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Analysis of Chlorophyll Fluorescence in Transgenic Soybean under Drought and Salt stress

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  • URLhttps://db.koreascholar.com/Article/Detail/298263
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한국육종학회 (The Korean Breeding Society)
초록

Development of transgenic plant with desirable traits to cultivated plant is one of the important procedures in plant molecular breeding. However, applicable assessment of transgenic plant in laboratorial scale is not much except cultivating transgenic plant for a whole life in field condition. Here, we analyzed chlorophyll fluorescence in three transgenic soybean lines with AtMYB44 transcription factor for assessment of photosynthetic activity under abiotic stresses such as drought. Soybean varieties used in this study were ‘Bert’ and ‘Bert’ derived three transgenic soybeans, ‘AtMYB44 CM35101’, ‘AtMYB44 CM2471’, and ‘AtMYB44 CM4481’. Analyzed five different chlorophyll fluorescence variables are maximum PSII quantum yield (QY_max), steady state PSII quantum yield (QY_Lss), steady state non-photochemical quenching (NPQ_Lss), coefficient of photochemical quenching in steady-state (Qp_Lss), and fluorescence declineratio in steady-state (Rfd_Lss). To determine main chlorophyll fluorescence variable affected by abiotic stress, principal component analysis (PCA) was conducted with five chlorophyll fluorescence variables measured from four varieties. QY_Lss and NPQ_Lss were main chlorophyll fluorescence variables to evaluate abiotic stress, particularly in drought stress. In comparison with transgenic soybean lines based on chlorophyll fluorescence variables, ‘AtMYB44 CM2471’ and ‘AtMYB44 CM4481’ are more tolerant to drought than the others. Interestingly, three transgenic soybean lines which have a same AtMYB44 gene with different regions of chromosome revealed the quite different responses of chlorophyll fluorescence to drought treatment.

저자
  • Sei Joon Park(Institute of Ecological Phytochemistry, Hankyong National University)
  • Ji Young Kim(School of Plant Life and Environmental Science, Department of Phytomedicine, Hankyong National University)
  • Hyun Hee Kim(Institute of Ecological Phytochemistry, Hankyong National University)
  • Sung Yung Yoo(School of Plant Life and Environmental Science, Department of Phytomedicine, Hankyong National University)
  • So Hyun Park(School of Plant Life and Environmental Science, Department of Phytomedicine, Hankyong National University)
  • Sun Hee Hong(School of Ecological and Environmental Science, Korea University)
  • Tae Seok Ko(Institute of Ecological Phytochemistry, Hankyong National University)
  • Tae Wan Kim(Institute of Ecological Phytochemistry, Hankyong National University, School of Plant Life and Environmental Science, Department of Phytomedicine, Hankyong National University) Corresponding Author