Your search keyword '"Sang-Hun Song"' showing total 6 results

1. Comparative photochemistry of animal type 1 and type 4 cryptochromes

Author

Ozturk, Nuri, Selby, Christopher P., Sang-Hun Song, Rui Ye, Chuang Tan, Ya-Ting Kao, Dongping Zhong, and Sancar, Aziz

Subjects

Proteins -- Spectra, Proteins -- Research, Phosphotransferases -- Research, Biological sciences, Chemistry

Abstract

The article studies the purification of type 4 cryptochromes (CRYs) of zebrafish and chicken as recombinant proteins with full flavin complement and evaluate the spectroscopic properties of type 4 and type 1 CRYs. Results revealed that in contrast to animal type 2 CRYs and Arabidopsis CRY1 neither insect type 1 nor type 4 CRYs has autokinase activities.

Published

2009

2. Modulating LOV Domain Photodynamics with a Residue Alteration outside the Chromophore Binding Site

Author

Kevin H. Gardner, Delmar S. Larsen, Abigail I. Nash, Sang-Hun Song, Elizabeth C. Carroll, Klaus Schulten, and Peter L. Freddolino

Subjects

Phototropins, Binding Sites, Phototropin, Avena, Light, Flavin Mononucleotide, Flavin mononucleotide, Flavin group, Molecular Dynamics Simulation, Chromophore, Photochemistry, Biochemistry, Article, Protein Structure, Tertiary, chemistry.chemical_compound, Molecular dynamics, Intersystem crossing, Amino Acid Substitution, chemistry, Biocatalysis, Point Mutation, Mutant Proteins, Binding site, Phototropism

Abstract

Phototropins, a class of light-activated protein kinases, are essential for several blue light responses in plants and algae, including phototropism. These proteins contain two internal light, oxygen, and voltage sensitive (LOV) domains, which bind flavin chromophores and undergo a reversible photochemical formation of a cysteinyl-flavin adduct as part of the light sensing process. While the photodynamic properties of such photosensory domains are dictated by interactions between the chromophore and surrounding protein, more distant residues can play a significant role as well. Here we explore the role of the Phe434 residue in the photosensory response of the second LOV domain of Avena sativa phototropin 1 (AsLOV2), a model photochemical system for these LOV domains. Phe434 is more than 6 Å from the FMN chromophore in AsLOV2; nevertheless, an F434Y point mutation is likely to change several structural features of the chromophore binding site, as we demonstrate using molecular dynamics simulations. Transient absorption signals spanning 15 decades in time were compared for wild-type AsLOV2 and the F434Y mutant, showing that the latter has significantly altered photodynamics, including (i) a faster intersystem crossing leading to triplet formation on a nanosecond time scale, (ii) biphasic formation of adduct-state kinetics on the microsecond time scale, and (iii) greatly accelerated ground-state recovery kinetics on a second time scale. We present mechanistic models that link these spectroscopic differences to changes in the configuration of the critical cysteine residue and in the chromophore's accessibility to solvent and oxygen according to MD trajectories and purging experiments. Taken together, these results demonstrate the importance of residues outside the chromophore-binding pocket in modulating LOV domain photodynamics.

Published

2011

3. Comparative Photochemistry of Animal Type 1 and Type 4 Cryptochromes

Author

Ya Ting Kao, Rui Ye, Dongping Zhong, Christopher P. Selby, Nuri Ozturk, Chuang Tan, Aziz Sancar, and Sang-Hun Song

Subjects

Light, Photochemistry, Flavin group, Biology, Biochemistry, Article, Cofactor, Cell Line, Avian Proteins, 03 medical and health sciences, 0302 clinical medicine, Cryptochrome, Flavins, Arabidopsis, Anopheles, Escherichia coli, Animals, Drosophila Proteins, Humans, Zebrafish, 030304 developmental biology, Regulation of gene expression, 0303 health sciences, Flavoproteins, HEK 293 cells, Zebrafish Proteins, biology.organism_classification, Rats, Cryptochromes, Cell culture, Flavin-Adenine Dinucleotide, biology.protein, Chickens, Deoxyribodipyrimidine Photo-Lyase, 030217 neurology & neurosurgery

Abstract

Cryptochromes (CRYs) are blue-light photoreceptors with known or presumed functions in light-dependent and light-independent gene regulation in plants and animals. Although the photochemistry of plant CRYs has been studied in some detail, the photochemical behavior of animal cryptochromes remains poorly defined in part because it has been difficult to purify animal CRYs with their flavin cofactors. Here we describe the purification of type 4 CRYs of zebrafish and chicken as recombinant proteins with full flavin complement and compare the spectroscopic properties of type 4 and type 1 CRYs. In addition, we analyzed photoinduced proteolytic degradation of both types of CRYs in vivo in heterologous systems. We find that even though both types of CRYs contain stoichiometric flavin, type 1 CRY is proteolytically degraded by a light-initiated reaction in Drosophila S2, zebrafish Z3, and human HEK293T cell lines, but zebrafish CRY4 (type 4) is not. In vivo degradation of type 1 CRYs does not require continuous illumination, and a single light flash of 1 ms duration leads to degradation of about 80% of Drosophila CRY in 60 min. Finally, we demonstrate that in contrast to animal type 2 CRYs and Arabidopsis CRY1 neither insect type 1 nor type 4 CRYs have autokinase activities.

Published

2009

4. Primary photochemistry of the dark- and light-adapted states of the YtvA protein from Bacillus subtilis

Author

Klaas J. Hellingwerf, Robert Pullman, Dorte Madsen, Delmar S. Larsen, Sang-Hun Song, Lucy H. Freer, Jeroen B. van der Steen, and Molecular Microbial Physiology (SILS, FNWI)

Subjects

biology, Chemistry, Photochemistry, Bacillus subtilis, Chromophore, biology.organism_classification, Biochemistry, Fluorescence, Protein Structure, Secondary, chemistry.chemical_compound, Bacterial Proteins, Yield (chemistry), Ultrafast laser spectroscopy, Femtosecond, Imidazole, Spectroscopy

Abstract

The primary (100 fs to 10 ns) and secondary (10 ns to 100 mus) photodynamics in the type II light-oxygen-voltage (LOV) domain from the blue light YtvA photoreceptor extracted from Bacillus subtilis were explored with transient absorption spectroscopy. The photodynamics of full-length YtvA were characterized after femtosecond 400 nm excitation of both the dark-adapted D447 state and the light-adapted S390 state. The S390 state relaxes on a 43 min time scale at room temperature back into D447, which is weakly accelerated by the introduction of imidazole. This is ascribed to an obstructed cavity in YtvA that hinders access to the embedded FMN chromophore and is more open in type I LOV domains. The primary photochemistry of dark-adapted YtvA is qualitatively similar to that of the type I LOV domains, including AsLOV2 from Avena sativa, but exhibits an appreciably higher (60% greater) terminal triplet yield, estimated near the maximal PhiISC value of approximately 78%; the other 22% decays via non-triplet-generating fluorescence. The subsequent secondary dynamics are inhomogeneous, with three triplet populations co-evolving: the faster-decaying (I)T* population (38% occupancy) with a 200 ns decay time is nonproductive in generating the S390 adduct state, a slower (II)T* population (57% occupancy) exhibits a high yield (Phiadduct approximately 100%) in generating S390 and a third (5%) (III)T*population persists (>100 mus) with unresolved photoactivity. The ultrafast photoswitching dynamics of the S390 state appreciably differ from those previously resolved for the type I AcLOV2 domain from Adiantum capillus-veneris [Kennis, J. T., et al. (2004) J. Am. Chem. Soc. 126, 4512], with a low-yield dissociation (Phidis approximately 2.5%) reaction, which is due to an ultrafast recombination reaction, following photodissociation, and is absent in AcLOV2, which results in the increased photoswitching activity of the latter domain.

Published

2013

5. Primary Photochemistry of the Dark- and Light-Adapted States of the YtvA Protein from Bacillus subtilis.

Author

Sang-Hun Song, Madsen, Dorte, Van der Steen, Jeroen B., Pullman, Robert, Freer, Lucy H., Hellingwerf, Klass J., and Larsen, Delmar S.

Subjects

*PHOTOCHEMICAL research, *DISSOCIATION (Chemistry), *BACILLUS (Bacteria), *PHOTOSYNTHETIC oxygen evolution, *SCISSION (Chemistry)

Abstract

The primary (100 fs to 10 ns) and secondary (10 ns to 100 //s) photodynamics in the type II light-oxygen-voltage (LOV) domain from the blue light YtvA photoreceptor extracted from Bacillus subtilis were explored with transient absorption spectroscopy. The photodynamics of full-length YtvA were characterized after femtosecond 400 ran excitation of both the dark-adapted D447 state and the light-adapted S390, state. The S390 state relaxes on a 43 min time scale at room temperature back into D447, wliich is weakly accelerated by the introduction of imidazole. This is ascribed to an obstructed cavity in YtvA that hinders access to the embedded FMN chromophore and is more open in type I LOV domains. The primary photochemistry of dark-adapted YtvA is qualitatively similar to that of the type I LOV domains, including AsLOV2 from Avena sativa, but exhibits an appreciably higher (60% greater) terminal triplet yield, estimated near the maximal ΦISC value of ≈78%; the other 22% decays via non-triplet-generating fluorescence. The subsequent secondary dynamics are inhomogeneous, with three triplet populations co-evolving: the faster-decaying 1T" population (38% occupancy) with a 200 ns decay time is nonproductive in generating the S390 adduct state, a slower IIT" population (57% occupancy) exhibits a high yield (Φadduct ≈ 100%) in generating S390 and a third (5%) IIIT"population persists (>100 μs) with unresolved photoactivity. The ultrafast photoswitching dynamics of the S390 state appreciably differ from those previously resolved for the type I AcLOV2 domain from Adiantum capiUus-veneris [Kermis, J. T., et al. (2004) J. Am. Chcm. Soa 126, 4512], with a low-yield dissociation (Φdis ≈ 2.5%) reaction, wliich is due to an ultrafast recombination reaction, following photodissociation, and is absent in AcLOV2, which results in die increased photoswitching activity of the latter domain. [ABSTRACT FROM AUTHOR]

Published

2013

6. Modulating LOV Domain Photodynamics with a Residue Alteration outside the Chromophore Binding Site.

Author

Sang-Hun Song, Freddolino, Peter L., Nash, Abigail I., Carroll, Elizabeth C., Schulten, Klaus, Gardner, Kevin H., and Larsen, Delmar S.

Published

2011