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Transcriptome profiling of Puccinellia tenuiflora during seed germination under a long-term saline-alkali stress
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Transcriptome profiling of Puccinellia tenuiflora during seed germination under a long-term saline-alkali stress
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Transcriptome profiling of Puccinellia tenuiflora during seed germination under a long-term saline-alkali stress
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Journal Article
Transcriptome profiling of Puccinellia tenuiflora during seed germination under a long-term saline-alkali stress
2019
Overview
Background
Puccinellia tenuiflora
is the most saline-alkali tolerant plant in the Songnen Plain, one of the three largest soda saline-alkali lands worldwide. Here, we investigated the physicochemical properties of saline-alkali soils from the Songnen Plain and sequenced the transcriptomes of germinated
P. tenuiflora
seedlings under long-term treatment (from seed soaking) with saline-alkali soil extracts.
Results
We found that the soils from Songnen Plain were reasonably rich in salts and alkali; moreover, the soils were severely deficient in nitrogen [N], phosphorus [P], potassium [K] and several other mineral elements. This finding demonstrated that
P. tenuiflora
can survive from not only high saline-alkali stress but also a lack of essential mineral elements. To explore the saline-alkali tolerance mechanism, transcriptional analyses of
P. tenuiflora
plants treated with water extracts from the saline-alkali soils was performed. Interestingly, unigenes involved in the uptake of N, P, K and the micronutrients were found to be significantly upregulated, which indicated the existence of an efficient nutrition-uptake system in
P. tenuiflora
. Compared with
P. tenuiflora
, the rice
Oryza sativa
was hypersensitive to saline-alkali stress. The results obtained using a noninvasive microtest techniques confirmed that the uptake of NO
3
-
and NH
4
+
and the regulatory flux of Na
+
and H
+
were significantly higher in the roots of
P. tenuiflora
than in those of
O. sativa
. In the corresponding physiological experiments, the application of additional nutrition elements significantly eliminated the sensitive symptoms of rice to saline-alkali soil extracts.
Conclusions
Our results imply that the survival of
P. tenuiflora
in saline-alkali soils is due to a combination of at least two regulatory mechanisms and the high nutrient uptake capacity of
P. tenuiflora
plays a pivotal role in its adaptation to those stress. Taken together, our results highlight the role of nutrition uptake in saline-alkali stress tolerance in plants.
Publisher
BioMed Central,BioMed Central Ltd,BMC
