Your search keyword '"miR390"' showing total 41 results

1. Knockdown of microRNA390 Enhances Maize Brace Root Growth.

Author

Meng, Juan, Li, Weiya, Qi, Feiyan, Yang, Tianxiao, Li, Na, Wan, Jiong, Li, Xiaoqi, Jiang, Yajuan, Wang, Chenhui, Huang, Meilian, Zhang, Yuanyuan, Chen, Yongqiang, Teotia, Sachin, Tang, Guiliang, Zhang, Zhanhui, and Tang, Jihua

Subjects

*ROOT growth, *AGRICULTURE, *ROOT development, *GENE expression, *NON-coding RNA, *CORN, *PLANT nutrition, CORN growth

Abstract

Brace root architecture is a critical determinant of maize's stalk anchorage and nutrition uptake, influencing root lodging resistance, stress tolerance, and plant growth. To identify the key microRNAs (miRNAs) in control of maize brace root growth, we performed small RNA sequencing using brace root samples at emergence and growth stages. We focused on the genetic modulation of brace root development in maize through manipulation of miR390 and its downstream regulated auxin response factors (ARFs). In the present study, miR167, miR166, miR172, and miR390 were identified to be involved in maize brace root growth in inbred line B73. Utilizing short tandem target mimic (STTM) technology, we further developed maize lines with reduced miR390 expression and analyzed their root architecture compared to wild-type controls. Our findings show that STTM390 maize lines exhibit enhanced brace root length and increased whorl numbers. Gene expression analyses revealed that the suppression of miR390 leads to upregulation of its downstream regulated ARF genes, specifically ZmARF11 and ZmARF26, which may significantly alter root architecture. Additionally, loss-of-function mutants for ZmARF11 and ZmARF26 were characterized to further confirm the role of these genes in brace root growth. These results demonstrate that miR390, ZmARF11, and ZmARF26 play crucial roles in regulating maize brace root growth; the involved complicated molecular mechanisms need to be further explored. This study provides a genetic basis for breeding maize varieties with improved lodging resistance and adaptability to diverse agricultural environments. [ABSTRACT FROM AUTHOR]

Published

2024

2. miR390 family of Cymbidium goeringii is involved in the development of reproductive organs in transgenic Arabidopsis

Author

Zihan Xu, Qian Liu, Yue Chen, Yuanhao He, and Fengrong Hu

Subjects

Cymbidium goeringii, miR390, Reproductive organ, Flower development, Arabidopsis, Botany, QK1-989

Abstract

Abstract Background miR390s is an ancient family with a high level of conservation among plant miRNAs. Through the auxin signal transduction pathway, miR390 participates in diverse biological processes of plant growth and development. As an important Chinese traditional orchid, Cymbidium goeringii has unique flower shape and elegant fragrance. But its development has been greatly restricted because of the low flower bud differentiation and the difficult reproduction. This study aims to provide guidance for the role of cgo-miR390 in reproductive organ development to enhance the ornamental and economic value of Cymbidium. Results MIR390a, MIR390b and MIR390c of C. goeringii were cloned, and their length ranged from 130 to 150 nt. Each precursor sequence of cgo-miR390 contains 2 to 3 mature miRNAs. Three kinds of cgo-miR390s displayed distinct temporal and spatial expression patterns during floral development in C. goeringii. The overexpression of MIR390s alters morphology and function of stamens and pistils in Arabidopsis, such as enlargement of anther aspect ratio and separation of stylar and stigmas, which affects the development of fruits and seeds. In particular, the pollen amount decreased and the seed abortion rate increased in cgo-MIR390c-overexpressed plants. Conclusions cgo-miR390 family affected the development of reproductive organs in transgenic Arabidopsis. The study provides references for the genetic improvement for orchid with potentially great economic benefit.

Published

2022

3. MIR390 Is Involved in Regulating Anthracnose Resistance in Apple.

Author

Shi, Jiajun, Jiang, Qiu, Zhang, Shuyuan, Dai, Xinyu, Wang, Feng, and Ma, Yue

Subjects

ANTHRACNOSE, APPLE growing, CASH crops, COLLETOTRICHUM gloeosporioides, SUPEROXIDE dismutase, GENE expression, APPLES

Abstract

As an important cash crop in China, apple has a good flavor and is rich in nutrients. Fungal attacks have become a major obstacle in apple cultivation. Colletotrichum gloeosporioides is one of the most devastating fungal pathogens in apple. Thus, discovering resistance genes in response to C. gloeosporioides may aid in designing safer control strategies and facilitate the development of apple resistance breeding. A previous study reported that 'Hanfu' autotetraploid apple displayed higher C. gloeosporioides resistance than 'Hanfu' apple, and the expression level of mdm-MIR390b was significantly upregulated in autotetraploid plants compared to that in 'Hanfu' plants, as demonstrated by digital gene expression (DGE) analysis. It is still unclear, however, whether mdm-MIR390b regulates apple anthracnose resistance. Apple MIR390b was transformed into apple 'GL-3′ plants to identify the functions of mdm-MIR390b in anthracnose resistance. C. gloeosporioides treatment analysis indicated that the overexpression of mdm-MIR390b reduced fungal damage to apple leaves and fruit. Physiology analysis showed that mdm-MIR390b increased C. gloeosporioides resistance by improving superoxide dismutase (SOD) and peroxidase (POD) activity to alleviate the damage caused by O2− and H2O2. Our results demonstrate that mdm-MIR390b can improve apple plants' anthracnose resistance. [ABSTRACT FROM AUTHOR]

Published

2022

4. miR390-tasiRNA3-ARF4 pathway is involved in regulating flowering time in woodland strawberry.

Author

Dong, Xiangxiang, Guan, Yuhan, Zhang, Zhihong, and Li, He

Subjects

*STRAWBERRIES, *FLOWERING time, *FORESTS & forestry, *FLOWERING of plants, *TRANSGENIC plants, *PLANT growth, *GENE expression

Abstract

Key message: miR390-tasiRNA3-ARF4 pathway was identified in woodland strawberry. FvemiR390 was involved in the regulation of flowering time, and miR390-tasiRNA3-ARF4 regulated flowering time through FveAP1/FveFUL in woodland strawberry. miRNA is an important type of regulator, and widely involved in plant growth, development and stress response. As a conserved miRNA family, the function of miR390 has been studied in many species, but poorly understood in woodland strawberry. In this study, we found that the members of miR390 family were highly conservative, and FvemiR390a and FvemiR390b have the same mature sequence. Therefore, we chose FveMIR390a to generate FvemiR390 mature sequence for functional studies. Subsequently, the result of transient gene expression assay proved that FvemiR390 negatively regulates FveARF4 through miR390-tasiRNA3-ARF4 pathway. Using transgenic plants, we discovered that the overexpression of FveMIR390a delayed flowering in woodland strawberry. Further studies revealed that the expressions of FveAP1 and FveFUL were lower in transgenic plants, which indicates miR390-tasiRNA3-ARF4 pathway delays flowering time through the FveAP1/FveFUL in woodland strawberry. Moreover, the expression of FvemiR390 responded to exogenous hormones, which also provides a reference for the application of exogenous hormones in regulating the flowering time of woodland strawberry. [ABSTRACT FROM AUTHOR]

Published

2022

5. miR390 family of Cymbidium goeringii is involved in the development of reproductive organs in transgenic Arabidopsis.

Author

Xu, Zihan, Liu, Qian, Chen, Yue, He, Yuanhao, and Hu, Fengrong

Subjects

*GENITALIA, *MORPHOGENESIS, *ARABIDOPSIS, *PLANT development, *FRUIT seeds, *ENDOSPERM, *POLLINATORS

Abstract

Background: miR390s is an ancient family with a high level of conservation among plant miRNAs. Through the auxin signal transduction pathway, miR390 participates in diverse biological processes of plant growth and development. As an important Chinese traditional orchid, Cymbidium goeringii has unique flower shape and elegant fragrance. But its development has been greatly restricted because of the low flower bud differentiation and the difficult reproduction. This study aims to provide guidance for the role of cgo-miR390 in reproductive organ development to enhance the ornamental and economic value of Cymbidium. Results: MIR390a, MIR390b and MIR390c of C. goeringii were cloned, and their length ranged from 130 to 150 nt. Each precursor sequence of cgo-miR390 contains 2 to 3 mature miRNAs. Three kinds of cgo-miR390s displayed distinct temporal and spatial expression patterns during floral development in C. goeringii. The overexpression of MIR390s alters morphology and function of stamens and pistils in Arabidopsis, such as enlargement of anther aspect ratio and separation of stylar and stigmas, which affects the development of fruits and seeds. In particular, the pollen amount decreased and the seed abortion rate increased in cgo-MIR390c-overexpressed plants. Conclusions: cgo-miR390 family affected the development of reproductive organs in transgenic Arabidopsis. The study provides references for the genetic improvement for orchid with potentially great economic benefit. [ABSTRACT FROM AUTHOR]

Published

2022

6. microRNA390 modulates Nicotiana attenuata's tolerance response to Manduca sexta herbivory.

Author

Pradhan, Maitree, Rocha, Catarina, Halitschke, Rayko, Baldwin, Ian T., and Pandey, Shree P.

Subjects

PLANT hormones, MANDUCA, VESICULAR-arbuscular mycorrhizas, NICOTIANA, ROOT formation, ABSCISIC acid

Abstract

miR390 is a highly conserved miRNA in plant lineages known to function in growth and development processes, such as lateral root development, and in responses to salt and metal stress. In the ecological model species, Nicotiana attenuata, miR390's biological function remains unknown, which we explore here with a gain‐of‐function analysis with plants over‐expressing (OE‐) N. attenuata miR390 (Na‐miR390) in glasshouse and natural environments. OEmiR390 plants showed normal developmental processes, including lateral root formation or reproductive output, in plants grown under standard conditions in the glasshouse. OEmiR390 plants did not have dramatically altered interactions with arbuscular mycorrhizal fungi (AMF), Fusarium pathogens, or herbivores. However, Na‐miR390 regulated the plant's tolerance of herbivory. Caterpillar feeding elicits the accumulation of a suite of phytohormones, including auxin and jasmonates, which further regulate host‐tolerance. The increase in Na‐miR390 abundance reduces the accumulation of auxin but does not influence levels of other phytohormones including jasmonates (JA, JA‐Ile), salicylic acid (SA), and abscisic acid (ABA). Na‐miR390 overexpression reduces reproductive output, quantified as capsule production, when plants are attacked by herbivores. Exogenous auxin treatments of herbivore‐attacked plants restored capsule production to wild‐type levels. During herbivory, Na‐miR390 transcript abundances are increased; its overexpression reduces the abundances of auxin biosynthesizing YUCCA and ARF (mainly ARF4) transcripts during herbivory. Furthermore, the accumulation of auxin‐regulated phenolamide secondary metabolites (caffeoylputrescine, dicaffeoylspermidine) is also reduced. In N. attenuata, miR390 functions in modulating tolerance responses of herbivore‐attacked plants. [ABSTRACT FROM AUTHOR]

Published

2021

7. microRNA390 modulates Nicotiana attenuata's tolerance response to Manduca sexta herbivory

Author

Maitree Pradhan, Catarina Rocha, Rayko Halitschke, Ian T. Baldwin, and Shree P. Pandey

Subjects

ARF4, auxin, herbivore resistance, Manduca sexta, miR390, Nicotiana attenuata, Botany, QK1-989

Abstract

Abstract miR390 is a highly conserved miRNA in plant lineages known to function in growth and development processes, such as lateral root development, and in responses to salt and metal stress. In the ecological model species, Nicotiana attenuata, miR390's biological function remains unknown, which we explore here with a gain‐of‐function analysis with plants over‐expressing (OE‐) N. attenuata miR390 (Na‐miR390) in glasshouse and natural environments. OEmiR390 plants showed normal developmental processes, including lateral root formation or reproductive output, in plants grown under standard conditions in the glasshouse. OEmiR390 plants did not have dramatically altered interactions with arbuscular mycorrhizal fungi (AMF), Fusarium pathogens, or herbivores. However, Na‐miR390 regulated the plant's tolerance of herbivory. Caterpillar feeding elicits the accumulation of a suite of phytohormones, including auxin and jasmonates, which further regulate host‐tolerance. The increase in Na‐miR390 abundance reduces the accumulation of auxin but does not influence levels of other phytohormones including jasmonates (JA, JA‐Ile), salicylic acid (SA), and abscisic acid (ABA). Na‐miR390 overexpression reduces reproductive output, quantified as capsule production, when plants are attacked by herbivores. Exogenous auxin treatments of herbivore‐attacked plants restored capsule production to wild‐type levels. During herbivory, Na‐miR390 transcript abundances are increased; its overexpression reduces the abundances of auxin biosynthesizing YUCCA and ARF (mainly ARF4) transcripts during herbivory. Furthermore, the accumulation of auxin‐regulated phenolamide secondary metabolites (caffeoylputrescine, dicaffeoylspermidine) is also reduced. In N. attenuata, miR390 functions in modulating tolerance responses of herbivore‐attacked plants.

Published

2021

8. MIR390 Is Involved in Regulating Anthracnose Resistance in Apple

Author

Jiajun Shi, Qiu Jiang, Shuyuan Zhang, Xinyu Dai, Feng Wang, and Yue Ma

Subjects

apple, MIR390, disease resistance, anthracnose, Botany, QK1-989

Abstract

As an important cash crop in China, apple has a good flavor and is rich in nutrients. Fungal attacks have become a major obstacle in apple cultivation. Colletotrichum gloeosporioides is one of the most devastating fungal pathogens in apple. Thus, discovering resistance genes in response to C. gloeosporioides may aid in designing safer control strategies and facilitate the development of apple resistance breeding. A previous study reported that ‘Hanfu’ autotetraploid apple displayed higher C. gloeosporioides resistance than ‘Hanfu’ apple, and the expression level of mdm-MIR390b was significantly upregulated in autotetraploid plants compared to that in ‘Hanfu’ plants, as demonstrated by digital gene expression (DGE) analysis. It is still unclear, however, whether mdm-MIR390b regulates apple anthracnose resistance. Apple MIR390b was transformed into apple ‘GL-3′ plants to identify the functions of mdm-MIR390b in anthracnose resistance. C. gloeosporioides treatment analysis indicated that the overexpression of mdm-MIR390b reduced fungal damage to apple leaves and fruit. Physiology analysis showed that mdm-MIR390b increased C. gloeosporioides resistance by improving superoxide dismutase (SOD) and peroxidase (POD) activity to alleviate the damage caused by O2− and H2O2. Our results demonstrate that mdm-MIR390b can improve apple plants’ anthracnose resistance.

Published

2022

9. Identification and analysis of oxygen responsive microRNAs in the root of wild tomato (S. habrochaites)

Author

Yabing Hou, Fangling Jiang, Xiaolan Zheng, and Zhen Wu

Subjects

Wild tomato, Hypoxia, Root, miRNA, miR171, miR390, Botany, QK1-989

Abstract

Abstract Background MicroRNA (miRNA) are key players in regulating expression of target genes at post-transcriptional level. A number of miRNAs are implicated in modulating tolerance to various abiotic stresses. Waterlogging is an abiotic stress that deters plant growth and productivity by hypoxia. Dozens of reports mention about the miRNAs expressed in response to waterlogging and hypoxia. Despite the fact that tomato is a model vegetable but waterlogging sensitive crop, the role of miRNAs in hypoxia tolerance is poorly understood in tomato. Results In this study, we investigated the differentially expressed miRNAs between hypoxia-treated and untreated wild tomato root by using high-throughput sequencing technology. A total of 33 known miRNAs were lowly expressed, whereas only 3 miRNAs showed higher expression in hypoxia-treated wild tomato root compared with untreated wild tomato root. Then two conserved and lowly expressed miRNAs, miR171 and miR390, were deactivated by Short Tandem Target Mimic (STTM) technology in Arabidopsis. As the results, the number and length of lateral roots were more in STTM171 and STTM390 transgenic lines compared with that of wild type plant, which partly phenocopy the increase root number and shortening the root length in hypoxia-treated wild tomato root. Conclusions The differentially expressed miRNAs between hypoxia-treated wild tomato and control root, which contribute to the auxin homeostasis, morphologic change, and stress response, might result in reduction in the biomass and length of the root in hypoxiated conditions.

Published

2019

10. Auxin Response Factor 2 (ARF2), ARF3, and ARF4 Mediate Both Lateral Root and Nitrogen Fixing Nodule Development in Medicago truncatula

Author

Cristina Kirolinko, Karen Hobecker, Jiangqi Wen, Kirankumar S. Mysore, Andreas Niebel, Flavio Antonio Blanco, and María Eugenia Zanetti

Subjects

auxin response factors, legumes, Nod Factor, miR390, nodulation, root architecture, Plant culture, SB1-1110

Abstract

Auxin Response Factors (ARFs) constitute a large family of transcription factors that mediate auxin-regulated developmental programs in plants. ARF2, ARF3, and ARF4 are post-transcriptionally regulated by the microRNA390 (miR390)/trans-acting small interference RNA 3 (TAS3) module through the action of TAS3-derived trans-acting small interfering RNAs (ta-siRNA). We have previously reported that constitutive activation of the miR390/TAS3 pathway promotes elongation of lateral roots but impairs nodule organogenesis and infection by rhizobia during the nitrogen-fixing symbiosis established between Medicago truncatula and its partner Sinorhizobium meliloti. However, the involvement of the targets of the miR390/TAS3 pathway, i.e., MtARF2, MtARF3, MtARF4a, and MtARF4b, in root development and establishment of the nitrogen-fixing symbiosis remained unexplored. Here, promoter:reporter fusions showed that expression of both MtARF3 and MtARF4a was associated with lateral root development; however, only the MtARF4a promoter was active in developing nodules. In addition, up-regulation of MtARF2, MtARF3, and MtARF4a/b in response to rhizobia depends on Nod Factor perception. We provide evidence that simultaneous knockdown of MtARF2, MtARF3, MtARF4a, and MtARF4b or mutation in MtARF4a impaired nodule formation, and reduced initiation and progression of infection events. Silencing of MtARF2, MtARF3, MtARF4a, and MtARF4b altered mRNA levels of the early nodulation gene nodulation signaling pathway 2 (MtNSP2). In addition, roots with reduced levels of MtARF2, MtARF3, MtARF4a, and MtARF4b, as well as arf4a mutant plants exhibited altered root architecture, causing a reduction in primary and lateral root length, but increasing lateral root density. Taken together, our results suggest that these ARF members are common key players of the morphogenetic programs that control root development and the formation of nitrogen-fixing nodules.

Published

2021

11. Auxin Response Factor 2 (ARF2), ARF3, and ARF4 Mediate Both Lateral Root and Nitrogen Fixing Nodule Development in Medicago truncatula.

Author

Kirolinko, Cristina, Hobecker, Karen, Wen, Jiangqi, Mysore, Kirankumar S., Niebel, Andreas, Blanco, Flavio Antonio, and Zanetti, María Eugenia

Subjects

MEDICAGO, MEDICAGO truncatula, ROOT-tubercles, SMALL interfering RNA, AUXIN, PROTHROMBIN, ROOT development, ROOT formation

Abstract

Auxin Response Factors (ARFs) constitute a large family of transcription factors that mediate auxin-regulated developmental programs in plants. ARF2 , ARF3 , and ARF4 are post-transcriptionally regulated by the microRNA390 (miR390)/ trans -acting small interference RNA 3 (TAS3) module through the action of TAS3 -derived trans - acting small interfering RNAs (ta-siRNA). We have previously reported that constitutive activation of the miR390/ TAS3 pathway promotes elongation of lateral roots but impairs nodule organogenesis and infection by rhizobia during the nitrogen-fixing symbiosis established between Medicago truncatula and its partner Sinorhizobium meliloti. However, the involvement of the targets of the miR390/ TAS3 pathway, i.e., MtARF2, MtARF3, MtARF4a , and MtARF4b , in root development and establishment of the nitrogen-fixing symbiosis remained unexplored. Here, promoter:reporter fusions showed that expression of both MtARF3 and MtARF4a was associated with lateral root development; however, only the MtARF4a promoter was active in developing nodules. In addition, up-regulation of MtARF2 , MtARF3 , and MtARF4a/b in response to rhizobia depends on Nod Factor perception. We provide evidence that simultaneous knockdown of MtARF2, MtARF3, MtARF4a , and MtARF4b or mutation in MtARF4a impaired nodule formation, and reduced initiation and progression of infection events. Silencing of MtARF2, MtARF3, MtARF4a , and MtARF4b altered mRNA levels of the early nodulation gene nodulation signaling pathway 2 (MtNSP2). In addition, roots with reduced levels of MtARF2, MtARF3, MtARF4a , and MtARF4b , as well as arf4a mutant plants exhibited altered root architecture, causing a reduction in primary and lateral root length, but increasing lateral root density. Taken together, our results suggest that these ARF members are common key players of the morphogenetic programs that control root development and the formation of nitrogen-fixing nodules. [ABSTRACT FROM AUTHOR]

Published

2021

12. MiR393 and miR390 synergistically regulate lateral root growth in rice under different conditions

Author

Yuzhu Lu, Zhen Feng, Xuanyu Liu, Liying Bian, Hong Xie, Changlun Zhang, Kirankumar S. Mysore, and Jiansheng Liang

Subjects

Auxin, miR390, miR393, OsTIR1, OsTAS3a, Lateral root growth, Botany, QK1-989

Abstract

Abstract Background Plants have evolved excellent ability of flexibly regulating the growth of organs to adapt to changing environment, for example, the modulation of lateral root development in response to environmental stresses. Despite of fundamental discovery that some microRNAs are involved in this process, the molecular mechanisms of how these microRNAs work together are still largely unknown. Results Here we show that miR390 induced by auxin promotes lateral root growth in rice. However, this promotion can be suppressed by miR393, which is induced by various stresses and ABA (Abscisic Acid). Results that miR393 responded to ABA stronger and earlier than other stresses implied that ABA likely is authentic factor for inducing miR393. The transgenic lines respectively over-expressing miR393 and OsTAS3a (Oryza sativa Trans-Acting Short RNA precursor 3a) displayed opposite phenotypes in lateral root growth. MiR390 was found to be dominantly expressed at lateral root primordia and roots tips while miR393 mainly expressed in the base part of roots at very low level. When miR393 was up-regulated by various stresses, miR390 expression level fell down. However, the risen expression level of miR390 induced by auxin didn’t affect the expression of miR393 and its target OsTIR1 (Transport Inhibitor Response 1). Together with analysis of the two transgenic lines, we provide a model of how the growth of lateral roots in rice is regulated distinctively by the 2 microRNAs. Conclusion We propose that miR390 induced by auxin triggers the lateral root growth under normal growth conditions, meanwhile miR393 just lurks as a potentially regulative role; Once plants suffer from stresses, miR393 will be induced to negatively regulate miR390-mediated growth of lateral roots in rice.

Published

2018

13. Further Disruption of the TAS3 Pathway via the Addition of the AGO7 Mutation to the DRB1, DRB2 or DRB4 Mutations Severely Impairs the Reproductive Competence of Arabidopsis thaliana

Author

Joseph L. Pegler, Jackson M. J. Oultram, Shaun J. Curtin, Christopher P. L. Grof, and Andrew L. Eamens

Subjects

arabidopsis thaliana (arabidopsis), double-stranded rna binding (drb) protein, argonaute7 (ago7), microrna (mirna), mir390, trans-acting small-interfering rna (tasirna), tasiarf, tas3 pathway, auxin response factor (arf), kanadi (kan), rt-qpcr, Agriculture

Abstract

The previous assignment of functional roles for AGO7, and the DOUBLE-STRANDED RNA BINDING (DRB) proteins, DRB1, DRB2, and DRB4, in either microRNA (miRNA) or trans-acting small-interfering RNA (tasiRNA) production allowed for use of the loss-of-function mutant lines, drb1, drb2, drb4, and ago7, to further functionally characterize the TAS3 pathway in Arabidopsis thaliana (Arabidopsis). Towards achieving this goal, we also describe the developmental and molecular phenotypes expressed by three newly generated Arabidopsis lines, the drb1ago7, drb2ago7, and drb4ago7 double mutants. We show that the previously reported developmental abnormalities displayed by the drb1, drb2, drb4, and ago7 single mutants, are further exacerbated in the drb1ago7, drb2ago7, and drb4ago7 double mutants, with rosette area, silique length, and seed set all impaired to a greater degree in the double mutants. Molecular assessment of the TAS3 pathway in the floral tissues of the seven analyzed mutants revealed that DRB1 is the sole DRB required for miR390 sRNA production. However, DRB2 and DRB4 appear to play secondary roles at this stage of the TAS3 pathway to ensure that miR390 sRNA levels are tightly maintained. We further show that the expression of the TAS3-derived tasiARF target genes, AUXIN RESPONSE FACTOR2 (ARF2), ARF3, and ARF4, was altered in drb1ago7, drb2ago7, and drb4ago7 flowers. Altered ARF2, ARF3, and ARF4 expression was in turn demonstrated to lead to changes in the level of expression of KAN1, KAN3, and KAN4, three KANADI transcription factor genes known to be transcriptionally regulated by ARF2, ARF3, and ARF4. Taken together, the demonstrated relationship between altered ARF and KAN gene expression in drb1ago7, drb2ago7 and drb4ago7 flowers, could, in part, explain the more severe developmental defects displayed by the double mutants, compared to milder impact that loss of only a single piece of TAS3 pathway protein machinery was demonstrated to have on drb1, drb2, drb4 and ago7 reproductive development.

Published

2019

14. Identification of miRNAs and Their Response to Cold Stress in Astragalus Membranaceus

Author

Merhaba Abla, Huigai Sun, Zhuyun Li, Chunxiang Wei, Fei Gao, Yijun Zhou, and Jinchao Feng

Subjects

Astragalus membranaceus, miRNA, cold stress, miR390, Microbiology, QR1-502

Abstract

Astragalus membranaceus is an important medicinal plant widely cultivated in East Asia. MicroRNAs (miRNAs) are endogenous regulatory molecules that play essential roles in plant growth, development, and the response to environmental stresses. Cold is one of the key environmental factors affecting the yield and quality of A. membranaceus, and miRNAs may mediate the gene regulation network under cold stress in A. membranaceus. To identify miRNAs and reveal their functions in cold stress response in A. membranaceus, small RNA sequencing was conducted followed by bioinformatics analysis, and quantitative real time PCR (qRT-PCR) analysis was performed to profile the expression of miRNAs under cold stress. A total of 168 conserved miRNAs belonging to 34 families and 14 putative non-conserved miRNAs were identified. Many miRNA targets were predicted and these targets were involved in diversified regulatory and metabolic pathways. By using qRT-PCR, 27 miRNAs were found to be responsive to cold stress, including 4 cold stress-induced and 17 cold-repressed conserved miRNAs, and 6 cold-induced non-conserved miRNAs. These cold-responsive miRNAs probably mediate the response to cold stress by regulating development, hormone signaling, defense, redox homeostasis, and secondary metabolism in A. membranaceus. These cold-corresponsive miRNAs may be used as the candidate genes in further molecular breeding for improving cold tolerance of A. membranaceus.

Published

2019

15. Comparative Analysis of Cotton Small RNAs and Their Target Genes in Response to Salt Stress.

Author

Zujun Yin, Xiulan Han, Yan Li, Junjuan Wang, Delong Wang, Shuai Wang, Xiaoqiong Fu, and Wuwei Ye

Subjects

*RIBONUCLEASES, *MICRORNA, *COTTON, *ABIOTIC stress, *AUXIN

Abstract

Small RNAs play an important role in regulating plant responses to abiotic stress. Depending on the method of salt application, whether sudden or gradual, plants may experience either salt shock or salt stress, respectively. In this study, small RNA expression in response to salt shock and long-term salt stress in parallel experiments was described. Cotton small RNA libraries were constructed and sequenced under normal conditions, as well as sudden and gradual salt application. A total of 225 cotton microRNAs (miRNAs) were identified and of these 24 were novel miRNAs. There were 88 and 75 miRNAs with differential expression under the salt shock and long-term salt stress, respectively. Thirty one transcripts were found to be targets of 20 miRNA families. Eight targets showed a negative correlation in expression with their corresponding miRNAs. We also identified two TAS3s with two near-identical 21-nt trans-acting small interfering RNA (tasiRNA)-Auxin Response Factors (ARFs) that coaligned with the phases D7(+) and D8(+) in three Gossypium species. The miR390/tasiRNA-ARFs/ARF4 pathway was identified and showed altered expression under salt stress. The identification of these small RNAs as well as elucidating their functional significance broadens our understanding of post-transcriptional gene regulation in response to salt stress. [ABSTRACT FROM AUTHOR]

Published

2017

16. MicroRNA390 is involved in cadmium tolerance and accumulation in rice

Author

Yanfei eDing, Yaoyao eYe, Zhihua eJiang, Yi eWang, and Cheng eZhu

Subjects

Cadmium, microRNA, Rice., miR390, OsSRK, Plant culture, SB1-1110

Abstract

Cadmium (Cd) is a non-essential heavy metal that is toxic to plants. microRNAs (miRNAs) are 21-nucleotide RNAs that are ubiquitous regulators of gene expression at the post-transcriptional level. Several plant miRNAs, such as miR390, have vital roles in plant growth, development and responses to environmental stresses including heavy metal stress. In this study, the expression of mature miR390 was significantly down-regulated under Cd stress in rice. Consequently, the target gene of miR390, OsSRK was dramatically induced by Cd treatment. Transgenic rice plants overexpressing miR390 displayed reduced Cd tolerance and higher Cd accumulation compared with wild-type plants. Simultaneously, expression of OsSRK was less pronounced in 35S:MIR390 plants than in wild-type. These results indicate that miR390 was a negative regulator involved in Cd stress tolerance in rice.

Published

2016

17. microRNA390 modulates Nicotiana attenuata's tolerance response to Manduca sexta herbivory

Author

Catarina Rocha, Rayko Halitschke, Ian T. Baldwin, Maitree Pradhan, and Shree P. Pandey

Subjects

Yucca, Plant Science, Biochemistry, Genetics and Molecular Biology (miscellaneous), Manduca sexta, chemistry.chemical_compound, Auxin, Nicotiana attenuata, herbivore resistance, Botany, ARF4, miR390, Lateral root formation, Abscisic acid, Ecology, Evolution, Behavior and Systematics, Original Research, chemistry.chemical_classification, tolerance, Ecology, biology, Lateral root, fungi, YUCCA, food and beverages, biology.organism_classification, chemistry, QK1-989, auxin, Salicylic acid

Abstract

miR390 is a highly conserved miRNA in plant lineages known to function in growth and development processes, such as lateral root development, and in responses to salt and metal stress. In the ecological model species, Nicotiana attenuata, miR390's biological function remains unknown, which we explore here with a gain‐of‐function analysis with plants over‐expressing (OE‐) N. attenuata miR390 (Na‐miR390) in glasshouse and natural environments. OEmiR390 plants showed normal developmental processes, including lateral root formation or reproductive output, in plants grown under standard conditions in the glasshouse. OEmiR390 plants did not have dramatically altered interactions with arbuscular mycorrhizal fungi (AMF), Fusarium pathogens, or herbivores. However, Na‐miR390 regulated the plant's tolerance of herbivory. Caterpillar feeding elicits the accumulation of a suite of phytohormones, including auxin and jasmonates, which further regulate host‐tolerance. The increase in Na‐miR390 abundance reduces the accumulation of auxin but does not influence levels of other phytohormones including jasmonates (JA, JA‐Ile), salicylic acid (SA), and abscisic acid (ABA). Na‐miR390 overexpression reduces reproductive output, quantified as capsule production, when plants are attacked by herbivores. Exogenous auxin treatments of herbivore‐attacked plants restored capsule production to wild‐type levels. During herbivory, Na‐miR390 transcript abundances are increased; its overexpression reduces the abundances of auxin biosynthesizing YUCCA and ARF (mainly ARF4) transcripts during herbivory. Furthermore, the accumulation of auxin‐regulated phenolamide secondary metabolites (caffeoylputrescine, dicaffeoylspermidine) is also reduced. In N. attenuata, miR390 functions in modulating tolerance responses of herbivore‐attacked plants.

Published

2021

18. A Reliable Protocol for In situ microRNAs Detection in Feeding Sites Induced by Root-Knot Nematodes.

Author

Díaz-Manzano, Fernando E., Barcala, Marta, Engler, Gilbert, Fenoll, Carmen, de Almeida-Engler, Janice, Escobar, Carolina, Dutta, Tushar Kanti, and Hewezi, Tarek

Subjects

GALLS (Botany), MICRORNA, ROOT-knot nematodes

Abstract

Galls induced by Meloidogyne spp. in plant roots are a complex organ formed by heterogeneous tissues; within them there are 5-8 giant cells (GCs) that root-knot nematodes use for their own nurturing. Subtle regulatory mechanisms likely mediate the massive gene repression described at early infection stages in galls, particularly in giant cells. Some of these mechanisms are mediated by microRNAs (miRNAs); hence we describe a reliable protocol to detect miRNAs abundance within the gall tissues induced by Meloidogyne spp. Some methods are available to determine the abundance of specific miRNAs in different plant parts; however, galls are complex organs formed by different tissues. Therefore, detection of miRNAs at the cellular level is particularly important to understand specific regulatory mechanisms operating within the GCs. In situ hybridization (ISH) is a classical, robust and accurate method that allows the localization of specific RNAs directly on plant tissues. We present for the first time an adapted and standardized ISH protocol to detect miRNAs in GCs induced by nematodes based on tissue embedded in paraffin and on-slide ISH of miRNAs. It can be adapted to any laboratory with no more requirements than a microtome and an optical microscope and it takes 10 days to perform once plant material has been collected. It showed to be very valuable for a quick detection of miRNAs expression pattern in tomato. We tested the protocol for miR390, as massive sequencing analysis showed that miR390 was induced at 3 dpi (days post-infection) in Arabidopsis galls and miR390 is 100% conserved between Arabidopsis and tomato. Successful localization of miR390 in tomato GCs constitutes a validation of this method that could be easily extended to other crops and/or syncytia induced by cyst nematodes. Finally, the protocol also includes guidance on troubleshooting. [ABSTRACT FROM AUTHOR]

Published

2016

19. Identification and analysis of oxygen responsive microRNAs in the root of wild tomato (S. habrochaites)

Author

Fangling Jiang, Xiaolan Zheng, Yabing Hou, and Zhen Wu

Subjects

0106 biological sciences, 0301 basic medicine, Plant Science, Plant Roots, 01 natural sciences, 03 medical and health sciences, Solanum lycopersicum, Plant Growth Regulators, Stress, Physiological, Arabidopsis, lcsh:Botany, microRNA, Homeostasis, miR390, Wild tomato, Biomass, miR171, Hypoxia, Gene, miRNA, Abiotic component, Indoleacetic Acids, biology, Auxin homeostasis, Abiotic stress, fungi, Wild type, food and beverages, biology.organism_classification, Cell biology, lcsh:QK1-989, Oxygen, MicroRNAs, 030104 developmental biology, Root, RNA, Plant, Research Article, 010606 plant biology & botany

Abstract

Background MicroRNA (miRNA) are key players in regulating expression of target genes at post-transcriptional level. A number of miRNAs are implicated in modulating tolerance to various abiotic stresses. Waterlogging is an abiotic stress that deters plant growth and productivity by hypoxia. Dozens of reports mention about the miRNAs expressed in response to waterlogging and hypoxia. Despite the fact that tomato is a model vegetable but waterlogging sensitive crop, the role of miRNAs in hypoxia tolerance is poorly understood in tomato. Results In this study, we investigated the differentially expressed miRNAs between hypoxia-treated and untreated wild tomato root by using high-throughput sequencing technology. A total of 33 known miRNAs were lowly expressed, whereas only 3 miRNAs showed higher expression in hypoxia-treated wild tomato root compared with untreated wild tomato root. Then two conserved and lowly expressed miRNAs, miR171 and miR390, were deactivated by Short Tandem Target Mimic (STTM) technology in Arabidopsis. As the results, the number and length of lateral roots were more in STTM171 and STTM390 transgenic lines compared with that of wild type plant, which partly phenocopy the increase root number and shortening the root length in hypoxia-treated wild tomato root. Conclusions The differentially expressed miRNAs between hypoxia-treated wild tomato and control root, which contribute to the auxin homeostasis, morphologic change, and stress response, might result in reduction in the biomass and length of the root in hypoxiated conditions. Electronic supplementary material The online version of this article (10.1186/s12870-019-1698-x) contains supplementary material, which is available to authorized users.

Published

2019

20. The mir390-GhCEPR2 module confers salt tolerance in cotton and Arabidopsis.

Author

Chu, Yu, Bai, Wanlong, Wang, Peng, Li, Fuguang, Zhan, Jingjing, and Ge, Xiaoyang

Subjects

*NICOTIANA benthamiana, *SALT tolerance in plants, *SOIL salinity, *SOIL salinization, *SALT, *COTTON

Abstract

Global crop production is challenged by increasing severity of soil salinization that is exacerbated by the accelerated climate change and agricultural activities. Recently, studies have found that microRNAs (miRNAs) play an important role in response to abiotic stresses, including soil salinity. In our previous studies, we identified cotton mir390a / b / c (ghr-mir390a / b / c) that are responsive to salt stress. In the current study, GhCEPR2 was identified as a target gene of ghr-mir390 that responds to salinity stress. We propose a novel regulatory module comprising ghr-mir390 and GhCEPR2, which was examined by degradome sequencing and verified by 5'RLM-RACE and transient expression in Nicotiana benthamiana. Transgenic over-expression of GhCEPR2 in both Arabidopsis thaliana and cotton led to enhanced tolerance against salinity stress, accompanied by rising proline content and reduction in malondialdehyde concentration. On the other hand, over-expression of ghr-mir390 resulted in increased sensitivity to salt stress, consistent with the observation in GhCEPR2 -silenced cotton. A number of key genes involved in ABA- and salt tolerance-related signaling pathways were found to be up-regulated by ghr-mir390a , but inhibited by GhCEPR2 phosphorylation. Overall, our study may broaden and deepen our understandings on the effect of the ghr-mir390 - GhCEPR2 module in regulating cotton salt tolerance. • mir390 attenuates GhCEPR2 by targeting its mRNA leading to the amelioration of salt tolerance in cotton. • The overexpression of GhCEPR2 could decrease ABA content to enhance plant salt stress resistance. • We propose a new module of mir390-CEPR2 that regulates salt tolerance in plants. [ABSTRACT FROM AUTHOR]

Published

2022

21. Auxin Response Factor 2 (ARF2), ARF3, and ARF4 Mediate Both Lateral Root and Nitrogen Fixing Nodule Development in Medicago truncatula

Author

BLANCO, Flavio Antonio, ZANETTI, María Eugenia, KIROLINKO, Cristina, HOBECKER, Karen, WEN, Jiangqi, MYSORE, Kirankumar, NIEBEL, Andreas, BLANCO, Flavio, ZANETTI, María, Facultad de Ciencias Exactas [La Plata], Universidad Nacional de la Plata [Argentine] (UNLP), Technical University of Munich (TUM), Noble Research Institut, Laboratoire des Interactions Plantes Microbes Environnement (LIPME), Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), ANPCyT : PICT2016-0582, ANPCyT : PICT2017-0581, ANPCyT : PICT2016-0333, ANPCyT : PICT2017-0069, National Science Foundation (NSF), Consejo Nacional de Investigaciones Cientificas y Tecnicas (CONICET), IAL (International Associated Laboratory) NOCOSYM project, and Technische Universität Munchen - Université Technique de Munich [Munich, Allemagne] (TUM)

Subjects

0106 biological sciences, 0301 basic medicine, Biología, legumes, Organogenesis, Plant Science, lcsh:Plant culture, root architecture, 01 natural sciences, Rhizobia, Nod factor, 03 medical and health sciences, Auxin, miR390, lcsh:SB1-1110, nodulation, Transcription factor, Ciencias Exactas, Original Research, chemistry.chemical_classification, Sinorhizobium meliloti, auxin response factors, biology, Lateral root, food and beverages, Nod Factor, [SDV.BV.BOT]Life Sciences [q-bio]/Vegetal Biology/Botanics, biology.organism_classification, Medicago truncatula, symbiosis, Cell biology, [SDV.BV.AP]Life Sciences [q-bio]/Vegetal Biology/Plant breeding, 030104 developmental biology, [SDV.MP]Life Sciences [q-bio]/Microbiology and Parasitology, chemistry, tasiARFs, 010606 plant biology & botany

Abstract

Auxin Response Factors (ARFs) constitute a large family of transcription factors that mediate auxin-regulated developmental programs in plants. ARF2, ARF3, and ARF4 are post-transcriptionally regulated by the microRNA390 (miR390)/trans-acting small interference RNA 3 (TAS3) module through the action of TAS3-derived trans - acting small interfering RNAs (ta-siRNA). We have previously reported that constitutive activation of the miR390/TAS3 pathway promotes elongation of lateral roots but impairs nodule organogenesis and infection by rhizobia during the nitrogen-fixing symbiosis established between Medicago truncatula and its partner Sinorhizobium meliloti. However, the involvement of the targets of the miR390/TAS3 pathway, i.e., MtARF2, MtARF3, MtARF4a, and MtARF4b, in root development and establishment of the nitrogen-fixing symbiosis remained unexplored. Here, promoter:reporter fusions showed that expression of both MtARF3 and MtARF4a was associated with lateral root development; however, only the MtARF4a promoter was active in developing nodules. In addition, up-regulation of MtARF2, MtARF3, and MtARF4a/b in response to rhizobia depends on Nod Factor perception. We provide evidence that simultaneous knockdown of MtARF2, MtARF3, MtARF4a, and MtARF4b or mutation in MtARF4a impaired nodule formation, and reduced initiation and progression of infection events. Silencing of MtARF2, MtARF3, MtARF4a, and MtARF4b altered mRNA levels of the early nodulation gene nodulation signaling pathway 2 (MtNSP2). In addition, roots with reduced levels of MtARF2, MtARF3, MtARF4a, and MtARF4b, as well as arf4a mutant plants exhibited altered root architecture, causing a reduction in primary and lateral root length, but increasing lateral root density. Taken together, our results suggest that these ARF members are common key players of the morphogenetic programs that control root development and the formation of nitrogen-fixing nodules., Facultad de Ciencias Exactas, Instituto de Biotecnologia y Biologia Molecular

Published

2021

22. The role of microRNAs in the control of flowering time.

Author

Spanudakis, Eleonora and Jackson, Stephen

Subjects

*MICRORNA, *FLOWERING time, *PLANT genetics, *GENE expression in plants, *GENETIC transcription in plants, *PLANT development, *ARABIDOPSIS thaliana

Abstract

The onset of flowering in plants is regulated by complex gene networks that integrate multiple environmental and endogenous cues to ensure that flowering occurs at the appropriate time. This is achieved by precise control of the expression of key flowering genes at both the transcriptional and post-transcriptional level. In recent years, a class of small non-coding RNAs, called microRNAs (miRNAs), has been shown to regulate gene expression in a number of plant developmental processes and stress responses. MiRNA-based biotechnology, which harnesses the regulatory functions of such endogenous or artificial miRNAs, therefore represents a highly promising area of research. In this review, the process of plant miRNA biogenesis, their mode of action, and multiple regulatory functions are summarized. The roles of the miR156, miR172, miR159/319, miR390, and miR399 families in the flowering time regulatory network in Arabidopsis thaliana are discussed in depth. [ABSTRACT FROM PUBLISHER]

Published

2014

23. MiR393 and miR390 synergistically regulate lateral root growth in rice under different conditions

Author

Hong Xie, Kirankumar S. Mysore, Xuanyu Liu, Liying Bian, Changlun Zhang, Zhen Feng, Yuzhu Lu, and Jiansheng Liang

Subjects

0106 biological sciences, 0301 basic medicine, OsTIR1, Plant Science, Biology, 01 natural sciences, Plant Roots, 03 medical and health sciences, chemistry.chemical_compound, Auxin, Gene Expression Regulation, Plant, Metals, Heavy, lcsh:Botany, miR390, Primordium, Abscisic acid, chemistry.chemical_classification, Oryza sativa, Indoleacetic Acids, miR393, Lateral root, fungi, RNA, food and beverages, Oryza, Transport inhibitor, Plants, Genetically Modified, Phenotype, Cell biology, Droughts, lcsh:QK1-989, MicroRNAs, 030104 developmental biology, chemistry, RNA, Plant, Lateral root growth, OsTAS3a, 010606 plant biology & botany, Research Article, Abscisic Acid

Abstract

Background Plants have evolved excellent ability of flexibly regulating the growth of organs to adapt to changing environment, for example, the modulation of lateral root development in response to environmental stresses. Despite of fundamental discovery that some microRNAs are involved in this process, the molecular mechanisms of how these microRNAs work together are still largely unknown. Results Here we show that miR390 induced by auxin promotes lateral root growth in rice. However, this promotion can be suppressed by miR393, which is induced by various stresses and ABA (Abscisic Acid). Results that miR393 responded to ABA stronger and earlier than other stresses implied that ABA likely is authentic factor for inducing miR393. The transgenic lines respectively over-expressing miR393 and OsTAS3a (Oryza sativa Trans-Acting Short RNA precursor 3a) displayed opposite phenotypes in lateral root growth. MiR390 was found to be dominantly expressed at lateral root primordia and roots tips while miR393 mainly expressed in the base part of roots at very low level. When miR393 was up-regulated by various stresses, miR390 expression level fell down. However, the risen expression level of miR390 induced by auxin didn’t affect the expression of miR393 and its target OsTIR1 (Transport Inhibitor Response 1). Together with analysis of the two transgenic lines, we provide a model of how the growth of lateral roots in rice is regulated distinctively by the 2 microRNAs. Conclusion We propose that miR390 induced by auxin triggers the lateral root growth under normal growth conditions, meanwhile miR393 just lurks as a potentially regulative role; Once plants suffer from stresses, miR393 will be induced to negatively regulate miR390-mediated growth of lateral roots in rice.

Published

2018

24. Identification and analysis of oxygen responsive microRNAs in the root of wild tomato (S. habrochaites)

Author

Hou, Yabing, Jiang, Fangling, Zheng, Xiaolan, and Wu, Zhen

Published

2019

25. Molecular phylogeny of miR390-guided trans-acting siRNA genes ( TAS3) in the grass family.

Author

Dan Shen, Sheng Wang, Huan Chen, Qian-Hao Zhu, Helliwell, Chris, and Longjiang Fan

Subjects

*SMALL interfering RNA, *GENES, *GENOMES, *ARABIDOPSIS, *COMPLEMENTARY RNA, *GRASSES

Abstract

Trans-acting siRNAs (tasiRNAs) are a plant-specific class of 21-nt endogenous siRNAs that function as miRNA-like posttranscriptional negative regulators. Several tasiRNA loci (known as TAS genes) have been characterized to date in rice and Arabidopsis. The TAS3 family is distinguished from other TAS loci by the dual miR390 complementary sites flanking the tasiRNA region and its dependence on ARGONAUTE7. In this study, 55 putative TAS3 genes were identified by database mining and PCR amplification from the grass family. Phylogenetic analysis indicated that several genome/gene duplication events have been involved in the expansion of TAS3 genes while some TAS3 genes might have been lost during evolution of the grass family. The role of miR390 target genes in the origin of TAS3 genes are discussed. [ABSTRACT FROM AUTHOR]

Published

2009

26. The essential role of microRNAs in potato tuber development: a mini review

Author

Natarajan, Bhavani, Bhogale, Sneha, and Banerjee, Anjan K.

Published

2017

27. Identification of trans-acting siRNAs in moss and an RNA-dependent RNA polymerase required for their biogenesis.

Author

Talmor-Neiman, Mali, Stav, Ran, Klipcan, Liron, Buxdorf, Kobi, Baulcombe, David C., and Arazi, Tzahi

Subjects

*MOSSES, *SMALL interfering RNA, *RNA polymerases, *TRANSCRIPTION factors, *BOTANY

Abstract

Trans-acting small interfering RNAs (tasiRNAs) are a class of higher-plant endogenous siRNAs that, like miRNAs, direct the cleavage of non-identical transcripts. tasiRNAs derive from non-coding transcripts ( TAS) that are converted into dsRNA by a RNA-dependent RNA polymerase (RDR6), following their initial miRNA-guided cleavage. The dsRNA is then processed by a dicer-like enzyme 4 into phased 21-nucleotide siRNAs. To date, tasiRNAs have been identified only in Arabidopsis, and their identity and function in other land plants are unknown. Here, a set of endogenous small RNAs that correspond in a phased manner to a non-coding transcript ( contig13502) were identified in the moss Pyscomitrella patens. Northern analysis suggests that contig13502-derived small RNAs are expressed in the juvenile gametophyte. In addition, miR390-guided cleavage of contig13502 at two sites flanking the small RNAs cluster was validated by 5′ RACE. These cleavages are predicted to provide defined termini for the production of phased siRNAs. To elucidate the biogenesis of identified siRNAs, we cloned and generated knock-out mutants for an RDR6 moss homologue (PpRDR6). These mutants exhibited an accelerated transition from juvenile to mature gametophyte. In addition, RNA blots demonstrated that they lacked contig13502-derived siRNAs, suggesting that PpRDR6 is required for siRNA biogenesis. A target gene, which showed homology to an AP2/EREBP transcription factor, for one phased siRNA, was validated, corroborating its identity as a trans-acting siRNA. Taken together, our data indicate that contig13502 is a novel TAS locus and suggest a role for derived tasiRNAs in the regulation of gene expression in moss. [ABSTRACT FROM AUTHOR]

Published

2006

28. Further Disruption of the TAS3 Pathway via the Addition of the AGO7 Mutation to the DRB1, DRB2 or DRB4 Mutations Severely Impairs the Reproductive Competence of Arabidopsis thaliana

Author

Andrew L. Eamens, Jackson M. J. Oultram, Christopher P. L. Grof, Joseph L. Pegler, and Shaun J. Curtin

Subjects

0106 biological sciences, auxin response factor (arf), Mutant, medicine.disease_cause, tas3 pathway, 01 natural sciences, lcsh:Agriculture, 03 medical and health sciences, Arabidopsis, Gene expression, medicine, Arabidopsis thaliana, double-stranded rna binding (drb) protein, Gene, Transcription factor, 030304 developmental biology, argonaute7 (ago7), 0303 health sciences, Mutation, biology, lcsh:S, RNA, arabidopsis thaliana (arabidopsis), rt-qpcr, biology.organism_classification, mir390, Cell biology, trans-acting small-interfering rna (tasirna), microrna (mirna), tasiarf, kanadi (kan), Agronomy and Crop Science, 010606 plant biology & botany

Abstract

The previous assignment of functional roles for AGO7, and the DOUBLE-STRANDED RNA BINDING (DRB) proteins, DRB1, DRB2, and DRB4, in either microRNA (miRNA) or trans-acting small-interfering RNA (tasiRNA) production allowed for use of the loss-of-function mutant lines, drb1, drb2, drb4, and ago7, to further functionally characterize the TAS3 pathway in Arabidopsis thaliana (Arabidopsis). Towards achieving this goal, we also describe the developmental and molecular phenotypes expressed by three newly generated Arabidopsis lines, the drb1ago7, drb2ago7, and drb4ago7 double mutants. We show that the previously reported developmental abnormalities displayed by the drb1, drb2, drb4, and ago7 single mutants, are further exacerbated in the drb1ago7, drb2ago7, and drb4ago7 double mutants, with rosette area, silique length, and seed set all impaired to a greater degree in the double mutants. Molecular assessment of the TAS3 pathway in the floral tissues of the seven analyzed mutants revealed that DRB1 is the sole DRB required for miR390 sRNA production. However, DRB2 and DRB4 appear to play secondary roles at this stage of the TAS3 pathway to ensure that miR390 sRNA levels are tightly maintained. We further show that the expression of the TAS3-derived tasiARF target genes, AUXIN RESPONSE FACTOR2 (ARF2), ARF3, and ARF4, was altered in drb1ago7, drb2ago7, and drb4ago7 flowers. Altered ARF2, ARF3, and ARF4 expression was in turn demonstrated to lead to changes in the level of expression of KAN1, KAN3, and KAN4, three KANADI transcription factor genes known to be transcriptionally regulated by ARF2, ARF3, and ARF4. Taken together, the demonstrated relationship between altered ARF and KAN gene expression in drb1ago7, drb2ago7 and drb4ago7 flowers, could, in part, explain the more severe developmental defects displayed by the double mutants, compared to milder impact that loss of only a single piece of TAS3 pathway protein machinery was demonstrated to have on drb1, drb2, drb4 and ago7 reproductive development.

Published

2019

29. MiR393 and miR390 synergistically regulate lateral root growth in rice under different conditions

Author

Lu, Yuzhu, Feng, Zhen, Liu, Xuanyu, Bian, Liying, Xie, Hong, Zhang, Changlun, Mysore, Kirankumar S., and Liang, Jiansheng

Published

2018

30. microRNA390 modulates Nicotiana attenuata 's tolerance response to Manduca sexta herbivory.

Author

Pradhan M, Rocha C, Halitschke R, Baldwin IT, and Pandey SP

Abstract

miR390 is a highly conserved miRNA in plant lineages known to function in growth and development processes, such as lateral root development, and in responses to salt and metal stress. In the ecological model species, Nicotiana attenuata , miR390's biological function remains unknown, which we explore here with a gain-of-function analysis with plants over-expressing (OE-) N. attenuata miR390 (Na-miR390) in glasshouse and natural environments. OEmiR390 plants showed normal developmental processes, including lateral root formation or reproductive output, in plants grown under standard conditions in the glasshouse. OEmiR390 plants did not have dramatically altered interactions with arbuscular mycorrhizal fungi (AMF), Fusarium pathogens, or herbivores. However, Na-miR390 regulated the plant's tolerance of herbivory. Caterpillar feeding elicits the accumulation of a suite of phytohormones, including auxin and jasmonates, which further regulate host-tolerance. The increase in Na-miR390 abundance reduces the accumulation of auxin but does not influence levels of other phytohormones including jasmonates (JA, JA-Ile), salicylic acid (SA), and abscisic acid (ABA). Na-miR390 overexpression reduces reproductive output, quantified as capsule production, when plants are attacked by herbivores. Exogenous auxin treatments of herbivore-attacked plants restored capsule production to wild-type levels. During herbivory, Na-miR390 transcript abundances are increased; its overexpression reduces the abundances of auxin biosynthesizing YUCCA and ARF (mainly ARF4 ) transcripts during herbivory. Furthermore, the accumulation of auxin-regulated phenolamide secondary metabolites (caffeoylputrescine, dicaffeoylspermidine) is also reduced. In N. attenuata , miR390 functions in modulating tolerance responses of herbivore-attacked plants., Competing Interests: The authors declare no conflict of interests., (© 2021 The Authors. Plant Direct published by American Society of Plant Biologists and the Society for Experimental Biology and John Wiley & Sons Ltd.)

Published

2021

31. The MicroRNA390/TAS3 Pathway Mediates Symbiotic Nodulation and Lateral Root Growth

Author

Jiangqi Wen, María Eugenia Zanetti, Kirankumar S. Mysore, Karen Vanesa Hobecker, Flavio Antonio Blanco, Mauricio Reynoso, Martin Crespi, Pilar Bustos-Sanmamed, Consejo Nacional de Investigaciones Científicas y Técnicas, University of California (UC), Universidad de Salamanca, Institut des Sciences des Plantes de Paris-Saclay (IPS2 (UMR_9213 / UMR_1403)), Institut National de la Recherche Agronomique (INRA)-Université Paris-Sud - Paris 11 (UP11)-Université Paris Diderot - Paris 7 (UPD7)-Université d'Évry-Val-d'Essonne (UEVE)-Centre National de la Recherche Scientifique (CNRS), Samuel Roberts Noble Fdn Inc, ANPCyT, Argentina [PICT 2007-00095, PICT 2013-0384], 'Laboratoire d'Excellence Saclay Plant Sciences' (SPS, ANR, France) [ANR-10-LABX-40], CONICET Fellowship, European Project: 273743,EC:FP7:PEOPLE,FP7-PEOPLE-2010-IEF,MEDEPIMIR(2011), and University of California

Subjects

0106 biological sciences, 0301 basic medicine, Root nodule, ARGONAUTE 7, Physiology, Otras Ciencias Biológicas, [SDV]Life Sciences [q-bio], Biología, legumes, Organogenesis, Plant Science, Crecimiento, 01 natural sciences, Rhizobia, Ciencias Biológicas, purl.org/becyt/ford/1 [https], 03 medical and health sciences, Symbiosis, Nitrogen fixation, Auxin, Botany, Genetics, [SDV.BV]Life Sciences [q-bio]/Vegetal Biology, miR390, nodulation, purl.org/becyt/ford/1.6 [https], chemistry.chemical_classification, biology, Lateral root, Meristem, biology.organism_classification, Medicago truncatula, Cell biology, Root architecture, 030104 developmental biology, chemistry, CIENCIAS NATURALES Y EXACTAS, 010606 plant biology & botany

Abstract

Legume roots form two types of postembryonic organs, lateral roots and symbiotic nodules. Nodule formation is the result of the interaction of legumes with rhizobia and requires the mitotic activation and differentiation of root cells as well as an independent, but coordinated, program that allows infection by rhizobia. MicroRNA390 (miR390) is an evolutionarily conserved microRNA that targets the Trans-Acting Short Interference RNA3 (TAS3) transcript. Cleavage of TAS3 by ARGONAUTE7 results in the production of trans-acting small interference RNAs, which target mRNAs encoding AUXIN RESPONSE FACTOR2 (ARF2), ARF3, and ARF4. Here, we show that activation of the miR390/TAS3 regulatory module by overexpression of miR390 in Medicago truncatula promotes lateral root growth but prevents nodule organogenesis, rhizobial infection, and the induction of two key nodulation genes, Nodulation Signaling Pathway1 (NSP1) and NSP2. Accordingly, inactivation of the miR390/TAS3 module, either by expression of a miR390 target mimicry construct or mutations in ARGONAUTE7, enhances nodulation and rhizobial infection, alters the spatial distribution of the nodules, and increases the percentage of nodules with multiple meristems. Our results revealed a key role of the miR390/TAS3 pathway in legumes as a modulator of lateral root organs, playing opposite roles in lateral root and nodule development., Facultad de Ciencias Exactas

Published

2017

32. Identification of miRNAs and Their Response to Cold Stress in Astragalus Membranaceus

Author

Jinchao Feng, Zhuyun Li, Fei Gao, Chunxiang Wei, Huigai Sun, Merhaba Abla, and Yijun Zhou

Subjects

0106 biological sciences, 0301 basic medicine, Genetics, Molecular breeding, Regulation of gene expression, Small RNA, Candidate gene, biology, lcsh:QR1-502, biology.organism_classification, 01 natural sciences, Biochemistry, lcsh:Microbiology, 03 medical and health sciences, Metabolic pathway, Astragalus, 030104 developmental biology, Astragalus membranaceus, microRNA, cold stress, miR390, Secondary metabolism, Molecular Biology, miRNA, 010606 plant biology & botany

Abstract

Astragalus membranaceus is an important medicinal plant widely cultivated in East Asia. MicroRNAs (miRNAs) are endogenous regulatory molecules that play essential roles in plant growth, development, and the response to environmental stresses. Cold is one of the key environmental factors affecting the yield and quality of A. membranaceus, and miRNAs may mediate the gene regulation network under cold stress in A. membranaceus. To identify miRNAs and reveal their functions in cold stress response in A. membranaceus, small RNA sequencing was conducted followed by bioinformatics analysis, and quantitative real time PCR (qRT-PCR) analysis was performed to profile the expression of miRNAs under cold stress. A total of 168 conserved miRNAs belonging to 34 families and 14 putative non-conserved miRNAs were identified. Many miRNA targets were predicted and these targets were involved in diversified regulatory and metabolic pathways. By using qRT-PCR, 27 miRNAs were found to be responsive to cold stress, including 4 cold stress-induced and 17 cold-repressed conserved miRNAs, and 6 cold-induced non-conserved miRNAs. These cold-responsive miRNAs probably mediate the response to cold stress by regulating development, hormone signaling, defense, redox homeostasis, and secondary metabolism in A. membranaceus. These cold-corresponsive miRNAs may be used as the candidate genes in further molecular breeding for improving cold tolerance of A. membranaceus.

Published

2019

33. Identification of miR390-TAS3-ARF pathway in response to salt stress in Helianthus tuberosus L.

Author

Wen, Fen Liang, Yue, Yang, He, Teng Fei, Gao, Xiu Mei, Zhou, Zhao Sheng, and Long, Xiao Hua

Subjects

*JERUSALEM artichoke, *PLANT breeding, *PLANT growth, *SALINITY, *IDENTIFICATION

Abstract

• miR390, TAS3, tasiARFs, and ARF2/3/4 were identified in H. tuberosus. • miR390-TAS3-ARF model improves salt tolerance of H. tuberosus. • ARF2 was likely to play an active role in salt tolerance of H. tuberosus. MicroRNA390 (miR390), an ancient and highly conserved miRNA family in land plants, plays multiple roles in plant growth, development and stress responses. In this study, we isolated and identified MIR390 , miR390, TAS3a/b/c , tasiARF-1/2/3 (t rans- a cting s mall i nterfering RNAs i nfluencing A uxin R esponse F actors) and ARF2/3/4 in Jerusalem artichoke (Helianthus tuberosus L.). Treatment with 100 mM NaCl induced expression of miR390, increased cleavage of TAS3 , produced high levels of tasiARFs, and subsequently enhanced cleavage of ARF3/4 , which was most likely associated with salt tolerance of the plants. In contrast, treatment with 300 mM NaCl inhibited expression of miR390, attenuated cleavage of TAS3 , produced a small amount of tasiARFs, and reduced cleavage of ARF3/4. We proposed that ARF2 , one of the targets of tasiARFs, induced under salinity was likely to play an active role in salt tolerance of Jerusalem artichoke. The study of the miR390- TAS3-ARF model in Jerusalem artichoke may broaden our understanding of salt tolerance mechanisms, and provides a theoretical support for further genetic identification and breeding crops with increased tolerance to salt stress. [ABSTRACT FROM AUTHOR]

Published

2020

34. Solanum tuberosum StCDPK1 is regulated by miR390 at the posttranscriptional level and phosphorylates the auxin efflux carrier StPIN4 in vitro, a potential downstream target in potato development

Author

Carolina Grandellis, Elisa Inés Fantino, Franco Santin, Anjan K. Banerjee, Sneha Bhogale, and Rita M. Ulloa

Subjects

0301 basic medicine, Physiology, Plant Science, Beta-glucuronidase, Plant Roots, Plant Growth Regulators, Gene Expression Regulation, Plant, Genes, Reporter, Phosphorylation, RNA Processing, Post-Transcriptional, Promoter Regions, Genetic, Plant Proteins, chemistry.chemical_classification, Regulation of gene expression, medicine.diagnostic_test, Kinase, food and beverages, General Medicine, Plants, Genetically Modified, Plant Tubers, Biochemistry, Organ Specificity, RNA, Plant, STPIN4, MIR390, CIENCIAS NATURALES Y EXACTAS, Agrobacterium, In silico, Otras Ciencias Biológicas, Biology, Gene Expression Regulation, Enzymologic, Ciencias Biológicas, 03 medical and health sciences, DEVELOPMENT, Western blot, Auxin, Genetics, medicine, Gene, Solanum tuberosum, Indoleacetic Acids, SOLANUM TUBEROSUM, fungi, Membrane Transport Proteins, Cell Biology, biology.organism_classification, Plant Leaves, MicroRNAs, 030104 developmental biology, chemistry, Protein Kinases

Abstract

Among many factors that regulate potato tuberization, calcium and calcium-dependent protein kinases (CDPKs) play an important role. CDPK activity increases at the onset of tuber formation with StCDPK1 expression being strongly induced in swollen stolons. However, not much is known about the transcriptional and posttranscriptional regulation of StCDPK1 or its downstream targets in potato development. To elucidate further, we analyzed its expression in different tissues and stages of the life cycle. Histochemical analysis of StCDPK1::GUS (β-glucuronidase) plants demonstrated that StCDPK1 is strongly associated with the vascular system in stems, roots, during stolon to tuber transition, and in tuber sprouts. In agreement with the observed GUS profile, we found specific cis-acting elements in StCDPK1 promoter. In silico analysis predicted miR390 to be a putative posttranscriptional regulator of StCDPK1. Quantitative real time-polymerase chain reaction (qRT-PCR) analysis showed ubiquitous expression of StCDPK1 in different tissues which correlated well with Western blot data except in leaves. On the contrary, miR390 expression exhibited an inverse pattern in leaves and tuber eyes suggesting a possible regulation of StCDPK1 by miR390. This was further confirmed by Agrobacterium co-infiltration assays. In addition, in vitro assays showed that recombinant StCDPK1-6xHis was able to phosphorylate the hydrophilic loop of the auxin efflux carrier StPIN4. Altogether, these results indicate that StCDPK1 expression is varied in a tissue-specific manner having significant expression in vasculature and in tuber eyes; is regulated by miR390 at posttranscriptional level and suggest that StPIN4 could be one of its downstream targets revealing the overall role of this kinase in potato development. Fil: Santin, Franco. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina Fil: Bhogale, Sneha. Indian Institute of Science Education and Research; India Fil: Fantino, Elisa Inés. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina Fil: Grandellis, Carolina Rosana. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina Fil: Banerjee, Anjan K.. Indian Institute of Science Education and Research; India Fil: Ulloa, Rita Maria. Consejo Nacional de Investigaciones Científicas y Técnicas. Instituto de Investigaciones en Ingeniería Genética y Biología Molecular "Dr. Héctor N. Torres"; Argentina

Published

2016

35. A Reliable Protocol for In situ microRNAs Detection in Feeding Sites Induced by Root-Knot Nematodes

Author

Janice de Almeida-Engler, Fernando E. Díaz-Manzano, Gilbert Engler, Marta Barcala, Carolina Escobar, and Carmen Fenoll

Subjects

0106 biological sciences, 0301 basic medicine, In situ, Nematodes, In situ microRNAs, In situ hybridization, Plant Science, Biology, tomato, 01 natural sciences, Tomato, 03 medical and health sciences, Galls, giant cells, Arabidopsis, microRNA, Botany, Gall, miR390, Syncytium, in situ microRNAs, Plant roots, food and beverages, Meloidogyne spp, biology.organism_classification, Giant cells, Cell biology, 030104 developmental biology, Giant cell, nematodes, galls, Protocols, 010606 plant biology & botany

Abstract

Las agallas inducidas por Meloidogyne spp. en las raíces de las plantas son un órgano complejo formado por tejidos heterogéneos; dentro de ellas, existen 5-8 células gigantes (GCs) que los nematodos utilizan para su propia nutrición. Los mecanismos de regulación son sutiles y es probable que medie la represión masiva de genes descritos en las etapas tempranas de la infección en las agallas, particularmente en las células gigantes. Algunos de estos mecanismos están mediados por microRNAs; por lo tanto, se describe un protocolo fiable para detectar la abundancia de microRNAs dentro de los tejidos de las agallas inducidas por Meloidogyne spp. Algunos métodos están disponibles para determinar la abundancia de microRNAs específicos en diferentes partes de la planta; sin embargo, no en agallas que son órganos complejos formados por diferentes tejidos. Por lo tanto, la detección de microRNAs a nivel celular es particularmente importante para entender los mecanismos de regulación específicos que operan dentro de las GCs. La hibridación in situ (ISH) es un método clásico, robusto y preciso que permite la localización de los ARN específicos directamente en los tejidos vegetales. Presentamos por primera vez un método de ISH adaptado y estandarizado para detectar microRNAs en GCs inducidos por nematodos basados en parafina e ISH de microRNAs. Además, se puede adaptar a cualquier laboratorio sin más requisitos que un microtomo y un microscopio óptico y se tarda diez días para llevar a cabo, una vez el material vegetal se haya recogido. La técnica mostrada es muy fiable y de gran valor para una rápida detección de los patrones de expresión de microRNAs en tomate. Hemos probado el protocolo para el microRNA 390 ya que el análisis de secuenciación masiva mostró que éste microRNA se indujo a 3 dpi (días después de la infección) en agallas de Arabidopsis y está 100% conservado entre Arabidopsis y tomate. La localización exitosa del microRNA 390 en GCs de tomate constituye una validación de este método que podría extenderse fácilmente a otros cultivos y / o sincitios inducidos por otros nematodos (formadores de quistes). Por último, también se incluye una orientación sobre la solución de problemas que pueden surgir durante el proceso.

Published

2016

36. MicroRNA390 Is Involved in Cadmium Tolerance and Accumulation in Rice

Author

Zhihua Jiang, Yi Wang, Yanfei Ding, Yaoyao Ye, and Cheng Zhu

Subjects

0106 biological sciences, 0301 basic medicine, Plant growth, cadmium, chemistry.chemical_element, Plant Science, lcsh:Plant culture, Biology, 01 natural sciences, Rice, Negative regulator, 03 medical and health sciences, microRNA, Gene expression, Botany, miR390, lcsh:SB1-1110, Original Research, Cadmium, OsSRK, rice, food and beverages, Genetically modified rice, Cell biology, 030104 developmental biology, chemistry, Target gene, 010606 plant biology & botany

Abstract

Cadmium (Cd) is a non-essential heavy metal that is toxic to plants. microRNAs (miRNAs) are 21-nucleotide RNAs that are ubiquitous regulators of gene expression at the post-transcriptional level. Several plant miRNAs, such as miR390, have vital roles in plant growth, development and responses to environmental stresses including heavy metal stress. In this study, the expression of mature miR390 was significantly down-regulated under Cd stress in rice. Consequently, the target gene of miR390, OsSRK was dramatically induced by Cd treatment. Transgenic rice plants overexpressing miR390 displayed reduced Cd tolerance and higher Cd accumulation compared with wild-type plants. Simultaneously, expression of OsSRK was less pronounced in 35S:MIR390 plants than in wild-type. These results indicate that miR390 was a negative regulator involved in Cd stress tolerance in rice.

Published

2016

37. Further Disruption of the TAS3 Pathway via the Addition of the AGO7 Mutation to the DRB1, DRB2 or DRB4 Mutations Severely Impairs the Reproductive Competence of Arabidopsis thaliana.

Author

Pegler, Joseph L., Oultram, Jackson M. J., Curtin, Shaun J., Grof, Christopher P. L., and Eamens, Andrew L.

Subjects

*ARABIDOPSIS thaliana, *DOUBLE-stranded RNA, *NON-coding RNA, *TRANSCRIPTION factors, *HUMAN abnormalities, *FLOWERS

Abstract

The previous assignment of functional roles for AGO7, and the DOUBLE-STRANDED RNA BINDING (DRB) proteins, DRB1, DRB2, and DRB4, in either microRNA (miRNA) or trans-acting small-interfering RNA (tasiRNA) production allowed for use of the loss-of-function mutant lines, drb1, drb2, drb4, and ago7, to further functionally characterize the TAS3 pathway in Arabidopsis thaliana (Arabidopsis). Towards achieving this goal, we also describe the developmental and molecular phenotypes expressed by three newly generated Arabidopsis lines, the drb1ago7, drb2ago7, and drb4ago7 double mutants. We show that the previously reported developmental abnormalities displayed by the drb1, drb2, drb4, and ago7 single mutants, are further exacerbated in the drb1ago7, drb2ago7, and drb4ago7 double mutants, with rosette area, silique length, and seed set all impaired to a greater degree in the double mutants. Molecular assessment of the TAS3 pathway in the floral tissues of the seven analyzed mutants revealed that DRB1 is the sole DRB required for miR390 sRNA production. However, DRB2 and DRB4 appear to play secondary roles at this stage of the TAS3 pathway to ensure that miR390 sRNA levels are tightly maintained. We further show that the expression of the TAS3-derived tasiARF target genes, AUXIN RESPONSE FACTOR2 (ARF2), ARF3, and ARF4, was altered in drb1ago7, drb2ago7, and drb4ago7 flowers. Altered ARF2, ARF3, and ARF4 expression was in turn demonstrated to lead to changes in the level of expression of KAN1, KAN3, and KAN4, three KANADI transcription factor genes known to be transcriptionally regulated by ARF2, ARF3, and ARF4. Taken together, the demonstrated relationship between altered ARF and KAN gene expression in drb1ago7, drb2ago7 and drb4ago7 flowers, could, in part, explain the more severe developmental defects displayed by the double mutants, compared to milder impact that loss of only a single piece of TAS3 pathway protein machinery was demonstrated to have on drb1, drb2, drb4 and ago7 reproductive development. [ABSTRACT FROM AUTHOR]

Published

2019

38. Identification of miRNAs and Their Response to Cold Stress in Astragalus Membranaceus.

Author

Abla, Merhaba, Sun, Huigai, Li, Zhuyun, Wei, Chunxiang, Gao, Fei, Zhou, Yijun, and Feng, Jinchao

Subjects

*PHYSIOLOGICAL effects of cold temperatures, *ASTRAGALUS membranaceus, *NON-coding RNA, *SECONDARY metabolism, *GENE regulatory networks, *NUCLEOTIDE sequence

Abstract

Astragalus membranaceus is an important medicinal plant widely cultivated in East Asia. MicroRNAs (miRNAs) are endogenous regulatory molecules that play essential roles in plant growth, development, and the response to environmental stresses. Cold is one of the key environmental factors affecting the yield and quality of A. membranaceus, and miRNAs may mediate the gene regulation network under cold stress in A. membranaceus. To identify miRNAs and reveal their functions in cold stress response in A. membranaceus, small RNA sequencing was conducted followed by bioinformatics analysis, and quantitative real time PCR (qRT-PCR) analysis was performed to profile the expression of miRNAs under cold stress. A total of 168 conserved miRNAs belonging to 34 families and 14 putative non-conserved miRNAs were identified. Many miRNA targets were predicted and these targets were involved in diversified regulatory and metabolic pathways. By using qRT-PCR, 27 miRNAs were found to be responsive to cold stress, including 4 cold stress-induced and 17 cold-repressed conserved miRNAs, and 6 cold-induced non-conserved miRNAs. These cold-responsive miRNAs probably mediate the response to cold stress by regulating development, hormone signaling, defense, redox homeostasis, and secondary metabolism in A. membranaceus. These cold-corresponsive miRNAs may be used as the candidate genes in further molecular breeding for improving cold tolerance of A. membranaceus. [ABSTRACT FROM AUTHOR]

Published

2019

39. Molecular phylogeny of miR390-guided trans-acting siRNA genes (TAS3) in the grass family

Author

Shen, Dan, Wang, Sheng, Chen, Huan, Zhu, Qian-Hao, Helliwell, Chris, and Fan, Longjiang

Published

2009

40. Comparative Analysis of Cotton Small RNAs and Their Target Genes in Response to Salt Stress.

Author

Yin Z, Han X, Li Y, Wang J, Wang D, Wang S, Fu X, and Ye W

Abstract

Small RNAs play an important role in regulating plant responses to abiotic stress. Depending on the method of salt application, whether sudden or gradual, plants may experience either salt shock or salt stress, respectively. In this study, small RNA expression in response to salt shock and long-term salt stress in parallel experiments was described. Cotton small RNA libraries were constructed and sequenced under normal conditions, as well as sudden and gradual salt application. A total of 225 cotton microRNAs (miRNAs) were identified and of these 24 were novel miRNAs. There were 88 and 75 miRNAs with differential expression under the salt shock and long-term salt stress, respectively. Thirty one transcripts were found to be targets of 20 miRNA families. Eight targets showed a negative correlation in expression with their corresponding miRNAs. We also identified two TAS3s with two near-identical 21-nt trans-acting small interfering RNA (tasiRNA)-Auxin Response Factors (ARFs) that coaligned with the phases D7(+) and D8(+) in three Gossypium species. The miR390/tasiRNA-ARFs/ARF4 pathway was identified and showed altered expression under salt stress. The identification of these small RNAs as well as elucidating their functional significance broadens our understanding of post-transcriptional gene regulation in response to salt stress., Competing Interests: The authors declare no conflict of interest.

Published

2017

41. MicroRNA390 Is Involved in Cadmium Tolerance and Accumulation in Rice.

Author

Ding Y, Ye Y, Jiang Z, Wang Y, and Zhu C

Abstract

Cadmium (Cd) is a non-essential heavy metal that is toxic to plants. microRNAs (miRNAs) are 21-nucleotide RNAs that are ubiquitous regulators of gene expression at the post-transcriptional level. Several plant miRNAs, such as miR390, have vital roles in plant growth, development and responses to environmental stresses including heavy metal stress. In this study, the expression of mature miR390 was significantly down-regulated under Cd stress in rice. Consequently, the target gene of miR390, OsSRK was dramatically induced by Cd treatment. Transgenic rice plants overexpressing miR390 displayed reduced Cd tolerance and higher Cd accumulation compared with wild-type plants. Simultaneously, expression of OsSRK was less pronounced in 35S:MIR390 plants than in wild-type. These results indicate that miR390 was a negative regulator involved in Cd stress tolerance in rice.

Published

2016