Literature DB >> 20009520

Functional diversity of the plant glycine-rich proteins superfamily.

Amanda Mangeon1, Ricardo Magrani Junqueira, Gilberto Sachetto-Martins.   

Abstract

The first plant glycine-rich proteins (GRPs) have been isolated more than 20 years ago based on their specific expression pattern and/or modulation by several biotic and abiotic factors. This superfamily is characterized by the presence of a glycine-rich domain arranged in (Gly)(n)-X repeats. The presence of additional motifs, as well as the nature of the glycine repeats, groups them in different classes. The diversity in structure as well as in expression pattern, modulation and sub-cellular localization have always indicated that these proteins, although classified as members of the same superfamily, would perform different functions in planta. Only now, two decades later, with the first functional characterizations of plant GRPs their involvement in diverse biological and biochemical processes are being uncovered. Here, we review the so far ascribed functions of plant GRPs.

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Year:  2010        PMID: 20009520      PMCID: PMC2884108          DOI: 10.4161/psb.5.2.10336

Source DB:  PubMed          Journal:  Plant Signal Behav        ISSN: 1559-2316


  36 in total

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Journal:  Cell Mol Life Sci       Date:  2001-09       Impact factor: 9.261

2.  The systemic movement of a tobamovirus is inhibited by a cadmium-ion-induced glycine-rich protein.

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Journal:  Nat Cell Biol       Date:  2002-07       Impact factor: 28.824

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Journal:  J Cell Sci       Date:  2004-03-01       Impact factor: 5.285

Review 4.  Identification and characterization of Arabidopsis thaliana genes involved in xylem secondary cell walls.

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Journal:  J Plant Res       Date:  2006-03-22       Impact factor: 2.629

5.  Structural cell-wall proteins in protoxylem development: evidence for a repair process mediated by a glycine-rich protein.

Authors:  U Ryser; M Schorderet; G F Zhao; D Studer; K Ruel; G Hauf; B Keller
Journal:  Plant J       Date:  1997-07       Impact factor: 6.417

6.  Functional characterization of a glycine-rich RNA-binding protein 2 in Arabidopsis thaliana under abiotic stress conditions.

Authors:  Joo Y Kim; Su J Park; Boseung Jang; Che-Hun Jung; Sung J Ahn; Chang-Hyo Goh; Kyoungwon Cho; Oksoo Han; Hunseung Kang
Journal:  Plant J       Date:  2007-03-21       Impact factor: 6.417

7.  Interaction of the maize and Arabidopsis kinase interaction domains with a subset of receptor-like protein kinases: implications for transmembrane signaling in plants.

Authors:  D M Braun; J M Stone; J C Walker
Journal:  Plant J       Date:  1997-07       Impact factor: 6.417

8.  A cold-regulated nucleic acid-binding protein of winter wheat shares a domain with bacterial cold shock proteins.

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9.  Arabidopsis COLD SHOCK DOMAIN PROTEIN2 is a RNA chaperone that is regulated by cold and developmental signals.

Authors:  Kentaro Sasaki; Myung-Hee Kim; Ryozo Imai
Journal:  Biochem Biophys Res Commun       Date:  2007-10-18       Impact factor: 3.575

10.  Cold shock domain proteins and glycine-rich RNA-binding proteins from Arabidopsis thaliana can promote the cold adaptation process in Escherichia coli.

Authors:  Jin Sun Kim; Su Jung Park; Kyung Jin Kwak; Yeon Ok Kim; Joo Yeol Kim; Jinkyung Song; Boseung Jang; Che-Hun Jung; Hunseung Kang
Journal:  Nucleic Acids Res       Date:  2006-12-14       Impact factor: 16.971
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  81 in total

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Journal:  Nucleic Acids Res       Date:  2014-06-23       Impact factor: 16.971

2.  The tissue expression pattern of the AtGRP5 regulatory region is controlled by a combination of positive and negative elements.

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Journal:  Plant Cell Rep       Date:  2010-02-27       Impact factor: 4.570

3.  The Solanum lycopersicum Zinc Finger2 cysteine-2/histidine-2 repressor-like transcription factor regulates development and tolerance to salinity in tomato and Arabidopsis.

Authors:  Imène Hichri; Yordan Muhovski; Eva Žižkova; Petre I Dobrev; Jose Manuel Franco-Zorrilla; Roberto Solano; Irene Lopez-Vidriero; Vaclav Motyka; Stanley Lutts
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4.  Defining the RNA-binding glycine-rich (RBG) gene superfamily: new insights into nomenclature, phylogeny, and evolutionary trends obtained by genome-wide comparative analysis of Arabidopsis, Chinese cabbage, rice and maize genomes.

Authors:  Panneerselvam Krishnamurthy; Jin A Kim; Mi-Jeong Jeong; Chang Ho Kang; Soo In Lee
Journal:  Mol Genet Genomics       Date:  2015-06-30       Impact factor: 3.291

Review 5.  Structural disorder in plant proteins: where plasticity meets sessility.

Authors:  Alejandra A Covarrubias; Cesar L Cuevas-Velazquez; Paulette S Romero-Pérez; David F Rendón-Luna; Caspar C C Chater
Journal:  Cell Mol Life Sci       Date:  2017-06-22       Impact factor: 9.261

6.  The rice OsDG2 encoding a glycine-rich protein is involved in the regulation of chloroplast development during early seedling stage.

Authors:  Quan Jiang; Xiaojing Ma; Xiaodi Gong; Jianhui Zhang; Sheng Teng; Jianlong Xu; Dongzhi Lin; Yanjun Dong
Journal:  Plant Cell Rep       Date:  2014-01-16       Impact factor: 4.570

7.  Identification of differentially expressed transcripts associated with bast fibre development in Corchorus capsularis by suppression subtractive hybridization.

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Journal:  Planta       Date:  2014-10-16       Impact factor: 4.116

8.  Classification of EA1-box proteins and new insights into their role during reproduction in grasses.

Authors:  Susanne Uebler; Mihaela L Márton; Thomas Dresselhaus
Journal:  Plant Reprod       Date:  2015-12       Impact factor: 3.767

9.  RNA Recognition Motif-Containing Protein ORRM4 Broadly Affects Mitochondrial RNA Editing and Impacts Plant Development and Flowering.

Authors:  Xiaowen Shi; Arnaud Germain; Maureen R Hanson; Stéphane Bentolila
Journal:  Plant Physiol       Date:  2015-11-17       Impact factor: 8.340

10.  System-wide hypersensitive response-associated transcriptome and metabolome reprogramming in tomato.

Authors:  Desalegn W Etalo; Iris J E Stulemeijer; H Peter van Esse; Ric C H de Vos; Harro J Bouwmeester; Matthieu H A J Joosten
Journal:  Plant Physiol       Date:  2013-05-29       Impact factor: 8.340
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