Authors
Jun Sung Seo, Hwang Bae Sohn, Kaeyoung Noh, Choonkyun Jung, Ju Hee An, Christopher M Donovan, David A Somers, Dae In Kim, Soon-Chun Jeong, Chang-Gi Kim, Hwan Mook Kim, Suk-Ha Lee, Yang Do Choi, Tae Wha Moon, Chung Ho Kim, Jong-Joo Cheong
Publication date
2012/3
Journal
Molecular Breeding
Volume
29
Pages
601-608
Publisher
Springer Netherlands
Description
AtMYB44, a member of the subgroup 22 R2R3 MYB transcription factors, positively regulates abscisic acid signaling to induce stomatal closure, thus conferring drought/salt-stress tolerance in Arabidopsis thaliana. In this study, AtMYB44 was transformed into soybean [Glycine max (L.) Merrill] using the cotyledonary-node method. The resulting homozygous lines were shorter than the non-transgenic controls (Bert) throughout the growth period when grown in a greenhouse. The transgenic soybeans exhibited significantly enhanced drought/salt-stress tolerance, as observed in Arabidopsis. In field cultivation studies, the transgenic soybean plants showed reduced growth, but much higher yields upon seed harvest, demonstrating improved environmental stress tolerance. The amino acid and fatty acid compositions were not significantly altered in seeds harvested from the transgenic lines. These results suggest …
Scholar articles
JS Seo, HB Sohn, K Noh, C Jung, JH An, CM Donovan… - Molecular Breeding, 2012