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Literature DB >> 16720273

Ca2+ indicators based on computationally redesigned calmodulin-peptide pairs.

Amy E Palmer¹, Marta Giacomello, Tanja Kortemme, S Andrew Hires, Varda Lev-Ram, David Baker, Roger Y Tsien.

Abstract

The binding interface of calmodulin and a calmodulin binding peptide were reengineered by computationally designing complementary bumps and holes. This redesign led to the development of sensitive and specific pairs of mutant proteins used to sense Ca(2+) in a second generation of genetically encoded Ca(2+) indicators (cameleons). These cameleons are no longer perturbed by large excesses of native calmodulin, and they display Ca(2+) sensitivities tuned over a 100-fold range (0.6-160 microM). Incorporation of circularly permuted Venus in place of Citrine results in a 3- to 5-fold increase in the dynamic range. These redesigned cameleons show significant improvements over previous versions in the ability to monitor Ca(2+) in the cytoplasm as well as distinct subcellular localizations, such as the plasma membrane of neurons and the mitochondria.

Entities: Chemical Gene

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Year: 2006 PMID： 16720273 DOI： 10.1016/j.chembiol.2006.03.007

Source DB: PubMed Journal: Chem Biol ISSN： 1074-5521

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Cited

220 in total

10. Dysregulation of mitochondrial calcium signaling and superoxide flashes cause mitochondrial genomic DNA damage in Huntington disease.

Authors: Jiu-Qiang Wang; Qian Chen; Xianhua Wang; Qiao-Chu Wang; Yun Wang; He-Ping Cheng; Caixia Guo; Qinmiao Sun; Quan Chen; Tie-Shan Tang
Journal: J Biol Chem Date: 2012-12-17 Impact factor: 5.157

Ca2+ indicators based on computationally redesigned calmodulin-peptide pairs.

1. Engineering biosensors with extended, narrowed, or arbitrarily edited dynamic range.

2. Optically monitoring voltage in neurons by photo-induced electron transfer through molecular wires.

Review 3. Intracellular organelles in the saga of Ca2+ homeostasis: different molecules for different purposes?

Review 4. Chemical tools for studying directed cell migration.

5. "Store-operated" cAMP signaling contributes to Ca2+-activated Cl- secretion in T84 colonic cells.

Review 6. Mitochondrial Ca²⁺ concentrations in live cells: quantification methods and discrepancies.

7. Multiparameter screening reveals a role for Na+ channels in cytokine-induced β-cell death.

Review 8. The Bump-and-Hole Tactic: Expanding the Scope of Chemical Genetics.

Review 9. Genetically encoded indicators of neuronal activity.

10. Dysregulation of mitochondrial calcium signaling and superoxide flashes cause mitochondrial genomic DNA damage in Huntington disease.

Ca2+ indicators based on computationally redesigned calmodulin-peptide pairs.

1. Engineering biosensors with extended, narrowed, or arbitrarily edited dynamic range.

2. Optically monitoring voltage in neurons by photo-induced electron transfer through molecular wires.

Review 3. Intracellular organelles in the saga of Ca2+ homeostasis: different molecules for different purposes?

Review 4. Chemical tools for studying directed cell migration.

5. "Store-operated" cAMP signaling contributes to Ca2+-activated Cl- secretion in T84 colonic cells.

Review 6. Mitochondrial Ca2+ concentrations in live cells: quantification methods and discrepancies.

7. Multiparameter screening reveals a role for Na+ channels in cytokine-induced β-cell death.

Review 8. The Bump-and-Hole Tactic: Expanding the Scope of Chemical Genetics.

Review 9. Genetically encoded indicators of neuronal activity.

10. Dysregulation of mitochondrial calcium signaling and superoxide flashes cause mitochondrial genomic DNA damage in Huntington disease.

Review 6. Mitochondrial Ca²⁺ concentrations in live cells: quantification methods and discrepancies.