A CYBDOM protein impacts iron homeostasis and primary root growth under phosphate deficiency in Arabidopsis.

Arabidopsis primary root growth response to phosphate (Pi) deficiency is mainly controlled by changes in apoplastic iron (Fe). Upon Pi deficiency, apoplastic Fe deposition in the root apical meristem activates pathways leading to the arrest of meristem maintenance and inhibition of cell elongation. Here, we report that a member of the uncharacterized cytochrome b561 and DOMON domain (CYBDOM) protein family, named CRR, promotes iron reduction in an ascorbate-dependent manner and controls apoplastic iron deposition. Under low Pi, the crr mutant shows an enhanced reduction of primary root growth associated with increased apoplastic Fe in the root meristem and a reduction in meristematic cell division. Conversely, CRR overexpression abolishes apoplastic Fe deposition rendering primary root growth insensitive to low Pi. The crr single mutant and crr hyp1 double mutant, harboring a null allele in another member of the CYDOM family, shows increased tolerance to high-Fe stress upon germination and seedling growth. Conversely, CRR overexpression is associated with increased uptake and translocation of Fe to the shoot and results in plants highly sensitive to Fe excess. Our results identify a ferric reductase implicated in Fe homeostasis and developmental responses to abiotic stress, and reveal a biological role for CYBDOM proteins in plants.

Association between donor kidney cysts and donor and recipient outcomes after living donor kidney transplantation.

INTRODUCTION: Incidental kidneys cysts are typically considered benign, but the presence of cysts is more frequent in individuals with other early markers of kidney disease. We studied the association of donor kidney cysts with donor and recipient outcomes after living donor kidney transplantation. METHODS: We retrospective identified 860 living donor transplants at our center (1/1/2011-7/31/2022) without missing data. Donor cysts were identified by review of pre-donation CT scan reports. We used linear regression to study the association between donor cysts and 6-month single-kidney estimated glomerular filtration rate (eGFR) increase, and time-to-event analyses to study the association between donor cysts and recipient death-censored graft failure. RESULTS: Among donors, 77% donors had no kidney cysts, 13% had ≥1 cyst on the kidney not donated, and 11% only had cysts on the donated kidney. In adjusted linear regression, cysts on the donated kidney and kidney not donated were not significantly associated with 6-month single-kidney eGFR increase. Among transplants, 17% used a transplanted kidney with a cyst and 6% were from donors with cysts only on the kidney not transplanted. There was no association between donor cyst group and post-transplant death-censored graft survival. Results were similar in sensitivity analyses comparing transplants using kidneys with no cysts versus 1-2 cysts versus ≥3 cysts. CONCLUSIONS: Kidney cysts in living kidney donors were not associated with donor kidney recovery or recipient allograft longevity, suggesting incidental kidney cysts need not be taken into account when determining living donor candidate suitability or the laterality of planned donor nephrectomy.

Profiles of psychosocial stressors and buffers among Latinx immigrant youth: Associations with suicidal ideation.

This study aimed to examine the associations of latent profile group membership based on post-migration psychosocial stressors (proximal immigrant minority stress) and buffers (family, peer, and school support, and ethnic identity importance), and distal stressors (pre- to post-migration victimization and forced immigration-related family separation) with suicidal ideation among immigrant youth from the Northern Triangle (NT). Surveys were administered in a public high school-based Latinx immigrant youth support program between Spring 2019 and Spring 2022 (N = 172). A three latent profile model was previously identified, characterized by moderate stress/low buffer (weak resources), moderate stress/moderate buffer (average resources), and low stress/high buffer (strong resources) levels of psychosocial stressors and buffers. Associations of profile membership and the previously mentioned distal stressors with suicidal ideation were examined using multivariable logistic regression. Findings revealed that youth in the strong resources group experienced significant protection from suicidal ideation compared to youth in both the average and weak resources groups. Distal stressors were not significantly associated with suicidal ideation in multivariable analysis. Immigrant youth from the NT may require substantial buffering resources (i.e., ethnic identity importance, and school, family, and peer support) and minimization of proximal immigrant minority stress during post-migration to experience protection from suicidal ideation.

When pancreata fly: Outcomes and lessons learned from the development of a Pancreas Transplant Import Program.

BACKGROUND: To address long waitlist times and increase pancreas transplantation, our center has implemented a protocol for long-distance importation of pancreata. METHODS: We conducted a retrospective review of pancreas transplantation at our institution from January 1, 2014, the start of our importation program, through September 30, 2021. Outcomes were compared between locally procured grafts and imported grafts, defined as grafts procured greater than 250 nautical miles (NM) from our center. RESULTS: Eighty-one patients underwent pancreas transplantation during the study time period; 19 (23.5%) received imported grafts. There were no significant differences in recipient demographics or type of transplant received. Mean distance of import was 644.2 ± 234.0 NM. Imported grafts were more likely to be from pediatric donors <18 years old (p = .02) and a significantly higher proportion of imported grafts came from donors weighing <30 kg (26.3 vs. 3.2%, p = .007). Cold ischemic time was longer for imported grafts than for local grafts (13.4 ± 2.3 h vs. 9.8 ± 2.2 h, p < .01). There was no significant difference in deaths or graft losses within 90 days or at 1 year between groups. CONCLUSION: Centers should consider expanding criteria for acceptance of imported pancreata to increase the number of transplants and combat organ nonutilization.

Ricca's factors as mobile proteinaceous effectors of electrical signaling.

Leaf-feeding insects trigger high-amplitude, defense-inducing electrical signals called slow wave potentials (SWPs). These signals are thought to be triggered by the long-distance transport of low molecular mass elicitors termed Ricca's factors. We sought mediators of leaf-to-leaf electrical signaling in Arabidopsis thaliana and identified them as ß-THIOGLUCOSIDE GLUCOHYDROLASE 1 and 2 (TGG1 and TGG2). SWP propagation from insect feeding sites was strongly attenuated in tgg1 tgg2 mutants and wound-response cytosolic Ca2+ increases were reduced in these plants. Recombinant TGG1 fed into the xylem elicited wild-type-like membrane depolarization and Ca2+ transients. Moreover, TGGs catalyze the deglucosidation of glucosinolates. Metabolite profiling revealed rapid wound-induced breakdown of aliphatic glucosinolates in primary veins. Using in vivo chemical trapping, we found evidence for roles of short-lived aglycone intermediates generated by glucosinolate hydrolysis in SWP membrane depolarization. Our findings reveal a mechanism whereby organ-to-organ protein transport plays a major role in electrical signaling.

Arabidopsis immune responses triggered by cellulose- and mixed-linked glucan-derived oligosaccharides require a group of leucine-rich repeat malectin receptor kinases.

The plant immune system perceives a diversity of carbohydrate ligands from plant and microbial cell walls through the extracellular ectodomains (ECDs) of pattern recognition receptors (PRRs), which activate pattern-triggered immunity (PTI). Among these ligands are oligosaccharides derived from mixed-linked ß-1,3/ß-1,4-glucans (MLGs; e.g. ß-1,4-D-(Glc)2 -ß-1,3-D-Glc, MLG43) and cellulose (e.g. ß-1,4-D-(Glc)3 , CEL3). The mechanisms behind carbohydrate perception in plants are poorly characterized except for fungal chitin oligosaccharides (e.g. ß-1,4-d-(GlcNAc)6 , CHI6), which involve several receptor kinase proteins (RKs) with LysM-ECDs. Here, we describe the isolation and characterization of Arabidopsis thaliana mutants impaired in glycan perception (igp) that are defective in PTI activation mediated by MLG43 and CEL3, but not by CHI6. igp1-igp4 are altered in three RKs - AT1G56145 (IGP1), AT1G56130 (IGP2/IGP3) and AT1G56140 (IGP4) - with leucine-rich-repeat (LRR) and malectin (MAL) domains in their ECDs. igp1 harbors point mutation E906K and igp2 and igp3 harbor point mutation G773E in their kinase domains, whereas igp4 is a T-DNA insertional loss-of-function mutant. Notably, isothermal titration calorimetry (ITC) assays with purified ECD-RKs of IGP1 and IGP3 showed that IGP1 binds with high affinity to CEL3 (with dissociation constant KD  = 1.19 ± 0.03 µm) and cellopentaose (KD  = 1.40 ± 0.01 µM), but not to MLG43, supporting its function as a plant PRR for cellulose-derived oligosaccharides. Our data suggest that these LRR-MAL RKs are components of a recognition mechanism for both cellulose- and MLG-derived oligosaccharide perception and downstream PTI activation in Arabidopsis.

Consumo de frutas y verduras en mujeres Jefas de Hogar. Un estudio cualitativo

RESUMEN Introducción: La ingesta de frutas y verduras (FV) es reconocida como un factor protector de la salud cardiovascular y ciertos tipos de cáncer. Objetivo: identificar las opiniones de mujeres chilenas, asociadas al consumo de FV. Métodos: estudio de investigación cualitativa, mediante el empleo del análisis del discurso y la interpretación del lenguaje. La muestra estuvo constituida por 40 mujeres de edades entre los 20 y 65 años, con Nivel Socioeconómico (NSE) medio y medio bajo que participaban en el Programa Mujeres Jefas de Hogar (PMJH) en Chillán. A través de cuatro grupos de discusión se identificaron las opiniones de mujeres en torno a motivaciones, barreras, gastos asociados y conocimientos respecto al consumo de FV. Resultados: Entre las principales motivaciones para el consumo de FV por parte de las mujeres, se encontraron los beneficios para la salud y calidad de vida. Respecto a los obstáculos para no consumir FV, se encontró el costo económico. Las mujeres manifestaron conocer las recomendaciones de consumo, reconociendo el papel del personal de salud. Las mujeres destacaron a los niños como principales consumidores de FV en el hogar. Conclusiones: Las mujeres reconocen la importancia de consumir FV para mantener un óptimo estado de salud, sin embargo, el precio condiciona su consumo

ABSTRACT Introduction: Fruit and vegetable (FV) consumption is a recognized protective factor for cardiovascular health and certain types of cancer. Objective: to identify the opinions of Chilean women associated with the consumption of FV. Methods: Qualitative research study, using discourse analysis and language interpretation. The sample consisted of 40 women aged between 20 and 65 from a medium to low-medium socioeconomic level who participated in the Female Headed Household survey (abbreviation per name in Spanish, PMJH) in Chillán. Through four discussion groups, the opinions of women regarding motivations, barriers, associated costs, and knowledge regarding the consumption of FV were identified. Results: Among the main motivations for the consumption of FV by women were benefits for health and quality of life. Regarding the obstacles to not consuming FV, economic cost was noted; women stated knowing dietary recommendations, recognizing the role of health personnel. Women highlighted children as the main consumers of PV in the home. Conclusions: Women recognized the importance of consuming VF to maintain optimal health, however, price determined consumption

HSL1 and BAM1/2 impact epidermal cell development by sensing distinct signaling peptides.

The membrane receptor kinases HAESA and HSL2 recognize a family of IDA/IDL signaling peptides to control cell separation processes in different plant organs. The homologous HSL1 has been reported to regulate epidermal cell patterning by interacting with a different class of signaling peptides from the CLE family. Here we demonstrate that HSL1 binds IDA/IDL peptides with high, and CLE peptides with lower affinity, respectively. Ligand sensing capability and receptor activation of HSL1 require a SERK co-receptor kinase. Crystal structures with IDA/IDLs or with CLE9 reveal that HSL1-SERK1 complex recognizes the entire IDA/IDL signaling peptide, while only parts of CLE9 are bound to the receptor. In contrast, the receptor kinase BAM1 interacts with the entire CLE9 peptide with high affinity and specificity. Furthermore, the receptor tandem BAM1/BAM2 regulates epidermal cell division homeostasis. Consequently, HSL1-IDLs and BAM1/BAM2-CLEs independently regulate cell patterning in the leaf epidermal tissue.

Considerations for utilizing medullary sponge kidney allografts in pediatric patients.

BACKGROUND: Medullary sponge kidney (MSK) disease predisposes patients to recurrent nephrolithiasis, which affects one in every 5000 people in the United States. METHODS: We report a rare case of a pediatric recipient of a living donor MSK transplant and discuss considerations when discussing risks and benefits of accepting MSK allografts for this population. RESULTS: The recipient was admitted due to concerns for nephrolithiasis, hydronephrosis, and urinary tract infection at 1-month post-transplant. The hydronephrosis was resolved by surgical removal of an encrusted ureteral stent; this was followed by supplementation with oral medications to prevent future episodes of nephrolithiasis. The recipient did not have any further episodes after this as seen at a 1-year follow-up. The donor has remained well through this period. CONCLUSIONS: With increasing organ shortages, the use of variety of donors may need to be considered to enlarge the organ pool.

Arabidopsis natural variation in insect egg-induced cell death reveals a role for LECTIN RECEPTOR KINASE-I.1.

In Arabidopsis (Arabidopsis thaliana), a hypersensitive-like response (HR-like response) is triggered underneath the eggs of the large white butterfly Pieris brassicae (P. brassicae), and this response is dependent on salicylic acid (SA) accumulation and signaling. Previous reports indicate that the clade I L-type LECTIN RECEPTOR KINASE-I.8 (LecRK-I.8) is involved in early steps of egg recognition. A genome-wide association study was used to better characterize the genetic structure of the HR-like response and discover loci that contribute to this response. We report here the identification of LecRK-I.1, a close homolog of LecRK-I.8, and show that two main haplotypes that explain part of the variation in HR-like response segregate among natural Arabidopsis accessions. Besides, signatures of balancing selection at this locus suggest that it may be ecologically important. Disruption of LecRK-I.1 results in decreased HR-like response and SA signaling, indicating that this protein is important for the observed responses. Furthermore, we provide evidence that LecRK-I.1 functions in the same signaling pathway as LecRK-I.8. Altogether, our results show that the response to eggs of P. brassicae is controlled by multiple LecRKs.

Solution structure of the inhibitor of cysteine proteases 1 from Entamoeba histolytica reveals a possible auto regulatory mechanism.

The genome of Entamoeba histolytica encodes approximately 50 Cysteine Proteases (CPs) whose activity is regulated by two Inhibitors of Cysteine Proteases (ICPs), EhICP1 and EhICP2. The main difference between both EhICPs is the acquisition of a 17 N-terminal targeting signal in EhICP2 and three exposed cysteine residues in EhICP1. The three exposed cysteines in EhICP1 potentiate the formation of cross-linking species that drive heterogeneity. Here we solved the NMR structure of EhICP1 using a mutant protein without accessible cysteines. Our structural data shows that EhICP1 adopts an immunoglobulin fold composed of seven ß-strands, and three solvent exposed loops that resemble the structures of EhICP2 and chagasin. EhICP1 and EhICP2 are able to inhibit the archetypical cysteine protease papain by intercalating their BC loops into the protease active site independently of the character of the residue (serine or threonine) responsible to interact with the active site of papain. EhICP1 and EhICP2 present signals of functional divergence as they clustered in different clades. Two of the three exposed cysteines in EhICP1 are located at the DE loop that intercalates into the CP substrate-binding cleft. We propose that the solvent exposed cysteines of EhICP1 play a role in regulating its inhibitory activity and that in oxidative conditions, the cysteines of EhICP1 react to form intra and intermolecular disulfide bonds that render an inactive inhibitor. EhICP2 is not subject to redox regulation, as this inhibitor does not contain a single cysteine residue. This proposed redox regulation may be related to the differential cellular localization between EhICP1 and EhICP2.

Impact of warm ischemia time on outcomes for kidneys donated after cardiac death Post-KAS.

Prolonged warm (WIT) and cold (CIT) ischemia times are often important considerations in the discard of DCD kidneys, but their impact on post-transplant outcomes in the post-KAS era is unclear. We examined the association of ischemia time on delayed graft function (DGF) and death-censored graft failure for DCD kidneys. The 2018 SRTR SAF was utilized to identify post-KAS DCD kidney transplants occurring from 2015 to 2018. Relative risk and Cox regression were used to calculate risk of delayed graft function and hazard of death-censored graft failure, respectively. We identified 4,680 kidneys from DCD donors transplanted from 2015 to 2018 with recorded WIT and CIT times. Median WIT was 21.0 minutes (IQR 14.0-28.0), and CIT was 18.5 hours (IQR 13.9-23.5). The overall incidence of DGF was 42.7%. In a univariable relative risk regression model, extended CIT (24-30 hours:RR 1.37, 95% CI 1.15-1.77; >30 hours:RR 1.47, 95% CI 1.22-1.77) and WIT (20-40 minutes:RR 1.10, 95% CI 1.03-1.17) were associated with increased risk of DGF. When included in a multivariable model, neither prolonged CIT nor WIT were significantly associated with death-censored graft failure. Prolonged WIT and CIT are associated with increased DGF but not death-censored graft failure in recipients of DCD kidney transplants in the post-KAS era. Extended ischemia alone should not be used as a basis for discard or non-utilization of these organs.

Crystallographic Studies of Triosephosphate Isomerase from Schistosoma mansoni.

Protein structure determination by X-ray crystallography guides structure-function and rational drug design studies. Helminths cause devastating diseases, including schistosomiasis that affects over one-third of the human population. Trematodes from the genus Schistosoma heavily depend on glycolysis; thus enzymes involved in this metabolic pathway are potential drug targets. Here we present a protocol to obtain crystal structures of recombinantly expressed triosephosphate isomerase from S. mansoni (SmTPI) that diffracted in house to a resolution of 2 Å.

Modeling of pathogenic variants of mitochondrial DNA polymerase: insight into the replication defects and implication for human disease.

BACKGROUND: Mutations in human gene encoding the mitochondrial DNA polymerase γ (HsPolγ) are associated with a broad range of mitochondrial diseases. Here we studied the impact on DNA replication by disease variants clustered around residue HsPolγ-K1191, a residue that in several family-A DNA polymerases interacts with the 3' end of the primer. METHODS: Specifically, we examined the effect of HsPolγ carrying pathogenic variants in residues D1184, I1185, C1188, K1191, D1196, and a stop codon at residue T1199, using as a model the yeast mitochondrial DNA polymerase protein, Mip1p. RESULTS: The introduction of pathogenic variants C1188R (yV945R), and of a stop codon at residue T1199 (yT956X) abolished both polymerization and exonucleolysis in vitro. HsPolγ substitutions in residues D1184 (yD941), I1185 (yI942), K1191 (yK948) and D1196 (yD953) shifted the balance between polymerization and exonucleolysis in favor of exonucleolysis. HsPolγ pathogenic variants at residue K1191 (yK948) and D1184 (yD941) were capable of nucleotide incorporation albeit with reduced processivity. Structural analysis of mitochondrial DNAPs showed that residue HsPolγ-N864 is placed in an optimal distance to interact with the 3' end of the primer and the phosphate backbone previous to the 3' end. Amino acid changes in residue HsPolγ-N864 to Ala, Ser or Asp result in enzymes that did not decrease their polymerization activity on short templates but exhibited a substantial decrease for processive DNA synthesis. CONCLUSION: Our data suggest that in mitochondrial DNA polymerases multiple amino acids are involved in the primer-stand stabilization.

Crystal structures of Triosephosphate Isomerases from Taenia solium and Schistosoma mansoni provide insights for vaccine rationale and drug design against helminth parasites.

Triosephosphate isomerases (TPIs) from Taenia solium (TsTPI) and Schistosoma mansoni (SmTPI) are potential vaccine and drug targets against cysticercosis and schistosomiasis, respectively. This is due to the dependence of parasitic helminths on glycolysis and because those proteins elicit an immune response, presumably due to their surface localization. Here we report the crystal structures of TsTPI and SmTPI in complex with 2-phosphoglyceric acid (2-PGA). Both TPIs fold into a dimeric (ß-α)8 barrel in which the dimer interface consists of α-helices 2, 3, and 4, and swapping of loop 3. TPIs from parasitic helminths harbor a region of three amino acids knows as the SXD/E insert (S155 to E157 and S157 to D159 in TsTPI and SmTPI, respectively). This insert is located between α5 and ß6 and is proposed to be the main TPI epitope. This region is part of a solvent-exposed 310-helix that folds into a hook-like structure. The crystal structures of TsTPI and SmTPI predicted conformational epitopes that could be used for vaccine design. Surprisingly, the epitopes corresponding to the SXD/E inserts are not the ones with the greatest immunological potential. SmTPI, but not TsTPI, habors a sole solvent exposed cysteine (SmTPI-S230) and alterations in this residue decrease catalysis. The latter suggests that thiol-conjugating agents could be used to target SmTPI. In sum, the crystal structures of SmTPI and TsTPI are a blueprint for targeted schistosomiasis and cysticercosis drug and vaccine development.

Therapeutic living donor nephrectomy.

Therapeutic living donor nephrectomy is defined as a nephrectomy that is performed as therapy for an underlying medical condition. The patient directly benefits from having their kidney removed, but the kidney is deemed transplantable. The kidney is subsequently used as an allograft for an individual with advanced renal disease. Therapeutic donor nephrectomy can be successfully utilized for a heterogenous cohort of disease processes as both treatment for the donor and to increase the number of suitable organs available for transplantation. We describe four cases of therapeutic donor nephrectomy that were performed at our institution. Of the four cases, two patients elected to undergo therapeutic donor nephrectomy as treatment for loin pain hematuria syndrome; one after blunt abdominal trauma that resulted in complete proximal ureteral avulsion; and the fourth after being diagnosed with a small renal mass. Based on our data presented to the United Network for Organ Sharing Board of Directors (UNOS) in December 2015, living donor evaluation has been made simpler for patients electing to undergo therapeutic donor nephrectomy. UNOS eliminated the requirement for a psychosocial evaluation for these patients. As the organ shortage continues to limit transplantation, therapeutic donor nephrectomy should be considered when appropriate.

Properties of a Non-canonical Complex Formed Between a Tepary Bean (Phaseolus acutifolius) Protease Inhibitor and α-Chymotrypsin.

Protease inhibitors are crucial for the control of proteolytic activity in different physiological processes. However, some inhibitors do not show canonical enzyme recognition of the enzyme under certain conditions. In this work, we present evidence that indicates the formation of an active complex between the protease bovine α-chymotrypsin and the Tepary bean protease inhibitor (TBPI). The composition of the active chymotrypsin-TBPI complex (AC) was confirmed by three different methods: size-exclusion chromatography, polyacrylamide gel electrophoresis (PAGE), and mass spectrometry. The kinetic parameters for the AC were similar to those of the enzyme alone, indicating that TBPI binding does not produce any large changes in chymotrypsin. The molecular model proposed here postulates that TBPI binds outside the active cleft of the protease, but near enough to hinder the binding of high molecular weight substrates into the active site. This model was experimentally supported by the inhibitory effect on casein as a substrate, and the unaltered protease activity when a small synthetic substrate was used. We also found that the formation of this complex provided the enzyme with extra stability in denaturing conditions or in the presence of a reducing agent. The chymotrypsin-TBPI complex exhibited higher stability, indicating that autolysis can be partially prevented. When the enzyme was first inactivated followed by the addition of the inhibitor, the activity of the protease was restored. We described a possible mechanism where a plant protease inhibitor binds outside the active site of the enzyme while increasing its stability.

Amino and carboxy-terminal extensions of yeast mitochondrial DNA polymerase assemble both the polymerization and exonuclease active sites.

Human and yeast mitochondrial DNA polymerases (DNAPs), POLG and Mip1, are related by evolution to bacteriophage DNAPs. However, mitochondrial DNAPs contain unique amino and carboxyl-terminal extensions that physically interact. Here we describe that N-terminal deletions in Mip1 polymerases abolish polymerization and decrease exonucleolytic degradation, whereas moderate C-terminal deletions reduce polymerization. Similarly, to the N-terminal deletions, an extended C-terminal deletion of 298 amino acids is deficient in nucleotide addition and exonucleolytic degradation of double and single-stranded DNA. The latter observation suggests that the physical interaction between the amino and carboxyl-terminal regions of Mip1 may be related to the spread of pathogenic POLG mutant along its primary sequence.

Structural basis for the modulation of plant cytosolic triosephosphate isomerase activity by mimicry of redox-based modifications.

Reactive oxidative species (ROS) and S-glutathionylation modulate the activity of plant cytosolic triosephosphate isomerases (cTPI). Arabidopsis thaliana cTPI (AtcTPI) is subject of redox regulation at two reactive cysteines that function as thiol switches. Here we investigate the role of these residues, AtcTPI-Cys13 and At-Cys218, by substituting them with aspartic acid that mimics the irreversible oxidation of cysteine to sulfinic acid and with amino acids that mimic thiol conjugation. Crystallographic studies show that mimicking AtcTPI-Cys13 oxidation promotes the formation of inactive monomers by reposition residue Phe75 of the neighboring subunit, into a conformation that destabilizes the dimer interface. Mutations in residue AtcTPI-Cys218 to Asp, Lys, or Tyr generate TPI variants with a decreased enzymatic activity by creating structural modifications in two loops (loop 7 and loop 6) whose integrity is necessary to assemble the active site. In contrast with mutations in residue AtcTPI-Cys13, mutations in AtcTPI-Cys218 do not alter the dimeric nature of AtcTPI. Therefore, modifications of residues AtcTPI-Cys13 and AtcTPI-Cys218 modulate AtcTPI activity by inducing the formation of inactive monomers and by altering the active site of the dimeric enzyme, respectively. The identity of residue AtcTPI-Cys218 is conserved in the majority of plant cytosolic TPIs, this conservation and its solvent-exposed localization make it the most probable target for TPI regulation upon oxidative damage by reactive oxygen species. Our data reveal the structural mechanisms by which S-glutathionylation protects AtcTPI from irreversible chemical modifications and re-routes carbon metabolism to the pentose phosphate pathway to decrease oxidative stress.