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Literature DB >> 12428760

A short history of LIM domains (1993-2002): from protein interaction to degradation.

Abstract

The LIM domain is a cysteine-rich zinc-finger motif found in a large family of proteins. In LIM-homeodomain (LIM-hd) transcription factors and LIM-only (LMO) factors, the LIM domains are responsible for key interactions with co-activators, co-repressors, competitors, and other transcription factors, and are therefore of considerable importance for the regulation of associated transcriptional activity. In this review, the authors describe the progressive discoveries of NLI/Ldb/CLIM, LMO and RLIM, and discuss how the field was very recently updated by the finding that LIM-hd transcriptional activity is controlled by regulated degradation of cofactors and LIM-hd themselves.

Entities: Chemical

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Year: 2002 PMID： 12428760 DOI： 10.1385/MN:26:2-3:269

Source DB: PubMed Journal: Mol Neurobiol ISSN： 0893-7648 Impact factor: 5.682

60 in total

Review 1. The LIM domain: regulation by association.

Authors: I Bach
Journal: Mech Dev Date: 2000-03-01 Impact factor: 1.882

2. Chip interacts with diverse homeodomain proteins and potentiates bicoid activity in vivo.

Authors: E Torigoi; I M Bennani-Baiti; C Rosen; K Gonzalez; P Morcillo; M Ptashne; D Dorsett
Journal: Proc Natl Acad Sci U S A Date: 2000-03-14 Impact factor: 11.205

3. Functional repression of Islet-2 by disruption of complex with Ldb impairs peripheral axonal outgrowth in embryonic zebrafish.

Authors: H Segawa; T Miyashita; Y Hirate; S Higashijima; N Chino; K Uyemura; Y Kikuchi; H Okamoto
Journal: Neuron Date: 2001-05 Impact factor: 17.173

4. Topographic organization of embryonic motor neurons defined by expression of LIM homeobox genes.

Authors: T Tsuchida; M Ensini; S B Morton; M Baldassare; T Edlund; T M Jessell; S L Pfaff
Journal: Cell Date: 1994-12-16 Impact factor: 41.582

5. A LIM-homeodomain combinatorial code for motor-neuron pathway selection.

Authors: S Thor; S G Andersson; A Tomlinson; J B Thomas
Journal: Nature Date: 1999-01-07 Impact factor: 49.962

6. Interactions between LIM domains and the LIM domain-binding protein Ldb1.

Authors: J J Breen; A D Agulnick; H Westphal; I B Dawid
Journal: J Biol Chem Date: 1998-02-20 Impact factor: 5.157

7. Specificity of single LIM motifs in targeting and LIM/LIM interactions in situ.

Authors: S Arber; P Caroni
Journal: Genes Dev Date: 1996-02-01 Impact factor: 11.361

8. Role of the LIM class homeodomain protein Xlim-1 in neural and muscle induction by the Spemann organizer in Xenopus.

Authors: M Taira; H Otani; J P Saint-Jeannet; I B Dawid
Journal: Nature Date: 1994-12-15 Impact factor: 49.962

9. apterous, a gene required for imaginal disc development in Drosophila encodes a member of the LIM family of developmental regulatory proteins.

Authors: B Cohen; M E McGuffin; C Pfeifle; D Segal; S M Cohen
Journal: Genes Dev Date: 1992-05 Impact factor: 11.361

10. Specific in vivo association between the bHLH and LIM proteins implicated in human T cell leukemia.

Authors: I Wadman; J Li; R O Bash; A Forster; H Osada; T H Rabbitts; R Baer
Journal: EMBO J Date: 1994-10-17 Impact factor: 11.598

20 in total

1. Extracellular signal-regulated kinase 2 interacts with and is negatively regulated by the LIM-only protein FHL2 in cardiomyocytes.

Authors: Nicole H Purcell; Dina Darwis; Orlando F Bueno; Judith M Müller; Roland Schüle; Jeffery D Molkentin
Journal: Mol Cell Biol Date: 2004-02 Impact factor: 4.272

2. Molecular cloning and characterization of a novel splice variant of the LIM domain family gene, PINCH 2, in human testis.

Authors: Yun Liu; Jin Liu; Jie Chen; Libo Cheng; Qinhong Cao; Li Zhu; Yan Sun; Qinghuai Liu; Jianmin Li
Journal: Mol Biotechnol Date: 2007-02 Impact factor: 2.695

Review 3. Drosophila, a genetic model system to study cocaine-related behaviors: a review with focus on LIM-only proteins.

Authors: Ulrike Heberlein; Linus T-Y Tsai; David Kapfhamer; Amy W Lasek
Journal: Neuropharmacology Date: 2008-07-24 Impact factor: 5.250

Review 4. LIM-domain-only proteins: multifunctional nuclear transcription coregulators that interacts with diverse proteins.

Authors: Meixiang Sang; Li Ma; Meijie Sang; Xinliang Zhou; Wei Gao; Cuizhi Geng
Journal: Mol Biol Rep Date: 2013-12-31 Impact factor: 2.316

5. The transcriptional co-factor Chip acts with LIM-homeodomain proteins to set the boundary of the eye field in Drosophila.

Authors: Jean-Yves Roignant; Kevin Legent; Florence Janody; Jessica E Treisman
Journal: Development Date: 2010-01 Impact factor: 6.868

6. Ajuba functions as a histone deacetylase-dependent co-repressor for autoregulation of the growth factor-independent-1 transcription factor.

Authors: Diego E Montoya-Durango; Chinavenmeni S Velu; Avedis Kazanjian; Meghan E B Rojas; Chris M Jay; Gregory D Longmore; H Leighton Grimes
Journal: J Biol Chem Date: 2008-09-19 Impact factor: 5.157

10. Transcription factor Lmo4 defines the shape of functional areas in developing cortices and regulates sensorimotor control.

Authors: Zhenyong Huang; Yoko Kawase-Koga; Shuqun Zhang; Jane Visvader; Miklos Toth; Christopher A Walsh; Tao Sun
Journal: Dev Biol Date: 2008-12-16 Impact factor: 3.582