YANG Qi
College of Life Sciences, Inner Mongolia Agricultural University/Key Laboratory of Plant Stress and Physiology and Molecular Biology, Inner Mongolia Autonomous Region / Science and Technology Innovation Team for Remediation of Plant Genetic Resources and Molecular Improvement, Inner Mongolia Autonomous Region, Hohhot 010018NIU Xiao-cui
College of Life Sciences, Inner Mongolia Agricultural University/Key Laboratory of Plant Stress and Physiology and Molecular Biology, Inner Mongolia Autonomous Region / Science and Technology Innovation Team for Remediation of Plant Genetic Resources and Molecular Improvement, Inner Mongolia Autonomous Region, Hohhot 010018WANG Rui-gang
College of Life Sciences, Inner Mongolia Agricultural University/Key Laboratory of Plant Stress and Physiology and Molecular Biology, Inner Mongolia Autonomous Region / Science and Technology Innovation Team for Remediation of Plant Genetic Resources and Molecular Improvement, Inner Mongolia Autonomous Region, Hohhot 010018LI Guo-jing
College of Life Sciences, Inner Mongolia Agricultural University/Key Laboratory of Plant Stress and Physiology and Molecular Biology, Inner Mongolia Autonomous Region / Science and Technology Innovation Team for Remediation of Plant Genetic Resources and Molecular Improvement, Inner Mongolia Autonomous Region, Hohhot 010018College of Life Sciences, Inner Mongolia Agricultural University/Key Laboratory of Plant Stress and Physiology and Molecular Biology, Inner Mongolia Autonomous Region / Science and Technology Innovation Team for Remediation of Plant Genetic Resources and Molecular Improvement, Inner Mongolia Autonomous Region, Hohhot 010018
The National Natural Science Foundation of China (General Program, Key Program, Major Research Plan)
This study reported the isolation of CiUPF0114 gene from Caragana intermedia, which contained an 876 bp open reading frame, encoding for a protein with 291 amino acids. The predicted isoelectric point and molecular weight of CiUPF0114 were 9.83 and 32.13 kD, respectively. The expression level of CiUPF0114 gene was significantly up-regulated under drought, dehydration or cold treatments. Furthermore by genome-wide screening, a total of 29 UPF0114 gene family members were identified from eight legumes, Arabidopsis and rice. The UPF0114 genes from were divided into subfamily A and subfamily B according to phylogenetic analysis. The A subfamily was further divided into two groups, A1 and A2. CiUPF0114, a gene from Caragana intermedia, belongs to the B subfamily. These results might lay the foundation for further study on the functions of CiUPF0114.