Yuta Inada scite author profile

The light-harvesting 1 reaction center (LH1-RC) complex from Thermochromatium (Tch.) tepidum exhibits unusual Q(y) absorption by LH1 bacteriochlorophyll-a (BChl-a) molecules at 915nm, and the transition energy is finely modulated by the binding of metal cations to the LH1 polypeptides. Here, we demonstrate the metal-dependent interactions between BChl-a and the polypeptides within the intact LH1-RC complexes by near-infrared Raman spectroscopy. The wild-type LH1-RC (B915) exhibited Raman bands for the C3-acetyl and C13-keto CO stretching modes at 1637 and 1675cm(-1), respectively. The corresponding bands appeared at 1643 and 1673cm(-1) when Ca(2+) was biosynthetically replaced with Sr(2+) (B888) or at 1647 and 1669cm(-1) in the mesophilic counterpart, Allochromatium vinosum. These results indicate the significant difference in the BChl-polypeptide interactions between B915 and B888 and between B915 and the mesophilic counterpart. The removal of the original metal cations from B915 and B888 resulted in marked band shifts of the C3-acetyl/C13-carbonyl νCO modes to ~1645/~1670cm(-1), supporting a model in which the metal cations are involved in the fine-tuning of the hydrogen bonding between the BChl-a and LH1-polypeptides. Interestingly, the interaction modes were almost identical between the Ca(2+)-depleted B915 and Sr(2+)-depleted B888 and between B915 and Ca(2+)-substituted B888, despite the significant differences in their LH1 Q(y) peak positions and the denaturing temperatures, as revealed by differential scanning calorimetry. These results suggest that not only the BChl-polypeptide interactions but some structural origin may be involved in the unusual Q(y) red-shift and the enhanced thermal stability of the LH1-RC complexes from Tch. tepidum.

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A Spectroscopic Variant of the Light-Harvesting 1 Core Complex from the Thermophilic Purple Sulfur Bacterium Thermochromatium tepidum

Kimura

Inada

et al. 2011

Biochemistry

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Thermochromatium tepidum is a purple sulfur photosynthetic bacterium, and its light-harvesting 1 reaction center (LH1RC) complexes exhibit an unusual LH1 Q(y) absorption at 915 nm (B915) and possess enhanced thermal stability. These unique properties are closely related to an inorganic cofactor, Ca(2+). Here, we report a spectroscopic variant of LH1RC complexes from Tch. tepidum cells in which Ca(2+) was biosynthetically replaced with Sr(2+). The photosynthetic growth of wild-type cells cannot be maintained without Ca(2+) and is heavily inhibited when the Ca(2+) is replaced with other metal cations. Interestingly, only Sr(2+) supported photosynthetic growth instead of Ca(2+) with slightly reduced rates. The resulting Sr-tepidum cells exhibited characteristic absorption spectra in the LH1 Q(y) region with different LH1RC:LH2 ratios depending on the growth conditions. LH1RC complexes purified from the Sr-tepidum cells exhibited a Q(y) maximum at 888 nm (B888) that was blue-shifted after removal of Sr(2+) to ∼870 nm (B870). Reconstitution of Sr(2+) and Ca(2+) into B870 resulted in red shifts of the Q(y) peak to 888 and 908 nm, respectively. The thermal stability of B888 was slightly lower than that of B915 as revealed by differential scanning calorimetry analysis. Effects of other divalent metal cations on the Q(y) peak position and thermal stability of B888 were similar but not identical to those of B915. This study provides the first evidence of a purple bacterium in which LH1RC complexes alter spectroscopic and thermodynamic properties in vivo by utilizing exogenous metal cations and improve the ability to adapt to the environmental changes.

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3PT234 Hydrogen-bonding interactions between BChl-a and Trp residues in the light-harvestingl complexes from Thermochro-matium tepidum(The 50th Annual Meeting of the Biophysical Society of Japan)

Kimura

Numata

et al. 2012

Biophysics

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Thermochrornatium (Tch.) tepidum, exhibits enhanced thermal stability as compared with that ofthe mesophilic counterpart, At]ochrornatium (Alc.) vinosurn despite 82% of sequence homology between two species. Recent]y, it was proposed that several factors jnetuding numbers of hydrogen bonds, flexibility and eompactness ofthe structure enhance the thermal stabi]ity of Tch. tepidum Cyt c'. To understand more details of the thermostabilization, we focused on the amino acid residues at Dl31 or R129 pos{tion in the Cterminal region ofTch. tepidum Cyt c', and introduced single rnutation using the

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Strontium Ions are Functionally Replaceable with Calcium Ions in the Light-Harvesting 1 Reaction Center Core Complex from Thermophilic Purple Sulfur Bacterium Thermochromatium Tepidum

Kimura

Inada

et al. 2013

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Correlation Between RBC Deformability and Cr1 Activity.

Kamivama¹,

Inada²,

Berezina³

et al. 2002

Shock

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Yuta Inada

Metal cations modulate the bacteriochlorophyll–protein interaction in the light-harvesting 1 core complex from Thermochromatium tepidum

A Spectroscopic Variant of the Light-Harvesting 1 Core Complex from the Thermophilic Purple Sulfur Bacterium Thermochromatium tepidum

3PT234 Hydrogen-bonding interactions between BChl-a and Trp residues in the light-harvestingl complexes from Thermochro-matium tepidum(The 50th Annual Meeting of the Biophysical Society of Japan)

Strontium Ions are Functionally Replaceable with Calcium Ions in the Light-Harvesting 1 Reaction Center Core Complex from Thermophilic Purple Sulfur Bacterium Thermochromatium Tepidum

Correlation Between RBC Deformability and Cr1 Activity.

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