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Literature DB >> 22683951

SH3 domains come of age.

Abstract

With the sequencing of an eukaryotic genome, it is possible to inventory the predicted proteome for proteins that carry one or more Src Homology 3 (SH3) domains. Due to the current ease of cloning and gene synthesis, these short domains can be readily overexpressed and manipulated for the purpose of characterizing their specificity and affinity for peptide ligands, as well as solving the three-dimensional structures of the domains. This information can be used to predict and confirm their cellular interacting partners, in the effort to understand the function of a eukaryotic protein by focusing on its SH3 domain. Finally, capitalizing on our mature understanding about protein-protein interacting modules, like the SH3 domain, it is possible to use directed evolution to enhance or change the specificity and affinity of an SH3 domain for the purpose of creating reagents to be used in biochemical purification or cell perturbation studies.

Entities: Chemical Disease Gene Species

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Year: 2012 PMID： 22683951 PMCID： PMC3572761 DOI： 10.1016/j.febslet.2012.05.025

Source DB: PubMed Journal: FEBS Lett ISSN： 0014-5793 Impact factor: 4.124

33 in total

Review 1. The importance of being proline: the interaction of proline-rich motifs in signaling proteins with their cognate domains.

Authors: B K Kay; M P Williamson; M Sudol
Journal: FASEB J Date: 2000-02 Impact factor: 5.191

2. SH3 domains with high affinity and engineered ligand specificities targeted to HIV-1 Nef.

Authors: M Hiipakka; K Poikonen; K Saksela
Journal: J Mol Biol Date: 1999-11-12 Impact factor: 5.469

3. Solution structure of the SH3 domain of Src and identification of its ligand-binding site.

Authors: H Yu; M K Rosen; T B Shin; C Seidel-Dugan; J S Brugge; S L Schreiber
Journal: Science Date: 1992-12-04 Impact factor: 47.728

4. Predicting protein-peptide interactions via a network-based motif sampler.

Authors: David J Reiss; Benno Schwikowski
Journal: Bioinformatics Date: 2004-08-04 Impact factor: 6.937

5. Structure of the PI3K SH3 domain and analysis of the SH3 family.

Authors: S Koyama; H Yu; D C Dalgarno; T B Shin; L D Zydowsky; S L Schreiber
Journal: Cell Date: 1993-03-26 Impact factor: 41.582

6. A novel viral oncogene with structural similarity to phospholipase C.

Authors: B J Mayer; M Hamaguchi; H Hanafusa
Journal: Nature Date: 1988-03-17 Impact factor: 49.962

7. Transforming and membrane proteins.

Authors: V P Lehto; V M Wasenius; P Salvén; M Saraste
Journal: Nature Date: 1988-08-04 Impact factor: 49.962

8. Identification of a ten-amino acid proline-rich SH3 binding site.

Authors: R Ren; B J Mayer; P Cicchetti; D Baltimore
Journal: Science Date: 1993-02-19 Impact factor: 47.728

9. Identification of a protein that binds to the SH3 region of Abl and is similar to Bcr and GAP-rho.

Authors: P Cicchetti; B J Mayer; G Thiel; D Baltimore
Journal: Science Date: 1992-08-07 Impact factor: 47.728

10. Sequence similarity of phospholipase C with the non-catalytic region of src.

Authors: M L Stahl; C R Ferenz; K L Kelleher; R W Kriz; J L Knopf
Journal: Nature Date: 1988-03-17 Impact factor: 49.962

12 in total

1. Engineering protein stability with atomic precision in a monomeric miniprotein.

Authors: Emily G Baker; Christopher Williams; Kieran L Hudson; Gail J Bartlett; Jack W Heal; Kathryn L Porter Goff; Richard B Sessions; Matthew P Crump; Derek N Woolfson
Journal: Nat Chem Biol Date: 2017-05-22 Impact factor: 15.040

2. Correction: genomic comparison of 93 Bacillus phages reveals 12 clusters, 14 singletons and remarkable diversity.

Authors: Julianne H Grose; Garrett L Jensen; Sandra H Burnett; Donald P Breakwell
Journal: BMC Genomics Date: 2014-12-29 Impact factor: 3.969

Review 3. An update on the LIM and SH3 domain protein 1 (LASP1): a versatile structural, signaling, and biomarker protein.

Authors: Martin F Orth; Alex Cazes; Elke Butt; Thomas G P Grunewald
Journal: Oncotarget Date: 2015-01-01

4. ANKRD54 preferentially selects Bruton's Tyrosine Kinase (BTK) from a Human Src-Homology 3 (SH3) domain library.

Authors: Manuela O Gustafsson; Dara K Mohammad; Erkko Ylösmäki; Hyunseok Choi; Subhash Shrestha; Qing Wang; Beston F Nore; Kalle Saksela; C I Edvard Smith
Journal: PLoS One Date: 2017-04-03 Impact factor: 3.240

5. LIM and SH3 protein 1 knockdown suppresses proliferation and metastasis of colorectal carcinoma cells via inhibition of the mitogen-activated protein kinase signaling pathway.

Authors: Hongpeng Zhao; Bo Liu; Jie Li
Journal: Oncol Lett Date: 2018-03-09 Impact factor: 2.967

6. Bacterial death and TRADD-N domains help define novel apoptosis and immunity mechanisms shared by prokaryotes and metazoans.

Authors: Gurmeet Kaur; Lakshminarayan M Iyer; A Maxwell Burroughs; L Aravind
Journal: Elife Date: 2021-06-01 Impact factor: 8.140

7. Complex formation of EphB1/Nck/Caskin1 leads to tyrosine phosphorylation and structural changes of the Caskin1 SH3 domain.

Authors: Szabolcs Pesti; Annamária Balázs; Roopesh Udupa; Beáta Szabó; Anna Fekete; Gábor Bőgel; László Buday
Journal: Cell Commun Signal Date: 2012-11-27 Impact factor: 5.712