Conversion of red fluorescent protein into a bright blue probe - Wikidata - wikimedia - TriplyDB

Conversion of red fluorescent protein into a bright blue probe

Conversion of red fluorescent protein into a bright blue probe

http://www.wikidata.org/entity/Q36977925

about

The design of Förster (fluorescence) resonance energy transfer (FRET)-based molecular sensors for Ran GTPase Imaging proteins inside cells with fluorescent tags Fluorescent protein biosensors applied to microphysiological systems Fluorescent Protein Approaches in Alpha Herpesvirus Research Recent advances in live cell imaging of hepatoma cells Development of cysteine-free fluorescent proteins for the oxidative environment Peroxisomes move by hitchhiking on early endosomes using the novel linker protein PxdA.Dynamin-related protein 1 is required for normal mitochondrial bioenergetic and synaptic function in CA1 hippocampal neurons.Understanding Blue-to-Red Conversion in Monomeric Fluorescent Timers and Hydrolytic Degradation of Their Chromophores Structural Characterization of Acylimine-Containing Blue and Red Chromophores in mTagBFP and TagRFP Fluorescent Proteins Extended Stokes Shift in Fluorescent Proteins: Chromophore–Protein Interactions in a Near-Infrared TagRFP675 Variant A highly redundant gene network controls assembly of the outer spore wall in S. cerevisiae A Guide to Fluorescent Protein FRET Pairs An enhanced monomeric blue fluorescent protein with the high chemical stability of the chromophore A palette of fluorescent proteins optimized for diverse cellular environments Beta-barrel scaffold of fluorescent proteins: folding, stability and role in chromophore formation.Directed molecular evolution to design advanced red fluorescent proteins Lis1 is an initiation factor for dynein-driven organelle transport.High-resolution imaging of cardiomyocyte behavior reveals two distinct steps in ventricular trabeculation Automated mitotic spindle tracking suggests a link between spindle dynamics, spindle orientation, and anaphase onset in epithelial cells.Blue fluorescent cGMP sensor for multiparameter fluorescence imaging Direct imaging of APP proteolysis in living cells.Loss of α-Synuclein Does Not Affect Mitochondrial Bioenergetics in Rodent Neurons.Advances in engineering of fluorescent proteins and photoactivatable proteins with red emission.The blue fluorescent protein from Vibrio vulnificus CKM-1 is a useful reporter for plant research.High-efficiency genome editing via 2A-coupled co-expression of fluorescent proteins and zinc finger nucleases or CRISPR/Cas9 nickase pairs Blue fluorescent dye-protein complexes based on fluorogenic cyanine dyes and single chain antibody fragments.Bright monomeric photoactivatable red fluorescent protein for two-color super-resolution sptPALM of live cells.Efficient switching of mCherry fluorescence using chemical caging.Chromophore chemistry of fluorescent proteins controlled by light DNA nicks promote efficient and safe targeted gene correction.The fluorescent protein palette: tools for cellular imaging.Fluorescent proteins and their applications in imaging living cells and tissues.An orange fluorescent protein with a large Stokes shift for single-excitation multicolor FCCS and FRET imaging.Use of a new violet-excitable AmCyan variant as a label in cell analysis.Real-time in vivo analysis of T cell activation in the central nervous system using a genetically encoded calcium indicator.Loss of mitochondrial fission depletes axonal mitochondria in midbrain dopamine neurons.Cell-based and in vivo spectral analysis of fluorescent proteins for multiphoton microscopy.Blocking ESCRT-mediated envelopment inhibits microtubule-dependent trafficking of alphaherpesviruses in vitro.Improved tools for the Brainbow toolbox

P2860

Q24595055-9A237D16-421F-409A-87D7-53465C379F54 Q24617820-9EC0737F-8802-47D2-8A99-4A34F40C85D4 Q26827752-298EC5B8-2C80-4F2E-8EE2-A905FFC9CD9F Q26866437-FD5C2357-18D3-4081-BC1D-0EA1184576E0 Q27002824-A4C6C40C-DB22-484C-A824-4CF5FC416294 Q27302354-196253BA-B787-4754-83D1-6A66F4B8BF4C Q27308900-CCF4C115-3872-4CCE-832F-4FB690C342CD Q27329184-8743738D-8836-4DBD-B455-FFF17EF77A95 Q27659332-5E53773A-97C0-41CC-8C03-DC5BC20DAFAC Q27660810-80F95CAA-699B-48F5-A849-4DF649453F14 Q27678158-F5ED1F67-0A6C-46A3-8BC0-A8447E76AF90 Q27931126-7B5F58A6-D3AD-47F4-8B3F-0C34CB6795FD Q28072150-B5706466-7EF2-4483-8645-A548B8344A36 Q28478323-1C0F4D77-F3D7-4CB9-B7C9-16189C7FDABD Q28647200-6878B71E-45BF-4A94-AE6A-3FE8AEA0963D Q30155144-5770ABB2-E60D-481B-8418-0C1110EE1D15 Q30410103-FA98B20B-AA9C-4F1E-9E04-3A459CE796EB Q30518558-88A4C013-0A35-4DC2-B378-BE0225011622 Q30567136-C0C66A50-996C-4B5A-8F63-70A415131859 Q30841843-07CDD4B4-50B5-47B9-852D-9FDDC5FE9F38 Q33531811-FE9EED06-006D-4713-A2EB-59D6CC5C5FEA Q33565004-7900AD4F-A2F2-4639-A1CE-DA3F1EA774C5 Q33617563-848FE7C6-388D-4216-8394-F508129CE7C6 Q33643107-B94B931C-4F4C-490A-A050-EBA02867F091 Q33690843-51DC2B9B-76EC-4623-94C7-567FF27C37C8 Q33698508-346E1715-625C-452F-8874-56C4D9FA2BD8 Q33779016-DABF37A0-CDD6-43D2-A986-16F36E3877B1 Q33835266-BA6984FB-C793-4633-988F-A04D5C5ED9B9 Q33886938-58DF97B1-823F-4A8C-BEF6-D555255CB795 Q33894044-07B29A72-FDAB-4516-A84F-C0C3391BC97C Q34017803-4823BBA3-DADF-462B-AD42-B2BB994267FB Q34021397-1BE7FF57-322A-413A-8EA6-12EFFB922746 Q34128238-9737A6FA-DF97-4327-9636-0AC4BE7B5463 Q34225444-D7577E29-7E19-4DE1-82E0-A1FC532847C0 Q34295254-BE41C987-9E96-4EAA-BF4A-5B88827539DD Q34345420-DE1BDB05-5F90-43EB-A9DD-C03FCC04E477 Q34383447-F648C4E0-8D6F-41D3-9E48-3E8EBD94A10D Q34414158-EEB4032D-4DDE-47B0-AB6C-5497BBE32114 Q34594977-8AF490D6-51B6-4508-ADEB-77D9CBEFE333 Q34653786-C1F877C0-28C7-4F00-B346-2FCD7A2BD680

P2860

Conversion of red fluorescent protein into a bright blue probe

http://www.wikidata.org/entity/Q36977925

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年論文

@yue

2008年論文

@zh-hant

2008年論文

@zh-hk

2008年論文

@zh-mo

2008年論文

@zh-tw

2008年论文

@wuu

2008年论文

@zh

2008年论文

@zh-cn

name

Conversion of red fluorescent protein into a bright blue probe

@en

type

label

Conversion of red fluorescent protein into a bright blue probe

@en

prefLabel

Conversion of red fluorescent protein into a bright blue probe

@en

P1433

Q36977925-22173790-006E-467F-9BB5-0F2EB1D3AC90

P1476

Q36977925-8E852C9F-A0ED-4C8A-B16A-795C1AF3149F

P2093

Q36977925-04E63313-7EFA-4A1A-A2E9-EC2B231532F8

Q36977925-06D78E48-1D8A-4D62-9E90-3D7689D5F5D2

Q36977925-274D6C94-395E-4A02-AF0A-DC55C52F74F4

Q36977925-3C393E57-8900-400E-A430-7BBFEF3D6BD3

Q36977925-3FA598C2-CFFA-4C92-8E46-9DA47528ECDD

Q36977925-CB977A14-FF23-4F65-80E3-03A330704D5B

Q36977925-D0DE7261-095E-4BF4-944E-E29577B10968

Q36977925-EFACF025-BE88-409E-A699-717E2CFBAC52

P2860

Q36977925-0F67AC7E-A477-4FDB-987C-5AEAC27B3A5A

Q36977925-1FD65587-16B1-4EA7-BA7D-6FAC886874DB

Q36977925-248950EC-755C-466F-B890-C0AC835A1593

Q36977925-282BB2AD-F36A-44C5-846D-95184EAB97ED

Q36977925-2C19FB08-716B-4715-9667-85D10145F0BA

Q36977925-2CBE3E3A-43FD-45BB-8722-AF06ACE7C7D1

Q36977925-301BFEDB-52B1-4409-96CE-231026FB479E

Q36977925-34CAC2FB-298B-440B-B327-CB7ABA798546

Q36977925-3C4DA4B3-B587-4D40-9721-814ADE589E1C

Q36977925-433E91E2-18BD-4FA7-9048-BA619E8DF004

P304

Q36977925-FF6FCC7F-ABBA-4698-B318-49EF7BE58082

P31

Q36977925-CA3BC75B-3441-4F73-BDE3-95B3B44F9EC8

P356

Q36977925-CBBCA9C7-AC0C-4055-A534-350B24867D0B

P433

Q36977925-258ACE3B-E021-483A-B588-38225DE00AC4

P478

Q36977925-80F75476-2491-4C33-A452-C4CCC97AB55C

P50

Q36977925-DC5BB5BD-9F37-4E46-8A0C-64215843C067

P577

Q36977925-468F14FA-41E6-4469-AA1B-FF9D8239C020

P5875

Q36977925-5A15132B-44FA-4286-A367-F1B60911D095

P698

Q36977925-98FB6AF6-EEA7-49EB-8C54-35C453711666

P932

Q36977925-95402F76-7894-47A1-B7F7-11786126405C

P356

J.CHEMBIOL.2008.08.006

P1433

Chemistry and Biology

P1476

Conversion of red fluorescent protein into a bright blue probe

@en

P2093

David Grüenwald

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

Ekaterina A Souslova

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

Fedor V Subach

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

Illia S Gundorov

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

Jinghang Zhang

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

Masami Yoshimura

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

Oksana M Subach

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

Vladislav V Verkhusha

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

P2860

Refined crystal structure of DsRed, a red fluorescent protein from coral, at 2.0-A resolution

The 2.0-A crystal structure of eqFP611, a far red fluorescent protein from the sea anemone Entacmaea quadricolor

Site-directed mutagenesis by overlap extension using the polymerase chain reaction

A guide to choosing fluorescent proteins

Evolutionary optimization of fluorescent proteins for intracellular FRET

Improving the photostability of bright monomeric orange and red fluorescent proteins

The effect of amino acid deletions and substitutions in the longest loop of GFP

GFP-like chromoproteins as a source of far-red fluorescent proteins.

Quantitative fluorescence resonance energy transfer measurements using fluorescence microscopy

A fluorescent variant of a protein from the stony coral Montipora facilitates dual-color single-laser fluorescence cross-correlation spectroscopy.

P304

1116-1124

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

P31

scholarly article

P356

10.1016/J.CHEMBIOL.2008.08.006

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

P433

10

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

P478

15

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

P50

Dmitriy Chudakov

P577

2008-10-01T00:00:00Z

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

P5875

23404791

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

P698

18940671

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

P932

2585067

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