1 권순태, "국내 재배마늘의 Cytochrome P450 유전자의 염기다형성 분포" 한국자원식물학회 31 (31): 531-537, 2018
2 Riaz Ahmad, "Whole genome sequencing of peach (Prunus persica L.) for SNP identification and selection" Springer Science and Business Media LLC 12 (12): 2011
3 Matsubara, K., "Two novel transposable elements in cytochrome P450 gene govern anthocyanin biosynthesis of commercial petunias" 358 : 121-126, 2005
4 Zhigang Wang, "Transcriptome Analysis Reveals Candidate Genes Related to Color Fading of ‘Red Bartlett’ (Pyrus communis L.)" Frontiers Media SA 8 : 2017
5 Pham Anh Tuan, "The crucial role of PpMYB10.1 in anthocyanin accumulation in peach and relationships between its allelic type and skin color phenotype" Springer Science and Business Media LLC 15 (15): 2015
6 Cheetham, M. E., "Structure, function and evolution of DnaJ : conservation and adaptation of chaperone function" 3 : 28-36, 1998
7 Cevallos-Casals, B. A., "Selecting new peach and plum genotypes rich in phenolic compounds and enhanced functional properties" 96 : 273-280, 2006
8 Quilot, B., "QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana" 109 : 884-897, 2004
9 Monet, R., "Peach Mendelian genetics : a short review and new results" 16 : 321-329, 1996
10 김세희, "Next generation sequencing 방법을 이용한 적육계 복숭아와 백육계 복숭아의 전사체 분석" 한국식물생명공학회 39 (39): 273-280, 2012
1 권순태, "국내 재배마늘의 Cytochrome P450 유전자의 염기다형성 분포" 한국자원식물학회 31 (31): 531-537, 2018
2 Riaz Ahmad, "Whole genome sequencing of peach (Prunus persica L.) for SNP identification and selection" Springer Science and Business Media LLC 12 (12): 2011
3 Matsubara, K., "Two novel transposable elements in cytochrome P450 gene govern anthocyanin biosynthesis of commercial petunias" 358 : 121-126, 2005
4 Zhigang Wang, "Transcriptome Analysis Reveals Candidate Genes Related to Color Fading of ‘Red Bartlett’ (Pyrus communis L.)" Frontiers Media SA 8 : 2017
5 Pham Anh Tuan, "The crucial role of PpMYB10.1 in anthocyanin accumulation in peach and relationships between its allelic type and skin color phenotype" Springer Science and Business Media LLC 15 (15): 2015
6 Cheetham, M. E., "Structure, function and evolution of DnaJ : conservation and adaptation of chaperone function" 3 : 28-36, 1998
7 Cevallos-Casals, B. A., "Selecting new peach and plum genotypes rich in phenolic compounds and enhanced functional properties" 96 : 273-280, 2006
8 Quilot, B., "QTL analysis of quality traits in an advanced backcross between Prunus persica cultivars and the wild relative species P. davidiana" 109 : 884-897, 2004
9 Monet, R., "Peach Mendelian genetics : a short review and new results" 16 : 321-329, 1996
10 김세희, "Next generation sequencing 방법을 이용한 적육계 복숭아와 백육계 복숭아의 전사체 분석" 한국식물생명공학회 39 (39): 273-280, 2012
11 Zhou, H., "Molecular genetics of blood-fleshed peach reveals activation of anthocyanin biosynthesis by NAC transcription factors" 82 : 105-121, 2015
12 Yang, Y. N., "Molecular cloning and gene expression differences of the anthocyanin biosynthesis-related genes in the red/green skin color mutant of pear(Pyurs communis L. )" 9 : 1351-1360, 2013
13 Werner, D. J., "Inheritance of the blood-flesh trait in peach" 33 : 1243-1246, 1998
14 Gillen, A. M., "Identification and mapping of markers linked to the Mi gene for root-not nematode resistance in peach" 130 : 24-33, 2005
15 Wittwer, C. T., "High-resolution genotyping by amplicon melting analysis using LCGreen" 49 : 853-860, 2003
16 Verde, I., "Development and evaluation of a 9K SNP array for peach by internationally coordinated SNP dection and validation in breeding germplasm" 7 (7): e35668-, 2012
17 Shen, Z., "Characterization and genetic mapping of new blood-flesh trait controlled by the single dominant locus DBF in peach" 9 : 1435-1446, 2013
18 Prince, J. P., "A versatile and high-yielding protocol for the preparation of genomic DNA from Capsicum spp. (pepper)" 32 : 937-939, 1997
19 Shujun, C., "A simple and efficient method for isolating RNA from pine trees" 11 (11): 113-116, 1993