Hexaploid wheat (<i>Triticum aestivum</i>) root miRNome analysis in response to salt stress

Eren, H.; Pekmezci, Mustafa; Okay, Sezer; Türktaş, Mine; İnal, Behçet; İlhan, Emre; Atak, Mehmet; Erayman, Mustafa; Ünver, Turgay

doi:10.1111/aab.12219

Cited by 46 publications

(40 citation statements)

References 32 publications

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“…In fact, this reduction of crop yield has been influenced by many environmental factors. Among these factors, salinity is one of the major causes for the yield reduction [54,55]. A similar result was found in these study locations where 92 percent of the cropping area is affected by the salinity problem.…”

Section: Effect Of Salinity On Fish Species Productionsupporting

confidence: 79%

Effect of Salinity Intrusion on Food Crops, Livestock, and Fish Species at Kalapara Coastal Belt in Bangladesh

Alam

Carpenter‐Boggs

Mitra

et al. 2017

Journal of Food Quality

116

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Salinity has caused significant negative effects on agricultural production. This research is focused on the vulnerabilities of soil and water salinities on crop, fish, and livestock production across the Kalapara coastal belt of Bangladesh. Several parameters were measured as indicators of salinity. The electrical conductivity of water was found to be significant with TDS, F−, Cl−, SO42-, Na+, K+, Ca2+, Mg2+, NO2-, and PO43-. Chloride was found to be identical with SO42-, Na+, K+, Ca2+, Mg2+, Br−, and PO43-. Electrical conductivity, F−, Cl−, SO42-, Na+, K+, and Mg2+ were all found to be higher than the recommended values. Similarly, soil conductivity was found significant with TDS, Cl−, SO42-, Na+, F−, NO2-, NO3-, and PO43-. Chloride in soil samples was found statistically identical with SO42-, Na+, NO3-, and PO43-. About 200 ha fodder crops areas are affected each year due to salinity. Ninety-two percent of the areas were found to be salinity affected in the 36 current cropping patterns. Twelve percent of marine fish and 25 percent of shrimp species have disappeared as a result of salinity. The negative impact of soil and water salinity on crops, fish, and livestock has been increasing in this coastal belt.

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Section: Effect Of Salinity On Fish Species Productionsupporting

confidence: 79%

Effect of Salinity Intrusion on Food Crops, Livestock, and Fish Species at Kalapara Coastal Belt in Bangladesh

Alam

Carpenter‐Boggs

Mitra

et al. 2017

Journal of Food Quality

116

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“…In the context of in silico identification of miRNAs target genes, we found that 100 PvbHLH genes targeted by 86 plant miRNAs. One of the identified miRNA was miR396, which was previously reported for salt stress response (Liu et al 2008;Eren et al 2014). In addition to the targeting of salt responsive genes, this family of miR-NAs also target growth regulating factor (GRF) transcription factors, rhodenase-like proteins, and kinesin-like protein B.…”

Section: Discussionmentioning

confidence: 98%

Genome-wide characterization and expression analysis of common bean bHLH transcription factors in response to excess salt concentration

et al. 2015

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Members of basic helix-loop-helix (bHLH) gene family found in all eukaryotes play crucial roles in response to stress. Though, most eukaryotes carry the proteins of this family, biological functions of the most bHLH family members are not deeply evaluated in plants. In this study, we conducted a comprehensive genome-wide analysis of bHLH transcription factors in salt tolerant common bean. We identified 155 bHLH protein-encoding genes (PvbHLH) by using in silico comparative genomics tools. Based on the phylogenetic tree, PvbHLH genes were classified into 8 main groups with 21 subfamilies. Exon-intron analysis indicated that proteins belonging to same main groups exhibited a closely related gene structure. While, the PvbHLH gene family has been mainly expanded through segmental duplications, a total of 11 tandem duplication were detected. Genome-wide expression analysis of bHLH genes showed that 63 PvbHLH genes were differentially expressed in at least one tissue. Three of them displayed higher expression values in both leaf and root tissues. The in silico micro-RNA target transcript analyses revealed that totally 100 PvHLH genes targeted by 86 plant miRNAs. The most abundant transcripts, which were targeted by all 18 plant miRNA, were belonging to PvHLH-22 and PvHLH-44 genes. The expression of 16 PvbHLH genes in the root and leaf tissues of salt-stressed common bean was evaluated using qRT-PCR. Among them, two of PvbHLHs, PvbHLH-54, PvbHLH-148, were found to be up-regulated in both tissues in correlation with RNA-seq measurements. The results of this study could help improve understanding of biological functions of common bean bHLH family under salt stress. Additionally, it may provide basic resources for analyzing bHLH protein function for improving economic, agronomic and ecological benefit in common bean and other species.

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“…Up to date, several plant miRNAs have shown to play roles in abiotic and biotic stress responses (Sunkar and Zhu 2004;Lu et al 2005;Lu and Huang 2008;Eldem, et al 2012;Eldem, et al 2013;Inal, et al 2014;Eren, et al 2015;Hajyzadeh, et al 2015). For example, plant miRNAs are involved in adaptation to nutrient deficiency (Fujii et al 2005), drought (Zhao, et al 2007;Liu et al 2008;, cold (Miura and Furumoto 2013), mechanical stress (Lu, et al 2005), bacterial or fungal stress (Navarro et al 2006;Inal, et al 2014), and salinity (Sunkar et al 2008;Inal, et al 2014).…”

Section: Discussionmentioning

confidence: 99%

“…genes at post-transcriptional level (Gupta et al 2014). In recent years, several studies showed that miRNAs are involved in response to abiotic stress (Sunkar et al 2007;Lu and Huang 2008;Zhou et al 2010;Eldem et al 2012;Wang et al 2013;Eren et al 2015;Hajyzadeh et al 2015). Several miRNA families have been reported to be differentially regulated in response to drought stress in various plant species, including rice (Zhao et al 2007), tomato (Solanum lycopersicum , Arabidopsis (Liu et al 2008), Medicago truncatula (Trindade et al 2010), peach (Eldem, et al 2012), barley (Kantar et al 2010), and wheat (Gupta, et al 2014;Pandey, et al 2014).…”

Section: Introductionmentioning

confidence: 99%

miRNA-based drought regulation in wheat

Akdoğan

Tüfekçi

Uranbey

et al. 2015

Funct Integr Genomics

193

121

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MicroRNAs (miRNAs) are a class of small non-coding regulatory RNAs that regulate gene expression by guiding target mRNA cleavage or translational inhibition. Drought is a common environmental stress influencing crop growth and development. To date, it has been reported that a number of plant miRNA are involved in drought stress response. In this study, we comparatively investigated drought stress-responsive miRNAs in the root and leaf of bread wheat (Triticum aestivum cv. Sivas 111/33) by miRNA microarray screening. miRNA microarray analysis showed that 285 miRNAs (207 upregulated and 78 downregulated) and 244 miRNAs (115 upregulated and 129 downregulated) were differentially expressed in leaf and root tissues, respectively. Among the differentially expressed miRNAs, 23 miRNAs were only expressed in the leaf and 26 miRNAs were only expressed in the root of wheat growth under drought stress. Upon drought treatment, expression of miR159, miR160, miR166, miR169, miR172, miR395, miR396, miR408, miR472, miR477, miR482, miR1858, miR2118, and miR5049 were found to be significantly differentiated in bread wheat. The regulatory network analysis showed that miR395 has connections with a number of target transcripts, and miR159 and miR319 share a number of target genes. Drought-tolerant and drought-sensitive wheat cultivars showed altered expression pattern upon drought stress in terms of investigated miRNA and their target transcript expression level.

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Hexaploid wheat (Triticum aestivum) root miRNome analysis in response to salt stress

Cited by 46 publications

References 32 publications

Effect of Salinity Intrusion on Food Crops, Livestock, and Fish Species at Kalapara Coastal Belt in Bangladesh

Effect of Salinity Intrusion on Food Crops, Livestock, and Fish Species at Kalapara Coastal Belt in Bangladesh

Genome-wide characterization and expression analysis of common bean bHLH transcription factors in response to excess salt concentration

miRNA-based drought regulation in wheat

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