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4. Rubisco Activases: AAA+ Chaperones Adapted to Enzyme Repair

Author

Bhat, Javaid Y., Thieulin-Pardo, Gabriel, Hartl, F. Ulrich, and Hayer-Hartl, Manajit

Subjects
inorganic chemicals, CO2 fixation, Rubisco, photosynthesis, Rubisco activase, fungi, food and beverages, Molecular Biosciences, Review, AAA+ protein, Biochemistry, Genetics and Molecular Biology (miscellaneous), Molecular Biology, Biochemistry
Abstract

Ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco), the key enzyme of the Calvin-Benson-Bassham cycle of photosynthesis, requires conformational repair by Rubisco activase for efficient function. Rubisco mediates the fixation of atmospheric CO2 by catalyzing the carboxylation of the five-carbon sugar ribulose-1,5-bisphosphate (RuBP). It is a remarkably inefficient enzyme, and efforts to increase crop yields by bioengineering Rubisco remain unsuccessful. This is due in part to the complex cellular machinery required for Rubisco biogenesis and metabolic maintenance. To function, Rubisco must undergo an activation process that involves carboxylation of an active site lysine by a non-substrate CO2 molecule and binding of a Mg2+ ion. Premature binding of the substrate RuBP results in an inactive enzyme. Moreover, Rubisco can also be inhibited by a range of sugar phosphates, some of which are “misfire” products of its multistep catalytic reaction. The release of the inhibitory sugar molecule is mediated by the AAA+ protein Rubisco activase (Rca), which couples hydrolysis of ATP to the structural remodeling of Rubisco. Rca enzymes are found in the vast majority of photosynthetic organisms, from bacteria to higher plants. They share a canonical AAA+ domain architecture and form six-membered ring complexes but are diverse in sequence and mechanism, suggesting their convergent evolution. In this review, we discuss recent advances in understanding the structure and function of this important group of client-specific AAA+ proteins.

Published
2017
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5. Mechanism of Enzyme Repair by the AAA

Author

Javaid Y, Bhat, Goran, Miličić, Gabriel, Thieulin-Pardo, Andreas, Bracher, Andrew, Maxwell, Susanne, Ciniawsky, Oliver, Mueller-Cajar, John R, Engen, F Ulrich, Hartl, Petra, Wendler, and Manajit, Hayer-Hartl

Subjects
Binding Sites, Time Factors, Ribulose-Bisphosphate Carboxylase, Deuterium Exchange Measurement, Rhodobacter sphaeroides, Molecular Docking Simulation, Protein Subunits, Structure-Activity Relationship, Adenosine Triphosphate, Cross-Linking Reagents, Allosteric Regulation, Bacterial Proteins, Catalytic Domain, Tissue Plasminogen Activator, Enzyme Stability, Protein Interaction Domains and Motifs, Protein Structure, Quaternary, Molecular Chaperones, Plant Proteins, Protein Binding
Abstract

How AAA+ chaperones conformationally remodel specific target proteins in an ATP-dependent manner is not well understood. Here, we investigated the mechanism of the AAA+ protein Rubisco activase (Rca) in metabolic repair of the photosynthetic enzyme Rubisco, a complex of eight large (RbcL) and eight small (RbcS) subunits containing eight catalytic sites. Rubisco is prone to inhibition by tight-binding sugar phosphates, whose removal is catalyzed by Rca. We engineered a stable Rca hexamer ring and analyzed its functional interaction with Rubisco. Hydrogen/deuterium exchange and chemical crosslinking showed that Rca structurally destabilizes elements of the Rubisco active site with remarkable selectivity. Cryo-electron microscopy revealed that Rca docks onto Rubisco over one active site at a time, positioning the C-terminal strand of RbcL, which stabilizes the catalytic center, for access to the Rca hexamer pore. The pulling force of Rca is fine-tuned to avoid global destabilization and allow for precise enzyme repair.

Published
2017

6. Genetic diversity may help evolutionary rescue in a clonal endemic plant species of Western Himalaya

Author

Irshad Ahmad Sofi, Irfan Rashid, Javaid Yousuf Lone, Sandhya Tyagi, Zafar A. Reshi, and Reyazul Rouf Mir

Subjects
Medicine, Science
Abstract

Abstract Habitat loss due to climate change may cause the extinction of the clonal species with a limited distribution range. Thus, determining the genetic diversity required for adaptability by these species in sensitive ecosystems can help infer the chances of their survival and spread in changing climate. We studied the genetic diversity and population structure of Sambucus wightiana—a clonal endemic plant species of the Himalayan region for understanding its possible survival chances in anticipated climate change. Eight polymorphic microsatellite markers were used to study the allelic/genetic diversity and population structure. In addition, ITS1–ITS4 Sanger sequencing was used for phylogeny and SNP detection. A total number of 73 alleles were scored for 37 genotypes at 17 loci for 8 SSRs markers. The population structural analysis using the SSR marker data led to identifying two sub-populations in our collection of 37 S. wightiana genotypes, with 11 genotypes having mixed ancestry. The ITS sequence data show a specific allele in higher frequency in a particular sub-population, indicating variation in different S. wightiana accessions at the sequence level. The genotypic data of SSR markers and trait data of 11 traits of S. wightiana, when analyzed together, revealed five significant Marker-Trait Associations (MTAs) through Single Marker Analysis (SMA) or regression analysis. Most of the SSR markers were found to be associated with more than one trait, indicating the usefulness of these markers for working out marker-trait associations. Moderate to high genetic diversity observed in the present study may provide insurance against climate change to S. wightiana and help its further spread.

Published
2021
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7. Substrate-induced conformational changes in Plasmodium falciparum guanosine monophosphate synthetase

Author

Javaid Y, Bhat, Roopa, Venkatachala, and Hemalatha, Balaram

Subjects
Models, Molecular, Spectrometry, Fluorescence, Molecular Structure, Protein Conformation, Circular Dichroism, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Plasmodium falciparum, Guanosine Monophosphate, Protozoan Proteins, Deuterium Exchange Measurement, Carbon-Nitrogen Ligases, Protein Binding
Abstract

GMP synthetase is a glutamine amidotransferase that incorporates ammonia derived from glutamine into the nucleotide xanthosine 5'-monophosphate (XMP) to form guanosine 5'-monophosphate (GMP). Functional coordination of domains in glutamine amidotransferases leads to upregulation of glutamine hydrolysis in the presence of acceptor substrates and is a common feature in this class of enzymes. We have shown earlier that binding of substrates to the acceptor domain of Plasmodium falciparum GMP synthetase (PfGMPS) leads to enhancement in both glutaminase activity and rate of glutaminase inactivation, by the irreversible inhibitors acivicin and diazo-oxonorleucine [Bhat JY et al. (2008) Biochem J409, 263-273], a process that must be driven by conformational alterations. In this paper, through the combined use of biochemical assays, optical spectroscopy and mass spectrometry, we demonstrate that PfGMPS undergoes conformational transitions upon binding of substrates to the acceptor domain. Limited proteolysis and hydrogen-deuterium exchange in conjunction with mass spectrometry unveil region-specific conformational changes in the ATP + XMP bound state of PfGMPS. Decreased accessibility of R294 and K428 residues to trypsin in the ATP pyrophosphatase domain and reduced deuterium incorporation in the 143-155 region, pertaining to the glutaminase domain, suggest that in PfGMPS ligand-induced conformational changes are not only local but also transmitted over a long range across the domains. Overall, these results provide a detailed understanding of the substrate-induced changes in PfGMPS that could be essential for the overall catalytic process.

Published
2011

9. Cost-effectiveness of targeted screening for non-valvular atrial fibrillation in the United Kingdom in older patients using digital approaches.

Author

Patel S, Kongnakorn T, Nikolaou A, Javaid Y, and Mokgokong R

Subjects
Humans, Aged, Warfarin, Cost-Benefit Analysis, Anticoagulants therapeutic use, United Kingdom, Quality-Adjusted Life Years, Atrial Fibrillation drug therapy, Stroke
Abstract

Aim: Screening for non-valvular atrial fibrillation (NVAF) is key in identifying patients with undiagnosed disease who may be eligible for anticoagulation therapy. Understanding the economic value of screening is necessary to assess optimal strategies for payers and healthcare systems. We evaluated the cost effectiveness of opportunistic screening with handheld digital devices and pulse palpation, as well as targeted screening predictive algorithms for UK patients ≥75 years of age., Methods: A previously developed Markov cohort model was adapted to evaluate clinical and economic outcomes of opportunistic screening including pulse palpation, Zenicor (extended 14 days), KardiaMobile (extended), and two algorithms compared to no screening. Key model inputs including epidemiology estimates, screening effectiveness, and risks for medical events were derived from the STROKESTOP, ARISTOTLE studies, and published literature, and cost inputs were obtained from a UK national cost database. Health and cost outcomes, annually discounted at 3.5%, were reported for a cohort of 10,000 patients vs. no screening over a time horizon equivalent to a patient's lifetime, Analyses were performed from a UK National Health Services and personal social services perspective., Results: Zenicor, pulse palpation, and KardiaMobile were dominant (providing better health outcomes at lower costs) vs. no screening; both algorithms were cost-effective vs. no screening, with incremental cost-effectiveness ratios per quality-adjusted life-year (QALY) of £1,040 and £1,166. Zenicor, pulse palpation, and KardiaMobile remained dominant options vs. no screening in all scenarios explored. Deterministic sensitivity analyses indicated long-term stroke care costs, prevalence of undiagnosed NVAF in patients 75-79 years of age, and clinical efficacy of anticoagulant on stroke prevention were the main drivers of the cost-effectiveness results., Conclusions: Screening for NVAF at ≥75 years of age could result in fewer NVAF-related strokes. NVAF screening is cost-effective and may be cost-saving depending on the program chosen.

Published
2023
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