A C2-domain phospholipid-binding protein MdCAIP1 positively regulates salt and osmotic stress tolerance in apple

High salt restricts the growth and development of plants. A diverse range of genes are involved in the response to salt stress. Here we report that MdCAIP1 (C2-domain ABA Insensitive Protein1), a single C2-domain containing protein, has a conserved structure consisting of an eight-stranded anti-para...

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Bibliographic Details
Published in:Plant cell, tissue and organ culture tissue and organ culture, 2019-07, Vol.138 (1), p.29-39
Main Authors: Liu, Xiao-Juan, Dong, Yuan-Hua, Liu, Xin, You, Chun-Xiang, Hao, Yu-Jin
Format: Article
Language:English
Subjects:
Biomedical and Life Sciences
Calcium ions
Calcium-binding protein
Drought
Life Sciences
Original Article
Osmosis
Osmotic stress
Phospholipids
Plant Genetics and Genomics
Plant Pathology
Plant Physiology
Plant Sciences
Proline
Protein structure
Proteins
Salinity tolerance
Salts
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Summary:High salt restricts the growth and development of plants. A diverse range of genes are involved in the response to salt stress. Here we report that MdCAIP1 (C2-domain ABA Insensitive Protein1), a single C2-domain containing protein, has a conserved structure consisting of an eight-stranded anti-parallel β-sandwich. MdCAIP1 was able to bind to phospholipids in a Ca 2+ -dependent manner and localized to the plasma membrane. qRT-PCR analysis showed that MdCAIP1 was induced by abiotic stresses including salt, osmotic, and drought stress, as well as the hormone JA. Transgenic apple calli and Arabidopsis over-expressing MdCAIP1 were more tolerant to salt and osmotic stress, and had higher proline content and lower MDA content under these stressful conditions. Furthermore, MdCAIP1 could homodimerize. These results indicate that MdCAIP1 is a Ca 2+ -dependent phospholipid-binding protein, and implicate it in tolerance to salt and osmotic stress. Key message MdCAIP1, a Ca 2+ -dependent phospholipid-binding protein, could homodimerize and positively regulated salt and osmotic tolerance in plants.
ISSN:0167-6857
1573-5044
DOI:10.1007/s11240-019-01600-y