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1.
Cyanobacteriochromes are members of the phytochrome superfamily of photoreceptors and are of central importance in biological light-activated signaling mechanisms. These photoreceptors are known to reversibly convert between two states in a photoinitiated process that involves a basic E/Z isomerization of the bilin chromophore and, in certain cases, the breakage of a thioether linkage to a conserved cysteine residue in the bulk protein structure. The exact details and timescales of the reactions involved in these photoconversions have not been conclusively shown. The cyanobacteriochrome Tlr0924 contains phycocyanobilin and phycoviolobilin chromophores, both of which photoconvert between two species: blue-absorbing and green-absorbing, and blue-absorbing and red-absorbing, respectively. Here, we followed the complete green-to-blue photoconversion process of the phycoviolobilin chromophore in the full-length form of Tlr0924 over timescales ranging from femtoseconds to seconds. Using a combination of time-resolved visible and mid-infrared transient absorption spectroscopy and cryotrapping techniques, we showed that after photoisomerization, which occurs with a lifetime of 3.6 ps, the phycoviolobilin twists or distorts slightly with a lifetime of 5.3 μs. The final step, the formation of the thioether linkage with the protein, occurs with a lifetime of 23.6 ms.  相似文献   

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The phytochrome superfamily of photoreceptors exploits reversible light-driven changes in the bilin chromophore to initiate a variety of signaling cascades. The nature of these alterations and how they impact the protein moiety remain poorly resolved and might include several species-specific routes. Here, we provide a detailed picture of photoconversion for the photosensing cGMP phosphodiesterase/adenylyl cyclase/FhlA (GAF) domain from Thermosynechococcus elongatus (Te) PixJ, a member of the cyanobacteriochrome clade. Solution NMR structures of the blue light-absorbing dark state Pb and green light-absorbing photoactivated state Pg, combined with paired crystallographic models, revealed that the bilin and GAF domain dynamically transition via breakage of the C10/Cys-494 thioether bond, opposite rotations of the A and D pyrrole rings, sliding of the bilin in the GAF pocket, and the appearance of an extended region of disorder that includes Cys-494. Changes in GAF domain backbone dynamics were also observed that are likely important for inter-domain signal propagation. Taken together, photoconversion of T. elongatus PixJ from Pb to Pg involves complex structural changes within the GAF domain pocket that transduce light into a mechanical signal, many aspects of which should be relevant to others within the extended phytochrome superfamily.  相似文献   

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Phytochromes are widely occurring red/far-red photoreceptors that utilize a linear tetrapyrrole (bilin) chromophore covalently bound within a knotted PAS-GAF domain pair. Cyanobacteria also contain more distant relatives of phytochromes that lack this knot, such as the phytochrome-related cyanobacteriochromes implicated to function as blue/green switchable photoreceptors. In this study, we characterize the cyanobacteriochrome Tlr0924 from the thermophilic cyanobacterium Thermosynechococcus elongatus. Full-length Tlr0924 exhibits blue/green photoconversion across a broad range of temperatures, including physiologically relevant temperatures for this organism. Spectroscopic characterization of Tlr0924 demonstrates that its green-absorbing state is in equilibrium with a labile, spectrally distinct blue-absorbing species. The photochemically generated blue-absorbing state is in equilibrium with another species absorbing at longer wavelengths, giving a total of 4 states. Cys499 is essential for this behavior, because mutagenesis of this residue results in red-absorbing mutant biliproteins. Characterization of the C 499D mutant protein by absorbance and CD spectroscopy supports the conclusion that its bilin chromophore adopts a similar conformation to the red-light-absorbing P r form of phytochrome. We propose a model photocycle in which Z/ E photoisomerization of the 15/16 bond modulates formation of a reversible thioether linkage between Cys499 and C10 of the chromophore, providing the basis for the blue/green switching of cyanobacteriochromes.  相似文献   

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Genetically encoded calcium indicators (GECIs) permit imaging intracellular calcium transients. Among GECIs, the GFP-based GCaMPs are the most widely used because of their high sensitivity and rapid response to changes in intracellular calcium concentrations. Here we report that the fluorescence of GCaMPs—including GCaMP3, GCaMP5 and GCaMP6—can be converted from green to red following exposure to blue-green light (450–500 nm). This photoconversion occurs in both insect and mammalian cells and is enhanced in a low oxygen environment. The red fluorescent GCaMPs retained calcium responsiveness, albeit with reduced sensitivity. We identified several amino acid residues in GCaMP important for photoconversion and generated a GCaMP variant with increased photoconversion efficiency in cell culture. This light-induced spectral shift allows the ready labeling of specific, targeted sets of GCaMP-expressing cells for functional imaging in the red channel. Together, these findings indicate the potential for greater utility of existing GCaMP reagents, including transgenic animals.  相似文献   

6.
Porcine sapelovirus (PSV), a species of the genus Sapelovirus within the family Picornaviridae, is associated with diarrhea, pneumonia, severe neurological disorders, and reproductive failure in pigs. However, the structural features of the complete PSV genome remain largely unknown. To analyze the structural features of PSV genomes, the full-length nucleotide sequences of three Korean PSV strains were determined and analyzed using bioinformatic techniques in comparison with other known PSV strains. The Korean PSV genomes ranged from 7,542 to 7,566 nucleotides excluding the 3′ poly(A) tail, and showed the typical picornavirus genome organization; 5′untranslated region (UTR)-L-VP4-VP2-VP3-VP1-2A-2B-2C-3A-3B-3C-3D-3′UTR. Three distinct cis-active RNA elements, the internal ribosome entry site (IRES) in the 5′UTR, a cis-replication element (CRE) in the 2C coding region and 3′UTR were identified and their structures were predicted. Interestingly, the structural features of the CRE and 3′UTR were different between PSV strains. The availability of these first complete genome sequences for PSV strains will facilitate future investigations of the molecular pathogenesis and evolutionary characteristics of PSV.  相似文献   

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Cyanobacteria have several putative photoreceptors (designated cyanobacteriochromes) that are related to but distinct from the established phytochromes. The GAF domain of the phototaxis regulator, PixJ, from a thermophilic cyanobacterium Thermosynechococcus elongatus BP-1 (TePixJ_GAF) is a cyanobacteriochrome which exhibits reversible photoconversion between a blue light-absorbing form (max = 433 nm) and a green light-absorbing form (max = 531 nm). To study the chromophore, we prepared TePixJ_GAF chromoprotein from heterologously expressed Synechocystis and performed spectral analysis after denaturation by comparing it with the cyanobacterial phytochrome Cph1 which harbors phycocyanobilin (PCB) as a chromophore. The results indicated that the chromophore of TePixJ is not PCB, but its isomer, phycoviolobilin (PVB). It is suggested that the GAF domain of TePixJ has auto-lyase and auto-isomerase activities.  相似文献   

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Enomoto G  Hirose Y  Narikawa R  Ikeuchi M 《Biochemistry》2012,51(14):3050-3058
Cyanobacteriochromes are a spectrally diverse photoreceptor family that binds a bilin chromophore. For some cyanobacteriochromes, in addition to the widely conserved cysteine to anchor the chromophore, its ligation with a second cysteine is responsible for a remarkable blue shift. Herein, we report a newly discovered cyanobacteriochrome Tlr1999 exhibiting reversible photoconversion between a blue-absorbing form at 418 nm (P418) and a teal-absorbing form at 498 nm (P498). Acidic denaturation suggests that P418 harbors C15-Z phycoviolobilin, whereas P498 harbors C15-E phycoviolobilin. When treated with iodoacetamide, which irreversibly modifies thiol groups, P418 is slowly converted to a green-absorbing photoinactive form denoted P552. The absorption spectrum of P498 appears to be unaffected by iodoacetamide, but when iodoacetamide modified, it is photoconverted to P552. These results suggest that a covalent bond exists between the second Cys and the phycoviolobilin in P418 but not in P498. Subsequent treatment with dithiothreitol converts P552 into P418, whereas dithiothreitol reduces P498 to yield P420, a photoinactive form. Site-directed mutagenesis shows that the second Cys is essential for assembly of the photoactive holoprotein and that the photoactivity of this inert mutant is partially rescued by β-mercaptoethanol. These results suggest that the covalent attachment and detachment of a thiol, although not necessarily that of the second Cys, is critical for the reversible spectral blue shift and the complete photocycle. We propose a thiol-based photocycle, in which the thiol-modified P552 and P420 are intermediate-like forms.  相似文献   

14.
Photoconversion of riboflavin to lumichrome in plant tissues   总被引:1,自引:0,他引:1       下载免费PDF全文
Free flavins have been extracted from shoots of etiolated corn (Zea mays L., var. Burpee Snowcross) and from yeast cells and separated from other substances by absorption on resorcinol-formaldehyde resin and talc columns and by thin layer chromatography. Riboflavin was the only free flavin present. Extracts of etiolated shoots of oats (Avena sativa L., var. Multiline E-69 and Clinford) yielded riboflavin plus a second free flavin previously demonstrated in oats. The areas of the chromatograms expected to contain lumichrome were completely clear. After illumination of any of the three organisms with artificial light (1100 ft-c) or sunlight for 6 hours, lumichrome (7,8-dimethylalloxazine) was found. In corn shoots after irradiation by sunlight, the amount of lumichrome present was equivalent to 2.5% of the total free flavin. Lumichrome was identified by thin layer chromatography in six solvent systems (including two two-dimensional systems), by its characteristic fluorescence in acetic acid, by its absorption spectrum, and by formation of a characteristic hydrate in ammonia-containing solutions. A comparison was made with in vitro photolysis of riboflavin and the possible role of photolysis of riboflavin (either free or bound) and of lumichrome formation in photo-responses of plants is discussed. Placing the shoots in the dark for 4 hours after irradiation in sunlight for 6 hours led to no detectable loss of the lumichrome which had been formed.  相似文献   

15.
Dark and light adaptation of bacteriorhodopsin in purple membrane multilayers at less than 100% relative humidity differs from that seen in suspensions. Equilibrium between the two bacteriorhodopsin isomers (bR cis 550 and bR trans 570) in the light-adapted state becomes dependent on the wavelength of actinic light. Excitation at the red edge of the visible absorption band causes dark adaptation in a light-adapted sample. Using polarized actinic and measuring light, we show that acceleration of the dark adaptation through heating by actinic light cannot explain this observation. A light-driven bR trans 570 to bR cis 550 reaction that competes with the well-known 13 cis-to-all-trans light adaptation reaction must exist under our experimental conditions. Trans-to-cis conversion is a one-photon process distinct from the two photon process observed by others in purple membrane suspensions (Sperling, W., C. N. Rafferty, K. D. Kohl, and N. A. Dencher, 1978, FEBS (Fed. Eur. Biochem. Soc.) Lett. 97:129-132). Its quantum efficiency increases monotonously on reducing the hydration level, and is paralleled by an increase in the lifetime of the M410 intermediate of the trans photocycle. We suggest that at this point a branch leads from the all-trans into the 13-cis photocycle. It is probably the same reaction that causes the reduced light adaptation in monomeric bacteriorhodopsin (Casadio, R., H. Gutowitz, P. Mowery, M. Taylor, and W. Stoeckenius, 1980, Biochim. Biophys. Acta. 590:13-23; Casadio, R., and W. Stoeckenius, 1980, Biochemistry. 19:3374-3381).  相似文献   

16.
Photoconversion of some fluorescent markers to a diaminobenzidine product   总被引:13,自引:0,他引:13  
Retinal whole mounts, brain sections, and astrocyte cultures were labeled with various fluorescent markers. Tissues or cells were then irradiated by light in the presence of diaminobenzidine. Irradiation initiated a reaction in which specific fluorescent labeling was replaced by an insoluble diaminobenzidine product. The diaminobenzidine product is more stable than the original fluorescent labeling and can be processed for electron microscopy. In some cases, the reaction product reveals cellular detail that cannot be resolved in the fluorescent labeling. The 10 fluorescent markers tested have widely differing structures, span a broad range of wavelengths, and label several different cellular elements. The photoconversion reaction was successful with all markers and tissues tested.  相似文献   

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TNF and IL-6 are considered to be important to the initiation or priming phase of liver regeneration. However, the signaling pathways that lead to the production of these cytokines after partial hepatectomy (PH) have not been identified. Enteric-derived LPS appears to be important to liver regeneration, possibly by stimulating proinflammatory cytokine production after surgery. To determine whether LPS signaling pathways are involved in the regulation of the proinflammatory cytokines TNF and IL-6 during the priming phase of liver regeneration, we performed PH on mice lacking the TLRs Tlr4 and Tlr2, the LPS coreceptor, Cd14, and Myd88, an adapter protein involved in most TLR and IL-1R pathways. In MyD88 knockout (KO) mice after PH, both liver Tnf mRNA and circulating IL-6 levels were severely depressed compared with heterozygous or wild-type mice. Activation of STAT-3 and three STAT-3 responsive genes, Socs3, Cd14, and serum amyloid A2 were also blocked. In contrast, Tlr4, Tlr2, and Cd14 KO mice showed no deficits in the production of IL-6. Surprisingly, none of these KO mice showed any delay in hepatocyte replication. These data indicate that the LPS receptor TLR4, as well as TLR2 and CD14, do not play roles in regulating cytokine production or DNA replication after PH. In contrast, MyD88-dependent pathways appear to be responsible for TNF, IL-6, and their downstream signaling pathways.  相似文献   

18.
Wang WY 《Plant physiology》1979,63(6):1102-1106
Dark-grown y-1 mutant cells of Chlamydomonas reinhardtii accumulate protochlorophyllide (Pchlide) in both 635 nanometers (P635) and 650 nanometers (P650) forms. Plastids in these cells lack the normal thylakoid membrane structure except some remnants of membrane vesicles. Using difference spectrophotometry, P635 is shown to be photoconverted to chlorophyllide at 672 nanometers (C672) and P650 is photoconverted to C688 followed by a rapid shift to C672 (Shibata shift) and regeneration of P650. Some of the Pchlide is not photoconverted despite repeated illumination. Although P650 is destroyed by freezing and thawing, it is not transformed into P635. Freezing and thawing treatment also made Pchlide no longer photoactive.  相似文献   

19.
Dear Editor: Lysotracker Red DND-99 (Invitrogen-Molecular Probes) is a fluorophore in the form of a conjugated multi-pyrrole ring structure containing a weakly basic amine that selectively accumulates in acidic compartments and exhibits red fluorescence (excitation: 577 nm, emission: 590 nm) (Figure 1A). It is structurally related to Lysotracker Green (Figure 1B) but has an additional pyrrole ring in conjugation with the primary structure, which produces a longer wavelength emission. Lysotracker Red is commonly used in multicolor imaging studies as a lysosomal marker to determine intracellular localization of a protein of interest by fluorescence and confocal microscopy [1-5] and is recommended by the manufacturer for this application. While using Lysotracker Red to study the localization of a protein fused to green fluorescent protein (GFP), we observed an additional strong green fluorescent signal that colocalized with Lysotracker Red. After careful examination, however, we noted that the added green signal appeared only after illumination of the cells by a standard 100W mercury epi-fluorescence light source equipped with a 560/40 excitation filter (Leica TX2). Prior to exposing the field to broadband excitation light, it was possible to visualize by confocal scanning (488nm excitation line) cells that exclusively expressed GFP. Remarkably, after exposure to broadband excitation light, green fluorescence appeared in all cells irrespective of GFP expression, displayed signal intensity similar to that of GFP, and colocalized with Lysotracker Red (Figure S1).[第一段]  相似文献   

20.
A green fluorescent protein from the coral Dendronephthya sp. (Dend FP) is characterized by an irreversible light-dependent conversion to a red-emitting form. The molecular basis of this phenomenon was studied in the present work. Upon UV-irradiation at 366 nm, the absorption maximum of the protein shifted from 494 nm (the green form) to 557 nm (the red form). Concurrently, in the fluorescence spectra the emission maximum shifted from 508 to 575 nm. The green form of native Dend FP was shown to be a dimer, and the oligomerization state of the protein did not change during its conversion to the red form. By contrast, UV-irradiation caused significant intramolecular changes. Unlike the green form, which migrates in SDS-polyacrylamide gels as a single band corresponding to a full-length 28-kD protein, the red form of Dend FP migrated as two fragments of 18- and 10-kD. To determine the chemical basis of these events, the denatured red form of Dend FP was subjected to proteolysis with trypsin. From the resulting hydrolyzate, a chromophore-containing peptide was isolated by HPLC. The structure of the chromophore from the Dend FP red form was established by methods of ESI, tandem mass spectrometry (ESI/MS/MS), and NMR-spectroscopy. The findings suggest that the light-dependent conversion of Dend FP is caused by generation of an additional double bond in the side chain of His65 and a resulting extension of the conjugated system of the green form chromophore. Thus, classified by the chromophore structure, Dend FP should be referred to the Kaede subfamily of GFP-like proteins.  相似文献   

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