Literature DB >> 21633895

MicroRNA regulated defense responses in Triticum aestivum L. during Puccinia graminis f.sp. tritici infection.

Om Prakash Gupta1, Vipin Permar, Vikas Koundal, Uday Dhari Singh, Shelly Praveen.   

Abstract

Plants have evolved diverse mechanism to recognize pathogen attack and triggers defense responses. These defense responses alter host cellular function regulated by endogenous, small, non-coding miRNAs. To understand the mechanism of miRNAs regulated cellular functions during stem rust infection in wheat, we investigated eight different miRNAs viz. miR159, miR164, miR167, miR171, miR444, miR408, miR1129 and miR1138, involved in three different independent cellular defense response to infection. The investigation reveals that at the initiation of disease, accumulation of miRNAs might be playing a key role in hypersensitive response (HR) from host, which diminishes at the maturation stage. This suggests a possible host-fungal synergistic relation leading to susceptibility. Differential expression of these miRNAs in presence and absence of R gene provides a probable explanation of miRNA regulated R gene mediated independent pathways.

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Year:  2011        PMID: 21633895     DOI: 10.1007/s11033-011-0803-5

Source DB:  PubMed          Journal:  Mol Biol Rep        ISSN: 0301-4851            Impact factor:   2.316


  18 in total

1.  Prediction of plant microRNA targets.

Authors:  Matthew W Rhoades; Brenda J Reinhart; Lee P Lim; Christopher B Burge; Bonnie Bartel; David P Bartel
Journal:  Cell       Date:  2002-08-23       Impact factor: 41.582

2.  Death Don't Have No Mercy: Cell Death Programs in Plant-Microbe Interactions.

Authors:  J. L. Dangl; R. A. Dietrich; M. H. Richberg
Journal:  Plant Cell       Date:  1996-10       Impact factor: 11.277

3.  MicroRNAs in plants.

Authors:  Brenda J Reinhart; Earl G Weinstein; Matthew W Rhoades; Bonnie Bartel; David P Bartel
Journal:  Genes Dev       Date:  2002-07-01       Impact factor: 11.361

4.  osa-MIR393: a salinity- and alkaline stress-related microRNA gene.

Authors:  Peng Gao; Xi Bai; Liang Yang; Dekang Lv; Xin Pan; Yong Li; Hua Cai; Wei Ji; Qin Chen; Yanming Zhu
Journal:  Mol Biol Rep       Date:  2010-03-25       Impact factor: 2.316

5.  Specific effects of microRNAs on the plant transcriptome.

Authors:  Rebecca Schwab; Javier F Palatnik; Markus Riester; Carla Schommer; Markus Schmid; Detlef Weigel
Journal:  Dev Cell       Date:  2005-04       Impact factor: 12.270

6.  Identification of 188 conserved maize microRNAs and their targets.

Authors:  Baohong Zhang; Xiaoping Pan; Todd A Anderson
Journal:  FEBS Lett       Date:  2006-06-09       Impact factor: 4.124

Review 7.  MicroRNAS and their regulatory roles in plants.

Authors:  Matthew W Jones-Rhoades; David P Bartel; Bonnie Bartel
Journal:  Annu Rev Plant Biol       Date:  2006       Impact factor: 26.379

Review 8.  A new mechanism in plant engineering: the potential roles of microRNAs in molecular breeding for crop improvement.

Authors:  Qing Liu; Yue-Qin Chen
Journal:  Biotechnol Adv       Date:  2010-01-11       Impact factor: 14.227

9.  MicroRNA directs mRNA cleavage of the transcription factor NAC1 to downregulate auxin signals for arabidopsis lateral root development.

Authors:  Hui-Shan Guo; Qi Xie; Ji-Feng Fei; Nam-Hai Chua
Journal:  Plant Cell       Date:  2005-04-13       Impact factor: 11.277

10.  Modulation of floral development by a gibberellin-regulated microRNA.

Authors:  Patrick Achard; Alan Herr; David C Baulcombe; Nicholas P Harberd
Journal:  Development       Date:  2004-07       Impact factor: 6.868
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  25 in total

1.  Differential regulation of microRNAs in response to osmotic, salt and cold stresses in wheat.

Authors:  Om Prakash Gupta; Nand Lal Meena; Indu Sharma; Pradeep Sharma
Journal:  Mol Biol Rep       Date:  2014-03-30       Impact factor: 2.316

2.  Genome-wide fungal stress responsive miRNA expression in wheat.

Authors:  Behçet Inal; Mine Türktaş; Hakan Eren; Emre Ilhan; Sezer Okay; Mehmet Atak; Mustafa Erayman; Turgay Unver
Journal:  Planta       Date:  2014-08-26       Impact factor: 4.116

3.  Comparative Transcriptome Profiles of Near-Isogenic Hexaploid Wheat Lines Differing for Effective Alleles at the 2DL FHB Resistance QTL.

Authors:  Chiara Biselli; Paolo Bagnaresi; Primetta Faccioli; Xinkun Hu; Margaret Balcerzak; Maria G Mattera; Zehong Yan; Therese Ouellet; Luigi Cattivelli; Giampiero Valè
Journal:  Front Plant Sci       Date:  2018-01-30       Impact factor: 5.753

4.  New wheat microRNA using whole-genome sequence.

Authors:  Kuaybe Yucebilgili Kurtoglu; Melda Kantar; Hikmet Budak
Journal:  Funct Integr Genomics       Date:  2014-01-07       Impact factor: 3.410

5.  Differential expression profiling of microRNAs and their target genes during wheat-Bipolaris sorokiniana pathosystem.

Authors:  Pradeep Sharma; Om Prakash Gupta; Vikas Gupta; Gyanendra Singh; Gyanendra Pratap Singh
Journal:  Physiol Mol Biol Plants       Date:  2021-10-26

Review 6.  The Critical Role of Small RNAs in Regulating Plant Innate Immunity.

Authors:  Saquib Waheed; Muhammad Anwar; Muhammad Asif Saleem; Jinsong Wu; Muhammad Tayyab; Zhangli Hu
Journal:  Biomolecules       Date:  2021-01-29

7.  High-throughput sequencing of small RNAs from pollen and silk and characterization of miRNAs as candidate factors involved in pollen-silk interactions in maize.

Authors:  Xiao Ming Li; Ya Lin Sang; Xiang Yu Zhao; Xian Sheng Zhang
Journal:  PLoS One       Date:  2013-08-21       Impact factor: 3.240

Review 8.  Influence of virus-host interactions on plant response to abiotic stress.

Authors:  Adeeb Rahman; Kumari Veena Sinha; Sudhir K Sopory; Neeti Sanan-Mishra
Journal:  Plant Cell Rep       Date:  2021-05-29       Impact factor: 4.570

9.  Exploration of microRNAs and their targets engaging in the resistance interaction between wheat and stripe rust.

Authors:  Hao Feng; Bing Wang; Qiong Zhang; Yanping Fu; Lili Huang; Xiaojie Wang; Zhensheng Kang
Journal:  Front Plant Sci       Date:  2015-06-30       Impact factor: 5.753

10.  Genome-wide expression profiling of microRNAs in poplar upon infection with the foliar rust fungus Melampsora larici-populina.

Authors:  Min Chen; Zhimin Cao
Journal:  BMC Genomics       Date:  2015-09-15       Impact factor: 3.969
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