about
Cyclic diguanylate is a ubiquitous signaling molecule in bacteria: insights into biochemistry of the GGDEF protein domainThe ubiquitous protein domain EAL is a cyclic diguanylate-specific phosphodiesterase: enzymatically active and inactive EAL domainsNatural and engineered photoactivated nucleotidyl cyclases for optogenetic applicationsCyclic Di-GMP phosphodiesterases RmdA and RmdB are involved in regulating colony morphology and development in Streptomyces coelicolorCyclic di-GMP-dependent signaling pathways in the pathogenic Firmicute Listeria monocytogenesRhodobase, a meta-analytical tool for reconstructing gene regulatory networks in a model photosynthetic bacterium.Engineering adenylate cyclases regulated by near-infrared window lightGIL, a new c-di-GMP-binding protein domain involved in regulation of cellulose synthesis in enterobacteria.Transcriptome and physiological responses to hydrogen peroxide of the facultatively phototrophic bacterium Rhodobacter sphaeroides.Near-infrared light responsive synthetic c-di-GMP module for optogenetic applications.cAMP, c-di-GMP, c-di-AMP and now cGMP: bacteria use them all!Regulation of biofilm components in Salmonella enterica serovar Typhimurium by lytic transglycosylases involved in cell wall turnover.Lysobacter PilR, the Regulator of Type IV Pilus Synthesis, Controls Antifungal Antibiotic Production via a Cyclic di-GMP Pathway.Identification of bacterial guanylate cyclases.Bacterial second messengers, cGMP and c-di-GMP, in a quest for regulatory dominance.Responses of the Rhodobacter sphaeroides transcriptome to blue light under semiaerobic conditions.DhhP, a cyclic di-AMP phosphodiesterase of Borrelia burgdorferi, is essential for cell growth and virulenceLight helps bacteria make important lifestyle decisions.Optogenetic Manipulation of Cyclic Di-GMP (c-di-GMP) Levels Reveals the Role of c-di-GMP in Regulating Aerotaxis Receptor Activity in Azospirillum brasilense.Photoactivated cells link diagnosis and therapy.Regulation of hydrogen peroxide-dependent gene expression in Rhodobacter sphaeroides: regulatory functions of OxyR.Fifty ways to inhibit motility via cyclic di-GMP: the emerging Pseudomonas aeruginosa swarming story.Cyclic-di-GMP-binding CRP-like protein: a spectacular new role for a veteran signal transduction actor.Special issue on synthetic photobiologyAppA, a redox regulator of photosystem formation in Rhodobacter sphaeroides 2.4.1, is a flavoprotein. Identification of a novel fad binding domain.Altered residues in key proteins influence the expression and activity of the nitrogenase complex in an adaptive CO2 fixation-deficient mutant strain of Rhodobacter sphaeroides.Using Light-Activated Enzymes for Modulating Intracellular c-di-GMP Levels in Bacteria.CodY-mediated c-di-GMP-dependent inhibition of mammalian cell invasion in Listeria monocytogenes.Optogenetic Module for Dichromatic Control of c-di-GMP Signaling.Listeria monocytogenes exopolysaccharide: origin, structure, biosynthetic machinery and c-di-GMP-dependent regulation.Codon optimization and improved delivery/immunization regimen enhance the immune response against wild-type and drug-resistant HIV-1 reverse transcriptase, preserving its Th2-polarity.Positive and Negative Regulation of Glycerol Utilization by the c-di-GMP Binding Protein PlzA in Borrelia burgdorferiSignaling specificity in the c-di-GMP-dependent network regulating antibiotic synthesis in LysobacterTranscriptional regulation of photosynthesis operons in Rhodobacter sphaeroides 2.4.1.Novel heme-based oxygen sensor with a revealing evolutionary historyIdentification of bacterial guanylate cyclasesBiofilm formation - what we can learn from recent developmentsCyclic di-GMP-Mediated Regulation of Gene Transfer and Motility in Rhodobacter capsulatusEngineering Adenylate Cyclase Activated by Near-Infrared Window Light for Mammalian Optogenetic ApplicationsInducible asymmetric cell division and cell differentiation in a bacterium
P50
Q24519364-65A56D9B-0F87-4B68-94ED-2B952E55B839Q24532048-5C53E9D4-62F7-4510-8D4F-C6727ADD7142Q24622085-BB5826DB-B11F-4866-A4AA-93A5C742C717Q28504076-893A7072-13A9-4AA9-A5CF-39B4CAB7D056Q28541732-0CF7C685-1F88-422D-BA68-48540064C64AQ33744647-AECCF290-6DE6-4E6E-B993-C9A0E6D8B378Q33925864-38348088-A4F5-4ACB-B995-91C2FB6880BCQ33976662-6885B59D-DD80-41B7-9CCF-F9C6131E8693Q34109957-AB6A65FF-8CC1-4277-8A66-10FFFA71ACD2Q34778349-A468BD92-121D-4FEC-9243-C70D910C2053Q34815121-BB238A6D-284C-42C2-9871-B4AE97B64E5FQ35598797-A90BFC98-C87B-494E-9461-22FFAA5BEE6CQ36249640-89B89A61-E392-43FE-B598-6A6B3040CE7EQ36278766-8F9E2584-33B4-43B0-9901-E48326035A95Q37165316-1FF86E05-59A5-4768-96E3-0DBB8435B74FQ37596256-7355E60C-B8DC-4F54-81EA-6ECA13F0D453Q37713363-9CDE5F53-7242-433E-A3F5-1650A3257C33Q37888096-44A81925-8861-4531-9E3F-B5D246F412B9Q38926182-BD91BC5D-D0F3-4495-94CD-A82F49691290Q39265276-5370DC04-7870-4B08-AFEB-76C56888CC54Q41962046-FE5C1163-CEAD-49E6-AB6D-D4D961B9B0DDQ42010380-970512E2-0AAB-42B9-88D6-EF8A77EBFCD9Q42095085-5E8CAF63-6B89-403C-8D92-6BA537A8F45DQ42630435-63963977-2491-4C51-B26B-DD1DFFDF4716Q42688340-AAAE362B-EB2A-439D-B7EA-268ECA424A50Q46542635-C415E610-E84B-4A86-BC42-F5199FE78A33Q47693426-1FA63E6B-5DE7-4F00-8B8B-0456C14E2AC5Q49921103-1AAB6E24-7D07-4ABF-A5ED-C96E7AA4E9AAQ50182820-89E17528-7FCA-42F2-847E-9DAF709816A6Q53622710-2886B633-3834-4D5F-A4F6-99AF15DAC579Q55154648-974E957A-E3D1-4032-BABC-7D7D482B3F5EQ57797611-11A5BF34-A912-4E09-ADB2-AC6980F725EEQ58758125-C5AC3B09-37D1-44A2-B502-B5C07D20929CQ77338376-8CE5BDEF-DF3B-4600-A861-4AAE8FBC949BQ80693228-AB2EE01E-D538-419D-AA27-651994586317Q88064459-66608FFC-8CD0-49D2-B521-B6A0D86C29A0Q88948473-323F353A-F9CE-4BB9-A361-83209F93A111Q90974245-CFD99ECE-38B4-4C82-BCAA-A6678922A949Q92405016-3DC9B046-E337-48B2-A1CB-43BD7D54E3ABQ92579010-C655D022-906D-40D4-87A9-8116360A317C
P50
description
researcher
@en
name
M Gomelsky
@en
M Gomelsky
@nl
type
label
M Gomelsky
@en
M Gomelsky
@nl
prefLabel
M Gomelsky
@en
M Gomelsky
@nl
P106
P31
P496
0000-0003-4077-3932