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Full-Text Articles in Life Sciences
The Effects Of Exogenously Applied Antioxidants On Plant Growth And Resilience, Aline Rodrigues De Queiroz, Connor Hines, Jeremy Brown, Seema Sahay, Jithesh Vijayan, Julie M. Stone, Nate Bickford, Melissa Wuellner, Katarzyna Glowacka, Nicole R. Buan, Rebecca Roston
The Effects Of Exogenously Applied Antioxidants On Plant Growth And Resilience, Aline Rodrigues De Queiroz, Connor Hines, Jeremy Brown, Seema Sahay, Jithesh Vijayan, Julie M. Stone, Nate Bickford, Melissa Wuellner, Katarzyna Glowacka, Nicole R. Buan, Rebecca Roston
Department of Biochemistry: Faculty Publications
Plant growth and resilience require balancing an inherently oxidative metabolism with powerful antioxidant systems that help maintain homeostasis. When the environment changes, reactive oxygen species are potent indicators of that change, allowing adaptation through re-balancing metabolism and antioxidant systems. A large body of evidence supports the use of exogenously applied antioxidants to improve both plant growth and their resilience to stress. Notably, some phenotypic effects are similar upon the application of chemically diverse antioxidants, while others are distinct. In this review, we analyze research from antioxidant treatment experiments and highlight the similarities in their practical applications and their effects on …
Template-Based Structure Prediction And Classification Of Transcription Factors In Arabidopsis Thaliana, Tao Lu, Yuedong Yang, Bo Yao, Song Liu, Yaoqi Zhou, Chi Zhang
Template-Based Structure Prediction And Classification Of Transcription Factors In Arabidopsis Thaliana, Tao Lu, Yuedong Yang, Bo Yao, Song Liu, Yaoqi Zhou, Chi Zhang
School of Biological Sciences: Faculty Publications
Transcription factors (TFs) play important roles in plants. However, there is no systematic study of their structures and functions of most TFs in plants. Here, we performed template-based structure prediction for all TFs in Arabidopsis thaliana, with their full-length sequences as well as C-terminal and N-terminal regions. A total of 2,918 model structures were obtained with a high confidence score. We find that TF families employ only a smaller number of templates for DNA-binding domains (DBD) but a diverse number of templates for transcription regulatory domains (TRD). Although TF families are classified according to DBD, their sizes have a significant …