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作者:Shreya Bhattacharya , Shreyeshi Dhar , Arundhati Banerjee ...
来源:[J].Computational Biology and Chemistry(IF 1.793), 2019, Vol.82, pp.9-24
摘要:Abstract(#br)LEA (Late Embryogenesis Abundant) proteins are abundant in plants and play a crucial role in abiotic stress tolerance. In our work, we primarily focused on the variations in physiochemical properties, conserved domains, secondary structure, gene ontology and evolut...
作者:Bedabrata Saha , Sagarika Mishra , Jay Prakash Awasthi ...
来源:[J].Environmental and Experimental Botany(IF 2.578), 2016, Vol.128, pp.99-111
摘要:... Expression of LEA (Late Embryogenesis Abundant) proteins was previously shown to alleviate osmotic stress by stabilizing water status, protecting cytosolic structures and cell through increased membrane and protein stability. We overexpressed Arabidopsis group 4 LEA protein A...
作者:Gang Wu , Hangxiao Zhang , Jing Sun ...
来源:[J].Comparative Biochemistry and Physiology, Part B(IF 2.069), 2011, Vol.160 (1), pp.32-39
摘要:Abstract(#br)From post-diapause cysts of Artemia franciscana , we defined fourteen LEA (late embryogenesis abundant) and LEA-like genes, including four novel members ( Afrlea1-5 , Afrlea3-5 , Afrlea3-like1 and Afrlea3-like2 ), which were classified into four groups: G1, G3, ...
作者:Michael J Wise
来源:[J].BMC Bioinformatics(IF 3.024), 2003, Vol.4 (1), pp.1035-1040
摘要:Abstract(#br)Background(#br)The late embryogenesis abundant (LEA) proteins cover a number of loosely related groups of proteins, originally found in plants but now being found in non-plant species. Their precise function is unknown, though considerable evidence suggests that LEA ...
作者:Liping Huang , Jing Jia , Xixi Zhao ...
来源:[J].Biochemical and Biophysical Research Communications(IF 2.406), 2018, Vol.495 (1), pp.339-345
摘要:... Moreover, ZFP36 could interact with a late embryogenesis abundant protein OsLEA5 to co-regulate the promoter activity of OsAPX1 . The seed germination is highly inhibited in ZFP36 overexpression plants under ABA treatment, while an RNA interference (RNAi) mutant of OsLEA5 ric...
作者:Nguyen Hoai Nguyen , Chau Thi Thu Nguyen , Choonkyun Jung ...
来源:[J].Biochemical and Biophysical Research Communications(IF 2.406), 2019, Vol.511 (4), pp.931-934
摘要:Abstract(#br)AtLEA4-5 is a member of the group 4 late embryogenesis abundant (LEA) proteins, which are involved in the tolerance of water deficit in Arabidopsis thaliana . Chromatin immunoprecipitation assays revealed that the transcription factor AtMYB44 bound directly to the At...
作者:Nishit Pathak , Shinya Ikeno
来源:[J].Biochemical and Biophysical Research Communications(IF 2.406), 2017
摘要:Abstract(#br)In vivo functional analyses of a late embryogenesis abundant (LEA) short peptide expressed in recombinant Escherichia coli BL21 (DE3) were carried out under abiotic stress (salt, heat, and cold) conditions. Our LEA peptide was derived from the Polypedilum vanderpla...
作者:Alaa Huwaidi , Nishit Pathak , Amir Syahir ...
来源:[J].Biochemical and Biophysical Research Communications(IF 2.406), 2018
摘要:... The late embryogenesis abundant (LEA) peptide, which functions as a shield that protects macromolecules from various abiotic stress, was obtained from the Polypedilum vanderplanki group 3 LEA protein. Recombinant Escherichia coli BL21 (DE3) expressing functional LEA short pep...
作者:Weidong Wang , Tong Gao , Jiangfei Chen ...
来源:[J].Plant Physiology and Biochemistry(IF 2.775), 2019, Vol.135, pp.277-286
摘要:Abstract(#br)Late embryogenesis abundant (LEA) proteins are a large and highly diverse family of polypeptides that play important roles in plant growth, development and stress responses. At present, LEA gene families have been identified and systematically characterized in many p...
作者:Mingzhe Sun , Yang Shen , Kuide Yin ...
来源:[J].Plant Science(IF 2.922), 2019, Vol.283, pp.70-82
摘要:... Here, we report the interaction between GsCBRLK and a group 3 late embryogenesis abundant protein GsPM30, and suggest its role in stress responses. GsPM30 was found to physically associate with GsCBRLK through yeast two hybrid assays, which was verified by bimolecular fluores...

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