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Your search keyword '"Díaz-Quintana, Antonio"' showing total 19 results
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19 results on '"Díaz-Quintana, Antonio"'

6. New moonlighting functions of mitochondrial cytochrome c in the cytoplasm and nucleus.

Author

González‐Arzola, Katiuska, Velázquez‐Cruz, Alejandro, Guerra‐Castellano, Alejandra, Casado‐Combreras, Miguel Á., Pérez‐Mejías, Gonzalo, Díaz‐Quintana, Antonio, Díaz‐Moreno, Irene, and De la Rosa, Miguel Á.

Subjects
CYTOCHROME c, HISTONES, CARRIER proteins, CYTOPLASM, DNA damage, CYTOSOL
Abstract

Cytochrome c (Cc) is a protein that functions as an electron carrier in the mitochondrial respiratory chain. However, Cc has moonlighting roles outside mitochondria driving the transition of apoptotic cells from life to death. When living cells are damaged, Cc escapes its natural mitochondrial environment and, once in the cytosol, it binds other proteins to form a complex named the apoptosome—a platform that triggers caspase activation and further leads to controlled cell dismantlement. Early released Cc also binds to inositol 1,4,5‐triphosphate receptors on the ER membrane, which stimulates further massive Cc release from mitochondria. Besides the well‐characterized binding proteins contributing to the proapoptotic functions of Cc, many novel protein targets have been recently described. Among them, histone chaperones were identified as key partners of Cc following DNA breaks, indicating that Cc might modulate chromatin dynamics through competitive binding to histone chaperones. In this article, we review the ample set of recently discovered antiapoptotic proteins—involved in DNA damage, transcription, and energetic metabolism—reported to interact with Cc in the cytoplasm and even the nucleus upon DNA breaks. [ABSTRACT FROM AUTHOR]

Published
2019
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9. Nuclear cytochrome <italic>c</italic> – a mitochondrial visitor regulating damaged chromatin dynamics.

Author

Díaz‐Moreno, Irene, Velázquez‐Cruz, Alejandro, Curran‐French, Seamus, Díaz‐Quintana, Antonio, and De la Rosa, Miguel A.

Subjects
CYTOCHROME c, APOPTOSIS, MOLECULAR chaperones, MITOCHONDRIA, CHROMATIN, DNA damage
Abstract

Over the past decade, evidence has emerged suggesting a broader role for cytochrome c (Cyt c) in programmed cell death. Recently, we demonstrated the ability of Cyt c to inhibit the nucleosome assembly activity of histone chaperones SET/template‐activating factor Iβ and NAP1‐related protein during DNA damage in humans and plants respectively. Here, we hypothesise a dual concentration‐dependent function for nuclear Cyt c in response to DNA damage. We propose that low levels of highly cytotoxic DNA lesions – such as double‐strand breaks – induce nuclear translocation of Cyt c, leading to the attenuation of nucleosome assembly and, thereby, increasing the time available for DNA repair. If DNA damage persists or is exacerbated, the nuclear Cyt c concentration would exceed a given threshold, causing the haem protein to block DNA remodelling altogether. [ABSTRACT FROM AUTHOR]

Published
2018
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19. Detecting transient protein–protein interactions by X-ray absorption spectroscopy: The cytochrome c 6-photosystem I complex

Author

Díaz-Moreno, Irene, Díaz-Quintana, Antonio, Subías, Gloria, Mairs, Trevor, De la Rosa, Miguel A., and Díaz-Moreno, Sofía

Subjects
*EXTENDED X-ray absorption fine structure, *X-ray absorption near edge structure, *ABSORPTION spectra, *METALLOPROTEINS
Abstract

Abstract: Reliable analysis of the functionality of metalloproteins demands a highly accurate description of both the redox state and geometry of the metal centre, not only in the isolated metalloprotein but also in the transient complex with its target. Here, we demonstrate that the transient interaction between soluble cytochrome c 6 and membrane-embedded photosystem I involves subtle changes in the heme iron, as inferred by X-ray absorption spectroscopy (XAS). A slight shift to lower energies of the absorption edge of Fe2+ in cytochrome c 6 is observed upon interaction with photosystem I. This work constitutes a novel application of XAS to the analysis of weak complexes in solution. [Copyright &y& Elsevier]

Published
2006
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