Abstract
BackgroundPlasma membrane intrinsic proteins (PIPs) are plant channel proteins involved in water deficit and salinity tolerance. PIPs play a major role in plant cell water balance and responses to salt stress. Although sugarcane is prone to high salt stress, there is no report on PIPs in sugarcane.ResultsIn the present study, eight PIP family genes, termed ScPIP1–1, ScPIP1–2, ScPIP1–3, ScPIP1–4, ScPIP2–1, ScPIP2–2, ScPIP2–4 and ScPIP2–5, were obtained based on the sugarcane transcriptome database. Then, ScPIP2–1 in sugarcane was cloned and characterized. Confocal microscopy observation indicated that ScPIP2–1 was located in the plasma membrane and cytoplasm. A yeast two-hybridization experiment revealed that ScPIP2–1 does not have transcriptional activity. Real time quantitative PCR (RT-qPCR) analysis showed that ScPIP2–1 was mainly expressed in the leaf, root and bud, and its expression levels in both below- and aboveground tissues of ROC22 were up-regulated by abscisic acid (ABA), polyethylene glycol (PEG) 6000 and sodium chloride (NaCl) stresses. The chlorophyll content and ion leakage measurement suggested that ScPIP2–1 played a significant role in salt stress resistance in Nicotiana benthamiana through the transient expression test. Overexpression of ScPIP2–1 in Arabidopsis thaliana proved that this gene enhanced the salt tolerance of transgenic plants at the phenotypic (healthier state, more stable relative water content and longer root length), physiologic (more stable ion leakage, lower malondialdehyde content, higher proline content and superoxide dismutase activity) and molecular levels (higher expression levels of AtKIN2, AtP5CS1, AtP5CS2, AtDREB2, AtRD29A, AtNHX1, AtSOS1 and AtHKT1 genes and a lower expression level of the AtTRX5 gene).ConclusionsThis study revealed that the ScPIP2–1-mediated osmotic stress signaling cascade played a positive role in plant response to salt stress.
Highlights
Plasma membrane intrinsic proteins (PIPs) are plant channel proteins involved in water deficit and salinity tolerance
Bioinformatics analysis showed that these eight ScPIP proteins had a relative molecular mass of 30–31 kDa, isoelectric points of 6.64–9.00, and all belonged to stable hydrophobins (Table S2)
Cloning and sequence analysis of the ScPIP2–1 gene A full-length cDNA sequence of ScPIP2–1 was cloned from the 24-h 250 mmol·L− 1 Sodium chloride (NaCl)-treated ROC22 leaves by reverse transcription-polymerase chain reaction (RT-PCR)
Summary
Plasma membrane intrinsic proteins (PIPs) are plant channel proteins involved in water deficit and salinity tolerance. PIPs play a major role in plant cell water balance and responses to salt stress. Plants suffer from various environmental stresses during the process of growth and development. Drought and alkali stresses are the dominant abiotic stresses in plants and can impede plant growth and development and production [1]. The water transport channel is one of the important defense components for resisting salt, drought and alkali stresses [2]. Regarding the water transport channel, there are three kinds of pathways: transmembrane, symplastic and apoplastic [3]. The water transport channels could be blocked by casparian bands and suberin lamellae [3]
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