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Current Challenges in Studying Alternative Splicing in Plants: The Case of Physcomitrella patens SR Proteins
2020
Frontiers in Plant Science
To colonize different terrestrial habitats, early land plants had to overcome the challenge of coping with harsh new environments. Alternative splicing - an RNA processing mechanism through which splice sites are differentially recognized, originating multiple transcripts and potentially different proteins from the same gene - can be key for plant stress tolerance. Serine/arginine-rich (SR) proteins constitute an evolutionarily conserved family of major alternative splicing regulators that in
doi:10.3389/fpls.2020.00286
pmid:32265953
pmcid:PMC7105729
fatcat:juuru4csunhrdf3mjb5u6clcn4