Preferentially expressed endosperm genes reveal unique activities in wheat endosperm during grain filling
Jia Shi,
Yuqian Zhao,
Peng Zhao,
Hongmei Yang,
Chunsheng Wang,
Jianqiang Xia,
Zhun Zhao,
Zhenlong Wang,
Zhenyu Yang,
Zhong Wang,
Shengbao Xu,
Yueqiang Zhang
Affiliations
Jia Shi
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Yuqian Zhao
State Key Laboratory for Crop Stress Resistance and High-Efficiency Production, College of Agronomy, Northwest A&F University
Peng Zhao
State Key Laboratory for Crop Stress Resistance and High-Efficiency Production, College of Agronomy, Northwest A&F University
Hongmei Yang
Institute of Applied Microbiology/Xinjiang Laboratory of Special Environmental Microbiology, Xinjiang Academy of Agricultural Sciences
Chunsheng Wang
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Jianqiang Xia
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Zhun Zhao
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Zhenlong Wang
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Zhenyu Yang
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Zhong Wang
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Shengbao Xu
State Key Laboratory for Crop Stress Resistance and High-Efficiency Production, College of Agronomy, Northwest A&F University
Yueqiang Zhang
Institute of Nuclear and Biological Technologies/Xinjiang Key Laboratory of Crop Biotechnology/Key Laboratory of Oasis-Desert Crop Physiology Ecology and Cultivation of Ministry of Agricultural and Rural Affairs/Crop Chemical Regulation Engineering Technology Research Center in Xinjiang, Xinjiang Academy of Agricultural Sciences
Abstract Background Bread wheat (Triticum aestivum L.) endosperm contains starch and proteins, which determine the final yield, quality, and nutritional value of wheat grain. The preferentially expressed endosperm genes can precisely provide targets in the endosperm for improving wheat grain quality and nutrition using modern bioengineering technologies. However, the genes specifically expressed in developing endosperms remain largely unknown. Results In this study, 315 preferentially expressed endosperm genes (PEEGs) in the spring wheat landrace, Chinese Spring, were screened using data obtained from an open bioinformatics database, which reveals a unique grain reserve deposition process and special signal transduction in a developing wheat endosperm. Furthermore, transcription and accumulation of storage proteins in the wheat cultivar, XC26 were evaluated. The results revealed that 315 PEEG plays a critical role in storage protein fragment deposition and is a potential candidate for modifying grain quality and nutrition. Conclusion These results provide new insights into endosperm development and candidate genes and promoters for improving wheat grain quality through genetic engineering and plant breeding techniques.
