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Literature DB >> 21145466

SnapShot: Inositol phosphates.

Ace J Hatch¹, John D York.

Abstract

Entities: Chemical Disease Gene Species

Mesh：

Substances：

Year: 2010 PMID： 21145466 PMCID： PMC4299573 DOI： 10.1016/j.cell.2010.11.045

Source DB: PubMed Journal: Cell ISSN： 0092-8674 Impact factor: 41.582

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10 in total

Review 1. Back in the water: the return of the inositol phosphates.

Authors: R F Irvine; M J Schell
Journal: Nat Rev Mol Cell Biol Date: 2001-05 Impact factor: 94.444

Review 2. Inositol phosphate biochemistry.

Authors: P W Majerus
Journal: Annu Rev Biochem Date: 1992 Impact factor: 23.643

Review 3. Regulation of immune cell development through soluble inositol-1,3,4,5-tetrakisphosphate.

Authors: Karsten Sauer; Michael P Cooke
Journal: Nat Rev Immunol Date: 2010-04 Impact factor: 53.106

Review 4. Inositol phosphate synthesis and the nuclear processes they affect.

Authors: Jessica P Monserrate; John D York
Journal: Curr Opin Cell Biol Date: 2010-03-30 Impact factor: 8.382

Review 5. Inositol trisphosphate and calcium signalling.

Authors: M J Berridge
Journal: Nature Date: 1993-01-28 Impact factor: 49.962

Review 6. First came the link between phosphoinositides and Ca2+ signalling, and then a deluge of other phosphoinositide functions.

Authors: Robert H Michell
Journal: Cell Calcium Date: 2009-04-15 Impact factor: 6.817

Review 7. Are inositol pyrophosphates signalling molecules?

Authors: Adam Burton; Xiaowen Hu; Adolfo Saiardi
Journal: J Cell Physiol Date: 2009-07 Impact factor: 6.384

Review 8. Molecular basis for the integration of inositol phosphate signaling pathways via human ITPK1.

Authors: Stephen B Shears
Journal: Adv Enzyme Regul Date: 2009-01-03

Review 9. Inositol polyphosphates: a new frontier for regulating gene expression.

Authors: Abel R Alcázar-Román; Susan R Wente
Journal: Chromosoma Date: 2007-10-18 Impact factor: 4.316

Review 10. IP3 receptor/Ca2+ channel: from discovery to new signaling concepts.

Authors: Katsuhiko Mikoshiba
Journal: J Neurochem Date: 2007-09 Impact factor: 5.372

10 in total

41 in total

1. Hierarchical nanostructured conducting polymer hydrogel with high electrochemical activity.

Authors: Lijia Pan; Guihua Yu; Dongyuan Zhai; Hye Ryoung Lee; Wenting Zhao; Nian Liu; Huiliang Wang; Benjamin C-K Tee; Yi Shi; Yi Cui; Zhenan Bao
Journal: Proc Natl Acad Sci U S A Date: 2012-05-29 Impact factor: 11.205

Review 2. The "Other" Inositols and Their Phosphates: Synthesis, Biology, and Medicine (with Recent Advances in myo-Inositol Chemistry).

Authors: Mark P Thomas; Stephen J Mills; Barry V L Potter
Journal: Angew Chem Int Ed Engl Date: 2015-12-22 Impact factor: 15.336

3. Inhibition of Inositol Polyphosphate Kinases by Quercetin and Related Flavonoids: A Structure-Activity Analysis.

Authors: Chunfang Gu; Michael A Stashko; Ana C Puhl-Rubio; Molee Chakraborty; Anutosh Chakraborty; Stephen V Frye; Kenneth H Pearce; Xiaodong Wang; Stephen B Shears; Huanchen Wang
Journal: J Med Chem Date: 2019-01-25 Impact factor: 7.446

4. MLKL Requires the Inositol Phosphate Code to Execute Necroptosis.

Authors: Cole M Dovey; Jonathan Diep; Bradley P Clarke; Andrew T Hale; Dan E McNamara; Hongyan Guo; Nathaniel W Brown; Jennifer Yinuo Cao; Christy R Grace; Peter J Gough; John Bertin; Scott J Dixon; Dorothea Fiedler; Edward S Mocarski; William J Kaiser; Tudor Moldoveanu; John D York; Jan E Carette
Journal: Mol Cell Date: 2018-06-07 Impact factor: 17.970

5. Suramin and NF449 are IP5K inhibitors that disrupt inositol hexakisphosphate-mediated regulation of cullin-RING ligase and sensitize cancer cells to MLN4924/pevonedistat.

Authors: Xiaozhe Zhang; Shaodong Shi; Yang Su; Xiaoli Yang; Sining He; Xiuyan Yang; Jing Wu; Jian Zhang; Feng Rao
Journal: J Biol Chem Date: 2020-06-03 Impact factor: 5.157