Small RNA sequencing reveals a role for sugarcane miRNAs and their targets in response to Sporisorium scitamineum infection

Su, Yachun; Zhang, Yuanjian; Huang, Ning; Liu, Feng; Su, Weihua; Xu, Liping; Ahmad, Waqar; Wu, Qibin; Guo, Jinlong; Que, Youxiong

doi:10.1186/s12864-017-3716-4

Cited by 35 publications

(23 citation statements)

References 92 publications

(106 reference statements)

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“…The specific procedures were as follows: (1) treatment and control groups were normalized to the same orders of magnitude. Formula: Normalized expression level = miRNA expression level/total expression level of the sample × normalized magnitude; (2) Normalized results were used to calculate the fold change and P-value 61 .…”

Section: Non-lethal Heat Stress (Nlhs) and Bacterial Challenge Experimentioning

confidence: 99%

MicroRNA and mRNA interactions coordinate the immune response in non-lethal heat stressed Litopenaeus vannamei against AHPND-causing Vibrio parahaemolyticus

Boonchuen

Maralit

Jaree

et al. 2020

Sci Rep

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While Vibrio parahaemolyticus (Vp AHpnD) has been identified as the cause of early mortality syndrome (EMS) or acute hepatopancreatic necrosis disease (AHPND) in shrimp, mechanisms of host response remain unknown. Understanding these processes is important to improve farming practices because this understanding will help to develop methods to enhance shrimp immunity. Pre-treatment of shrimp with 5-minute chronic non-lethal heat stress (NLHS) for 7 days was found to significantly increase Litopenaeus vannamei survival against Vp AHpnD infection. To elucidate the mechanism involved, mRNA and miRNA expression profiles from the hemocyte of L. vannamei challenged with Vp AHpnD after NLHS with corresponding control conditions were determined by RNA-Seq. A total of 2,664 mRNAs and 41 miRNAs were differentially expressed after the NLHS treatment and VP AHpnD challenge. A miRnA-mRNA regulatory network of differentially expressed miRNAs (DEMs) and differentially expressed genes (DEGs) was subsequently constructed and the interactions of DEMs in regulating the NLHSinduced immune-related pathways were identified. Transcriptomic data revealed that miRNA and mRNA interactions contribute to the modulation of NLHS-induced immune responses, such as the prophenoloxidase-activating system, hemocyte homeostasis, and antimicrobial peptide production, and these responses enhance Vp AHpnD resistance in L. vannamei. During its first outbreak, the devastating effect of early mortality syndrome (EMS) on the global shrimp industry was primarily caused by the lack of information regarding the disease and its causative agent 1. Later studies that were focused on mitigating this disease eventually identified the cause to be a toxin-harboring Vibrio parahaemolyticus, which causes Acute hepatopancreatic necrosis disease (AHPND) (VP AHPND) 2. This highlights how understanding disease etiology and a subsequent elucidation of host response can help to mitigate the effects of an outbreak. Understanding the functions of the shrimp immune system during disease progression is thus expected to create opportunities for the development of effective and efficient management strategies for VP AHPND infection. Likewise, information regarding the molecular mechanisms of AHPND tolerance can lead to platforms for the development of AHPND-resistant shrimp through selective breeding using markers mined from transcriptome analyses at different rearing conditions.

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Section: Non-lethal Heat Stress (Nlhs) and Bacterial Challenge Experimentioning

confidence: 99%

MicroRNA and mRNA interactions coordinate the immune response in non-lethal heat stressed Litopenaeus vannamei against AHPND-causing Vibrio parahaemolyticus

Boonchuen

Maralit

Jaree

et al. 2020

Sci Rep

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“…Our results show that in the TAS cultivar, the miRNAs 167, 171, 319 and 396 were up-regulated while in SAS they were down-regulated. miRNA171 and miR319 were also up-regulated in M. truncatula response to Al stress [21], the same for miRNA396 up-regulated in soybean in response to Al ([64]. In barley’roots, from XZ29 a genotype Al-tolerant, under aluminum stress, miRNA 319 was up-regulated while miRNA396 was down-regulated [65].…”

Section: Discussionmentioning

confidence: 99%

“…The first identified miRNAs were involved in modulating physiological and biochemical process that regulate plant development and adaptation [16]. The miRNAs identified in different plants such as: Arabidopsis thaliana [17], Triticum aestivum L. [18], Glycine max [19], Manihot esculenta [20, 21], suggest that miRNA also plays an important role in the regulation of molecular responses to biotic and abiotic stress.…”

Section: Introductionmentioning

confidence: 99%

Microtranscriptome of contrasting sugarcane cultivars in response to aluminum stress

Gonçalves

Mateus-Rosa

et al. 2019

Preprint

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20 Although metallic elements are required for plant growth, aluminum ions (Al +3 ) can be 21 considered one of the major abiotic factors affecting productivity. In plants, the presence of 22 Al +3 can result in inhibition of root growth triggering water and nutrient deficiency. Plants 23 under stress conditions undergo gene expression changes in specific genes or post-24 transcriptional gene regulators as miRNAs that can led to resistance. In this study, we 25 investigated the miRNAs involved in the sugarcane response to aluminum stress. Four 26 miRNA libraries were generated using sugarcane roots of two contrasting (tolerant and 27 sensitive) sugarcane cultivars growing under aluminum stress to identify the miRNAs 28 involved in the sugarcane response. Here we present the first miRNAs sequencing of 29 sugarcane response under aluminum stress. The contrast of the cultivars seen in the field was 30 reflected in the micro transcriptome with opposing expression profile. We selected 394 31 differentially expressed miRNAs, in both cultivars, 22% were common between cultivars.32 Real time quantitative polymerase chain reaction was used to validate the differentially 33 expressed miRNAs through high-throughput sequencing in sugarcane roots. Target genes 34 prediction was also analyzed. Our results indicated miRNAs that modulated specific target 35 genes involved in roots development and plant aluminum stress response. Those genes can 36 be the answer to tolerance in sugarcane and used in breeding programs to develop tolerant 37 cultivars. 38 39 Introduction 40 Sugarcane (Saccharum spp.) as an important source of sugar and ethanol became the 41 third most produced commodities in the world (1.4G). In this context, Brazil figure as a 42 major sugarcane producer (500M tons) followed by India (300M), China and Thailand [1].3 43 The projections, based on the worldwide increasing demand for food and energy, are that 44 sugarcane global production will increase by 21% until 2024. Production can be increased 45 by increasing productivity and cropland expansion. The sugarcane crop expansion is evident 46 in Brazil, where nowadays more than 9.5 million ha are used to cultivate sugarcane, but the 47 demand for sugar and ethanol will increase to 10.5 million ha by the years 2023/24 [2]. 48Among the main factors that can affect agricultural productivity, soil has 49 fundamental importance since it offers not only physical support but also water and the 50 necessary nutrients for plant growth. Aluminum (Al) together with silicon and oxygen are 51 the three most abundant elements in earth crust. Although metallic elements are required for 52 plant growth, aluminum ions (Al +3 ) can be considered one of the major abiotic factors 53 affecting agriculture productivity [3]. Al is a nonessential element naturally found in the 54 soil but it is toxic and its bioavailability is highest on acidic soils (pH of 5.5 or lower), 55 resulting in inhibition of root growth, architecture alteration and elongation disruption [3].56 Around the world 50%...

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“…Taking into account the expression patterns of these miRNAs, we speculate that they play a crucial role in the germination of R. soongorica seeds under salt-stress conditions. Among them, several non-classical miRNAs and novel miRNAs, including rso-miR5139a, rso-miR6173a, and novel-14, have not been previously implicated in non-halophyte seed germination under salt stress [37,38], thus indicating that unique regulatory mechanisms may be used by halophytes.…”

Section: Differential Expression Of Mirnas During Germination Of R Smentioning

confidence: 99%

miRNA–mRNA Integrated Analysis Reveals Roles for miRNAs in a Typical Halophyte, Reaumuria soongorica, during Seed Germination under Salt Stress

Zhang

Liu

Yang

et al. 2020

Plants

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MicroRNAs (miRNAs) are endogenous small RNAs that play a crucial role in plant growth, development, and environmental stress responses. Reaumuria soongorica is a typical halophyte that is widely distributed in saline–alkali desert regions. Under salt stress, R. soongorica can complete germination, a critical biological process in the life cycle of seed plants. To identify miRNAs and predict target mRNAs involved in seed germination during salt stress, nine small-RNA libraries were constructed and analyzed from R. soongorica seeds treated with various concentrations of NaCl. We also obtained transcriptome data under the same treatment conditions. Further analysis identified 88 conserved miRNAs representing 25 defined families and discovered 13 novel miRNAs from nine libraries. A co-expression analysis was performed on the same samples to identify putative miRNA–mRNA interactions that were responsive to salt stress. A comparative analysis of expression during germination under 273 (threshold) and 43 mM (optimal) NaCl treatments identified 13 differentially expressed miRNAs and 23 corresponding target mRNAs, while a comparison between 43 mM NaCl and non-salt-stress conditions uncovered one differentially expressed miRNA and one corresponding target mRNA. These results provide basic data for further study of molecular mechanisms involved in the germination of salt-stressed R. soongorica seeds, and also provide a reference for the improvement of salt tolerance during plant germination.

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Small RNA sequencing reveals a role for sugarcane miRNAs and their targets in response to Sporisorium scitamineum infection

Cited by 35 publications

References 92 publications

MicroRNA and mRNA interactions coordinate the immune response in non-lethal heat stressed Litopenaeus vannamei against AHPND-causing Vibrio parahaemolyticus

MicroRNA and mRNA interactions coordinate the immune response in non-lethal heat stressed Litopenaeus vannamei against AHPND-causing Vibrio parahaemolyticus

Microtranscriptome of contrasting sugarcane cultivars in response to aluminum stress

miRNA–mRNA Integrated Analysis Reveals Roles for miRNAs in a Typical Halophyte, Reaumuria soongorica, during Seed Germination under Salt Stress

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