EST contig-based SSR linkage maps for Malus × domestica cv Royal Gala and an apple scab resistant accession of M. sieversii, the progenitor species of domestic apple (original) (raw)

References

• Beckerman J, Chatfield J, Draper E (2009) A 33-year evaluation of resistance and pathogenicity in the apple scab-crabapples pathosystem. Hort Sci 44:599–608
  Google Scholar
• Bus VGM, Laurens FND, van de Weg WE, Rusholme RL, Rikkerink EHA, Gardiner SE, Bassett HCM, Kodde LP, Plummer KM (2005a) The Vh8 locus of a new gene-for-gene interaction between Venturia inaequalis and the wild apple Malus sieversii is closely linked to the Vh2 locus in Malus pumila R12740-7A. New Phytol 166:1035–1049
  Article PubMed CAS Google Scholar
• Bus VGM, Rikkerink EHA, Van de Weg WE, Rusholme RL, Gardiner SE, Bassett HCM, Kodde LP, Parisi L, Laurens FND, Meulenbroek EJ, Plummer KM (2005b) The Vh2 and Vh4 scab resistance genes in two differential hosts derived from Russian apple R12740-7A map to the same linkage group of apple. Mol Breed 15:103–116
  Article CAS Google Scholar
• Bus V, Rikkerink E, Aldwinckle HS, Caffier V, Durel CE, Gardiner S, Gessler C, Groenwold R, Laurens F, Cam BL, Luby J, Meulenbroek B, Kellerhals M, Parisi L, Patocchi A, Plummer K, Schouten HJ, Tartarini S, van de Weg WE (2009) A proposal for the nomenclature of Venturia inaequalis races. Acta Hort 814:739–746
  Google Scholar
• Bus V, Bassett H, Bowatte D, Chagné D, Ranatunga C, Ulluwishewa D, Wiedow C, Gardiner S (2010) Genome mapping of an apple scab, a powdery mildew and a woolly apple aphid resistance gene from open-pollinated mildew immune selection. Tree Genet Genomes 6:477–487
  Article Google Scholar
• Celton J-M, Chagné D, Tustin SD, Terakami S, Nishitani C, Yamamoto T, Gardiner SE (2009a) Update on comparative genome mapping between Malus and Pyrus. BMC Res Notes 2:182
  Article PubMed Google Scholar
• Celton JM, Tustin DS, Chagne D, Gardiner SE (2009b) Construction of a dense genetic linkage map for apple rootstocks using SSRs developed from Malus ESTs and Pyrus genomic sequences. Tree Genet Genomes 5:93–107
  Article Google Scholar
• Chagne D, Gasic K, Crowhurst RN, Han Y, Bassett HC, Bowatte DR, Lawrence TJ, Rikkerink EHA, Gardiner SE, Korban SS (2008) Development of a set of SNP markers present in expressed genes of the apple. Genomics 92:353–358
  Article PubMed CAS Google Scholar
• Chiu JC, Brenner ED, DeSalle R, Nitabach MN, Holmes TC, Coruzzi GM (2002) Phylogenetic and expression analysis of the glutamate-receptor-like gene family in Arabidopsis thaliana. Mol Biol Evol 19:1066–1082
  Article PubMed CAS Google Scholar
• Conner PJ, Brown SK, Weeden NF (1997) Randomly amplified polymorphic DNA-based genetic linkage maps of three apple cultivars. J Am Soc Hort Sci 122:350–359
  CAS Google Scholar
• Cullings KW (1992) Design and testing of a plant-specific PCR primer for ecological and evolutionary studies. Mol Ecol 1:233–240
  Article CAS Google Scholar
• Doyle JJ, Doyle JL (1987) A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochem Bull 19:11–15
  Google Scholar
• Erdin N, Tartarini S, Broggini GAL, Gennari F, Sansavini S, Gessler C, Patocchi A (2006) Mapping of the apple scab-resistance gene Vb. Genome 49:1238–1245
  Article PubMed CAS Google Scholar
• Fernandez-Fernandez F, Evans KM, Clarke JB, Govan CL, James CM, Maric S, Tobutt KR (2008) Development of an STS map of an interspecific progeny of Malus. Tree Genet Genomes 4:469–479
  Article Google Scholar
• Forsline PL, Hummer KE (2007) Fruit exploration supported by the National Plant Germplasm System, 1980 to 2004. Hort Sci 42:200–202
  Google Scholar
• Forsline PL, Aldwinckle HS, Dickson EE, Luby JJ, Hokanson SC (2003) Collection, maintenance, characterization and utilization of wild apples of Central Asia. In: Janick J (ed) Horticultural reviews. Wiley, New York, pp 1–61
  Google Scholar
• Galli P, Broggini G, Kellerhals M, Gessler C, Patocchi A (2010a) High-resolution genetic map of the Rvi15 (Vr2) apple scab resistance locus. Mol Breed 26:561–572
  Article Google Scholar
• Galli P, Patocchi A, Broggini GAL, Gessler C (2010b) The Rvi15 (Vr2) apple scab resistance locus contains three TIR-NBS-LRR genes. Mol Plant Microbe Interact 23:608–617
  Article PubMed CAS Google Scholar
• Gasic K, Gonzalez DO, Thimmapuram J, Liu L, Malnoy M, Gong G, Han Y, Vodkin LO, Aldwinckle HS, Carroll NJ, Orvis KS, Goldsbrough P, Clifton S, Pape D, Fulton L, Martin J, Theising B, Wisniewski ME, Fazio G, Feltus FA, Korban SS (2009a) Comparative analysis and functional annotation of a large expressed sequence tag collection of apple. Plant Genome 2:23–38
  Article CAS Google Scholar
• Gasic K, Han YP, Kertbundit S, Shulaev V, Iezzoni AF, Stover EW, Bell RL, Wisniewski ME, Korban SS (2009b) Characteristics and transferability of new apple EST-derived SSRs to other Rosaceae species. Mol Breed 23:397–411
  Article CAS Google Scholar
• Gessler C, Patocchi A, Sansavini S, Tartarini S, Gianfranceschi L (2006) Venturia inaequalis resistance in apple. Crit Rev Plant Sci 25:473–503
  Article CAS Google Scholar
• Gharghani A, Zamani Z, Talaie A, Oraguzie NC, Fatahi R, Hajnajari H, Wiedow C, Gardiner SE (2009) Genetic identity and relationships of Iranian apple (Malus × domestica Borkh.) cultivars and landraces, wild Malus species and representative old apple cultivars based on simple sequence repeat (SSR) marker analysis. Genet Resour Crop Evol 56:829–842
  Article CAS Google Scholar
• Grattapaglia D, Sederoff R (1994) Genetic linkage maps of Eucalyptus grandis and Eucalyptus urophylla using a pseudo-testcross: mapping strategy and RAPD markers. Genetics 137:1121–1137
  PubMed CAS Google Scholar
• Guerin F, Le Cam B (2004) Breakdown of the scab resistance gene Vf in apple leads to a founder effect in populations of the fungal pathogen Venturia inaequalis. Phytopathology 94:364–369
  Article PubMed CAS Google Scholar
• Gygax M, Gianfranceschi L, Liebhard R, Kellerhals M, Gessler C, Patocchi A (2004) Molecular markers linked to the apple scab resistance gene Vbj derived from Malus baccata jackii. Theor Appl Genet 109:1702–1709
  Article PubMed CAS Google Scholar
• Han YP, Chagne D, Gasic K, Rikkerink EHA, Beever JE, Gardiner SE, Korban SS (2009) BAC-end sequence-based SNPs and Bin mapping for rapid integration of physical and genetic maps in apple. Genomics 93:282–288
  Article PubMed CAS Google Scholar
• Harris SA, Robinson JP, Juniper BE (2002) Genetic clues to the origin of the apple. Trends Genet 18:426–430
  Article PubMed CAS Google Scholar
• Hemmat M, Weeden NF, Manganaris AG, Lawson DM (1994) Molecular marker linkage map for apple. J Hered 85:4–11
  PubMed CAS Google Scholar
• Igarashi M, Abe Y, Hatsuyama Y, Ueda T, Fukasawa-Akada T, Kon T, Kudo T, Sato T, Suzuki M (2008) Linkage maps of the apple (Malus × domestica Borkh.) cvs ‘Ralls Janet’ and ‘Delicious’ include newly developed EST markers. Mol Breed 22:95–118
  Article CAS Google Scholar
• Jung S, Staton M, Lee T, Blenda A, Svancara R, Abbott A, Main D (2008) GDR (Genome Database for Rosaceae): integrated web-database for Rosaceae genomics and genetics data. Nucleic Acids Res 36:D1034–D1040
  Article PubMed CAS Google Scholar
• Juniper BE (2007) The mysterious origin of the sweet apple—on its way to a grocery counter near you, this delicious fruit traversed continents and mastered coevolution. Am Sci 95:44–51
  Google Scholar
• Juniper BE, Watkins R, Harris SA (1999) The origin of the apple. Acta Hort 484:27–33
  Google Scholar
• Kim SA, Kwak JM, Jae SK, Wang MH, Nam HG (2001) Overexpression of the AtGluR2 gene encoding an arabidopsis homolog of mammalian glutamate receptors impairs calcium utilization and sensitivity to ionic stress in transgenic plants. Plant Cell Physiol 42:74–84
  Article PubMed CAS Google Scholar
• Korban SS, Wannarat W, Rayburn CM, Tatum TC, Rayburn AL (2009) Genome size and nucleotypic variation in Malus germplasm. Genome 52:148–155
  Article PubMed CAS Google Scholar
• Kosambi DD (1944) The estimation of map distances from recombination values. Ann Eugen 12:172–175
  Article Google Scholar
• Lalli D, Wisniewski M, Norelli JL, Malnoy M, Pindo M, Fazio G, Forsline P, Aldwinckle H, Gardiner S, Chagné D (2010) Mapping Malus sieversii: a valuable genetic resource for apple breeding. Plant & Animal Genomes XVIII Conference, San Diego, CA, p 206
  Google Scholar
• Li J, Zhu SH, Song XW, Shen Y, Chen HM, Yu J, Yi KK, Liu YF, Karplus VJ, Wu P, Deng XW (2006) A rice glutamate receptor-like gene is critical for the division and survival of individual cells in the root apical meristem. Plant Cell 18:340–349
  Article PubMed CAS Google Scholar
• Liebhard R, Gianfranceschi L, Koller B, Ryder CD, Tarchini R, Van de Weg E, Gessler C (2002) Development and characterisation of 140 new microsatellites in apple (Malus × domestica Borkh.). Mol Breed 10:217–241
  Article CAS Google Scholar
• Liebhard R, Koller B, Gianfranceschi L, Gessler C (2003) Creating a saturated reference map for the apple (Malus × domestica Borkh.) genome. Theor Appl Genet 106:1497–1508
  PubMed CAS Google Scholar
• Luby J, Forsline P, Aldwinckle H, Bus V, Geibel M (2001) Silk road apples—collection, evaluation, and utilization of Malus sieversii from Central Asia. Hort Sci 36:225–231
  Google Scholar
• Luby J, Hokanson K, Forsline P, Aldwinckle H, Gustafson H, Gardiner S, Bone R, Cook M, Bus V (2006) Evaluation of horticulturally elite Malus sieversii germplasm for apple scab resistance genes using phenotypic and marker-based screening. In: The 3rd international Rosaceae genomics conference, Napier
• Maliepaard C, Alston FH, van Arkel G, Brown LM, Chevreau E, Dunemann F, Evans KM, Gardiner S, Guilford P, van Heusden AW, Janse J, Laurens F, Lynn JR, Manganaris AG, den Nijs APM, Periam N, Rikkerink E, Roche P, Ryder C, Sansavini S, Schmidt H, Tartarini S, Verhaegh JJ, Vrielink-van Ginkel M, King GJ (1998) Aligning male and female linkage maps of apple (Malus pumila Mill.) using multi-allelic markers. Theor Appl Genet 97:60–73
  Article CAS Google Scholar
• Malnoy M, Xu M, Borejsza-Wysocka E, Korban SS, Aldwinckle HS (2008) Two receptor-like genes, Vfa1 and Vfa2, confer resistance to the fungal pathogen Venturia inaequalis inciting apple scab disease. Mol Plant Microbe Interact 21:448–458
  Article PubMed CAS Google Scholar
• N’Diaye A, de Weg WEV, Kodde LP, Koller B, Dunemann F, Thiermann M, Tartarini S, Gennari F, Durel CE (2008) Construction of an integrated consensus map of the apple genome based on four mapping populations. Tree Genet Genomes 4:727–743
  Article Google Scholar
• Naik S, Hampson C, Gasic K, Bakkeren G, Korban SS (2006) Development and linkage mapping of E-STS and RGA markers for functional gene homologues in apple. Genome 49:959–968
  Article PubMed CAS Google Scholar
• Newcomb RD, Crowhurst RN, Gleave AP, Rikkerink EHA, Allan AC, Beuning LL, Bowen JH, Gera E, Jamieson KR, Janssen BJ, Laing WA, McArtney S, Nain B, Ross GS, Snowden KC, Souleyre EJF, Walton EF, Yauk YK (2006) Analyses of expressed sequence tags from apple. Plant Physiol 141:147–166
  Article PubMed Google Scholar
• Patocchi A, Bigler B, Koller B, Kellerhals M, Gessler C (2004) Vr(2): a new apple scab resistance gene. Theor Appl Genet 109:1087–1092
  Article PubMed CAS Google Scholar
• Patocchi A, Walser M, Tartarini S, Broggini GAL, Gennari F, Sansavini S, Gessler C (2005) Identification by genome scanning approach (GSA) of a microsatellite tightly associated with the apple scab resistance gene Vm. Genome 48:630–636
  Article PubMed CAS Google Scholar
• Patocchi A, Fernández-Fernández F, Evans K, Gobbin D, Rezzonico F, Boudichevskaia A, Dunemann F, Stankiewicz-Kosyl M, Mathis-Jeanneteau F, Durel C, Gianfranceschi L, Costa F, Toller C, Cova V, Mott D, Komjanc M, Barbaro E, Kodde L, Rikkerink E, Gessler C, van de Weg W (2009a) Development and test of 21 multiplex PCRs composed of SSRs spanning most of the apple genome. Tree Genet Genomes 5:211–223
  Article Google Scholar
• Patocchi A, Frei A, Frey JE, Kellerhals M (2009b) Towards improvement of marker assisted selection of apple scab resistant cultivars: Venturia inaequalis virulence surveys and standardization of molecular marker alleles associated with resistance genes. Mol Breed 24:337–347
  Article CAS Google Scholar
• Pilcher RLR, Celton JM, Gardiner SE, Tustin DS (2008) Genetic markers linked to the dwarfing trait of apple rootstock ‘Malling 9’. J Am Soc Hort Sci 133:100–106
  CAS Google Scholar
• Richards CM, Volk GM, Reeves PA, Reilley AA, Henk AD, Forsline PL, Aldwinckle HS (2009a) Selection of stratified core sets representing wild apple (Malus sieversii). J Am Soc Hort Sci 134:228–235
  Google Scholar
• Richards CM, Volk GM, Reilley AA, Henk AD, Lockwood DR, Reeves PA, Forsline PL (2009b) Genetic diversity and population structure in Malus sieversii, a wild progenitor species of domesticated apple. Tree Genet Genomes 5:339–347
  Article Google Scholar
• Robinson JP, Harris SA, Juniper BE (2001) Taxonomy of the genus Malus Mill. (Rosaceae) with emphasis on the cultivated apple, Malus domestica Borkh. Plant Syst Evol 226:35–58
  Article CAS Google Scholar
• Sargent D, Marchese A, Simpson D, Howad W, Fernández-Fernández F, Monfort A, Arús P, Evans K, Tobutt K (2009) Development of “universal” gene-specific markers from Malus spp. cDNA sequences, their mapping and use in synteny studies within Rosaceae. Tree Genet Genomes 5:133–145
  Article Google Scholar
• Segura V, Durel CE, Costes E (2009) Dissecting apple tree architecture into genetic, ontogenetic and environmental effects: QTL mapping. Tree Genet Genomes 5:165–179
  Article Google Scholar
• Silfverberg-Dilworth E, Matasci CL, Van de Weg WE, Van Kaauwen MPW, Walser M, Kodde LP, Soglio V, Gianfranceschi L, Durel CE, Costa F, Yamamoto T, Koller B, Gessler C, Patocchi A (2006) Microsatellite markers spanning thess apple (Malus × domestica Borkh.) genome. Tree Genet Genomes 2:202–224
  Article Google Scholar
• Soriano JM, Joshi SG, van Kaauwen M, Noordijk Y, Groenwold R, Henken B, van de Weg WE, Schouten HJ (2009) Identification and mapping of the novel apple scab resistance gene Vd3. Tree Genet Genomes 5:475–482
  Article Google Scholar
• Sun L, John Bukovac M, Forsline P, van Nocker S (2009) Natural variation in fruit abscission-related traits in apple (Malus). Euphytica 165:55–67
  Article Google Scholar
• Tapken D, Hollmann M (2008) Arabidopsis thaliana glutamate receptor ion channel function demonstrated by ion pore transplantation. J Mol Biol 383:36–48
  Article PubMed CAS Google Scholar
• Tatum TC, Stepanovic S, Biradar DP, Rayburn AL, Korban SS (2005) Variation in nuclear DNA content in Malus species and cultivated apples. Genome 48:924–930
  Article PubMed CAS Google Scholar
• Troggio M, Zharkikh A, Pindo M, Baldi P, Costa F, Chagné D, Micheletti D, Coppola G, Cestaro A, Lasserre P, Crowhurst RN, Bus V, Magnago P, Komjanc M, Lespinasse Y, Salvi S, Durel C-E, Gardiner SE, Velasco R (2010) A sequence-anchored integrated genetic linkage map for apple, Malus × domestica Borkh. Plant & Animal Genomes XVIII Conference, San Diego
  Google Scholar
• Van Ooijen JW, Voorrips RE (2001) JoinMap® 3.0, Software for the calculation of genetic linkage maps. Plant Research International, Wageningen
  Google Scholar
• Velasco R, Zharkikh A, Affourtit J, Dhingra A, Cestaro A, Kalyanaraman A, Fontana P, Bhatnagar SK, Troggio M, Pruss D, Salvi S, Pindo M, Baldi P, Castelletti S, Cavaiuolo M, Coppola G, Costa F, Cova V, Dal Ri A, Goremykin V, Komjanc M, Longhi S, Magnago P, Malacarne G, Malnoy M, Micheletti D, Moretto M, Perazzolli M, Si-Ammour A, Vezzulli S, Zini E, Eldredge G, Fitzgerald LM, Gutin N, Lanchbury J, Macalma T, Mitchell JT, Reid J, Wardell B, Kodira C, Chen Z, Desany B, Niazi F, Palmer M, Koepke T, Jiwan D, Schaeffer S, Krishnan V, Wu C, Chu VT, King ST, Vick J, Tao Q, Mraz A, Stormo A, Stormo K, Bogden R, Ederle D, Stella A, Vecchietti A, Kater MM, Masiero S, Lasserre P, Lespinasse Y, Allan AC, Bus V, Chagne D, Crowhurst RN, Gleave AP, Lavezzo E, Fawcett JA, Proost S, Rouze P, Sterck L, Toppo S, Lazzari B, Hellens RP, Durel C-E, Gutin A, Bumgarner RE, Gardiner SE, Skolnick M, Egholm M, Van de Peer Y, Salamini F, Viola R (2010) The genome of the domesticated apple (Malus × domestica Borkh.). Nat Genet 42:833–839
  Article PubMed CAS Google Scholar
• Volk GM, Richards CM, Reilley AA, Henk AD, Forsline PL, Aldwinckle HS (2005) Ex situ conservation of vegetatively propagated species: development of a seed-based core collection for Malus sieversii. J Am Soc Hort Sci 130:203–210
  Google Scholar
• Volk GM, Richards CM, Henk AD, Reilley A, Miller DD, Forsline PL (2009) Novel diversity identified in a wild apple population from the Kyrgyz Republic. Hort Sci 44:516–518
  Google Scholar
• Voorrips RE (2002) MapChart: Software for the graphical presentation of linkage maps and QTLs. J Hered 93:77–78
  Article PubMed CAS Google Scholar
• Wang D, Shi J, Carlson SR, Cregan PB, Ward RW, Diers BW (2003) A low-cost, high-throughput polyacrylamide gel electrophoresis system for genotyping with microsatellite DNA markers. Crop Sci 43:1828–1832
  Article CAS Google Scholar
• Williams EB, Kuc J (1969) Resistance in Malus to Venturia Inaequalis. Annu Rev Phytopathol 7:223–246
  Article CAS Google Scholar
• Wisniewski M, Bassett C, Norelli J, Macarisin D, Artlip T, Gasic K, Korban S (2008) Expressed sequence tag analysis of the response of apple (Malus × domestica ‘Royal Gala’) to low temperature and water deficit. Physiol Plant 133:298–317
  Article PubMed CAS Google Scholar
• Yao L, Zheng X, Cai D, Gao Y, Wang K, Cao Y, Teng Y (2010) Exploitation of Malus EST-SSRs and the utility in evaluation of genetic diversity in Malus and Pyrus. Genet Resour Crop Evol 57:841–851
  Article CAS Google Scholar
• Yepes LM, Aldwinckle HS (1993) Pathogenesis of Venturia inaequalis on shoot-tip cultures and on greenhouse-grown apple cultivars. Phytopathology 83:1155–1162
  Article Google Scholar

Download references