Hypoosmotic Expression of <i>Dunaliella bardawil</i> ζ-Carotene Desaturase Is Attributed to a Hypoosmolarity-Responsive Element Different from Other Key Carotenogenic Genes

Lao, Yong-Min; Xiao, Lan; Lu, Luo; Jiang, Jianguo

doi:10.1104/pp.114.235390

Cited by 43 publications

(37 citation statements)

References 82 publications

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“…There were several TATA and CAAT boxes that are typical in eukaryotic promoters, multiple light response elements (GATABOX, CGCGBOXAT and SORLIP1AT), ASF1MOTIFCAMV involved in abiotic and biotic stress, and SRE (GT1GMSCAM4). Previously, cis ‐acting elements of the promoters of Dbpsy (Lao et al ., ) and Dbzds (Lao et al ., ) have been analyzed (Table ). Dbpsy and Dblcyb promoters contained the same SRE, named GT1GMSCAM4.…”

Section: Resultsmentioning

confidence: 99%

“…It was found that the transcription levsls of some carotenogenic genes in D. bardawil were up‐regulated under salt stress (Lao et al ., ). It was shown that the Dbpsy promoter contained a salt‐regulated element (SRE) and light‐regulated elements involved in stress‐responsive gene expression (Lao et al ., ), and the Dbzds promoter had a hypoosmolarity‐responsive element (HRE) instead of salt‐inducible elements (Lao et al ., ).…”

Section: Introductionmentioning

confidence: 97%

“…In this study, we mainly studied on the cis ‐acting elements in the carotenogenic genes promoter regions under salt stress. Previously, we have analyzed the cis ‐acting elements in the promoters of some carotenogenic genes [such as Dbpsy (Lao et al ., ) and Dbzds (Lao et al ., )] involved in the carotenoid biosynthesis of D. bardawil . It was found that the transcription levsls of some carotenogenic genes in D. bardawil were up‐regulated under salt stress (Lao et al ., ).…”

Section: Introductionmentioning

confidence: 99%

“…Previously, we have analyzed the cis ‐acting elements in the promoters of some carotenogenic genes [such as Dbpsy (Lao et al ., ) and Dbzds (Lao et al ., )] involved in the carotenoid biosynthesis of D. bardawil . It was found that the transcription levsls of some carotenogenic genes in D. bardawil were up‐regulated under salt stress (Lao et al ., ). It was shown that the Dbpsy promoter contained a salt‐regulated element (SRE) and light‐regulated elements involved in stress‐responsive gene expression (Lao et al ., ), and the Dbzds promoter had a hypoosmolarity‐responsive element (HRE) instead of salt‐inducible elements (Lao et al ., ).…”

Section: Introductionmentioning

confidence: 99%

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The salt‐regulated element in the promoter of lycopene β‐cyclase gene confers a salt regulatory pattern in carotenogenesis of Dunaliella bardawil

Liang

Chen

et al. 2016

Environmental Microbiology

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In the carotenoid biosynthesis, lycopene β-cyclase (LCYb) is a key regulatory enzyme involved in the conversion of lycopene into β-carotene. Under stress conditions, such as high salinity, high light and nutrient deprivation, large amounts of β-carotene can be accumulated in Dunaliella bardawil. To study on the molecular responses of salt stress in D. bardawil is of great significance to reveal the mechanisms of salt tolerance and engineer crop plants to be salt-tolerant. In this study, the full-length coding sequence of lcyb from D. bardawil (Dblcyb, GenBank: KX218392) was isolated by transcriptome sequencing. Then, the genomic sequence, promoter and terminator regions of Dblcyb were isolated by genome walking. The Dblcyb promoter (GenBank: KX218393) contained several typical transcription boxes, multiple light response elements and a salt-regulated element (SRE, GT1GMSCAM4). Dbpsy and Dblcyb responsible for β-carotene biosynthesis in D. bardawil was shown to be up-regulated under salt stress and their promoters contained the common SRE. By element deletion analysis and using Ble-EGFP as the reporter, the salt-inducible SRE was confirmed to confer salt-induced expression of Dblcyb promoter. It was indicated that the salt-regulated expression of Dblcyb may be attributed to the salt-responsive element (GT1GMSCAM4) and the GT-rich region in its genomic sequence.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 97%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The salt‐regulated element in the promoter of lycopene β‐cyclase gene confers a salt regulatory pattern in carotenogenesis of Dunaliella bardawil

Liang

Chen

et al. 2016

Environmental Microbiology

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“…The nature of the environmental and developmental stimuli that alter apocarotenoid formation may in some cases also reflect the ecological roles of apocarotenoids (e.g., as pollinator attractants). Examples of stimuli that affect apocarotenoid formation are summarized in Table I. Environmental and developmental stimuli also alter the expression of many carotenoid biosynthetic genes, altering carotenoid composition, which may in turn promote production of specific apocarotenoids [101][102][103]. However, the relationship between carotenoid and apocarotenoid levels is not always straightforward as expression and localization of substrates and enzymes will affect apocarotenoid production.…”

Section: Box 1 Environmental and Developmental Stimuli Regulate Apocmentioning

confidence: 99%

Synthesis and Function of Apocarotenoid Signals in Plants

Hou

Rivers

León

et al. 2016

Trends in Plant Science

266

197

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The expression pattern of β‐carotene ketolase gene restricts the accumulation of astaxanthin in Dunaliella under salt stress

Chen

Liang

et al. 2021

Journal Cellular Physiology

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Dunaliella salina can accumulate a large amount of β-carotene which is generally considered to be its terminal product of carotenoid metabolism. In this study, it was proved that D. salina has the ketolase (DsBKT) of catalyzing the synthesis of astaxanthin, the downstream products of β-carotene. Therefore, the reason why D. salina does not synthesize astaxanthin is the purpose of this study. The enzymatic activity of DsBKT was detected by functional complementation assays in Escherichia coli, results showed that DsBKT had efficient ketolase activity toward β-carotene and zeaxanthin to produce astaxanthin, indicating that there were complete astaxanthin-producing genes in Dunaliella. Unlike the induced expression of Lycopene cyclase (catalyzing β-carotene synthesis) under salt stress, the expression of DsBKT was very low under both normal and stress conditions, which may be the main reason why D. salina cannot accumulate astaxanthin. On the contrary, with the astaxanthin-rich Haematococcus pluvialis as a control, its BKT gene was significantly upregulated under salt stress. Further study showed that DsBKT promoter had strong promoter ability and could stably drive the expression of ble-egfp in D. salina.Obviously, DsBKT promoter is not the reason of DsBKT not being expressed which may be caused by Noncoding RNA.

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Hypoosmotic Expression of Dunaliella bardawil ζ-Carotene Desaturase Is Attributed to a Hypoosmolarity-Responsive Element Different from Other Key Carotenogenic Genes

Cited by 43 publications

References 82 publications

The salt‐regulated element in the promoter of lycopene β‐cyclase gene confers a salt regulatory pattern in carotenogenesis of Dunaliella bardawil

The salt‐regulated element in the promoter of lycopene β‐cyclase gene confers a salt regulatory pattern in carotenogenesis of Dunaliella bardawil

Synthesis and Function of Apocarotenoid Signals in Plants

The expression pattern of β‐carotene ketolase gene restricts the accumulation of astaxanthin in Dunaliella under salt stress

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