In search of higher energy: metabolism-dependent behaviour in bacteria. - Wikidata - awgldk - TriplyDB

In search of higher energy: metabolism-dependent behaviour in bacteria.

In search of higher energy: metabolism-dependent behaviour in bacteria.

http://www.wikidata.org/entity/Q47919299

about

Light Activation of the LOV Protein Vivid Generates a Rapidly Exchanging Dimer † ‡PAS domains: internal sensors of oxygen, redox potential, and light A minimal model of metabolism-based chemotaxis Unravelling the mysteries of virulence gene regulation in Salmonella typhimurium.Energy taxis is the dominant behavior in Azospirillum brasilense.Response kinetics of tethered Rhodobacter sphaeroides to changes in light intensity.Model of bacterial band formation in aerotaxis More than one way to sense chemicals.Diversity in chemotaxis mechanisms among the bacteria and archaea.Bacterial chemotaxis: introverted or extroverted? A comparison of the advantages and disadvantages of basic forms of metabolism-based and metabolism-independent behavior using a computational model.Bacterial chemotaxis toward environmental pollutants: role in bioremediation.Metabolome searcher: a high throughput tool for metabolite identification and metabolic pathway mapping directly from mass spectrometry and using genome restriction PAS domain residues involved in signal transduction by the Aer redox sensor of Escherichia coli An energy taxis transducer promotes root colonization by Azospirillum brasilense.PAS domain of the Aer redox sensor requires C-terminal residues for native-fold formation and flavin adenine dinucleotide binding.Bacterial microsystems and microrobots.The SphS-SphR two component system is the exclusive sensor for the induction of gene expression in response to phosphate limitation in synechocystis.Environmental conditions and transcriptional regulation in Escherichia coli: a physiological integrative approach.Adapting to Adaptations: Behavioural Strategies that are Robust to Mutations and Other Organisational-Transformations.Characterization of CetA and CetB, a bipartite energy taxis system in Campylobacter jejuni.Car: a cytoplasmic sensor responsible for arginine chemotaxis in the archaeon Halobacterium salinarum.Behavioral response of dissimilatory perchlorate-reducing bacteria to different electron acceptors.Identification of a site critical for kinase regulation on the central processing unit (CPU) helix of the aspartate receptor.Sensing of cytoplasmic pH by bacterial chemoreceptors involves the linker region that connects the membrane-spanning and the signal-modulating helices.The cyanobacterial phytochrome Cph2 inhibits phototaxis towards blue light.Characterization of PAS domains in Frankia and selected Actinobacteria and their possible interaction with other co-domains for environmental adaptation

P2860

Q27650833-DB2E4474-FF93-42AF-93A4-0AAEA6DDF859 Q29615332-BE8A2382-631F-4744-876E-0B12C958F9CA Q33775523-08CFE3C2-9F44-43E4-9C1D-235161F18144 Q33938222-DA7A371B-29F3-4844-9C3C-C426B72DEDA7 Q33994792-5C14F96A-6CBE-4F9D-935D-F0F26364EA16 Q34172565-6AEE2399-573D-493A-9D0F-DD3E73AA030A Q34183859-49A77B3A-10A1-4E7D-87B2-E1808BCEBC6D Q34315368-4DC032F1-095D-4943-A38F-59F7AB5065DD Q34349346-FDF39BBE-5B2A-4CF1-8681-30C2D36A48D5 Q34744284-DC934DBF-8293-41A3-B816-FB10C45A0E94 Q35008953-5A34058B-8BA8-4A96-BDB5-AD057DB79644 Q35607949-DE7EDD85-0D93-4353-B4AD-20EBD590246A Q35652607-39705C25-4D2B-45F9-9671-04E351CD1FAB Q37513672-426684C2-4E19-475C-87D3-F89DC482B45A Q37574012-AE1C7C09-D484-47FF-AE59-2E8CA36C03AE Q38041950-EEFDB02A-071F-4446-8663-A8825B3F48AE Q38346246-BA5923E3-E38B-49BB-A2A0-6F31B74D5BE8 Q40539684-92C9FFB9-45BE-429C-8341-6D851448B676 Q40840868-37E266C0-888D-4DEB-85C4-F743297D296B Q41851834-E924970E-3F9B-4E9A-96AD-4C618EA55A6D Q41901736-53A588B1-9A06-48D4-82DD-F4C6F3F0E0BF Q42556851-B5F6709A-E040-4DD9-BAE0-7F8DF45800AE Q42736560-0E62F09C-5167-49C7-8D50-4460F9616E86 Q43793542-412C4106-A997-475A-8D30-8A92783BF7BF Q50500168-D7BA72FD-4408-4442-9576-EF1CC03D1BA2 Q59263274-391CBEB1-4527-4AC1-BCE6-81443CCFC835

P2860

In search of higher energy: metabolism-dependent behaviour in bacteria.

http://www.wikidata.org/entity/Q47919299

description

1998 nî lūn-bûn

@nan

1998年の論文

@ja

1998年学术文章

@wuu

1998年学术文章

@zh

1998年学术文章

@zh-cn

1998年学术文章

@zh-hans

1998年学术文章

@zh-my

1998年学术文章

@zh-sg

1998年學術文章

@yue

1998年學術文章

@zh-hant

name

In search of higher energy: metabolism-dependent behaviour in bacteria.

@en

In search of higher energy: metabolism-dependent behaviour in bacteria.

@nl

type

label

In search of higher energy: metabolism-dependent behaviour in bacteria.

@en

In search of higher energy: metabolism-dependent behaviour in bacteria.

@nl

prefLabel

In search of higher energy: metabolism-dependent behaviour in bacteria.

@en

In search of higher energy: metabolism-dependent behaviour in bacteria.

@nl

P1433

Q47919299-FAFD7B18-BB1C-46D4-99B5-861C8BF6B0CF

P1476

Q47919299-CD661BF5-DE2A-4E16-8FD8-C619ABDEB181

P2093

Q47919299-89C52407-2ECB-4915-9864-E88EB057C818

P2860

Q47919299-000AFED5-276D-4DDE-B691-46DC03803911

Q47919299-100EB9DA-D727-4382-B856-124EB31463B0

Q47919299-120131B5-6F6B-4130-9C16-63D98930AC45

Q47919299-1CBEC80E-AC93-4923-984A-F0C9E6DDC673

Q47919299-2E0D773E-861B-4E24-969D-136FECE61F4D

Q47919299-36A4D760-4C28-40E2-9E6A-0F0F7C6443B5

Q47919299-36E66843-9836-40A2-AB75-2DB3BA3E9707

Q47919299-37A709D1-A49B-4A71-9A6A-41FE2425DB34

Q47919299-465D9552-9934-4ADC-B8A7-92733D969ECD

Q47919299-4E692E0D-A231-4B9E-9C12-3B2AFCA88E89

P304

Q47919299-F2FF8A75-C569-469E-B5A9-3F2D00BD7728

P31

Q47919299-F01A7B9B-07E5-46CF-9EBB-EC7E6329C00E

P356

Q47919299-5825118E-08E8-4EF9-A9D2-536A192D72E9

P407

Q47919299-45C08102-CE97-46D6-AED3-EA62023CCE1C

P433

Q47919299-7139CC6D-2473-4A90-A016-B91283B4DB59

P478

Q47919299-F2F82E12-8D30-4E27-B67D-2B910E35F6B0

P50

Q47919299-0330A4DD-00CA-414C-906C-3AFEF368ABC0

P577

Q47919299-E0242781-FDAD-433F-A459-398A3AD7D53E

P5875

Q47919299-6BD5ABE0-38AC-463C-AD39-C5022FBEA527

P698

Q47919299-63A35F94-A8C1-4679-9DAF-0A2E1BD51262

P356

J.1365-2958.1998.00835.X

P1433

Molecular Microbiology

P1476

In search of higher energy: metabolism-dependent behaviour in bacteria.

@en

P2093

Taylor BL

http://www.w3.org/2001/XMLSchema#string

P2860

PAS domain S-boxes in Archaea, Bacteria and sensors for oxygen and redox

Coupling the phosphotransferase system and the methyl-accepting chemotaxis protein-dependent chemotaxis signaling pathways of Escherichia coli

Role of methylation in aerotaxis in Bacillus subtilis.

CheA, CheW, and CheY are required for chemotaxis to oxygen and sugars of the phosphotransferase system in Escherichia coli.

Oxygen taxis and proton motive force in Azospirillum brasilense.

Glycerol elicits energy taxis of Escherichia coli and Salmonella typhimurium.

A signal transducer for aerotaxis in Escherichia coli.

Oxygen-dependent growth of the obligate anaerobe Desulfovibrio vulgaris Hildenborough.

Signal transduction in chemotaxis to oxygen in Escherichia coli and Salmonella typhimurium

The Aer protein and the serine chemoreceptor Tsr independently sense intracellular energy levels and transduce oxygen, redox, and energy signals for Escherichia coli behavior.

P304

683-690

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1046/J.1365-2958.1998.00835.X

http://www.w3.org/2001/XMLSchema#string

P407

P433

4

http://www.w3.org/2001/XMLSchema#string

P478

28

http://www.w3.org/2001/XMLSchema#string

P50

P577

1998-05-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

13640289

http://www.w3.org/2001/XMLSchema#string

P698

9643537

http://www.w3.org/2001/XMLSchema#string