Your search keyword '"Monobromobimane"' showing total 27 results

1. A New Fluorescent Method for Measuring Peroxiredoxin Enzyme Activity Using Monobromobimane

Author

Mohsin, Nawar Yaseen, Demir, Halit, Hadwan, Mahmoud Hussein, Hadwan, Asad M., and Mohammed, Rawaa M.

Published

2024

2. Vertical Distribution of Thiosulfate and Sulfite in the Black Sea

Author

Rimskaya-Korsakova, M. N. and Dubinin, A. V.

Published

2024

3. Optimization of a Monobromobimane (MBB) Derivatization and RP-HPLC-FLD Detection Method for Sulfur Species Measurement in Human Serum after Sulfur Inhalation Treatment.

Author

Roda, Barbara, Zhang, Nan, Gambari, Laura, Grigolo, Brunella, Eller-Vainicher, Cristina, Gennari, Luigi, Zappi, Alessandro, Giordani, Stefano, Marassi, Valentina, Zattoni, Andrea, Reschiglian, Pierluigi, and Grassi, Francesco

Subjects

HIGH performance liquid chromatography, SULFUR, DERIVATIZATION, HYDROGEN sulfide, SPECIES

Abstract

(1) Background: Hydrogen sulfide (H2S) is a widely recognized gasotransmitter, with key roles in physiological and pathological processes. The accurate quantification of H2S and reactive sulfur species (RSS) may hold important implications for the diagnosis and prognosis of diseases. However, H2S species quantification in biological matrices is still a challenge. Among the sulfide detection methods, monobromobimane (MBB) derivatization coupled with reversed phase high-performance liquid chromatography (RP-HPLC) is one of the most reported. However, it is characterized by a complex preparation and time-consuming process, which may alter the actual H2S level; moreover, a quantitative validation has still not been described. (2) Methods: We developed and validated an improved analytical protocol for the MBB RP-HPLC method. MBB concentration, temperature and sample handling were optimized, and the calibration method was validated using leave-one-out cross-validation and tested in a clinical setting. (3) Results: The method shows high sensitivity and allows the quantification of H2S species, with a limit of detection of 0.5 µM. Finally, it can be successfully applied in measurements of H2S levels in the serum of patients subjected to inhalation with vapors rich in H2S. (4) Conclusions: These data demonstrate that the proposed method is precise and reliable for measuring H2S species in biological matrices and can be used to provide key insights into the etiopathogenesis of several diseases and sulfur-based treatments. [ABSTRACT FROM AUTHOR]

Published

2022

4. A convenient fluorometric test method for skin sensitization using glutathione in chemico.

Author

Kim, Geon Ho, Cha, Dong Ho, Nepal, Mahesh R., and Jeong, Tae Cheon

Subjects

*GLUTATHIONE, *SKIN tests, *HIGH throughput screening (Drug development), *TEST methods, *CHEMICAL testing, *SKIN

Abstract

A convenient fluorometrical test method to identify skin sensitizers in chemico was developed using reactivity with glutathione (GSH), a low molecular weight endogenous substance. Following incubation of test chemicals with GSH, the remaining GSH was quantitated fluorometrically by using monobromobimane (mBBr), a thiol-detecting agent, for determining % depletion of this endogenous substance by test chemicals. The experimental conditions optimized were: (1) reactivity of thiol compounds including GSH with mBBr, (2) effects of vehicles on reactivity, (3) molar ratios of GSH to test chemicals, and (4) reactivity of endogenous substance with test substances under different incubation times. When an optimized condition with DMSO as a vehicle for test chemicals and in 1:60 ratio for 24 hr at 4°C was applied to classify 48 well-known skin sensitizers and non-sensitizers, the predictive capacity was as follows: 88.2% sensitivity, 78.6% specificity, and 85.4% accuracy with 95.8% consistency of three trials when 10.3% depletion of GSH was used as a cutoff value. Because the present method employed relatively simple GSH as an acceptor for sensitizers and/or a relatively convenient fluorometric detection system in 96-well plates for a high throughput test, it would be a useful test tool for screening skin sensitization potential of test chemicals. [ABSTRACT FROM AUTHOR]

Published

2021

5. Development of quantitative analytical method for volatile thiol compound with LC-ESI-MS as nonvolatile derivative by integrating a thiol-specific derivatization.

Author

Kawano, Yusuke, Suzuki, Kengo, and Ohtsu, Iwao

Subjects

*COFFEE flavor & odor, *DERIVATIZATION, *QUANTITATIVE research, *COFFEE beans

Abstract

Generally, volatile thiols are hard to be measured with electrospray-ionization-type LC-MS due to the volatility. Therefore, we here evaluated the pretreatment of their S -bimanyl derivatization by monobromobimane to enable the detection as nonvolatile derivative. Consequently, we successfully developed the convenient and efficient method through the quantitative analysis of 2-furanmethanethiol (volatile thiol odorant of coffee aroma) in coffee bean. [ABSTRACT FROM AUTHOR]

Published

2021

6. Optimization of a Monobromobimane (MBB) Derivatization and RP-HPLC-FLD Detection Method for Sulfur Species Measurement in Human Serum after Sulfur Inhalation Treatment

Author

Barbara Roda, Nan Zhang, Laura Gambari, Brunella Grigolo, Cristina Eller-Vainicher, Luigi Gennari, Alessandro Zappi, Stefano Giordani, Valentina Marassi, Andrea Zattoni, Pierluigi Reschiglian, and Francesco Grassi

Subjects

hydrogen sulfide pool, biomarkers, bone metabolism, high-performance liquid chromatography with fluorescence, monobromobimane, sulfur species, Therapeutics. Pharmacology, RM1-950

Abstract

(1) Background: Hydrogen sulfide (H2S) is a widely recognized gasotransmitter, with key roles in physiological and pathological processes. The accurate quantification of H2S and reactive sulfur species (RSS) may hold important implications for the diagnosis and prognosis of diseases. However, H2S species quantification in biological matrices is still a challenge. Among the sulfide detection methods, monobromobimane (MBB) derivatization coupled with reversed phase high-performance liquid chromatography (RP-HPLC) is one of the most reported. However, it is characterized by a complex preparation and time-consuming process, which may alter the actual H2S level; moreover, a quantitative validation has still not been described. (2) Methods: We developed and validated an improved analytical protocol for the MBB RP-HPLC method. MBB concentration, temperature and sample handling were optimized, and the calibration method was validated using leave-one-out cross-validation and tested in a clinical setting. (3) Results: The method shows high sensitivity and allows the quantification of H2S species, with a limit of detection of 0.5 µM. Finally, it can be successfully applied in measurements of H2S levels in the serum of patients subjected to inhalation with vapors rich in H2S. (4) Conclusions: These data demonstrate that the proposed method is precise and reliable for measuring H2S species in biological matrices and can be used to provide key insights into the etiopathogenesis of several diseases and sulfur-based treatments.

Published

2022

7. Total sulfane sulfur bioavailability reflects ethnic and gender disparities in cardiovascular disease

Author

Saurabh Rajpal, Pavan Katikaneni, Matthew Deshotels, Sibile Pardue, John Glawe, Xinggui Shen, Nuri Akkus, Kalgi Modi, Ruchi Bhandari, Paari Dominic, Pratap Reddy, Gopi K. Kolluru, and Christopher G. Kevil

Subjects

Hydrogen sulfide, HPLC, Monobromobimane, Coronary artery disease, Peripheral artery disease, Medicine (General), R5-920, Biology (General), QH301-705.5

Abstract

Hydrogen sulfide (H2S) has emerged as an important physiological and pathophysiological signaling molecule in the cardiovascular system influencing vascular tone, cytoprotective responses, redox reactions, vascular adaptation, and mitochondrial respiration. However, bioavailable levels of H2S in its various biochemical metabolite forms during clinical cardiovascular disease remain poorly understood. We performed a case-controlled study to quantify and compare the bioavailability of various biochemical forms of H2S in patients with and without cardiovascular disease (CVD). In our study, we used the reverse-phase high performance liquid chromatography monobromobimane assay to analytically measure bioavailable pools of H2S. Single nucleotide polymorphisms (SNPs) were also identified using DNA Pyrosequencing. We found that plasma acid labile sulfide levels were significantly reduced in Caucasian females with CVD compared with those without the disease. Conversely, plasma bound sulfane sulfur levels were significantly reduced in Caucasian males with CVD compared with those without the disease. Surprisingly, gender differences of H2S bioavailability were not observed in African Americans, although H2S bioavailability was significantly lower overall in this ethnic group compared to Caucasians. We also performed SNP analysis of H2S synthesizing enzymes and found a significant increase in cystathionine gamma-lyase (CTH) 1364 G-T allele frequency in patients with CVD compared to controls. Lastly, plasma H2S bioavailability was found to be predictive for cardiovascular disease in Caucasian subjects as determined by receiver operator characteristic analysis. These findings reveal that plasma H2S bioavailability could be considered a biomarker for CVD in an ethnic and gender manner. Cystathionine gamma-lyase 1346 G-T SNP might also contribute to the risk of cardiovascular disease development.

Published

2018

8. Development and application of LC-MS/MS method for the quantification of hydrogen sulfide in the eye.

Author

Okolie, Anthonia, Nigro, Maria Rincon, Polk, Sharhazad, Stubbs, Keyona, Chelliah, Selvam, Ohia, Sunny E., Liang, Dong, and Mbye, Ya Fatou Njie

Subjects

*HYDROGEN sulfide, *LIQUID chromatography-mass spectrometry, *GRISEOFULVIN, *UVEA, *DERIVATIZATION, *IRIS (Eye)

Abstract

There are limited studies that report the physiological levels of H 2 S in the eye. The currently available UV/Vis methods lack the required sensitivity and precision. Hence, the purpose of this study was to develop and validate a sensitive and robust pre-column derivatization LC-MS/MS method to measure changes in H 2 S levels in tissues from isolated porcine eyes. H 2 S was derivatized and an LC-MS/MS method was developed to monitor the derivatized product, Sulfide-dibimane (Sdb) using a reverse phase Waters Acquity BEH C18 column (1.7 μm, 2.1 × 100 mm). H 2 S quantification was performed using multiple-ion reaction monitoring (MRM) in positive mode, with the transitions of m / z 415.0 → m / z 223.0 for Sdb and m / z 353.0 → m / z 285.0 for internal standard (griseofulvin). This method provided a suitable way to quantify H 2 S and was then successfully adapted to measure H 2 S levels in isolated porcine iris-ciliary body tissues previously treated in the presence or absence of varying concentrations of lipopolysaccharide (LPS, 5–100 ng/ml), a pro-inflammatory agent. Isolated iris-ciliary bodies (ICB) from porcine eyes were cut into quadrants of approximately 50 mg and homogenized using a 1:3 volume of homogenizing buffer. H 2 S in the supernatant was then derivatized with monobromobimane and quantified. [Display omitted] • Hydrogen sulfide (H 2 S) is an endogenous molecule involved in various physiological and pathological processes. • The currently available UV/Vis methods lack sensitivity and precision in quantifying concentrations of H 2 S in eye tissues. • We developed and validated an LC-MS/MS method through derivatization to quantify H 2 S concentrations in ocular samples. • Small and dynamic changes in H 2 S levels in iris-ciliary body samples from isolated porcine eyes using only 50 mg of tissue. • LC-MS/MS is a specific and sensitive method and opens opportunities to study the mechanisms of ocular diseases. [ABSTRACT FROM AUTHOR]

Published

2024

9. Disulfide proteomics of rice cultured cells in response to OsRacl and probenazole-related immune signaling pathway in rice

Author

Kazuko Morino, Mayumi Kimizu, and Masayuki Fujiwara

Subjects

Rice, Disulfide proteome, Monobromobimane, Reactive oxygen species, Os cold shock protein 2, Probenazole, Cytology, QH573-671

Abstract

Abstract Background Reactive oxygen species (ROS) production is an early event in the immune response of plants. ROS production affects the redox-based modification of cysteine residues in redox proteins, which contribute to protein functions such as enzymatic activity, protein-protein interactions, oligomerization, and intracellular localization. Thus, the sensitivity of cysteine residues to changes in the cellular redox status is critical to the immune response of plants. Methods We used disulfide proteomics to identify immune response-related redox proteins. Total protein was extracted from rice cultured cells expressing constitutively active or dominant-negative OsRacl, which is a key regulator of the immune response in rice, and from rice cultured cells that were treated with probenazole, which is an activator of the plant immune response, in the presence of the thiol group-specific fluorescent probe monobromobimane (mBBr), which was a tag for reduced proteins in a differential display two-dimensional gel electrophoresis. The mBBr fluorescence was detected by using a charge-coupled device system, and total protein spots were detected using Coomassie brilliant blue staining. Both of the protein spots were analyzed by gel image software and identified using MS spectrometry. The possible disulfide bonds were identified using the disulfide bond prediction software. Subcellular localization and bimolecular fluorescence complementation analysis were performed in one of the identified proteins: Oryza sativa cold shock protein 2 (OsCSP2). Results We identified seven proteins carrying potential redox-sensitive cysteine residues. Two proteins of them were oxidized in cultured cells expressing DN-OsRac1, which indicates that these two proteins would be inactivated through the inhibition of OsRac1 signaling pathway. One of the two oxidized proteins, OsCSP2, contains 197 amino acid residues and six cysteine residues. Site-directed mutagenesis of these cysteine residues revealed that a Cys140 mutation causes mislocalization of a green fluorescent protein fusion protein in the root cells of rice. Bimolecular fluorescence complementation analysis revealed that OsCSP2 is localized in the nucleus as a homo dimer in rice root cells. Conclusions The findings of the study indicate that redox-sensitive cysteine modification would contribute to the immune response in rice.

Published

2017

10. Simultaneous Determination of Human Serum Albumin and Low-Molecular-Weight Thiols after Derivatization with Monobromobimane

Author

Katarzyna Kurpet, Rafał Głowacki, and Grażyna Chwatko

Subjects

low-molecular-weight thiols, human serum albumin, α-lipoic acid, blood plasma, derivatization, monobromobimane, Organic chemistry, QD241-441

Abstract

Biothiols are extremely powerful antioxidants that protect cells against the effects of oxidative stress. They are also considered relevant disease biomarkers, specifically risk factors for cardiovascular disease. In this paper, a new procedure for the simultaneous determination of human serum albumin and low-molecular-weight thiols in plasma is described. The method is based on the pre-column derivatization of analytes with a thiol-specific fluorescence labeling reagent, monobromobimane, followed by separation and quantification through reversed-phase high-performance liquid chromatography with fluorescence detection (excitation, 378 nm; emission, 492 nm). Prior to the derivatization step, the oxidized thiols are converted to their reduced forms by reductive cleavage with sodium borohydride. Linearity in the detector response for total thiols was observed in the following ranges: 1.76–30.0 mg mL−1 for human serum albumin, 0.29–5.0 nmol mL−1 for α-lipoic acid, 1.16–35 nmol mL−1 for glutathione, 9.83–450.0 nmol mL−1 for cysteine, 0.55–40.0 nmol mL−1 for homocysteine, 0.34–50.0 nmol mL−1 for N-acetyl-L-cysteine, and 1.45–45.0 nmol mL−1 for cysteinylglycine. Recovery values of 85.16–119.48% were recorded for all the analytes. The developed method is sensitive, repeatable, and linear within the expected ranges of total thiols. The devised procedure can be applied to plasma samples to monitor biochemical processes in various pathophysiological states.

Published

2021

11. Simple, Rapid, and Sensitive Determination of Thiols by Liquid Chromatography with Fluorescence Detection.

Author

Wang, Ya, Zhang, Chunhua, Zheng, Yanheng, Ge, Ying, and Yu, Xiangyang

Subjects

*THIOLS, *LIQUID chromatography, *FLUORESCENCE, *THIOL derivatives, *PHYTOCHELATINS

Abstract

Thiol compounds are important for protecting cells from oxidative stress. One common method of quantifying thiols is liquid chromatographic separation with fluorescence detection of their derivatives. The pH and the concentration of tris (2-carboxyethyl) phosphine hydrochloride in the reaction medium were shown to have significant effects on the fluorescence intensity of five thiol compounds: cysteine, glutathione, and three phytochelatins. The optimal pH range for derivatization, as indicated by the maximum fluorescence intensities, was 7.75–8.0 for all of the evaluated thiols. The thiol derivative fluorescence increased and then decreased with the tris (2-carboxyethyl) phosphine hydrochloride concentration. In particular, the fluorescence intensities of all of the derivatives decreased by 96.5–99.9% when tris (2-carboxyethyl) phosphine hydrochloride levels were increased from 0.1 to 1 mmol L−1. We attributed these changes to preferential interactions between tris (2-carboxyethyl) phosphine hydrochloride and the thiol-specific fluorophore, monobromobimane. We describe herein a method, based on our optimized solution pH and tris (2-carboxyethyl) phosphine hydrochloride concentration, that is rapid (12 min) and boasts excellent recovery (91.3–102%), sensitivity (limit of detections, 17.8–75.2 pmol L−1) and precision (relative standard deviation values ≤1.03%) for the quantification of these thiol compounds in microalgal samples. [ABSTRACT FROM AUTHOR]

Published

2019

12. Characterization of thiol‐based redox modifications of <italic>Brassica napus</italic>SNF1‐related protein kinase 2.6‐2C.

Author

Ma, Tianyi, Yoo, Mi‐jeong, Zhang, Tong, Liu, Lihong, Koh, Jin, Song, Wen‐yuan, Harmon, Alice C., Sha, Wei, and Chen, Sixue

Subjects

OXIDATION-reduction reaction, PROTEIN kinase C, STOMATA

Abstract

Sucrose nonfermenting 1‐related protein kinase 2.6 (SnRK2.6), also known as Open Stomata 1 (OST1) in Arabidopsis thaliana, plays a pivotal role in abscisic acid (ABA)‐mediated stomatal closure. Four SnRK2.6 paralogs were identified in the Brassica napus genome in our previous work. Here we studied one of the paralogs, BnSnRK2.6‐2C, which was transcriptionally induced by ABA in guard cells. Recombinant BnSnRK2.6‐2C exhibited autophosphorylation activity and its phosphorylation sites were mapped. The autophosphorylation activity was inhibited by S‐nitrosoglutathione (GSNO) and by oxidized glutathione (GSSG), and the inhibition was reversed by reductants. Using monobromobimane (mBBr) labeling, we demonstrated a dose‐dependent modification of BnSnRK2.6‐2C by GSNO. Furthermore, mass spectrometry analysis revealed previously uncharacterized thiol‐based modifications including glutathionylation and sulfonic acid formation. Of the six cysteine residues in BnSnRK2.6‐2C, C159 was found to have different types of thiol modifications, suggesting its high redox sensitivity and versatility. In addition, mBBr labeling on tyrosine residues was identified. Collectively, these data provide detailed biochemical characterization of redox‐induced modifications and changes of the BnSnRK2.6‐2C activity. [ABSTRACT FROM AUTHOR]

Published

2018

13. Alternative pathway of H2S and polysulfides production from sulfurated catalytic-cysteine of reaction intermediates of 3-mercaptopyruvate sulfurtransferase.

Author

Nagahara, Noriyuki, Koike, Shin, Nirasawa, Takashi, Kimura, Hideo, and Ogasawara, Yuki

Subjects

*POLYSULFIDES, *HYDROGEN sulfide, *BIOCHEMICAL substrates, *MATRIX-assisted laser desorption-ionization, *CATALYTIC activity

Abstract

Abstract It has been known that hydrogen sulfide and/or polysulfides are produced from a (poly)sulfurated sulfur-acceptor substrate of 3-mercaptopyruvate sulfurtransferase (MST) via thioredoxin (Trx) reduction in vitro. In this study, we used thiosulfate as the donor substrate and the catalytic reaction was terminated on the formation of a persulfide or polysulfides. We can present alternative pathway of production of hydrogen sulfide and/or polysulfides from (poly)sulfurated catalytic-site cysteine of reaction intermediates of MST via Trx reduction. Matrix-assisted laser desorption ionization tandem time-of-flight mass spectrometric analysis revealed that after prolonged incubation of MST with thiosulfate, a trisulfide adduct becomes predominant at the sulfurated catalytic-site cysteine. When these adducts were reduced by Trx with reducing system (MST: Escherichia coli Trx: E. coli Trx reductase:NADPH = 1:5:0.02:12.5 molar ratio), liquid chromatography with tandem mass spectrometric analysis for monobromobimane-derivatized H 2 S n revealed that H 2 S 2 first appeared, and then H 2 S and H 2 S 3 did later. The results were confirmed by high-performance liquid chromatography-fluorescence analysis. Highlights • Thiosulfate forms (poly)sulfurated catalytic-site cysteine of reaction intermediate of 3-mercaptopyruvate sulfurtransferase and the catalytic reaction was terminated on the formation of a persulfide or polysulfide. • (Poly)sulfurated catalytic-site cysteine can be reduced by thioredoxin with reducing system. • Hydrogen sulfide and/or polysulfides are alternatively produced from a (poly)sulfurated reaction intermediate. [ABSTRACT FROM AUTHOR]

Published

2018

14. Analysis of endogenous H2S and H2Sn in mouse brain by high-performance liquid chromatography with fluorescence and tandem mass spectrometric detection.

Author

Koike, Shin, Kawamura, Kumiko, Kimura, Yuka, Shibuya, Norihiro, Kimura, Hideo, and Ogasawara, Yuki

Subjects

*HYDROGEN, *POLYSULFIDES, *MAMMALS, *CELL metabolism, *MOLECULES

Abstract

Previous studies indicated that bound sulfur species (BSS), including hydrogen polysulfide (H 2 S n ), have various physiological functions in mammalian cells. Although H 2 S n molecules have been considered as secondary metabolites derived from hydrogen sulfide (H 2 S) based on in vitro studies or predetermined reaction formula, the physiological form of BSS and their endogenous concentration remain unclear. In the present study, we aimed to improve the usual method using monobromobimane (mBB) followed by high performance liquid chromatographic (HPLC) analysis for HS － for simultaneous determination of H 2 S, H 2 S 2 , H 2 S 3 and cysteine persulfide in biological samples. We demonstrated that mBB derivatization of H 2 S and H 2 S n standards under alkaline conditions (pH 9.5) induced significant decreases in H 2 S 2 and H 2 S 3 levels and a significant increase in the H 2 S level in an incubation time-dependent manner. Conversely, the derivatization of mBB adducts of H 2 S 2 and H 2 S 3 were stable under neutral conditions (pH 7.0), which is physiologically relevant. Therefore, we re-examined the method using mBB and applied an improved method for the evaluation of H 2 S, H 2 S 2 , and H 2 S 3 in mouse brain under physiological pH conditions. The concentrations of H 2 S and H 2 S 2 were 0.030 ± 0.004 μmol/g protein and 0.026 ± 0.002 μmol/g protein, respectively. Although the level of H 2 S 3 was below the quantification limit of this method, H 2 S 3 was detected in mouse brain. Using the method established here, we reveal for the first time the existence of endogenous H 2 S 2 and H 2 S 3 in mammalian brain tissues. H 2 S 2 and H 2 S 3 exert anti-oxidant activity and anti-carbonyl stress effects through the regulation of redox balance in neuronal cells. Thus, our observations provide novel insights into the physiological functions of BSS in the brain and into neuronal diseases involved in redox imbalance. [ABSTRACT FROM AUTHOR]

Published

2017

15. Development of a derivatization method for the quantification of hydrogen sulfide and its application in vascular calcification rats.

Author

Tan, Xiao-Xin, Lian, Kao-Qi, Li, Xiang, Li, Nan, Wang, Wei, Kang, Wei-Jun, and Shi, Hong-Mei

Subjects

*HYDROGEN sulfide, *CALCIFICATION, *ACETONITRILE, *OXIDATION, *LABORATORY rats

Abstract

Hydrogen sulfide (H 2 S) plays major functional and structural roles in diverse physiological functions and the pathogenesis of a variety of disorders in biological matrices. The significance of H 2 S has prompted the development of sensitive and selective methods to determine its concentration in biological samples. The fluorescent reagent monobromobimane (MBB) has been widely used to measure various thiol-containing species through alkylation. MBB may prevent the oxidation of sulfide and the reaction of sulfide with several different species (such as superoxide radicals, hydrogen peroxide and peroxynitrite). An isomers of MBB, 3-(bromomethyl)-2, 6, 7-trimethyl-1H, 5H-pyrazolo [1,2-a] pyrazole-1, 5-dione (MMB), is cheaper than MBB and its use in the analysis of H 2 S has not previously been reported. In the present study, we compared the derivatization reactions of hydrogen sulfide with MMB and MBB and developed a sensitive method to quantify H 2 S in blood. In our method, H 2 S was incubated in the dark with excess MMB in 0.1 M Tris-HCl buffer (pH 10.1) at 50 °C for 120 min. 50 μL aliquots of the derivatized product were analyzed using HPLC system with gradient elution of 0.1% ( v/v ) formic acid-acetonitrile. The limit of detection for the derivatized product was 0.03 nmol/mL. The derivatization reaction was suitable for detecting low concentrations of H 2 S. The derivate product is stable over time, permitting batch storage and analysis. [ABSTRACT FROM AUTHOR]

Published

2017

16. Disulfide proteomics of rice cultured cells in response to OsRacl and probenazolerelated immune signaling pathway in rice.

Author

Kazuko Morino, Mayumi Kimizu, and Masayuki Fujiwara

Subjects

REACTIVE oxygen species, IMMUNE response, CELLULAR signal transduction, CYSTEINE, RICE genetics, COLD shock proteins

Abstract

Background: Reactive oxygen species (ROS) production is an early event in the immune response of plants. ROS production affects the redox-based modification of cysteine residues in redox proteins, which contribute to protein functions such as enzymatic activity, protein-protein interactions, oligomerization, and intracellular localization. Thus, the sensitivity of cysteine residues to changes in the cellular redox status is critical to the immune response of plants. Methods: We used disulfide proteomics to identify immune response-related redox proteins. Total protein was extracted from rice cultured cells expressing constitutively active or dominant-negative OsRacl, which is a key regulator of the immune response in rice, and from rice cultured cells that were treated with probenazole, which is an activator of the plant immune response, in the presence of the thiol group-specific fluorescent probe monobromobimane (mBBr), which was a tag for reduced proteins in a differential display two-dimensional gel electrophoresis. The mBBr fluorescence was detected by using a charge-coupled device system, and total protein spots were detected using Coomassie brilliant blue staining. Both of the protein spots were analyzed by gel image software and identified using MS spectrometry. The possible disulfide bonds were identified using the disulfide bond prediction software. Subcellular localization and bimolecular fluorescence complementation analysis were performed in one of the identified proteins: Oryza sativa cold shock protein 2 (OsCSP2). Results: We identified seven proteins carrying potential redox-sensitive cysteine residues. Two proteins of them were oxidized in cultured cells expressing DN-OsRac1, which indicates that these two proteins would be inactivated through the inhibition of OsRac1 signaling pathway. One of the two oxidized proteins, OsCSP2, contains 197 amino acid residues and six cysteine residues. Site-directed mutagenesis of these cysteine residues revealed that a Cys140 mutation causes mislocalization of a green fluorescent protein fusion protein in the root cells of rice. Bimolecular fluorescence complementation analysis revealed that OsCSP2 is localized in the nucleus as a homo dimer in rice root cells. Conclusions: The findings of the study indicate that redox-sensitive cysteine modification would contribute to the immune response in rice. [ABSTRACT FROM AUTHOR]

Published

2017

17. Determination of 3-mercaptopropionic acid by HPLC: A sensitive method for environmental applications.

Author

Salgado, P., Visnevschi-Necrasov, T., Kiene, R.P., Azevedo, I., Rocha, A.C.S., Almeida, C.M.R., and Magalhães, C.

Subjects

*HIGH performance liquid chromatography, *ORGANIC compounds, *SULFUR metabolism, *CHEMICAL decomposition, *DIMETHYLPROPIOTHETIN, *CHEMICAL derivatives

Abstract

The organic sulfur compound 3-mercaptopropionic acid (3-MPA) is an important thiol intermediate in organic sulfur metabolism in natural environments. It is generated during degradation of sulfur-containing amino acids (e.g. methionine) and from demethylation of dimethylsulfoniopropionate (DMSP). This pathway is an alternative enzymatic process in the DMSP catabolism that routes sulfur away from the climatically-active dimethyl sulfide (DMS). 3-MPA detection and subsequent quantification in different matrices is difficult due to its extreme reactivity. We therefore developed a sensitive method for determination of 3-MPA based on pre-column derivatization with monobromobimane and analysis by high-performance liquid chromatography (HPLC) with fluorescence detection. This methodology was first tested with 3-MPA standards under low (0.005–0.2 μmol L −1 ) and high (1–25 μmol L −1 ) concentrations. For the optimization of the reaction, CHES and, alternatively, Tris–HCl buffers were evaluated in the derivatization step, with Tris–HCl showing more effective separation of thiol derivatives and a better 3-MPA peak shape. The detection limit was 4.3 nmol L −1 with a 10 μL sample injection, and mean recoveries of 3-MPA ranged from 97 to 105% in estuarine waters with different salinities (0.17 and 35.9 ppt). The linearity ( r > 0.99) and repeatability of detector response, with intra- and inter-day precision (% CV) of 2.68–7.01% and 4.86–12.5%, respectively, confirmed the reliability of the method. Previous 3-MPA analytical methods required immediate analysis due to unstable derivatives, but in this method we achieved high stability of the derivatized samples when stored at 4 °C, with only a 3–5% loss after more than one year of storage. This method was successfully applied to measure 3-MPA concentrations and rates of 3-MPA production in a variety of intertidal estuarine sediment slurries. Dissolved 3-MPA concentrations in these sediment slurries varied between 2 and 237 μmol L −1 and, 3-MPA net fluxes ranged in wet sediments between −3.6 ± 1.7 and 30 ± 5 μmol L −1 g −1 h −1 . Thus, the application of this optimized methodology showed an efficient performance for measuring 3-MPA in environmental samples, with a straightforward sample derivatization and a simple analysis of stable 3-MPA derivatives. [ABSTRACT FROM AUTHOR]

Published

2015

18. Involvement of the yciW gene in l-cysteine and l-methionine metabolism in Escherichia coli.

Author

Kawano, Yusuke, Ohtsu, Iwao, Tamakoshi, Ai, Shiroyama, Maeka, Tsuruoka, Ai, Saiki, Kyohei, Takumi, Kazuhiro, Nonaka, Gen, Nakanishi, Tsuyoshi, Hishiki, Takako, Suematsu, Makoto, and Takagi, Hiroshi

Subjects

*BACTERIAL genes, *CYSTEINE, *METHIONINE metabolism, *METABOLISM, *BACTERIAL cells, *HOMOCYSTEINE, *ESCHERICHIA coli

Abstract

We here analyzed a sulfur index of Escherichia coli using LC-MS/MS combined with thiol-specific derivatization by monobromobimane. The obtained sulfur index was then applied to evaluate the l -cysteine producer. E. coli cells overexpressing the yciW gene, a novel Cys regulon, accumulated l -homocysteine, suggesting that YciW is involved in l -methionine biosynthesis. [ABSTRACT FROM AUTHOR]

Published

2015

19. Total cysteine and glutathione determination in hemolymph of individual adult D. melanogaster.

Author

Borra, Srivani, Featherstone, David E., and Shippy, Scott A.

Subjects

*CYSTEINE, *GLUTATHIONE, *HEMOLYMPH, *DROSOPHILA melanogaster, *OXIDATIVE stress, *AGING, *GLUTAMATE transporters

Abstract

Determination of thiols, glutathione (GSH) and cysteine (Cys) are important due to their roles in oxidative stress and aging. Oxidants such as soluble O 2 and H 2 O 2 promote oxidation of thiols to disulfide ( S S ) bonded dimers affecting quantitation accuracy. The method presented here reduces disulfide-bonded species followed by fluorescence labelling of the 29.5 (±18.2) nL hemolymph volumes of individual adult Drosophila Melanogaster . The availability of only tens of nanoliter (nL) samples that are also highly volume variant requires efficient sample handling to improve thiol measurements while minimizing sample dilution. The optimized method presented here utilizes defined lengths of capillaries to meter tris(2-carboxyethyl)phosphine reducing reagent and monobromobimane derivatizing reagent volumes enabling Cys and GSH quantitation with only 20-fold dilution. The nL assay developed here was optimized with respect to reagent concentrations, sample dilution, reaction times and temperatures. Separation and identification of the nL thiol mixtures were obtained with capillary electrophoresis-laser induced fluorescence. To demonstrate the capability of this method total Cys and total GSH were measured in the hemolymph collected from individual adult D. Melanogaster . The thiol measurements were used to compare a mutant fly strain with a non-functional cystine–glutamate transporter (xCT) to its background control. The mutant fly, genderblind ( gb ), carries a non-functional gene for a protein similar to mammalian xCT whose function is not fully understood. Average concentrations obtained for mutant and control flies are 2.19 (±0.22) and 1.94 (±0.34) mM Cys and 2.14 (±0.60) and 2.08 (±0.71) mM GSH, respectively, and are not significantly different ( p > 0.05). Statistical analysis showed significant differences in total GSH of males and females independent of the xCT mutation. Overall, the method demonstrates an approach for effective chemical characterization of thiols in nL sample volumes. [ABSTRACT FROM AUTHOR]

Published

2015

20. Total sulfane sulfur bioavailability reflects ethnic and gender disparities in cardiovascular disease

Author

Kalgi Modi, Matthew Deshotels, Paari Dominic, Pratap Reddy, Christopher G. Kevil, Gopi K. Kolluru, Saurabh Rajpal, Pavan Katikaneni, Sibile Pardue, John D. Glawe, Ruchi Bhandari, Nuri I. Akkus, and Xinggui Shen

Subjects

0301 basic medicine, Male, Metabolite, Clinical Biochemistry, Disease, Biochemistry, Coronary artery disease, chemistry.chemical_compound, Gene Frequency, lcsh:QH301-705.5, lcsh:R5-920, biology, Hydrogen sulfide, High-Throughput Nucleotide Sequencing, Middle Aged, 3. Good health, Cardiovascular Diseases, Biomarker (medicine), Female, lcsh:Medicine (General), Research Paper, Adult, medicine.medical_specialty, Monobromobimane, Biological Availability, Single-nucleotide polymorphism, Sulfides, Polymorphism, Single Nucleotide, White People, 03 medical and health sciences, Bridged Bicyclo Compounds, Internal medicine, medicine, SNP, Humans, Allele frequency, Aged, Peripheral artery disease, business.industry, Organic Chemistry, Cystathionine gamma-Lyase, equipment and supplies, Cystathionine beta synthase, Bioavailability, Black or African American, 030104 developmental biology, Endocrinology, chemistry, lcsh:Biology (General), biology.protein, HPLC, business, Chromatography, Liquid

Abstract

Hydrogen sulfide (H2S) has emerged as an important physiological and pathophysiological signaling molecule in the cardiovascular system influencing vascular tone, cytoprotective responses, redox reactions, vascular adaptation, and mitochondrial respiration. However, bioavailable levels of H2S in its various biochemical metabolite forms during clinical cardiovascular disease remain poorly understood. We performed a case-controlled study to quantify and compare the bioavailability of various biochemical forms of H2S in patients with and without cardiovascular disease (CVD). In our study, we used the reverse-phase high performance liquid chromatography monobromobimane assay to analytically measure bioavailable pools of H2S. Single nucleotide polymorphisms (SNPs) were also identified using DNA Pyrosequencing. We found that plasma acid labile sulfide levels were significantly reduced in Caucasian females with CVD compared with those without the disease. Conversely, plasma bound sulfane sulfur levels were significantly reduced in Caucasian males with CVD compared with those without the disease. Surprisingly, gender differences of H2S bioavailability were not observed in African Americans, although H2S bioavailability was significantly lower overall in this ethnic group compared to Caucasians. We also performed SNP analysis of H2S synthesizing enzymes and found a significant increase in cystathionine gamma-lyase (CTH) 1364 G-T allele frequency in patients with CVD compared to controls. Lastly, plasma H2S bioavailability was found to be predictive for cardiovascular disease in Caucasian subjects as determined by receiver operator characteristic analysis. These findings reveal that plasma H2S bioavailability could be considered a biomarker for CVD in an ethnic and gender manner. Cystathionine gamma-lyase 1346 G-T SNP might also contribute to the risk of cardiovascular disease development., Highlights • Baseline plasma sulfide metabolite levels are significantly different in an ethnic dependent manner. • Reductions in sulfide metabolites are predictive of cardiovascular disease in an ethnic dependent manner. • Differences in acid labile versus bound sulfane sulfur metabolites during cardiovascular disease are gender dependent. • Single nucleotide polymorphism of CTH 1364 G>T is significantly associated with increased cardiovascular disease.

Published

2018

21. Simultaneous Determination of Human Serum Albumin and Low-Molecular-Weight Thiols after Derivatization with Monobromobimane

Author

Grażyna Chwatko, Katarzyna Kurpet, and Rafał Głowacki

Subjects

Analyte, Pharmaceutical Science, Serum Albumin, Human, reduction, low-molecular-weight thiols, 01 natural sciences, High-performance liquid chromatography, Article, Analytical Chemistry, Bridged Bicyclo Compounds, 03 medical and health sciences, chemistry.chemical_compound, QD241-441, derivatization, Drug Discovery, Blood plasma, monobromobimane, medicine, Humans, Sulfhydryl Compounds, high-performance liquid chromatography, Physical and Theoretical Chemistry, Derivatization, 030304 developmental biology, Chromatography, Reverse-Phase, 0303 health sciences, α-lipoic acid, Chromatography, 010401 analytical chemistry, Organic Chemistry, Glutathione, Human serum albumin, 0104 chemical sciences, Molecular Weight, chemistry, human serum albumin, Chemistry (miscellaneous), fluorescence detection, Reagent, Molecular Medicine, sodium borohydride, Oxidation-Reduction, blood plasma, Cysteine, medicine.drug

Abstract

Biothiols are extremely powerful antioxidants that protect cells against the effects of oxidative stress. They are also considered relevant disease biomarkers, specifically risk factors for cardiovascular disease. In this paper, a new procedure for the simultaneous determination of human serum albumin and low-molecular-weight thiols in plasma is described. The method is based on the pre-column derivatization of analytes with a thiol-specific fluorescence labeling reagent, monobromobimane, followed by separation and quantification through reversed-phase high-performance liquid chromatography with fluorescence detection (excitation, 378 nm, emission, 492 nm). Prior to the derivatization step, the oxidized thiols are converted to their reduced forms by reductive cleavage with sodium borohydride. Linearity in the detector response for total thiols was observed in the following ranges: 1.76–30.0 mg mL−1 for human serum albumin, 0.29–5.0 nmol mL−1 for α-lipoic acid, 1.16–35 nmol mL−1 for glutathione, 9.83–450.0 nmol mL−1 for cysteine, 0.55–40.0 nmol mL−1 for homocysteine, 0.34–50.0 nmol mL−1 for N-acetyl-L-cysteine, and 1.45–45.0 nmol mL−1 for cysteinylglycine. Recovery values of 85.16–119.48% were recorded for all the analytes. The developed method is sensitive, repeatable, and linear within the expected ranges of total thiols. The devised procedure can be applied to plasma samples to monitor biochemical processes in various pathophysiological states.

Published

2021

22. Simultaneous Determination of Human Serum Albumin and Low-Molecular-Weight Thiols after Derivatization with Monobromobimane.

Author

Kurpet, Katarzyna, Głowacki, Rafał, and Chwatko, Grażyna

Subjects

*SERUM albumin, *THIOLS, *HIGH performance liquid chromatography, *DERIVATIZATION, *SODIUM borohydride, *DISEASE risk factors

Abstract

Biothiols are extremely powerful antioxidants that protect cells against the effects of oxidative stress. They are also considered relevant disease biomarkers, specifically risk factors for cardiovascular disease. In this paper, a new procedure for the simultaneous determination of human serum albumin and low-molecular-weight thiols in plasma is described. The method is based on the pre-column derivatization of analytes with a thiol-specific fluorescence labeling reagent, monobromobimane, followed by separation and quantification through reversed-phase high-performance liquid chromatography with fluorescence detection (excitation, 378 nm; emission, 492 nm). Prior to the derivatization step, the oxidized thiols are converted to their reduced forms by reductive cleavage with sodium borohydride. Linearity in the detector response for total thiols was observed in the following ranges: 1.76–30.0 mg mL−1 for human serum albumin, 0.29–5.0 nmol mL−1 for α-lipoic acid, 1.16–35 nmol mL−1 for glutathione, 9.83–450.0 nmol mL−1 for cysteine, 0.55–40.0 nmol mL−1 for homocysteine, 0.34–50.0 nmol mL−1 for N-acetyl-L-cysteine, and 1.45–45.0 nmol mL−1 for cysteinylglycine. Recovery values of 85.16–119.48% were recorded for all the analytes. The developed method is sensitive, repeatable, and linear within the expected ranges of total thiols. The devised procedure can be applied to plasma samples to monitor biochemical processes in various pathophysiological states. [ABSTRACT FROM AUTHOR]

Published

2021

23. Characterization of thiol-based redox modifications of

Author

Tianyi, Ma, Mi-Jeong, Yoo, Tong, Zhang, Lihong, Liu, Jin, Koh, Wen-Yuan, Song, Alice C, Harmon, Wei, Sha, and Sixue, Chen

Subjects

redox regulation, thiol modification, phosphorylation, fungi, monobromobimane, food and beverages, BnSnRK2.6‐2C, Research Articles, Research Article, mass spectrometry

Abstract

Sucrose nonfermenting 1‐related protein kinase 2.6 (SnRK2.6), also known as Open Stomata 1 (OST1) in Arabidopsis thaliana, plays a pivotal role in abscisic acid (ABA)‐mediated stomatal closure. Four SnRK2.6 paralogs were identified in the Brassica napus genome in our previous work. Here we studied one of the paralogs, BnSnRK2.6‐2C, which was transcriptionally induced by ABA in guard cells. Recombinant BnSnRK2.6‐2C exhibited autophosphorylation activity and its phosphorylation sites were mapped. The autophosphorylation activity was inhibited by S‐nitrosoglutathione (GSNO) and by oxidized glutathione (GSSG), and the inhibition was reversed by reductants. Using monobromobimane (mBBr) labeling, we demonstrated a dose‐dependent modification of BnSnRK2.6‐2C by GSNO. Furthermore, mass spectrometry analysis revealed previously uncharacterized thiol‐based modifications including glutathionylation and sulfonic acid formation. Of the six cysteine residues in BnSnRK2.6‐2C, C159 was found to have different types of thiol modifications, suggesting its high redox sensitivity and versatility. In addition, mBBr labeling on tyrosine residues was identified. Collectively, these data provide detailed biochemical characterization of redox‐induced modifications and changes of the BnSnRK2.6‐2C activity.

Published

2017

24. Disulfide proteomics of rice cultured cells in response to OsRacl and probenazole-related immune signaling pathway in rice

Author

Mayumi Kimizu, Kazuko Morino, and Masayuki Fujiwara

Subjects

0106 biological sciences, 0301 basic medicine, Monobromobimane, Biology, Proteomics, 01 natural sciences, Biochemistry, Green fluorescent protein, 03 medical and health sciences, Bimolecular fluorescence complementation, chemistry.chemical_compound, Disulfide proteome, Probenazole, lcsh:QH573-671, Molecular Biology, Gel electrophoresis, Os cold shock protein 2, lcsh:Cytology, Activator (genetics), Research, Coomassie Brilliant Blue, Fusion protein, 030104 developmental biology, chemistry, Rice, Reactive oxygen species, 010606 plant biology & botany, Cysteine

Abstract

Background Reactive oxygen species (ROS) production is an early event in the immune response of plants. ROS production affects the redox-based modification of cysteine residues in redox proteins, which contribute to protein functions such as enzymatic activity, protein-protein interactions, oligomerization, and intracellular localization. Thus, the sensitivity of cysteine residues to changes in the cellular redox status is critical to the immune response of plants. Methods We used disulfide proteomics to identify immune response-related redox proteins. Total protein was extracted from rice cultured cells expressing constitutively active or dominant-negative OsRacl, which is a key regulator of the immune response in rice, and from rice cultured cells that were treated with probenazole, which is an activator of the plant immune response, in the presence of the thiol group-specific fluorescent probe monobromobimane (mBBr), which was a tag for reduced proteins in a differential display two-dimensional gel electrophoresis. The mBBr fluorescence was detected by using a charge-coupled device system, and total protein spots were detected using Coomassie brilliant blue staining. Both of the protein spots were analyzed by gel image software and identified using MS spectrometry. The possible disulfide bonds were identified using the disulfide bond prediction software. Subcellular localization and bimolecular fluorescence complementation analysis were performed in one of the identified proteins: Oryza sativa cold shock protein 2 (OsCSP2). Results We identified seven proteins carrying potential redox-sensitive cysteine residues. Two proteins of them were oxidized in cultured cells expressing DN-OsRac1, which indicates that these two proteins would be inactivated through the inhibition of OsRac1 signaling pathway. One of the two oxidized proteins, OsCSP2, contains 197 amino acid residues and six cysteine residues. Site-directed mutagenesis of these cysteine residues revealed that a Cys140 mutation causes mislocalization of a green fluorescent protein fusion protein in the root cells of rice. Bimolecular fluorescence complementation analysis revealed that OsCSP2 is localized in the nucleus as a homo dimer in rice root cells. Conclusions The findings of the study indicate that redox-sensitive cysteine modification would contribute to the immune response in rice. Electronic supplementary material The online version of this article (doi:10.1186/s12953-017-0115-3) contains supplementary material, which is available to authorized users.

Published

2016

25. Total sulfane sulfur bioavailability reflects ethnic and gender disparities in cardiovascular disease.

Author

Rajpal S, Katikaneni P, Deshotels M, Pardue S, Glawe J, Shen X, Akkus N, Modi K, Bhandari R, Dominic P, Reddy P, Kolluru GK, and Kevil CG

Subjects

Adult, Black or African American genetics, Aged, Biological Availability, Bridged Bicyclo Compounds chemistry, Cardiovascular Diseases genetics, Cardiovascular Diseases pathology, Chromatography, Liquid, Female, Gene Frequency, High-Throughput Nucleotide Sequencing, Humans, Hydrogen Sulfide isolation & purification, Male, Middle Aged, Polymorphism, Single Nucleotide, White People genetics, Cardiovascular Diseases blood, Cystathionine gamma-Lyase genetics, Hydrogen Sulfide blood, Sulfides blood

Abstract

Hydrogen sulfide (H 2 S) has emerged as an important physiological and pathophysiological signaling molecule in the cardiovascular system influencing vascular tone, cytoprotective responses, redox reactions, vascular adaptation, and mitochondrial respiration. However, bioavailable levels of H 2 S in its various biochemical metabolite forms during clinical cardiovascular disease remain poorly understood. We performed a case-controlled study to quantify and compare the bioavailability of various biochemical forms of H 2 S in patients with and without cardiovascular disease (CVD). In our study, we used the reverse-phase high performance liquid chromatography monobromobimane assay to analytically measure bioavailable pools of H 2 S. Single nucleotide polymorphisms (SNPs) were also identified using DNA Pyrosequencing. We found that plasma acid labile sulfide levels were significantly reduced in Caucasian females with CVD compared with those without the disease. Conversely, plasma bound sulfane sulfur levels were significantly reduced in Caucasian males with CVD compared with those without the disease. Surprisingly, gender differences of H 2 S bioavailability were not observed in African Americans, although H 2 S bioavailability was significantly lower overall in this ethnic group compared to Caucasians. We also performed SNP analysis of H 2 S synthesizing enzymes and found a significant increase in cystathionine gamma-lyase (CTH) 1364 G-T allele frequency in patients with CVD compared to controls. Lastly, plasma H 2 S bioavailability was found to be predictive for cardiovascular disease in Caucasian subjects as determined by receiver operator characteristic analysis. These findings reveal that plasma H 2 S bioavailability could be considered a biomarker for CVD in an ethnic and gender manner. Cystathionine gamma-lyase 1346 G-T SNP might also contribute to the risk of cardiovascular disease development., (Copyright © 2018 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2018

26. Characterization of thiol-based redox modifications of Brassica napus SNF1-related protein kinase 2.6-2C.

Author

Ma T, Yoo MJ, Zhang T, Liu L, Koh J, Song WY, Harmon AC, Sha W, and Chen S

Abstract

Sucrose nonfermenting 1-related protein kinase 2.6 (SnRK2.6), also known as Open Stomata 1 (OST1) in Arabidopsis thaliana , plays a pivotal role in abscisic acid (ABA)-mediated stomatal closure. Four SnRK2.6 paralogs were identified in the Brassica napus genome in our previous work. Here we studied one of the paralogs, BnSnRK2.6-2C , which was transcriptionally induced by ABA in guard cells. Recombinant BnSnRK2.6-2C exhibited autophosphorylation activity and its phosphorylation sites were mapped. The autophosphorylation activity was inhibited by S-nitrosoglutathione (GSNO) and by oxidized glutathione (GSSG), and the inhibition was reversed by reductants. Using monobromobimane (mBBr) labeling, we demonstrated a dose-dependent modification of BnSnRK2.6-2C by GSNO. Furthermore, mass spectrometry analysis revealed previously uncharacterized thiol-based modifications including glutathionylation and sulfonic acid formation. Of the six cysteine residues in BnSnRK2.6-2C, C159 was found to have different types of thiol modifications, suggesting its high redox sensitivity and versatility. In addition, mBBr labeling on tyrosine residues was identified. Collectively, these data provide detailed biochemical characterization of redox-induced modifications and changes of the BnSnRK2.6-2C activity.

Published

2018

27. Disulfide proteomics of rice cultured cells in response to OsRacl and probenazole-related immune signaling pathway in rice.

Author

Morino K, Kimizu M, and Fujiwara M

Abstract

Background: Reactive oxygen species (ROS) production is an early event in the immune response of plants. ROS production affects the redox-based modification of cysteine residues in redox proteins, which contribute to protein functions such as enzymatic activity, protein-protein interactions, oligomerization, and intracellular localization. Thus, the sensitivity of cysteine residues to changes in the cellular redox status is critical to the immune response of plants., Methods: We used disulfide proteomics to identify immune response-related redox proteins. Total protein was extracted from rice cultured cells expressing constitutively active or dominant-negative OsRacl, which is a key regulator of the immune response in rice, and from rice cultured cells that were treated with probenazole, which is an activator of the plant immune response, in the presence of the thiol group-specific fluorescent probe monobromobimane (mBBr), which was a tag for reduced proteins in a differential display two-dimensional gel electrophoresis. The mBBr fluorescence was detected by using a charge-coupled device system, and total protein spots were detected using Coomassie brilliant blue staining. Both of the protein spots were analyzed by gel image software and identified using MS spectrometry. The possible disulfide bonds were identified using the disulfide bond prediction software. Subcellular localization and bimolecular fluorescence complementation analysis were performed in one of the identified proteins: Oryza sativa cold shock protein 2 (OsCSP2)., Results: We identified seven proteins carrying potential redox-sensitive cysteine residues. Two proteins of them were oxidized in cultured cells expressing DN-OsRac1, which indicates that these two proteins would be inactivated through the inhibition of OsRac1 signaling pathway. One of the two oxidized proteins, OsCSP2, contains 197 amino acid residues and six cysteine residues. Site-directed mutagenesis of these cysteine residues revealed that a Cys 140 mutation causes mislocalization of a green fluorescent protein fusion protein in the root cells of rice. Bimolecular fluorescence complementation analysis revealed that OsCSP2 is localized in the nucleus as a homo dimer in rice root cells., Conclusions: The findings of the study indicate that redox-sensitive cysteine modification would contribute to the immune response in rice.

Published

2017