1 |
Tang L, Kwon SY, Kim MD, Kim JS, Kwak SS, Lee HS (2007) Enhanced tolerance to oxidative stress of transgenic potato (cv. Superior) plants expressing SOD and APX in chloroplasts. Kor J Plant Biotech 34:299-305
과학기술학회마을
DOI
|
2 |
Tang L, Kwon SY, Yun DJ, Kwak SS, Lee HS (2004a) Selection of transgenic potato plants expressing NDP Kinase 2 gene with enhanced tolerance to oxidative stress. Kor J Plant Biotech 31:19-195
과학기술학회마을
|
3 |
Tang L, Kwon SY, Kwak SS, Sung CK, Lee HS (2004b) Selection of transgenic potato plants expressing both CUZNSOD and APX in chloroplasts with enhanced tolerance to oxidative stress. Kor J Plant Biotech 31:109-113
과학기술학회마을
DOI
|
4 |
Tang, L, Kim MD, Yang KS, Kwon SY, Kim SH, Kim JS, Yun DJ, Kwak SS, Lee HS (2008) Enhanced tolerance of transgenic potato plants overexpressing nucleoside diphosphate kinase 2 against multiple environmental stresses. Transgenic Res 17: 705-715
DOI
|
5 |
Tseng MJ, Liu CW, Yiu JC (2008) Tolerance to sulfur dioxide in Chinese cabbage transformed with both the superoxide dismutase containing manganese and catalase genes of Escherichia coli. Sci Hort 115:101-110
DOI
|
6 |
Zhang Y,Yin X, Yang A, Li G, Zhang J (2005) stability of inheritance of transgenes in maize (Zea mays L.) lines produced using different transformation methods. Euphytica 144:11-22
DOI
|
7 |
Lee SY, Han BH, Cho AY (2009a) Inheritance and expression of transgene in SOD2-transgenic petunia descendants and their morphological traits. Kor J Plant Biotech 36:289-293
과학기술학회마을
DOI
|
8 |
Lee SY, Han BH,, Noh EW, Kwak SS (2009b) Transfer of SOD2 or NDP kinase 2 genes into purebred lines of petunia. Kor J Plant Biotech 36:144-148
과학기술학회마을
DOI
|
9 |
Lee SY, Han BH, Kim YT, Kim JS (2010) Resistance of SOD2-Transgenic Petunia Line to Oxidative Stress. Kor J Plant Biotech 37:532-566
과학기술학회마을
DOI
|
10 |
Lim S, Kim YH, Kim SH, Kwon SY, Lee HS, Kim JS, Cho KY, Paek KY, Kwak SS (2007) Enhanced tolerance of transgenic sweetpotato plants that express both CuZnSOD and APX in chloroplasts to methyl viologen-mediated oxidative stress and chilling. Mol Breeeding 19:227-239
DOI
|
11 |
Moon H, Lee B, Choi G, Shin D, Prasad DT, Lee O, Kwak SS, Kim DH, Nam J, Bahk J, Hong JC, Lee SY, Cho MJ, Lim CO, Yun DJ (2003) NDP kinase 2 interacts with two oxidative stressactivated MARKs to regulate cellular redox state and enhances multiple stress tolerance in transgenic plants. PNAS 100:358-363
DOI
|
12 |
National Seed Management Office (1997) Standard for survey in application and evaluation of carnation new varieties. pp 32-40 (In Korean)
|
13 |
Rural Development Administration (1995) Standard for survey in agricultural experiment & research. pp 388-390 (In Korean)
|
14 |
Sriskandarajah S, Mibus H, Serek M (2007) Transgenic Campanula carpatica plants with reduced ethylene sensitivity. Plant Cell Rep 26:805-813
DOI
|
15 |
Suntres Z (2002) Role of antioxidants in paraquat toxicity. Toxicology 180:65-77
DOI
|
16 |
Chareonpornwattana S, Thara KV, Wang L, Data SK, Panbangred W, Muthukrishnan S (1999) Inheritance, expression, and silencing of a chitinase transgene in rice. Theor Appl Genet 98:371-378
DOI
|
17 |
Choi HW, Yu XH, Lemaux PG, Cho MJ (2009) Stability and inheritance of endosperm-specific expression of two transgenes in progeny from crossing independently transformed barley plants. Plant Cell Rep 28:1265-1272
DOI
|
18 |
Clark DG, Dervinis C, Barrett JE, Klee H, Jones M (2004) Droughtinduced leaf senescence and horticultural performance of transgenic PSAG12-ipt petunias. J Amer Soc Hort SCI 129:93-99
|
19 |
Fang GC, Hanau RM, Vaillancourt LJ (2002) The SOD2 gene, encoding a manganese-type superoxide dismutase, is upregulated during conidiogenesis in the plant pathogenic fungus Colletotrichum graminicola. Fungal Genetics and Biology 36:155-165
DOI
|
20 |
François IEJA, Broekaert WF, Cammue BPA (2002) Different approaches for multi-transgene-stacking in plants. Plant Sci 163:281-295
DOI
|
21 |
Kim JS, Lee BH, Kwon SY, Kim YH, Kim SH, Cho KY (2005) Antioxidative responses of transgenic tobacco plants expressing both superoxide dismutase and ascorbate peroxidase in chloroplasts to several herbicides. Kor J Plant Biotech 32: 97-103
과학기술학회마을
DOI
|
22 |
Kim KU, Kim DU, Kwon ST (1986) Development of herbicide (paraquat) tolerant plant through tissue culture. Korea J Weed Sci 61:191-200
|
23 |
Kwon DY, Jeong YI, Lee HS, Kim JS, Cho KY, Allen RD, Kwak SS (2002) Enhanced tolerance of transgenic tobacco plants expressing both superoxide dismutase and ascorbate peroxidase in chloroplasts against methyl viologen-mediated oxidative stress. Plant, Cell and Environment 25:873-882
DOI
|
24 |
Chan YL, Lin KH, Sanjaya, Liao LJ, Chen WH, Chan MT (2005) Gene stacking in Phalenopsis orchid enhances dual tolerance to pathogen attack. Trans Res 14:279-288
DOI
|