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Oxidative stress-triggered interactions between the succinyl- and acetyl-proteomes of rice leaves.

Zhou, H., I. Finkemeier, W. Guan, M-A. Tossounian, B. Wei, D. Young, J. Huang, J. Messens, X. Yang, J. Zhu, et al., "Oxidative stress-triggered interactions between the succinyl- and acetyl-proteomes of rice leaves.", Plant Cell Environ, vol. 41, issue 5, pp. 1139-1153, 2018 May.

The active site architecture in peroxiredoxins: a case study on Mycobacterium tuberculosis AhpE.

Pedre, B., L. A. H. van Bergen, A. Palló, L. A. Rosado, V. Tamu Dufe, I. Van Molle, K. Wahni, H. Erdogan, M. Alonso, F. De Proft, et al., "The active site architecture in peroxiredoxins: a case study on Mycobacterium tuberculosis AhpE.", Chem Commun (Camb), vol. 52, issue 67, pp. 10293-6, 2016 Aug 11.

Investigating the Molecular Mechanisms Behind Uncharacterized Cysteine Losses from Prediction of Their Oxidation State.

Raimondi, D., G. Orlando, J. Messens, and W. F. Vranken, "Investigating the Molecular Mechanisms Behind Uncharacterized Cysteine Losses from Prediction of Their Oxidation State.", Hum Mutat, vol. 38, issue 1, pp. 86-94, 2017 01.

Sulfur Denitrosylation by an Engineered Trx-like DsbG Enzyme Identifies Nucleophilic Cysteine Hydrogen Bonds as Key Functional Determinant.

Lafaye, C., I. Van Molle, V. Tamu Dufe, K. Wahni, A. Boudier, P. Leroy, J-F. Collet, and J. Messens, "Sulfur Denitrosylation by an Engineered Trx-like DsbG Enzyme Identifies Nucleophilic Cysteine Hydrogen Bonds as Key Functional Determinant.", J Biol Chem, vol. 291, issue 29, pp. 15020-8, 2016 07 15.

Thiol Redox and pKa Properties of Mycothiol, the Predominant Low-Molecular-Weight Thiol Cofactor in the Actinomycetes.

Sharma, S. V., K. Van Laer, J. Messens, and C. J. Hamilton, "Thiol Redox and pKa Properties of Mycothiol, the Predominant Low-Molecular-Weight Thiol Cofactor in the Actinomycetes.", Chembiochem, vol. 17, issue 18, pp. 1689-92, 2016 09 15.

SHORT-ROOT Deficiency Alleviates the Cell Death Phenotype of the Arabidopsis catalase2 Mutant under Photorespiration-Promoting Conditions.

Waszczak, C., P. I. Kerchev, P. Mühlenbock, F. A. Hoeberichts, K. Van Der Kelen, A. Mhamdi, P. Willems, J. Denecker, R. P. Kumpf, G. Noctor, et al., "SHORT-ROOT Deficiency Alleviates the Cell Death Phenotype of the Arabidopsis catalase2 Mutant under Photorespiration-Promoting Conditions.", Plant Cell, vol. 28, issue 8, pp. 1844-59, 2016 Aug.

Lack of GLYCOLATE OXIDASE1, but Not GLYCOLATE OXIDASE2, Attenuates the Photorespiratory Phenotype of CATALASE2-Deficient Arabidopsis.

Kerchev, P., C. Waszczak, A. Lewandowska, P. Willems, A. Shapiguzov, Z. Li, S. Alseekh, P. Mühlenbock, F. A. Hoeberichts, J. Huang, et al., "Lack of GLYCOLATE OXIDASE1, but Not GLYCOLATE OXIDASE2, Attenuates the Photorespiratory Phenotype of CATALASE2-Deficient Arabidopsis.", Plant Physiol, vol. 171, issue 3, pp. 1704-19, 2016 Jul.

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