The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
about
Cyclic Dinucleotide-Controlled Regulatory Pathways in Streptomyces SpeciesRNA quaternary structure and global symmetryc-di-AMP recognition by Staphylococcus aureus PstACyclic di-AMP targets the cystathionine beta-synthase domain of the osmolyte transporter OpuCThe second messenger c-di-AMP inhibits the osmolyte uptake system OpuC in Staphylococcus aureusOld concepts, new molecules and current approaches applied to the bacterial nucleotide signalling fieldBacterial Signal Transduction by Cyclic Di-GMP and Other Nucleotide Second MessengersStructural and biochemical analysis of the essential diadenylate cyclase CdaA from Listeria monocytogenesAn Essential Poison: Synthesis and Degradation of Cyclic Di-AMP in Bacillus subtilisSystematic Identification of Cyclic-di-GMP Binding Proteins in Vibrio cholerae Reveals a Novel Class of Cyclic-di-GMP-Binding ATPases Associated with Type II Secretion SystemsComplex structure and biochemical characterization of the Staphylococcus aureus cyclic diadenylate monophosphate (c-di-AMP)-binding protein PstA, the founding member of a new signal transduction protein family.An Extended Cyclic Di-GMP Network in the Predatory Bacterium Bdellovibrio bacteriovorus.Survival strategies in the aquatic and terrestrial world: the impact of second messengers on cyanobacterial processes.Methicillin resistance and the biofilm phenotype in Staphylococcus aureus.Identification, characterization, and structure analysis of the cyclic di-AMP-binding PII-like signal transduction protein DarA.An HD-domain phosphodiesterase mediates cooperative hydrolysis of c-di-AMP to affect bacterial growth and virulence.Chemical proteomics reveals a second family of cyclic-di-AMP hydrolasesIntracellular Concentrations of Borrelia burgdorferi Cyclic Di-AMP Are Not Changed by Altered Expression of the CdaA SynthaseFunctional Analysis of a c-di-AMP-specific Phosphodiesterase MsPDE from Mycobacterium smegmatisThe PAMP c-di-AMP Is Essential for Listeria monocytogenes Growth in Rich but Not Minimal Media due to a Toxic Increase in (p)ppGpp. [corrected]Molecular basis for the recognition of cyclic-di-AMP by PstA, a PII-like signal transduction protein.Structural Studies of Potassium Transport Protein KtrA Regulator of Conductance of K+ (RCK) C Domain in Complex with Cyclic Diadenosine Monophosphate (c-di-AMP)Systems Level Analyses Reveal Multiple Regulatory Activities of CodY Controlling Metabolism, Motility and Virulence in Listeria monocytogenes.The Characterization of Escherichia coli CpdB as a Recombinant Protein Reveals that, besides Having the Expected 3´-Nucleotidase and 2´,3´-Cyclic Mononucleotide Phosphodiesterase Activities, It Is Also Active as Cyclic Dinucleotide PhosphodiesteraseFunctional analysis of the sporulation-specific diadenylate cyclase CdaS in Bacillus thuringiensisSustained sensing as an emerging principle in second messenger signaling systems.Nuclease-Resistant c-di-AMP Derivatives That Differentially Recognize RNA and Protein ReceptorsA distinct holoenzyme organization for two-subunit pyruvate carboxylase.Cyclic di-AMP Released from Staphylococcus aureus Biofilm Induces a Macrophage Type I Interferon Response.A jack of all trades: the multiple roles of the unique essential second messenger cyclic di-AMP.Type I IFN and not TNF, is Essential for Cyclic Di-nucleotide-elicited CTL by a Cytosolic Cross-presentation Pathway.LC-MS/MS proteomic analysis of starved Bacillus subtilis cells overexpressing ribonucleotide reductase (nrdEF): implications in stress-associated mutagenesis.Too much of a good thing: regulated depletion of c-di-AMP in the bacterial cytoplasm.Replenishing the cyclic-di-AMP pool: regulation of diadenylate cyclase activity in bacteria.Cyclic dinucleotide (c-di-GMP, c-di-AMP, and cGAMP) signalings have come of age to be inhibited by small molecules.c-di-AMP modulates Listeria monocytogenes central metabolism to regulate growth, antibiotic resistance and osmoregulation.Versatile modes of cellular regulation via cyclic dinucleotides.The lost language of the RNA World.Listeria monocytogenes cytosolic metabolism promotes replication, survival, and evasion of innate immunity.c-di-AMP: An Essential Molecule in the Signaling Pathways that Regulate the Viability and Virulence of Gram-Positive Bacteria.
P2860
Q26799100-93395B8C-3EE7-4507-8A30-8EFECAB1BDF7Q27023794-F5F15918-1333-489A-98A6-51A96607828FQ27696232-6905CC7A-CBB8-4958-A87B-6B9D3C1AAEA3Q27716470-6509DEA9-5B44-44C6-B7E9-C8224B7F9981Q27727704-144D7FA1-EC59-45BB-ABAB-C4569AD20285Q28078952-1AB03A97-EDB0-41AE-B4BD-05D116F921BCQ28085674-E29AD5CA-7115-4AEC-8491-FD1E75EB3E3FQ28485622-0C1A9FD2-C11B-4919-8BEB-5220BC12AC3CQ28488949-710D6E8F-7C70-4709-A9CF-C52C770E5ADAQ28550530-75F1BD96-4F4B-4FA6-9E52-B8ACE50D49C7Q30878082-540FEDCA-9262-49A7-81A2-09ADF5091A1AQ34044784-A198CB2B-0D6F-4E3E-833F-4379ECB2B4BAQ34829472-ECC55A63-1D7B-4CEF-BC58-F76B4A8C4550Q35022299-E8A86A5D-D264-47A2-8A5F-3CA05D618188Q35048986-C8B2D90A-01E2-4ED4-B747-8C822D33CEAAQ35128803-64F9F9DD-552F-4AF1-8B20-3880FE5C3441Q35128885-CA7C23CC-60C4-4D6E-B1ED-E5486E22B71CQ35612948-FB02646D-EDE3-4CC3-87DA-A9C48F50DDF5Q35739643-4829FD05-42A6-423D-93DD-BDA1C0A5824BQ35747995-46B12CC4-936D-423E-BE64-AC0C475913FBQ35762581-0FFF670D-D0A3-4507-B392-BC5A79C8ADD8Q35783182-AE137D41-BE38-44FD-B199-E1DA19616A67Q35928651-F4D0E9BF-9CDE-4712-997B-A0FE44EEF9E7Q36050221-AA7FA547-C56D-4C18-B987-6815BADC3868Q36056072-E548E3ED-5215-4841-A5E6-C1085785F910Q36152565-321DF47F-4C0B-4817-A495-EF2888725145Q36586267-A1A76AF1-78CB-4908-9859-E43271E2A939Q37330577-7D9F71AD-C1C8-495C-97F4-5935EC0D62FFQ37425019-B3E4D5BB-798C-4C72-B0DE-73A32C3A47ECQ38419276-BF5E3436-2D47-4B5E-BF41-B26492431811Q38654647-3B18A0FD-0187-4AC7-8673-24171F98FF7DQ38669825-2D9346D6-EB7B-44A6-9F87-B31C103E5C8BQ38698400-1C1F2604-09C2-4ECE-BA2C-EBD8A07B4150Q38807438-D16ABEBD-7051-422C-BEE0-6F4BE81482E4Q38875103-D84328AD-060E-4EA8-BF40-7B70B9B32296Q39015536-2DD1262F-1814-41EE-A33F-1DE3EA09CEB6Q39193399-1005A4EC-5112-44F5-8C84-4A245DE5E9BDQ39370638-ADFFD66B-6F39-4942-896B-5C970556E85EQ39401908-1A2560F3-9C36-422D-8692-30192EFDAD61Q40104123-B06DE5F4-AECE-4C1A-BBA4-3A9FAF74332E
P2860
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
description
2014 nî lūn-bûn
@nan
2014 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2014 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2014年の論文
@ja
2014年論文
@yue
2014年論文
@zh-hant
2014年論文
@zh-hk
2014年論文
@zh-mo
2014年論文
@zh-tw
2014年论文
@wuu
name
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@ast
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@en
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@nl
type
label
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@ast
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@en
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@nl
prefLabel
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@ast
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@en
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@nl
P2093
P2860
P50
P1433
P1476
The cyclic dinucleotide c-di-AMP is an allosteric regulator of metabolic enzyme function
@en
P2093
Anthony T Iavarone
Ashley R Jurado
Joshua J Woodward
Kamakshi Sureka
Martin Sadilek
Mimi Precit
Philip H Choi
TuAnh Ngoc Huynh
Young Ah Goo
P2860
P304
P356
10.1016/J.CELL.2014.07.046
P407
P577
2014-09-01T00:00:00Z