The Grapevine Calmodulin-Like Protein Gene CML21 Is Regulated by Alternative Splicing and Involved in Abiotic Stress Response

Calmodulin-like proteins (CMLs) represent a large family of plant calcium sensor proteins involved in the regulation of plant responses to environmental cues and developmental processes. In the present work, we identified four alternatively spliced mRNA forms of the grapevine gene that encoded prote...

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Bibliographic Details
Published in:International journal of molecular sciences 2020-10, Vol.21 (21), p.7939
Main Authors: Aleynova, Olga A, Kiselev, Konstantin V, Ogneva, Zlata V, Dubrovina, Alexandra S
Format: Article
Language:English
Subjects:
Abiotic stress
Alternative Splicing
Amino acids
Arabidopsis
calcium sensor protein
Calcium-binding protein
Callus
Calmodulin
Calmodulin - chemistry
Calmodulin - genetics
Calmodulin - metabolism
Cloning
Cold
cold stress
Cold Temperature
Desiccation
Droughts
Freezing
Gene Expression Regulation, Plant
Genes
Genomes
Hot Temperature
Kinases
Low temperature
Mannitol
Mannitol - adverse effects
mRNA splice variants
Plant Proteins - chemistry
Plant Proteins - genetics
Plant Proteins - metabolism
Polymerase chain reaction
Protein Domains
Proteins
Retention
Salinity
Sensors
Site selection
Splicing
Stress, Physiological
Transcription
Transgenic plants
transgenic plants and cell cultures
Vitis - genetics
Vitis - growth & development
Vitis - metabolism
Vitis amurensis
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Summary:Calmodulin-like proteins (CMLs) represent a large family of plant calcium sensor proteins involved in the regulation of plant responses to environmental cues and developmental processes. In the present work, we identified four alternatively spliced mRNA forms of the grapevine gene that encoded proteins with distinct N-terminal regions. We studied the transcript abundance of , , and in wild-growing grapevine Rupr. in response to desiccation, heat, cold, high salinity, and high mannitol stress using quantitative real-time RT-PCR. The levels of all four splice variants of were highly induced in response to cold stress. In addition, and forms were highly modulated by all other abiotic stress treatments. Constitutive expression of and improved biomass accumulation of callus cell cultures under prolonged low temperature stress. Heterologous expression of the grapevine and splice variants in improved survival rates of the transgenic plants after freezing. The overexpression enhanced activation of the cold stress-responsive marker genes and , while overexpression- , , , and genes after freezing stress in the transgenic . The results indicate that the grapevine gene acts as a positive regulator in the plant response to cold stress. The detected variety of transcripts and their distinct transcriptional responses suggested that this expansion of mRNA variants could contribute to the diversity of grapevine adaptive reactions.
ISSN:1422-0067
1661-6596
1422-0067
DOI:10.3390/ijms21217939