Score: 3.00 | Title: The rice thylakoid lumenal cyclophilin OsCYP20-2 confers enhanced environmental stress tolerance in tobacco and Arabidopsis .
| Author: Kim SK You YN Park JC Joung Y Kim BG Ahn JC Cho HS | Journal: Plant Cell Rep Citation: V : 31 P : 417-26 Year: 2012 Type: MEDLINE | Literature: oryza Field: abstract Doc ID: pub22041789 Accession (PMID): 22041789 | Abstract: The role that the putative thylakoid lumenal cyclophilin ( CYP ) CYP20-2 locates in the thylakoid , and whether CYP20-2 is an essential gene , have not yet been elucidated .
Here , we show that CYP20-2 is well conserved in several photosynthetic plants and that the transcript level of the rice OsCYP20-2 gene is highly regulated under abiotic stress .
We found that ectopic expression of rice OsCYP20-2 in both tobacco and Arabidopsis confers enhanced tolerance to osmotic stress and extremely high light .
Based on these results , we suggest that although the exact biochemical function of OsCYP20-2 in the thylakoid lumen ( TL ) remains unclear , it may be involved in photosynthetic acclimation to help plants cope with environmental stress ; the OsCYP20-2 gene may be a candidate for enhancing multiple abiotic stress tolerance .
| Matching Sentences: [ Sen. 1, subscore: 2.00 ]: The role that the putative thylakoid lumenal cyclophilin ( CYP ) CYP20-2 locates in the thylakoid , and whether CYP20-2 is an essential gene , have not yet been elucidated . Here , we show that CYP20-2 is well conserved in several photosynthetic plants and that the transcript level of the rice OsCYP20-2 gene is highly regulated under abiotic stress . We found that ectopic expression of rice OsCYP20-2 in both tobacco and Arabidopsis confers enhanced tolerance to osmotic stress and extremely high light . Based on these results , we suggest that although the exact biochemical function of OsCYP20-2 in the thylakoid lumen ( TL ) remains unclear , it may be involved in photosynthetic acclimation to help plants cope with environmental stress ; the OsCYP20-2 gene may be a candidate for enhancing multiple abiotic stress tolerance . [ Sen. 2, subscore: 1.00 ]: The role that the putative thylakoid lumenal cyclophilin ( CYP ) CYP20-2 locates in the thylakoid , and whether CYP20-2 is an essential gene , have not yet been elucidated . Here , we show that CYP20-2 is well conserved in several photosynthetic plants and that the transcript level of the rice OsCYP20-2 gene is highly regulated under abiotic stress . We found that ectopic expression of rice OsCYP20-2 in both tobacco and Arabidopsis confers enhanced tolerance to osmotic stress and extremely high light . Based on these results , we suggest that although the exact biochemical function of OsCYP20-2 in the thylakoid lumen ( TL ) remains unclear , it may be involved in photosynthetic acclimation to help plants cope with environmental stress ; the OsCYP20-2 gene may be a candidate for enhancing multiple abiotic stress tolerance .
| Supplemental links/files: reference in endnote online text related articles pubmed citation | |