Abstract
Salinity stress is one of the most serious factors limiting plant growth and threatening global food security. Identification of salt tolerance relevant genes from halophytes can provide more insights into the determinants of salt stress tolerance in plants. In this study, functional screening of genes for the salinity tolerance inThellungiella halophila(salt cress) was carried out using fission yeast as a host organism. A cDNA library of the salt cress, constructed in the yeast vector under the control of the inducible promoter nmt1, was transformed into the fission yeastSchizosaccharomyces pombe.Transgenic yeast cells that showed enhanced salt tolerance were selected. A total of 69 such clones were identified from 106of yeast transformants by one‐time screening. Functional assignment indicates that a large percentage (81%) of these cDNAs encode for homologues of proteins that are known to have roles in plant salt tolerance, while the other portion (19%) codes for unknown proteins. Among the proteins encoded by the known functional genes, the regulatory proteins account for a relatively higher proportion. Northern blot analysis showed that the expression of some isolated genes was salt stress inducible, whereas that of the others was constitutive. These results indicate that fission yeast is a simple and efficient system for functional and large‐scale identification of salt tolerance‐related genes from other organisms.
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