A Comprehensive Analysis of MicroProteins Reveals Their Potentially Widespread Mechanism of Transcriptional Regulation

Magnani, Enrico; Klein, Niek de; Nam, Hye-In; Kim, Jung‐Gun; Pham, Kimberly; Fiume, Elisa; Mudgett, Mary Beth; Rhee, Seung Y.

doi:10.1104/pp.114.235903

Cited by 24 publications

(28 citation statements)

References 57 publications

(98 reference statements)

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“…Similar small proteins that contain protein-protein interaction domains and that regulate the assembly of functional protein complexes have been termed microproteins, by analogy with the action of microRNAs on mRNAs [16,17]. Microproteins may be as small as 34 aa long and block the assembly of functional transcription complexes [18]. Future functional studies will determine whether the regulatory role of small proteins in the assembly and function of protein complexes is a common mode of action.…”

Section: Big Roles For Small Proteinsmentioning

confidence: 99%

Found in translation: functions and evolution of a recently discovered alternative proteome

Landry

Zhong

Nielly‐Thibault

et al. 2015

Current Opinion in Structural Biology

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Section: Big Roles For Small Proteinsmentioning

confidence: 99%

Found in translation: functions and evolution of a recently discovered alternative proteome

Landry

Zhong

Nielly‐Thibault

et al. 2015

Current Opinion in Structural Biology

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“…Large proteins are easily annotated and more often studied, while shorter proteins tend to be ignored because they pose additional experimental challenges compared to larger proteins. However, with the recent availability of a great array of genome and transcriptome data, an increasing number of SPs have been identified and studied, demonstrating that SPs are widespread and have fundamental functions in all domains of life (Su et al, 2013;Magnani et al, 2014). SPs usually contain a single domain, tend to be nonconventional proteins, and seem to possess lineage-specific or tissue-specific functions (Zhao, 2012;Su et al, 2013).…”

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confidence: 99%

TWS1, a Novel Small Protein, Regulates Various Aspects of Seed and Plant Development

et al. 2016

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Small proteins have long been overlooked due to their poor annotation and the experimental challenges they pose. However, in recent years, their role in various processes has started to emerge, opening new research avenues. Here, we present the isolation and characterization of two allelic mutants, twisted seed1-1 (tws1-1) and tws1-2, which exhibit an array of developmental and biochemical phenotypes in Arabidopsis (Arabidopsis thaliana) seeds. We have identified AT5G01075 as the subtending gene encoding a small protein of 81 amino acids localized in the endoplasmic reticulum. TWS1 is strongly expressed in seeds, where it regulates both embryo development and accumulation of storage compounds. TWS1 loss-of-function seeds exhibit increased starch, sucrose, and protein accumulation at the detriment of fatty acids. TWS1 is also expressed in vegetative and reproductive tissues, where it is responsible for proper epidermal cell morphology and overall plant growth. At the cellular level, TWS1 is responsible for cuticle deposition on epidermal cells and organization of the endomembrane system. Finally, we show that TWS1 is a single-copy gene in Arabidopsis, and it is specifically conserved among angiosperms.Developing seeds are a complex system that integrates processes implicated in the coordinated development of different tissues and the intensive activation of many metabolic pathways aimed at massive accumulation of storage compounds and secondary metabolites. As a result, young seedlings are provided with the energy and the building materials required to restarting the plant life cycle.In oleaginous species, such as Arabidopsis (Arabidopsis thaliana), seeds typically contain 30% to 40% storage lipids and 30% to 40% proteins by weight (Baud et al., 2008).

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“…A recent study found a list of potential miPs that show a sequence similarity to TFs but lack a DBD [34]. The authors identified 438 TF-related proteins and referred to these as putative miPs.…”

Section: Tf Synergistic and Antagonistic Interactionsmentioning

confidence: 99%

“…The absence of a domain does not necessarily lead to an inhibitory effect, as evidenced by the two proof-of-concept potential miP candidates that were selected in the above study [34]. The first protein, LITTLE SIPPER (SPPR), is a 52-kDa multidomain protein that regulates HD-Zip IV FLOWERING WAGENINGEN (FWA) [34].…”

Section: Tf Synergistic and Antagonistic Interactionsmentioning

confidence: 99%

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MicroProteins: small size – big impact

Eguen¹,

Straub²,

Graeff³

et al. 2015

Trends in Plant Science

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A Comprehensive Analysis of MicroProteins Reveals Their Potentially Widespread Mechanism of Transcriptional Regulation

Cited by 24 publications

References 57 publications

Found in translation: functions and evolution of a recently discovered alternative proteome

Found in translation: functions and evolution of a recently discovered alternative proteome

TWS1, a Novel Small Protein, Regulates Various Aspects of Seed and Plant Development

MicroProteins: small size – big impact

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