‘Antonovka’ genotypes. 相似文献
4.
Sibylle Stoeckli Karsten Mody Andrea Patocchi Markus Kellerhals Silvia Dorn 《Tree Genetics & Genomes》2009,5(1):257-267
The aim of this study was to assess the genetic basis of rust mite (Aculus schlechtendali) resistance in apple (Malus × domestica). A. schlechtendali infestation of apple trees has increased as a consequence of reduced side effects of modern fungicides on rust mites. An
analysis of quantitative trait loci (QTLs) was carried out using linkage map data available for F1 progeny plants of the cultivars ‘Fiesta’ × ‘Discovery’. Apple trees representing 160 different genotypes were surveyed for
rust mite infestation, each at three different sites in two consecutive years. The distribution of rust mites on the individual
apple genotypes was aggregated and significantly affected by apple genotype and site. We identified two QTLs for A. schlechtendali resistance on linkage group 7 of ‘Fiesta’. The AFLP marker E35M42-0146 (20.2 cM) and the RAPD marker AE10-400 (45.8 cM) were
closest positioned to the QTLs and explained between 11.0% and 16.6% of the phenotypic variability. Additionally, putative
QTLs on the ‘Discovery’ chromosomes 4, 5 and 8 were detected. The SSR marker Hi03a10 identified to be associated to one of
the QTLs (AFLP marker E35M42-0146) was traced back in the ‘Fiesta’ pedigree to the apple cultivar ‘Wagener’. This marker may
facilitate the breeding of resistant apple cultivars by marker assisted selection. Furthermore, the genetic background of
rust mite resistance in existing cultivars can be evaluated by testing them for the identified SSR marker.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
5.
Ana Delia Gisbert José Martínez-Calvo Gerardo Llácer María Luisa Badenes Carlos Romero 《Molecular breeding : new strategies in plant improvement》2009,23(3):523-538
Loquat [Eriobotrya japonica (Thunb.) Lindl.] is a Rosaceae fruit species of growing interest as an alternative to the main fruit crops. However, only
a few genetic studies have been carried out on this species. This paper reports the construction of the first genetic maps
of two loquat cultivars based on AFLP and microsatellite markers from Malus, Eriobotrya, Pyrus and Prunus genera. An F1 population consisting of 81 individuals, derived from the cross between ‘Algerie’ and ‘Zaozhong-6’ cultivars, was used to
construct both maps. A total of 111 scorable simple sequence repeat (SSR) loci resulted from the testing of 440 SSR primer
pairs in the analyzed progeny and the SSR transferability to Eriobotrya was found to be 74% from apple, 58% from pear and 49% from Prunus spp. In addition, 183 AFLP polymorphic bands were produced using 42 primer combinations. The ‘Algerie’ map was organized
in 17 linkage groups covering a distance of 900 cM and comprising 177 loci (83 SSRs and 94 AFLPs) with an average marker distance
of 5.1 cM. Self-incompatibility trait was mapped at the distal part of the LG17 linkage group, as previously reported in Malus and Pyrus. The ‘Zaozhong-6’ map covered 870 cM comprising 146 loci (64 SSRs and 82 AFLPs) with an average marker distance of 5.9 cM.
The 44 SSRs and the 48 AFLPs share in common by both maps were essentially collinear and, moreover, the order of the 75% of
apple and pear SSRs mapped in Eriobotrya was shown to be consistent across the Maloideae subfamily. As a whole, these maps represent a useful tool to facilitate loquat
breeding and an interesting framework for map comparison in the Rosaceae. 相似文献
6.
Gygax M Gianfranceschi L Liebhard R Kellerhals M Gessler C Patocchi A 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2004,109(8):1702-1709
Breeding for scab-resistant apple cultivars by pyramiding several resistance genes in the same genetic background is a promising way to control apple scab caused by the fungus Venturia inaequalis. To achieve this goal, DNA markers linked to the genes of interest are required in order to select seedlings with the desired resistance allele combinations. For several apple scab resistance genes, molecular markers are already available; but until now, none existed for the apple scab resistance gene Vbj originating from the crab apple Malus baccata jackii. Using bulk segregant analysis, three RAPD markers linked to Vbj were first identified. These markers were transformed into more reliable sequence-characterised amplified region (SCAR) markers that proved to be co-dominant. In addition, three SSR markers and one SCAR were identified by comparing homologous linkage groups of existing genetic maps. Discarding plants showing genotype–phenotype incongruence (GPI plants) plants, a linkage map was calculated. Vbj mapped between the markers CH05e03 (SSR) and T6-SCAR, at 0.6 cM from CH05e03 and at 3.9 cM from T6-SCAR. Without the removal of the GPI plants, Vbj was placed 15 cM away from the closest markers. Problems and pitfalls due to GPI plants and the consequences for mapping the resistance gene accurately are discussed. Finally, the usefulness of co-dominant markers for pedigree analysis is also demonstrated. 相似文献
7.
Pfender WF Saha MC Johnson EA Slabaugh MB 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,122(8):1467-1480
A mapping population was created to detect quantitative trait loci (QTL) for resistance to stem rust caused by Puccinia graminis subsp. graminicola in Lolium perenne. A susceptible and a resistant plant were crossed to produce a pseudo-testcross population of 193 F1 individuals. Markers were produced by the restriction-site associated DNA (RAD) process, which uses massively parallel and
multiplexed sequencing of reduced-representation libraries. Additional simple sequence repeat (SSR) and sequence-tagged site
(STS) markers were combined with the RAD markers to produce maps for the female (738 cM) and male (721 cM) parents. Stem rust
phenotypes (number of pustules per plant) were determined in replicated greenhouse trials by inoculation with a field-collected,
genetically heterogeneous population of urediniospores. The F1 progeny displayed continuous distribution of phenotypes and transgressive segregation. We detected three resistance QTL.
The most prominent QTL (qLpPg1) is located near 41 cM on linkage group (LG) 7 with a 2-LOD interval of 8 cM, and accounts
for 30–38% of the stem rust phenotypic variance. QTL were detected also on LG1 (qLpPg2) and LG6 (qLpPg3), each accounting
for approximately 10% of phenotypic variance. Alleles of loci closely linked to these QTL originated from the resistant parent
for qLpPg1 and from both parents for qLpPg2 and qLpPg3. Observed quantitative nature of the resistance may be due to partial-resistance
effects against all pathogen genotypes, or qualitative effects completely preventing infection by only some genotypes in the
genetically mixed inoculum. RAD markers facilitated rapid construction of new genetic maps in this outcrossing species and
will enable development of sequence-based markers linked to stem rust resistance in L. perenne. 相似文献
8.
Stoyanka V. Krastanova Vasudevan Balaji Michele R. Holden Mary Sekiya Baodi Xue Esengul A. Momol Thomas J. Burr 《Transgenic research》2010,19(6):949-958
A truncated form of the Ti-plasmid virE2 gene from Agrobacterium tumefaciens strains C58 and A6, and A. vitis strain CG450 was transferred and expressed in somatic embryos of grapevine rootstocks 110 Richter (Vitis rupestris × V. berlandieri), 3309 Couderc (V. rupestris × V. riparia) and Teleki 5C (V. berlandieri × V. riparia) via Agrobacterium-mediated transformation to confer resistance to crown gall disease. Transformation was confirmed in 98% of the 322 lines
by enzyme-linked immunosorbent assay for the neomycin phosphotransferase II protein and 97% of 295 lines by polymerase chain
reaction for the truncated virE2 transgene. Southern blot analysis revealed the insertion of truncated virE2 at one to three loci in a subset of seven transgenic 110 Richter lines. In vitro resistance screening assays based on inoculations
of shoot internode sections showed reduced tumorigenicity and very small galls in 23 of 154 transgenic lines. Non-transformed
controls had a 100% tumorigenicity rate with very large galls. Disease resistance assay at the whole plant level in the greenhouse
revealed seven transgenic lines (3 lines of 110 Richter, 2 lines of 3309 Couderc and 2 lines of Teleki 5C) were resistant
to A. tumefaciens strain C58 and A. vitis strains TM4 and CG450 with a substantially reduced percentage of inoculation sites showing gall as compared to controls.
No association was found between the level of resistance to crown gall disease and the source Agrobacterium strain of virE2. Taken together, our data showed that resistance to crown gall disease can be achieved by expressing a truncated form of
virE2 in grapevines. 相似文献
9.
Felicidad Fernández-Fernández Sudharsan Padmarasu Nada Šurbanovski Katherine M. Evans Kenneth R. Tobutt Daniel J. Sargent 《Molecular breeding : new strategies in plant improvement》2014,33(2):373-383
Certain progenies of Malling apple rootstocks (Malus pumila) have been reported to segregate for a virescent trait: leaves are chlorotic at germination or bud break but turn green as the season progresses. The M432 rootstock mapping progeny, from which a linkage map has recently been elaborated with 323 simple sequence repeat (SSR) markers and 3,069 single nucleotide polymorphism (SNP) markers, also segregates for this phenotype. In this investigation, 188 seedlings were scored and, on the basis of a 3:1 segregation, virescence was attributed to the recessive gene (vir) for which the two parents, M.27 and M.116, are heterozygous. At least seven of 28 Malling rootstocks are heterozygous for this apparently deleterious trait. With the published marker data the gene was mapped to linkage group 12, tightly flanked by the SSR CH01g12 and the SNP marker 475880474, and was located in a physical interval of 2.36 Mb on the Golden Delicious genome sequence. A PCR-based marker was developed from the SNP and along with the SSR was scored in a set of Malus rootstock accessions. The screening of this collection demonstrated that those accessions known to be heterozygous at the vir locus all carried the 152 allele of the SSR and the G allele of the SNP, whilst a virescent accession was homozygous for the alleles. The results we present here could help predict the genotype of apple rootstocks at the vir locus, assist in the fine mapping of the vir locus to identify potential candidate genes for the trait and also aid rootstock breeding. 相似文献
10.
Identification of flanking SSR markers for a major rice gall midge resistance gene <Emphasis Type="Italic">Gm1</Emphasis> and their validation 总被引:1,自引:0,他引:1
Biradar SK Sundaram RM Thirumurugan T Bentur JS Amudhan S Shenoy VV Mishra B Bennett J Sarma NP 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2004,109(7):1468-1473
Host-plant resistance is the preferred strategy for management of Asian rice gall midge (Orseolia oryzae), a serious pest in many rice-growing countries. The deployment of molecular markers linked to gall midge resistance genes in breeding programmes can accelerate the development of resistant cultivars. In the present study, we have tagged and mapped a dominant gall midge resistance gene, Gm1, from the Oryza sativa cv. W1263 on chromosome 9, using SSR markers. A progeny-tested F2 mapping population derived from the cross W1263/TN1 was used for analysis. To map the gene locus, initially a subset of the F2 mapping population consisting of 20 homozygous resistant and susceptible lines each was screened with 63 parental polymorphic SSR markers. The SSR markers RM316, RM444 and RM219, located on chromosome 9, are linked to Gm1 at genetic distances of 8.0, 4.9 and 5.9 cM, respectively, and flank the gene locus. Further, gene/marker order was also determined. The utility of the co-segregating SSR markers was tested in a backcross population derived from the cross Swarna/W1263//Swarna, and allelic profiles of these markers were analysed in a set of donor rice genotypes possessing Gm1 and in a few gall midge-susceptible, elite rice varieties. 相似文献
11.
Field evolved resistance of insect populations to Bacillus thuringiensis (Bt) crystalline (Cry) toxins expressed by crop plants has resulted in reduced control of insect feeding damage to field crops, and threatens the sustainability of Bt transgenic technologies. A single quantitative trait locus (QTL) that determines resistance in Ostrinia nubilalis larvae capable of surviving on reproductive stage transgenic corn that express the Bt Cry1Fa toxin was previously mapped to linkage group 12 (LG12) in a backcross pedigree. Fine mapping with high-throughput single nucleotide polymorphism (SNP) anchor markers, a candidate ABC transporter (abcc2) marker, and de novo mutations predicted from a genotyping-by-sequencing (GBS) data redefined a 268.8 cM LG12. The single QTL on LG12 spanned an approximate 46.1 cM region, in which marker 02302.286 and abcc2 were ≤2.81 cM, and the GBS marker 697 was an estimated 1.89 cM distant from the causal genetic factor. This positional mapping data showed that an O. nubilalis genome region encoding an abcc2 transporter is in proximity to a single QTL involved in the inheritance of Cry1F resistance, and will assist in the future identification the mutation(s) involved with this phenotype. 相似文献
12.
Field trials at Creston in 1988, 1989, and 1990 on silty loam soil naturally infested with Agrobacterium tumefaciens showed that Agrobacterium radiobacter strain K84 did not control crown gall on young Antonovka apple trees when apphed as a root-dip treatment. Copper oxychloride applied as a root-dip treatment at 2.5 and 5.0 g ai/1 and sewage sludge applied at 260 g per tree as broadcast were effective in reducing crown gall infection but these treatments were toxic to young apple trees in 1989. Lower rates of copper oxychloride, 0.3, 0.6 and 0.9 g ai/1, and sewage sludge at 130 g per tree, did not control crown gall in the 1990 field trial. The biological treatment with the strain AB8 of Bacillus subtilis applied as a root-dip effectively controlled crown gall and was not phytotoxic to young Antonovka apple trees. These results suggest that strain AB8 of B. subtilis has the potential to control crown gall on young apple trees under field conditions. 相似文献
13.
Marker-assisted selection (MAS) offers quick and reliable prediction of the phenotypes of seedlings in large populations and
thus opens new approaches for selection to breeders of apple (Malus x domestica Borkh.). The development of framework maps enables the discovery of genetic markers linked to desired traits. Although genetic
maps have been reported for apple scion cultivars, none has previously been constructed for apple rootstocks. We report the
construction of framework genetic maps in a cross between ‘M.9’ (‘Malling 9’) and ‘R.5’ (‘Robusta 5’) apple rootstocks. The
maps comprise 224 simple sequence repeat (SSR) markers, 18 sequence-characterised amplified regions, 14 single nucleotide
polymorphisms and 42 random amplified polymorphic DNAs. A new set of 47 polymorphic SSRs was developed from apple EST sequences
and used for construction of this rootstock map. All 17 linkage groups have been identified and aligned to existing apple
genetic maps. The maps span 1,175.7 cM (‘M.9’) and 1,086.7 cM (‘R.5’). To improve the efficiency of mapping markers to this
framework map, we developed a bin mapping set. Applications of these new genetic maps include the elucidation of the genetic
basis of the dwarfing effect of the apple rootstock ‘M.9’ and the analysis of disease and insect resistance traits such as
fire blight (Erwinia amylovora), apple scab (Venturia inaequalis) and woolly apple aphid (Eriosoma lanigerum). Markers for traits mapped in this population will be of direct use to apple breeders for MAS and for identification of
causative genes by map-based cloning. 相似文献
14.
Fernando J. Yuste-Lisbona Carmen Capel Emilio Sarria Rocío Torreblanca María L. Gómez-Guillamón Juan Capel Rafael Lozano Ana I. López-Sesé 《Molecular breeding : new strategies in plant improvement》2011,27(2):181-192
Powdery mildew caused by Podosphaera xanthii has become a major problem in melon since it occurs all year round irrespective of the growing system. The TGR-1551 melon
genotype was found to be resistant to several melon diseases, among them powdery mildew. However, the corresponding resistance
genes have been never mapped. We constructed an integrated genetic linkage map using an F2 population derived from a cross
between the multi-resistant genotype TGR-1551 and the susceptible Spanish cultivar ‘Bola de Oro’. The map spans 1,284.9 cM,
with an average distance of 3.6 cM among markers, and consists of 354 loci (188 AFLP, 39 RAPD, 111 SSR, 14 SCAR/CAPS/dCAPS,
and two phenotypic traits) distributed in 14 linkage groups. QTL analysis identified one major QTL (Pm-R) on LG V for resistance to races 1, 2, and 5 of powdery mildew. The PM4-CAPS marker is closely linked to the Pm-R QTL at a genetic distance of 1.9 cM, and the PM3-CAPS marker is located within the support interval of this QTL. These codominant
markers, together with the map information reported here, could be used for melon breeding, and particularly for genotyping
selection of resistance to powdery mildew in this vegetable crop species. 相似文献
15.
Qi LL Hulke BS Vick BA Gulya TJ 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(2):351-358
Rust is a serious fungal disease in the sunflower growing areas worldwide with increasing importance in North America in recent
years. Several genes conferring resistance to rust have been identified in sunflower, but few of them have been genetically
mapped and linked to molecular markers. The rust resistance gene R
4
in the germplasm line HA-R3 was derived from an Argentinean open-pollinated variety and is still one of most effective genes.
The objectives of this study were to determine the chromosome location of the R
4
gene and the allelic relationship of R
4
with the R
adv
rust resistance gene. A total of 63 DNA markers previously mapped to linkage group (LG) 13 were used to screen for polymorphisms
between two parental lines HA 89 and HA-R3. A genetic map of LG 13 was constructed with 21 markers, resulting in a total map
length of 93.8 cM and an average distance of 4.5 cM between markers. Two markers, ZVG61 and ORS581, flanked the R
4
gene at 2.1 and 0.8 cM, respectively, and were located on the lower end of LG 13 within a large NBS-LRR cluster identified
previously. The PCR pattern generated by primer pair ZVG61 was unique in the HA-R3 line, compared to lines HA-R1, HA-R4, and
HA-R5, which carry other R
4
alleles. A SCAR marker linked to the rust resistance gene R
adv
mapped to LG 13 at 13.9 cM from the R
4
locus, indicating that R
adv
is not an allele of the R
4
locus. The markers tightly linked to the R
4
gene will facilitate gene pyramiding for rust resistance breeding of sunflower. 相似文献
16.
V. G. M. Bus D. Chagné H. C. M. Bassett D. Bowatte F. Calenge J.-M. Celton C.-E. Durel M. T. Malone A. Patocchi A. C. Ranatunga E. H. A. Rikkerink D. S. Tustin J. Zhou S. E. Gardiner 《Tree Genetics & Genomes》2008,4(2):223-236
Woolly apple aphid (WAA; Eriosoma lanigerum Hausm.) can be a major economic problem to apple growers in most parts of the world, and resistance breeding provides a sustainable
means to control this pest. We report molecular markers for three genes conferring WAA resistance and placing them on two
linkage groups (LG) on the genetic map of apple. The Er1 and Er2 genes derived from ‘Northern Spy’ and ‘Robusta 5,’ respectively, are the two major genes that breeders have used to date
to improve the resistance of apple rootstocks to this pest. The gene Er3, from ‘Aotea 1’ (an accession classified as Malus sieboldii), is a new major gene for WAA resistance. Genetic markers linked to the Er1 and Er3 genes were identified by screening random amplification of polymorphic deoxyribonucleic acid (DNA; RAPD) markers across DNA
bulks from resistant and susceptible plants from populations segregating for these genes. The closest RAPD markers were converted
into sequence-characterized amplified region markers and the genome location of these two genes was assigned to LG 08 by aligning
the maps around the genes with a reference map of ‘Discovery’ using microsatellite markers. The Er2 gene was located on LG 17 of ‘Robusta 5’ using a genetic map developed in a M.9 × ‘Robusta 5’ progeny. Markers for each of
the genes were validated for their usefulness for marker-assisted selection in separate populations. The potential use of
the genetic markers for these genes in the breeding of apple cultivars with durable resistance to WAA is discussed. 相似文献
17.
Aide Wang Herb Aldwinckle Philip Forsline Dorrie Main Gennaro Fazio Susan Brown Kenong Xu 《Molecular breeding : new strategies in plant improvement》2012,29(2):379-397
Malus sieversii is a progenitor species of domestic apple M. × domestica. Using population “GMAL 4595” of 188 individuals derived from a cross of Royal Gala × PI 613988 (apple scab resistant, M. sieversii), 287 SSR (simple sequence repeats) loci were mapped. Of these SSRs, 80 are published anchors and 207 are newly developed
EST (expressed sequence tag) contig-based SSRs, representing 1,630 Malus EST accessions in GenBank. Putative gene functions of these EST contigs are diverse, including regulating plant growth, development
and response to environmental stresses. Among the 80 published SSRs, 18 are PI 613988 specific, 38 are common and 24 are Royal
Gala specific. Out of the 207 newly developed EST contig-based SSRs, 79 are PI 613988 specific, 45 are common and 83 are Royal
Gala specific. These results led to the construction of a M. sieversii map (1,387.0 cM) of 180 SSR markers and a Royal Gala map (1,283.4 cM) of 190 SSR markers. Mapping of scab resistance was
independently conducted in two subsets of population “GMAL 4595” that were inoculated with Ventura inaequalis races (1) and (2), respectively. In combination with the two major resistance reactions Chl (chlorotic lesions) and SN (stellate
necrosis) to each race, four subsets of resistance data, i.e., Chl/race (1), SN/race (1), Chl/race (2) and SN/race (2), were
constituted and analyzed, leading to four resistance loci mapped to the linkage group 2 of PI 613988; SNR1 (stellate necrosis resistance to race (1)) and SNR2 are tightly linked in a region of known scab resistance genes, and ChlR1 (Chlorotic lesion resistance to race (1)) and ChlR2 are also linked tightly but in a region without known scab resistance genes. The utility of the two linkage maps, the new
EST contig-based markers and M. sieversii as sources of apple scab resistance are discussed. 相似文献
18.
F. Fernández-Fernández K. M. Evans J. B. Clarke C. L. Govan C. M. James S. Marič K. R. Tobutt 《Tree Genetics & Genomes》2008,4(3):469-479
Simple sequence repeat (SSR) markers developed from Malus, as well as Prunus, Pyrus and Sorbus, and some other sequence-tagged site (STS) loci were analysed in an interspecific F1 apple progeny from the cross ‘Fiesta’ × ‘Totem’ that segregated for several agronomic characters. A linkage map was constructed using 259 STS loci (247 SSRs, four SCARs and eight known-function genes) and five genes for agronomic traits—scab resistance (Vf), mildew resistance (Pl-2), columnar growth habit (Co), red tissues (Rt) and green flesh background colour (Gfc). Ninety SSR loci and three genes (ETR1, Rt and Gfc) were mapped for the first time in apple. The transferability of markers from other Maloideae to Malus was found to be around 44%. The loci are spread across 17 linkage groups, corresponding to the basic chromosome number of Malus and cover 1,208 cM, approximately 85% of the estimated length of the apple genome. Interestingly, we have extended the top of LG15 with eight markers covering 25 cM. The average map density is 4.7 cM per marker; however, marker density varies greatly between linkage groups, from 2.5 in LG14 to 8.9 in LG7, with some areas of the genome still in need of further STS markers for saturation. 相似文献
19.
Junke Zhang Ludger Hausmann Rudolf Eibach Leocir J. Welter Reinhard T?pfer Eva M. Zyprian 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2009,119(6):1039-1051
Grapevine rootstock cultivar ‘B?rner’ is a hybrid of Vitis riparia and Vitis cinerea Arnold that shows high resistance to phylloxera (Daktulosphaira vitifoliae Fitch). To localize the determinants of phylloxera root resistance, the susceptible grapevine V3125 (Vitis vinifera ‘Schiava grossa’ × ‘Riesling’) was crossed to ‘B?rner’. Genetic framework maps were built from the progeny. 235 microsatellite
markers were placed on the integrated parental map. They cover 1,155.98 cM on 19 linkage groups with an average marker distance
of 4.8 cM. Phylloxera resistance was scored by counting nodosities after inoculation of the root system. Progeny plants were
triplicated and experimentally infected in 2 years. A scan of the genetic maps indicated a quantitative trait locus on linkage
group 13. This region was targeted by six microsatellite-type markers newly developed from the V. vinifera model genome sequence. Two of these appear closely linked to the trait, and can be useful for marker-assisted breeding. 相似文献
20.
Kazuyuki Abe Nobuhiro Kotoda Hidenori Kato Jun-ichi Soejima 《Tree Genetics & Genomes》2011,7(2):363-372
Malus sieboldii Rehd. exhibits high levels of resistance to Valsa canker caused by Valsa ceratosperma (Tode ex Fr.) Maire while cultivated apples (Malus domestica Borkh.) are susceptible to the disease. In this study, progenies from 23 full-sib families derived from both inter- and intra-specific
hybridization among 16 Malus genotypes as parents were assessed for resistance to V. ceratosperma (Vc) for two seasons using an excised shoot assay to determine the pattern of inheritance of the resistance and to also estimate
the variance components, narrow-sense heritability, and breeding values of parental genotypes. Generally, M. sieboldii × M. domestica and its reciprocal crosses had more resistant progenies to Vc than intra-specific crosses of M. domestica. Resistance to Vc expressed as the relative lesion length among progenies showed continuous variation irrespective of cross,
suggesting the quantitative nature of the resistance to the three virulent isolates of Vc that were tested. Resistance to
Vc using the progeny population was analyzed using a mixed linear model based on restricted maximum likelihood. The parental
effect (general combining ability (GCA)) was significant while the interaction effect between parents (specific combining
ability (SCA)) was relatively small and non-significant. The ratio of SCA/GCA variance was about 32%, suggesting that additive
genetic variance had a major contribution to the total genetic variance for resistance to Vc. There was a positive correlation
(r = 0.49, p < 0.01) between mid-parental GCA and SCA predictions among 23 full-sib families for the resistance. Narrow-sense heritability
estimated by sib analysis was moderate ( [^(h)]2 = 0.29 ) \left( {{{\hat{h}}^2} = 0.29} \right) . The predicted breeding values (BV) of the 16 parents indicated that M. sieboldii “Sanashi 63” and “Hayanarisanashi 1” would be useful for breeding for high levels of resistance to Vc. 相似文献