MicroRNA156: A Potential Graft-Transmissible MicroRNA That Modulates Plant Architecture and Tuberization in Solanum tuberosum ssp. andigena

Bhogale, Sneha; Mahajan, Ameya; Natarajan, Bhavani; Rajabhoj, Mohit; Thulasiram, Hirekodathakallu V.; Banerjee, Anjan K.

doi:10.1104/pp.113.230714

Cited by 240 publications

(213 citation statements)

References 79 publications

(123 reference statements)

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“…EMSA has been broadly used for characterization of core promoter elements in both animals (Morachis et al, 2010;reviewed in Roy and Singer, 2015) and plants (Achard et al, 2003), including characterization of miRNA core promoters (reviewed in Xie et al, 2010). Using gel-shift assays, Bhogale et al (2014) identified binding sites for the SQUAMOSA PROMOTER BINDING-LIKE9 (SPL9) TF in the potato (Solanum tuberosum) miR172 promoter. Predictably, these binding sites contained a GTAC motif resembling SPL9 binding sites in the promoters of protein coding genes.…”

Section: Techniques That Bash Promoter Bashing: Tf Binding Validationmentioning

confidence: 99%

Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants

et al. 2016

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ORCID IDs: 0000-0001-6793-6151 (M.M.); 0000-0002-0105-6431 (S.A.F.)RNA Polymerase II (Pol II) regulatory cascades involving transcription factors (TFs) and their targets orchestrate the genetic circuitry of every eukaryotic organism. In order to understand how these cascades function, they can be dissected into small genetic networks, each containing just a few Pol II transcribed genes, that generate specific signal-processing outcomes. Small RNA regulatory circuits involve direct regulation of a small RNA by a TF and/or direct regulation of a TF by a small RNA and have been shown to play unique roles in many organisms. Here, we will focus on small RNA regulatory circuits containing Pol II transcribed microRNAs (miRNAs). While the role of miRNA-containing regulatory circuits as modular building blocks for the function of complex networks has long been on the forefront of studies in the animal kingdom, plant studies are poised to take a lead role in this area because of their advantages in probing transcriptional and posttranscriptional control of Pol II genes. The relative simplicity of tissue-and cell-type organization, miRNA targeting, and genomic structure make the Arabidopsis thaliana plant model uniquely amenable for small RNA regulatory circuit studies in a multicellular organism. In this Review, we cover analysis, tools, and validation methods for probing the component interactions in miRNA-containing regulatory circuits. We then review the important roles that plant miRNAs are playing in these circuits and summarize methods for the identification of small genetic circuits that strongly influence plant function. We conclude by noting areas of opportunity where new plant studies are imminently needed.

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Section: Techniques That Bash Promoter Bashing: Tf Binding Validationmentioning

confidence: 99%

Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants

et al. 2016

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“…Because of the transport capacity of the tuber signal, the search for the activating signal has focused on primary products like microRNAs, fulllength mRNAs, and less abundant proteins that move through the sieve element system of the plant (Table I). Two important microRNAs, miR172 and miR156, have been implicated in potato development, but their exact mechanistic connection to tuber formation has not been established conclusively (Martin et al, 2009;Bhogale et al, 2014).…”

mentioning

confidence: 99%

The Multiple Signals That Control Tuber Formation

Hannapel

Sharma²,

Lin³

et al. 2017

Plant Physiol.

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“…Для секвенирования используют как экспериментальные подходы, связанные с высокопроизводительным секвени рованием (Zhang et al, 2013), так и биоинформатические подходы для предсказания структуры микроРНК по уже известным последовательностям (Zhang et al, 2009). Ис следования направлены на изучение микроРНК, которые регулируют экспрессию конкретных генов (Chi et al, 2015), участвующих в формировании стрессового ответа на засуху (Zhang et al, 2014) и играющих роль в процессе клубнеобразования (Martin et al, 2009;Bhogale et al, 2014;Lakhotia et al, 2014).…”

Section: идентификация микрорнк участвующих в регуляции физиологичесunclassified

Achievements and prospects of applying high-throughput sequencing techniques to potato genetics and breeding

Быкова¹,

Shmakov²,

Afonnikov³

et al. 2017

Vestn. VOGiS

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MicroRNA156: A Potential Graft-Transmissible MicroRNA That Modulates Plant Architecture and Tuberization in Solanum tuberosum ssp. andigena

Cited by 240 publications

References 79 publications

Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants

Small Genetic Circuits and MicroRNAs: Big Players in Polymerase II Transcriptional Control in Plants

The Multiple Signals That Control Tuber Formation

Achievements and prospects of applying high-throughput sequencing techniques to potato genetics and breeding

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