2015 Peer-reviewed publications citing the use of GDR

2015 Peer-reviewed papers citing GDR (135)
 

  1. Jung, S., Bassett, C., Bielenberg, D. G., Cheng, C. H., Dardick, C., Main, D., ... & Schaffer, R. J. (2015). A standard nomenclature for gene designation in the Rosaceae. Tree genetics & genomes, 11, 1-7.
    Cited By
  2. Darwish, O., Shahan, R., Liu, Z., Slovin, J. P., & Alkharouf, N. W. (2015). Re-annotation of the woodland strawberry (Fragaria vesca) genome. BMC genomics, 16(1), 1-9.
    Cited By
  3. Hanada, T., Nashima, K., Kato, M., Takashina, T., Ikeda, K., Sakamoto, Y., ... & Isuzugawa, K. (2015). Molecular cloning and expression analysis of the WEE1 and CCS52A genes in European pear (Pyrus communis L.) and their possible roles in a giant fruit mutant. The Journal of Horticultural Science and Biotechnology, 90(5), 511-517.
    Cited By
  4. Donoso, J. M., Eduardo, I., Picañol, R., Batlle, I., Howad, W., Aranzana, M. J., & Arús, P. (2015). High-density mapping suggests cytoplasmic male sterility with two restorer genes in almond× peach progenies. Horticulture research, 2.
    Cited By
  5. Ru, S., Main, D., Evans, K., & Peace, C. (2015). Current applications, challenges, and perspectives of marker-assisted seedling selection in Rosaceae tree fruit breeding. Tree Genetics & Genomes, 11, 1-12.
    Cited By
  6. Cova, V., Bandara, N. L., Liang, W., Tartarini, S., Patocchi, A., Troggio, M., ... & Komjanc, M. (2015). Fine mapping of the Rvi5 (Vm) apple scab resistance locus in the ‘Murray’apple genotype. Molecular Breeding, 35, 1-12.
    Cited By
  7. Salazar, J. A., Rubio, M., Ruiz, D., Tartarini, S., Martínez-Gómez, P., & Dondini, L. (2015). SNP development for genetic diversity analysis in apricot. Tree Genetics & Genomes, 11, 1-9.
    Cited By
  8. Kaja, E., Szcześniak, M. W., Jensen, P. J., Axtell, M. J., McNellis, T., & Makałowska, I. (2015). Identification of apple miRNAs and their potential role in fire blight resistance. Tree Genetics & Genomes, 11, 1-11.
    Cited By
  9. Jia, Y., Yuan, Y., Zhang, Y., Yang, S., & Zhang, X. (2015). Extreme expansion of NBS-encoding genes in Rosaceae. BMC genetics, 16, 1-12.
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  10. Kang, C., & Liu, Z. (2015). Global identification and analysis of long non-coding RNAs in diploid strawberry Fragaria vesca during flower and fruit development. BMC genomics, 16, 1-15.
    Cited By
  11. Wilde, H. D., Gandhi, K. J., & Colson, G. (2015). State of the science and challenges of breeding landscape plants with ecological function. Horticulture research, 2.
    Cited By
  12. Bassil, N. V., Davis, T. M., Zhang, H., Ficklin, S., Mittmann, M., Webster, T., ... & van de Weg, E. (2015). Development and preliminary evaluation of a 90 K Axiom® SNP array for the allo-octoploid cultivated strawberry Fragaria× ananassa. BMC genomics, 16(1), 1-30.
    Cited By
  13. Lashbrooke, J., Aharoni, A., & Costa, F. (2015). Genome investigation suggests MdSHN3, an APETALA2-domain transcription factor gene, to be a positive regulator of apple fruit cuticle formation and an inhibitor of russet development. Journal of Experimental Botany, 66(21), 6579-6589.
    Cited By
  14. Dereeper, A., Bocs, S., Rouard, M., Guignon, V., Ravel, S., Tranchant-Dubreuil, C., ... & Droc, G. (2015). The coffee genome hub: a resource for coffee genomes. Nucleic acids research, 43(D1), D1028-D1035.
    Cited By
  15. Song, C., Ring, L., Hoffmann, T., Huang, F. C., Slovin, J., & Schwab, W. (2015). Acylphloroglucinol biosynthesis in strawberry fruit. Plant physiology, 169(3), 1656-1670.
    Cited By
  16. Bai, Y., Dougherty, L., Cheng, L., & Xu, K. (2015). A co-expression gene network associated with developmental regulation of apple fruit acidity. Molecular genetics and genomics, 290, 1247-1263.
    Cited By
  17. Kim, T., Dreher, K., Nilo-Poyanco, R., Lee, I., Fiehn, O., Lange, B. M., ... & Rhee, S. Y. (2015). Patterns of metabolite changes identified from large-scale gene perturbations in Arabidopsis using a genome-scale metabolic network. Plant physiology, 167(4), 1685-1698.
    Cited By
  18. Shin, J., & Lee, I. (2015). Co-inheritance analysis within the domains of life substantially improves network inference by phylogenetic profiling. PLoS One, 10(9), e0139006.
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  19. Davik, J., Eikemo, H., Brurberg, M. B., & Sargent, D. J. (2015). Mapping of the RPc-1 locus for Phytophthora cactorum resistance in Fragaria vesca. Molecular Breeding, 35, 1-11.
    Cited By
  20. Dossett, M., Bushakra, J. M., Gilmore, B., Koch, C. A., Kempler, C., Finn, C. E., & Bassil, N. V. (2015). Development and transferability of black and red raspberry microsatellite markers from short-read sequences. Journal of the American Society for Horticultural Science, 140(3), 243-252.
    Cited By
  21. Afanador-Kafuri, L., Mejía, J. F., González, A., & Álvarez, E. (2015). Identifying and analyzing the diversity of resistance gene analogs in Colombian Rubus genotypes. Plant Disease, 99(7), 994-1001.
    Cited By
  22. Fernandez-Pozo, N., Menda, N., Edwards, J. D., Saha, S., Tecle, I. Y., Strickler, S. R., ... & Mueller, L. A. (2015). The Sol Genomics Network (SGN)—from genotype to phenotype to breeding. Nucleic acids research, 43(D1), D1036-D1041.
    Cited By
  23. Adal, A. M., Demissie, Z. A., & Mahmoud, S. S. (2015). Identification, validation and cross-species transferability of novel Lavandula EST-SSRs. Planta, 241, 987-1004.
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  24. Song, Z., Guo, S., Zhang, C., Zhang, B., Ma, R., Korir, N. K., & Yu, M. (2015). KT/HAK/KUP potassium transporter genes differentially expressed during fruit development, ripening, and postharvest shelf-life of ‘Xiahui6’peaches. Acta physiologiae plantarum, 37, 1-9.
    Cited By
  25. Song, Z. Z., Yang, Y., Ma, R. J., Xu, J. L., & Yu, M. L. (2015). Transcription of potassium transporter genes of KT/HAK/KUP family in peach seedlings and responses to abiotic stresses. Biologia plantarum, 59(1), 65-73.
    Cited By
  26. Uncu, A. O., Uncu, A. T., Celık, İ., Doganlar, S., & Frary, A. (2015). A primer to molecular phylogenetic analysis in plants. Critical reviews in plant sciences, 34(4), 454-468.
    Cited By
  27. Park, H. Y., Cho, I. H., Jung, S., & Main, D. (2015). Information and communication technology and user knowledge-driven innovation in services. Cogent Business & Management, 2(1), 1078869.
    Cited By
  28. Koning-Boucoiran, C. F., Esselink, G. D., Vukosavljev, M., van't Westende, W. P., Gitonga, V. W., Krens, F. A., ... & Smulders, M. J. (2015). Using RNA-Seq to assemble a rose transcriptome with more than 13,000 full-length expressed genes and to develop the WagRhSNP 68k Axiom SNP array for rose (Rosa L.). Frontiers in Plant Science, 6, 249.
    Cited By
  29. Castede, S., Campoy, J. A., Le Dantec, L., Quero-Garcia, J., Barreneche, T., Wenden, B., & Dirlewanger, E. (2015). Mapping of candidate genes involved in bud dormancy and flowering time in sweet cherry (Prunus avium). PloS one, 10(11), e0143250.
    Cited By
  30. Zhou, S., Li, M., Guan, Q., Liu, F., Zhang, S., Chen, W., ... & Ma, F. (2015). Physiological and proteome analysis suggest critical roles for the photosynthetic system for high water-use efficiency under drought stress in Malus. Plant Science, 236, 44-60.
    Cited By
  31. Aguiar, B., Vieira, J., Cunha, A. E., Fonseca, N. A., Iezzoni, A., van Nocker, S., & Vieira, C. P. (2015). Convergent evolution at the gametophytic self-incompatibility system in Malus and Prunus. PloS one, 10(5), e0126138.
    Cited By
  32. Cui, H. R., Zhang, Z. R., Lv, W., Xu, J. N., & Wang, X. Y. (2015). Genome-wide characterization and analysis of F-box protein-encoding genes in the Malus domestica genome. Molecular Genetics and Genomics, 290, 1435-1446.
    Cited By
  33. Falavigna, V. D. S., Miotto, Y. E., Porto, D. D., Anzanello, R., Santos, H. P. D., Fialho, F. B., ... & Revers, L. F. (2015). Functional diversification of the dehydrin gene family in apple and its contribution to cold acclimation during dormancy. Physiologia plantarum, 155(3), 315-329.
    Cited By
  34. Garcia-Seco, D., Zhang, Y., Gutierrez-Mañero, F. J., Martin, C., & Ramos-Solano, B. (2015). RNA-Seq analysis and transcriptome assembly for blackberry (Rubus sp. Var. Lochness) fruit. BMC genomics, 16(1), 1-12.
    Cited By
  35. Qiao, X., Li, M., Li, L., Yin, H., Wu, J., & Zhang, S. (2015). Genome-wide identification and comparative analysis of the heat shock transcription factor family in Chinese white pear (Pyrus bretschneideri) and five other Rosaceae species. BMC plant biology, 15(1), 1-16.
    Cited By
  36. Zhou, H., Lin‐Wang, K., Wang, H., Gu, C., Dare, A. P., Espley, R. V., ... & Han, Y. (2015). Molecular genetics of blood‐fleshed peach reveals activation of anthocyanin biosynthesis by NAC transcription factors. The Plant Journal, 82(1), 105-121.
    Cited By
  37. Guajardo, V., Solís, S., Sagredo, B., Gainza, F., Muñoz, C., Gasic, K., & Hinrichsen, P. (2015). Construction of high density sweet cherry (Prunus avium L.) linkage maps using microsatellite markers and SNPs detected by genotyping-by-sequencing (GBS). PloS one, 10(5), e0127750.
    Cited By
  38. Costa, F. (2015). MetaQTL analysis provides a compendium of genomic loci controlling fruit quality traits in apple. Tree genetics & genomes, 11(1), 819.
    Cited By
  39. Tuan, P. A., Bai, S., Yaegaki, H., Tamura, T., Hihara, S., Moriguchi, T., & Oda, K. (2015). The crucial role of PpMYB10. 1 in anthocyanin accumulation in peach and relationships between its allelic type and skin color phenotype. BMC Plant Biology, 15, 1-14.
    Cited By
  40. Bushakra, J. M., Lewers, K. S., Staton, M. E., Zhebentyayeva, T., & Saski, C. A. (2015). Developing expressed sequence tag libraries and the discovery of simple sequence repeat markers for two species of raspberry (Rubus L.). BMC plant biology, 15(1), 1-11.
    Cited By
  41. Buron-Moles, G., Wisniewski, M., Viñas, I., Teixidó, N., Usall, J., Droby, S., & Torres, R. (2015). Characterizing the proteome and oxi-proteome of apple in response to a host (Penicillium expansum) and a non-host (Penicillium digitatum) pathogen. Journal of proteomics, 114, 136-151.
    Cited By
  42. Leforestier, D., Ravon, E., Muranty, H., Cornille, A., Lemaire, C., Giraud, T., ... & Branca, A. (2015). Genomic basis of the differences between cider and dessert apple varieties. Evolutionary Applications, 8(7), 650-661.
    Cited By
  43. Wisniewski, M., Norelli, J., & Artlip, T. (2015). Overexpression of a peach CBF gene in apple: a model for understanding the integration of growth, dormancy, and cold hardiness in woody plants. Frontiers in plant science, 6, 85.
    Cited By
  44. Guajardo, V., Hinrichsen, P., & Muñoz, C. (2015). Breeding rootstocks for Prunus species: Advances in genetic and genomics of peach and cherry as a model. Chilean journal of agricultural research, 75, 17-27.
    Cited By
  45. Ferrero, S., Carretero-Paulet, L., Mendes, M. A., Botton, A., Eccher, G., Masiero, S., & Colombo, L. (2015). Transcriptomic signatures in seeds of apple (Malus domestica L. Borkh) during fruitlet abscission. PLoS One, 10(3), e0120503.
    Cited By
  46. Urrutia, M., Bonet, J., Arús, P., & Monfort, A. (2015). A near-isogenic line (NIL) collection in diploid strawberry and its use in the genetic analysis of morphologic, phenotypic and nutritional characters. Theoretical and applied genetics, 128, 1261-1275.
    Cited By
  47. Gu, C., Liao, L., Zhou, H., Wang, L., Deng, X., & Han, Y. (2015). Constitutive activation of an anthocyanin regulatory gene PcMYB10. 6 is related to red coloration in purple-foliage plum. PLoS One, 10(8), e0135159.
    Cited By
  48. Lora, J., Hormaza, J. I., & Herrero, M. (2015). Transition from two to one integument in Prunus species: expression pattern of INNER NO OUTER (INO), ABERRANT TESTA SHAPE (ATS) and ETTIN (ETT). New Phytologist, 208(2), 584-595.
    Cited By
  49. Chagné, D., Kirk, C., Whitworth, C., Erasmuson, S., Bicknell, R., Sargent, D. J., ... & Troggio, M. (2015). Polyploid and aneuploid detection in apple using a single nucleotide polymorphism array. Tree Genetics & Genomes, 11, 1-6.
    Cited By
  50. Font i Forcada, C., Velasco, L., Socias i Company, R., & Fernandez i Marti, A. (2015). Association mapping for kernel phytosterol content in almond. Frontiers in plant science, 6, 530.
    Cited By
  51. Ma, B., Liao, L., Zheng, H., Chen, J., Wu, B., Ogutu, C., ... & Han, Y. (2015). Genes encoding aluminum‐activated malate transporter II and their association with fruit acidity in apple. The plant genome, 8(3), plantgenome2015-03.
    Cited By
  52. Wang, J., Zhang, K., Zhang, X., Yan, G., Zhou, Y., Feng, L., ... & Duan, X. (2015). Construction of commercial sweet cherry linkage maps and QTL analysis for trunk diameter. PloS one, 10(10), e0141261.
    Cited By
  53. Chagné, D. (2015). Whole genome sequencing of fruit tree species. Advances in botanical research, 74, 1-37.
    Cited By
  54. Yagi, M. (2015). Recent progress in genomic analysis of ornamental plants, with a focus on carnation. The Horticulture Journal, 84(1), 3-13.
    Cited By
  55. Rubio, M., Ballester, A. R., Olivares, P. M., Castro de Moura, M., Dicenta, F., & Martinez-Gomez, P. (2015). Gene expression analysis of Plum pox virus (Sharka) susceptibility/resistance in apricot (Prunus armeniaca L.). PLoS One, 10(12), e0144670.
    Cited By
  56. Bokszczanin, K. L., Przybyla, A. A., Krezdorn, N., Winter, P., & Filipecki, M. (2015). Investigation of Mal d 1 Allelic variants and phylogenetic diversity in contemporary and historical Polish apple cultivars. Journal of Agricultural Science, 7(11), 115.
    Cited By
  57. Nakano, T., Kato, H., Shima, Y., & Ito, Y. (2015). Apple SVP family MADS-box proteins and the tomato pedicel abscission zone regulator JOINTLESS have similar molecular activities. Plant and Cell Physiology, 56(6), 1097-1106.
    Cited By
  58. Campoy, J. A., Le Dantec, L., Barreneche, T., Dirlewanger, E., & Quero-García, J. (2015). New insights into fruit firmness and weight control in sweet cherry. Plant Molecular Biology Reporter, 33, 783-796.
    Cited By
  59. Cao, K., Chang, Y., Sun, R., Shen, F., Wu, T., Wang, Y., ... & Han, Z. (2015). Candidate gene prediction via quantitative trait locus analysis of fruit shape index traits in apple. Euphytica, 206, 381-391.
    Cited By
  60. Stegmeir, T., Cai, L., Basundari, F. R., Sebolt, A. M., & Iezzoni, A. F. (2015). A DNA test for fruit flesh color in tetraploid sour cherry (Prunus cerasus L.). Molecular breeding, 35, 1-10.
    Cited By
  61. Storch, T. T., Pegoraro, C., Finatto, T., Quecini, V., Rombaldi, C. V., & Girardi, C. L. (2015). Identification of a novel reference gene for apple transcriptional profiling under postharvest conditions. PLoS One, 10(3), e0120599.
    Cited By
  62. Xia, R., Ye, S., Liu, Z., Meyers, B. C., & Liu, Z. (2015). Novel and recently evolved microRNA clusters regulate expansive F-BOX gene networks through phased small interfering RNAs in wild diploid strawberry. Plant physiology, 169(1), 594-610.
    Cited By
  63. Boocock, J., Chagné, D., Merriman, T. R., & Black, M. A. (2015). The distribution and impact of common copy-number variation in the genome of the domesticated apple, Malus x domestica Borkh. BMC genomics, 16(1), 1-15.
    Cited By
  64. Meng, R., Qu, D., Liu, Y., Gao, Z., Yang, H., Shi, X., & Zhao, Z. (2015). Anthocyanin accumulation and related gene family expression in the skin of dark-grown red and non-red apples (Malus domestica Borkh.) in response to sunlight. Scientia Horticulturae, 189, 66-73.
    Cited By
  65. Vining, K. J., Davis, T. M., Jamieson, A. R., & Mahoney, L. L. (2015). Germplasm resources for verticillium wilt resistance breeding and genetics in strawberry (Fragaria). Journal of Berry Research, 5(4), 183-195.
    Cited By
  66. Ji, X. H., Zhang, R., Wang, N., Yang, L., & Chen, X. S. (2015). Transcriptome profiling reveals auxin suppressed anthocyanin biosynthesis in red-fleshed apple callus (Malus sieversii f. niedzwetzkyana). Plant Cell, Tissue and Organ Culture (PCTOC), 123, 389-404.
    Cited By
  67. da Silva Linge, C., Bassi, D., Bianco, L., Pacheco, I., Pirona, R., & Rossini, L. (2015). Genetic dissection of fruit weight and size in an F 2 peach (Prunus persica (L.) Batsch) progeny. Molecular Breeding, 35, 1-19.
    Cited By
  68. Shin, S., Lee, J., Rudell, D., Evans, K., & Zhu, Y. (2015). Transcript profiles of auxin efflux carrier and IAA-Amido synthetase genes suggest the role of auxin on apple (Malus× domestica) fruit maturation patterns. American Journal of Plant Sciences, 6(05), 620.
    Cited By
  69. Edge-Garza, D. A., Luby, J. J., & Peace, C. (2015). Decision support for cost-efficient and logistically feasible marker-assisted seedling selection in fruit breeding. Molecular breeding, 35, 1-15.
    Cited By
  70. Rubio, M., Rodríguez‐Moreno, L., Ballester, A. R., de Moura, M. C., Bonghi, C., Candresse, T., & Martínez‐Gómez, P. (2015). Analysis of gene expression changes in peach leaves in response to P lum pox virus infection using RNA‐S eq. Molecular plant pathology, 16(2), 164-176.
    Cited By
  71. Sun, R., Chang, Y., Yang, F., Wang, Y., Li, H., Zhao, Y., ... & Han, Z. (2015). A dense SNP genetic map constructed using restriction site-associated DNA sequencing enables detection of QTLs controlling apple fruit quality. BMC genomics, 16(1), 1-15.
    Cited By
  72. Bai, Y., Dougherty, L., Cheng, L., Zhong, G. Y., & Xu, K. (2015). Uncovering co-expression gene network modules regulating fruit acidity in diverse apples. BMC genomics, 16(1), 1-16.
    Cited By
  73. Volk, G. M., Chao, C. T., Norelli, J., Brown, S. K., Fazio, G., Peace, C., ... & Bretting, P. (2015). The vulnerability of US apple (Malus) genetic resources. Genetic Resources and Crop Evolution, 62, 765-794.
    Cited By
  74. Orcheski, B., Parker, R., & Brown, S. (2015). Pale green lethal disorder in apple (Malus) is caused by a mutation in the PHYLLO gene which is essential for phylloquinone (vitamin K 1) biosynthesis. Tree Genetics & Genomes, 11, 1-11.
    Cited By
  75. Xu, X., Ma, X., Lei, H., Yin, L., Shi, X., & Song, H. (2015). MicroRNAs play an important role in the regulation of strawberry fruit senescence in low temperature. Postharvest Biology and Technology, 108, 39-47.
    Cited By
  76. Weigl, K., Wenzel, S., Flachowsky, H., Peil, A., & Hanke, M. V. (2015). Integration of bp MADS 4 on various linkage groups improves the utilization of the rapid cycle breeding system in apple. Plant Biotechnology Journal, 13(2), 246-258.
    Cited By
  77. Porto, D. D., Bruneau, M., Perini, P., Anzanello, R., Renou, J. P., Santos, H. P. D., ... & Revers, L. F. (2015). Transcription profiling of the chilling requirement for bud break in apples: a putative role for FLC-like genes. Journal of Experimental Botany, 66(9), 2659-2672.
    Cited By
  78. Mimida, N., Saito, T., Moriguchi, T., Suzuki, A., Komori, S., & Wada, M. (2015). Expression of DORMANCY-ASSOCIATED MADS-BOX (DAM)-like genes in apple. Biologia plantarum, 59(2), 237-244.
    Cited By
  79. Wang, X. L., Zhong, Y., Cheng, Z. M., & Xiong, J. S. (2015). Divergence of the bZIP gene family in strawberry, peach, and apple suggests multiple modes of gene evolution after duplication. International Journal of Genomics, 2015.
    Cited By
  80. Xu, Q., Wang, W., Zeng, J., Zhang, J., Grierson, D., Li, X., ... & Chen, K. (2015). A NAC transcription factor, EjNAC1, affects lignification of loquat fruit by regulating lignin. Postharvest Biology and Technology, 102, 25-31.
    Cited By
  81. Fresnedo-Ramírez, J., Bink, M. C., van de Weg, E., Famula, T. R., Crisosto, C. H., Frett, T. J., ... & Gradziel, T. M. (2015). QTL mapping of pomological traits in peach and related species breeding germplasm. Molecular Breeding, 35, 1-19.
    Cited By
  82. Zanon, L., Falchi, R., Santi, S., & Vizzotto, G. (2015). Sucrose transport and phloem unloading in peach fruit: potential role of two transporters localized in different cell types. Physiologia Plantarum, 154(2), 179-193.
    Cited By
  83. Micheletti, D., Dettori, M. T., Micali, S., Aramini, V., Pacheco, I., Da Silva Linge, C., ... & Aranzana, M. J. (2015). Whole-genome analysis of diversity and SNP-major gene association in peach germplasm. PloS one, 10(9), e0136803.
    Cited By
  84. Cappellin, L., Farneti, B., Di Guardo, M., Busatto, N., Khomenko, I., Romano, A., ... & Costa, F. (2015). QTL analysis coupled with PTR-ToF-MS and candidate gene-based association mapping validate the role of Md-AAT1 as a major gene in the control of flavor in apple fruit. Plant Molecular Biology Reporter, 33, 239-252.
    Cited By
  85. Li, X. W., Jiang, J., Zhang, L. P., Yu, Y., Ye, Z. W., Wang, X. M., ... & Gao, Z. S. (2015). Identification of volatile and softening-related genes using digital gene expression profiles in melting peach. Tree Genetics & Genomes, 11, 1-15.
    Cited By
  86. Zermiani, M., Zonin, E., Nonis, A., Begheldo, M., Ceccato, L., Vezzaro, A., ... & Ruperti, B. (2015). Ethylene negatively regulates transcript abundance of ROP-GAP rheostat-encoding genes and affects apoplastic reactive oxygen species homeostasis in epicarps of cold stored apple fruits. Journal of Experimental Botany, 66(22), 7255-7270.
    Cited By
  87. Morimoto, T., & Banno, K. (2015). Genetic and physical mapping of Co, a gene controlling the columnar trait of apple. Tree genetics & genomes, 11, 1-11.
    Cited By
  88. Chiu, G. Z., Shelp, B. J., Bowley, S. R., DeEll, J. R., & Bozzo, G. G. (2015). Controlled atmosphere-related injury in ‘Honeycrisp’apples is associated with γ-aminobutyrate accumulation. Canadian Journal of Plant Science, 95(5), 879-886.
    Cited By
  89. Di Santo, M. C., Ilina, N., Pagano, E. A., & Sozzi, G. O. (2015). A Japanese plum α-l-arabinofuranosidase/β-d-xylosidase gene is developmentally regulated by alternative splicing. Plant Science, 231, 173-183.
    Cited By
  90. Johnson, F. T., & Zhu, Y. (2015). Transcriptome changes in apple peel tissues during CO2 injury symptom development under controlled atmosphere storage regimens. Horticulture Research, 2.
    Cited By
  91. Leng, X., Han, J., Wang, X., Zhao, M., Sun, X., Wang, C., & Fang, J. (2015). Characterization of a Calmodulin‐binding Transcription Factor from Strawberry (Fragaria× ananassa). The plant genome, 8(2), plantgenome2014-08.
    Cited By
  92. Sircar, D., Gaid, M. M., Chizzali, C., Reckwell, D., Kaufholdt, D., Beuerle, T., ... & Beerhues, L. (2015). Biphenyl 4-hydroxylases involved in aucuparin biosynthesis in rowan and apple are cytochrome P450 736A proteins. Plant physiology, 168(2), 428-442.
    Cited By
  93. Bianchi, V. J., Rubio, M., Trainotti, L., Verde, I., Bonghi, C., & Martínez-Gómez, P. (2015). Prunus transcription factors: breeding perspectives. Frontiers in plant science, 6, 443.
    Cited By
  94. Petersen, R., Djozgic, H., Rieger, B., Rapp, S., & Schmidt, E. R. (2015). Columnar apple primary roots share some features of the columnar-specific gene expression profile of aerial plant parts as evidenced by RNA-Seq analysis. BMC plant biology, 15, 1-16.
    Cited By
  95. Li, X., Yin, X., Wang, H., Li, J., Guo, C., Gao, H., ... & Wang, X. (2015). Genome-wide identification and analysis of the apple (Malus× domestica Borkh.) TIFY gene family. Tree Genetics & Genomes, 11, 1-13.
    Cited By
  96. Pegoraro, C., Tadiello, A., Girardi, C. L., Chaves, F. C., Quecini, V., Costa de Oliveira, A., ... & Rombaldi, C. V. (2015). Transcriptional regulatory networks controlling woolliness in peach in response to preharvest gibberellin application and cold storage. BMC Plant Biology, 15, 1-14.
    Cited By
  97. Li, M., Liu, M., Peng, F., & Fang, L. (2015). Influence factors and gene expression patterns during MeJa-induced gummosis in peach. Journal of plant physiology, 182, 49-61.
    Cited By
  98. Pan, L., Zeng, W., Niu, L., Lu, Z., Liu, H., Cui, G., ... & Wang, Z. (2015). PpYUC11, a strong candidate gene for the stony hard phenotype in peach (Prunus persica L. Batsch), participates in IAA biosynthesis during fruit ripening. Journal of Experimental Botany, 66(22), 7031-7044.
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