APPLE

Accession
IPR
Pedigree

Accession Citations
  • Apple, H. 1992. Tsolum River Fruit Trees Catalogue. page 22 Number of accession(s) cited: 1
  • Bai, Y., L. Dougherty, & K. Xu. 2014. Towards an improved apple reference transcriptome using RNA-seq. Molec. Genet. Genomics 289:427–438. DOI: 10.1007/s00438-014-0819-3. Number of accession(s) cited: 1
  • Bai, Y., L. Dougherty, L. Cheng, G.-Y. Zhong, & K. Xu. 2015. Uncovering co-expression gene network modules regulating fruit acidity in diverse apples. B. M. C. Genomics 16:612. DOI: 10.1186/s12864-015-1816-6. Number of accession(s) cited: 10
  • Brooks, R. M. & H. P. Olmo. 1972. Register of new fruit and nut varieties, 2nd ed. University of California Press, Berkeley, California. Number of accession(s) cited: 1
  • Crandall, C. S. 1926. Apple Breeding. U.Ill.Ag.Bl.275 Number of accession(s) cited: 1
  • Den Boer. 1959. Ornamental Crab Apples. A.F. 1959 Note: Am Assn. Nurserymen Number of accession(s) cited: 1
  • Dougherty, L., Y. Zhu, & K. Xu. 2016. Assessing the allelotypic effect of two aminocyclopropane carboxylic acid synthase-encoding genes MdACS1 and MdACS3a on fruit ethylene production and softening in Malus. Hort. Res. 3:16024. DOI: 10.1038/hortres.2016.24. Note: ISSN 2052-7276 (online) Number of accession(s) cited: 951
  • Duan, N., Y. Bai, H. Sun, N. Wang, Y. Ma, M. Li, et al. 2017. Genome re-sequencing reveals the history of apple and supports a two-stage model for fruit enlargement. Nat. Commun. 8:249. DOI: 10.1038/s41467-017-00336-7. Number of accession(s) cited: 66
  • Fassuliotis, G. 1971. Susceptibility of Cucurbita spp. to the Root-Knot Nematode, Meloidogyne incognita. Pl. Dis. Reporter 55(8):666. Note: Table 1: Plant Introductions of Cucurbit spp. evaluated for resistance to Meloidogyne incognita. (Data provided by author, not published.) Number of accession(s) cited: 1
  • Fuertes, M. C. et al. 1996. El Cultivo del Manzano en Asturias. Number of accession(s) cited: 2
  • Gilmer, R. M. 1971. Latent Virus..Apple.Src 1 (10). Number of accession(s) cited: 1
  • Gutierrez, B. L., G.-Y. Zhong, & S. K. Brown. 2018. Increased phloridzin content associated with russeting in apple (Malus domestica (Suckow) Borkh.) fruit. Genet. Resources Crop Evol. 65:2135–2149. DOI: 10.1007/s10722-018-0679-5. Number of accession(s) cited: 111
  • Kumar, S. K., N. Wojtyna, L. Dougherty, K. Xu, & G. Peck. 2021. Classifying cider apple germplasm using genetic markers for fruit acidity. J. Amer. Soc. Hort. Sci. 146:267-275. DOI: 10.21273/JASHS05056-21. Number of accession(s) cited: 217
  • Migicovsky, Z., G. M. Douglas, & S. Myles. 2022. Genotyping-by-sequencing of Canada’s apple biodiversity collection. Front. Genet. 13:1664-8021. DOI: 10.3389/fgene.2022.934712. Number of accession(s) cited: 939
  • Migicovsky, Z., K. M. Gardner, C. Richards, C. Thomas Chao, H. R. Schwaninger, G. Fazio, G.-Y. Zhong, & S. Myles. 2021. Genomic consequences of apple improvement. Hort. Res. 8:1–13. DOI: 10.1038/s41438-020-00441-7. Note: ISSN 2052-7276 (online) Number of accession(s) cited: 1840
  • Pair, J. C. & W. G. Willis. 1978. Flowering crabapple evaluations, 1972-77. Kansas Agric. Exp. Sta. Res. Rep. 0(12):1-4. DOI: 10.4148/2378-5977.7287. Note: Contribution No. 93-340-S Number of accession(s) cited: 3
  • Rosburg, T. 2011. Monitoring plant and bird response to ecological restoration practices at Robison Wildlife Area. Other miscellaneous document 1-36. Note: Floristic survey provided for four areas within Robison Wildlife Area Number of accession(s) cited: 1
  • Smith, M. W. G. 1971. National Register of the United Kingdom. 281. Number of accession(s) cited: 2
  • Sugimoto, N., P. Forsline, & R. Beaudry. 2015. Volatile profiles of members of the USDA Geneva Malus core collection: utility in evaluation of a hypothesized biosynthetic pathway for esters derived from 2-methylbutanoate and 2-methylbutan-1-ol. J. Agric. Food Chem. 63:2106–2116. DOI: 10.1021/jf505523m. Number of accession(s) cited: 184
  • Thapa, R., J. Singh, B. Gutierrez, J. Arro, & A. Khan. 2021. Genome-wide association mapping identifies novel loci underlying fire blight resistance in apple. Pl. Genome 14(2):e20087. DOI: 10.1002/tpg2.20087. Number of accession(s) cited: 579
  • Volk, G. M., A. D. Henk, P. L. Forsline, A. K. Szewc-Mcfadden, G. Fazio, H. Aldwinckle, & C. M. Richards. 2016. Seeds capture the diversity of two ex situ Malus sieversii collections. Genet. Resources Crop Evol. DOI: 10.1007/s10722-016-0450-8. Number of accession(s) cited: 82
  • Volk, G. M., C. M. Richards, A. D. Henk, A. A. Reilley, P. A. Reeves, P. L. Forsline, & H. S. Aldwinckle. 2009. Capturing the diversity of wild Malus orientalis from Georgia, Armenia, Russia and Turkey. J. Amer. Soc. Hort. Sci. 134(4):453-459. Number of accession(s) cited: 51
  • Volk, G. M., C. M. Richards, A. D. Henk, A. Reilly, D. D. Miller, & P. L. Forsline. 2009. Novel diversity identified in a wild apple population from the Kyrgyz Republic. HortScience 44(2):516-518. Number of accession(s) cited: 12
  • Volk, G. M., C. M. Richards, P. L. Forsline, H. S. Aldwinckle, A. D. Reilly, & A. D. Henk. 2005. Ex situ conservation of vegetatively propagated species: development of a seed-based core collection for Malus sieversii. J. Amer. Soc. Hort. Sci. 130(2):203-210. Note: Seeds produced as per project referenced. Number of accession(s) cited: 96
  • Wedger, M. J., A. C. Schumann, & B. L. Gross. 2021. Candidate genes and signatures of directional selection on fruit quality traits during apple domestication. Amer. J. Bot. 108:616–627. DOI: 10.1002/ajb2.1636. Number of accession(s) cited: 42
  • Whealy, K. 1989. Fruit, Berry & Nut Inventory. p. 65 Number of accession(s) cited: 3
  • 1991. Edible Apples on Prairie Canada. Pub. 21 p. 47 Number of accession(s) cited: 2

IPR Citations
No citation information found.

Pedigree Citations
No citation information found.
Accession
IPR
Pedigree