Inorganic Pyrophosphatases: Study of Interest

Daouda, Mar Papa; Bouchra, El Khalfi; Roman, Perez-Castiñeira Jose; Serrano, Aurelio; Soukri, Abdelaziz

doi:10.4236/abb.2017.810028

ABB

2017

DOI: 10.4236/abb.2017.810028

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Inorganic Pyrophosphatases: Study of Interest

Mar Papa Daouda¹,

El Khalfi Bouchra²,

Perez-Castiñeira Jose Roman³

et al.

Abstract: Inorganic pyrophosphatases are enzymes that catalyze the hydrolysis of inorganic pyrophosphate to orthophosphate. These enzymes are divided into two groups: the soluble pyrophosphatases and the membrane pyrophosphatases. They vary in structure and each has a determined catalysis mechanism. Soluble pyrophosphatases are ubiquitous enzymes and play a key role in regulating the rate of pyrophosphate and balance in this sense, the biosynthetic reactions. Membrane pyrophosphatases are ion pumps, producing a proton o… Show more

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Cited by 3 publications

References 41 publications

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H+-translocating pyrophosphatases in protozoan parasites

Araujo-Ruiz,

Mondragón-Flores

2024

Parasitol Res

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Integral membrane pyrophosphatases (mPPases) hydrolyze pyrophosphate. This enzymatic mechanism is coupled with the pumping of H + and/or Na + across membranes, which can be either K + -dependent or K + -independent. Inorganic proton–translocating pyrophosphatases (H + -PPases) can transport protons across cell membranes and are reported in various organisms such as plants, bacteria, and protozoan parasites. The evolutionary implications of these enzymes are of great interest for proposing approaches related to the treatment of parasitic of phytopathogenic diseases. This work presents a literature review on pyrophosphate, pyrophosphatases, their inhibitors and emphasizes H + -PPases found in various medically significant protozoan parasites such as Toxoplasma gondii, the causative agent of toxoplasmosis, and Plasmodium falciparum, the causative agent of malaria, as well as protozoan species that primarily affect animals, such as Eimeria maxima and Besnoitia besnoiti.

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H+-translocating pyrophosphatases in protozoan parasites

Araujo-Ruiz,

Mondragón-Flores

2024

Parasitol Res

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Root endophytic fungus Serendipita indica modulates barley leaf blade proteome by increasing the abundance of photosynthetic proteins in response to salinity

et al. 2021

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Aims The present study aimed at analysing the proteome pattern of the leaf blade of barley (Hordeum vulgare L.) in Serendipita indica‐colonised plants to decipher the molecular mechanism of S. indica‐mediated salt stress. This work is aligned with our previous research on barley leaf sheath to study proteomic pattern variability in leaf blade and sheath of barley plant in response to salinity and S. indica inoculation. Methods and Results The experiment was conducted using a completely randomised factorial design with four replications and two treatments: salinity (0 and 300 mmol l−1 NaCl) and fungus (noninoculated and S. indica‐inoculated). The leaf blades of the salt‐treated S. indica‐colonised and noninoculated plants were harvested after 2 weeks of salt treatment for the physiological and proteomic analyses. After exposure to 300 mmol l−1 NaCl, shoot dry matter production in noninoculated control plants decreased 84% which was about twofold higher than inoculated plants with S. indica. However, the accumulation of sodium in the shoot of S. indica‐inoculated plants was significantly lower than the control plants. Analysis of the proteome profile revealed a high number of significantly up‐regulated proteins involved in photosynthesis (26 out of 42 identified proteins). Conclusions The results demonstrated how the enhanced plant growth and salt stress resistance induced by S. indica was positively associated with the up‐regulation of several proteins involved in photosynthesis and carbohydrate metabolism. In fact, S. indica improved photosynthesis in order to reach the best possible performance of the host plant under salt stress. Significance and Impact of the Study Current research provides new insight into the mechanism applied by S. indica in reducing the negative impacts of salt stress in barley at physiological and molecular levels.

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Calcium Carbonate of Blood Cockle (Anadara granosa) Shells induced VEGF-A Expression in Dentin Pulp Complex An In Vivo Study

Praja¹,

Dhaniar²,

Santoso³

et al. 2022

MJMHS

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Introduction: Mild or moderate-intensity injury will respond with a brief inflammatory response followed by reactionary dentinogenesis. Calcium hydroxide has been considered the gold standard for pulp capping materials for decades to stimulate the formation of tertiary dentin. Blood clamshells (Anadara granosa) contained a high content of calcium carbonate (CaCO3) in the blood clamshells. It is a source of calcium and it has good biocompatibility to be used as a bone repair material. This study is aimed to reveal the expression VEGF-A in odontoblast pulp cells on days 1, 3, and 7 after administration of blood clam shells derived calcium carbonate in dentin pulp complex. Methods: Thirty Wistar rats (Rattus norvegicus) were divided into 6 groups consist of 5 random samples each. The experimental group’s cavity was prepared on the occlusal side of the right upper molar, and they were treated with blood clamshell calcium carbonate suspension and sealed with RMGIC. For decalcification, the solution was replaced with ethylene-diamine tetra acetic acid (EDTA) after 24 hours and was refreshed every day. Anti-VEGF-A monoclonal antibodies were used for HE and immunohistochemical staining. Result: In this study, the results were obtained consecutively on the 1st, 3rd, and 7th day with p> 0.05 for VEGF-A in all groups. Conclusion: The application of calcium carbonate is expected to be an innovative treatment in opening up new pathways for the regenerative dentin process through upregulation of VEGF-A

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Inorganic Pyrophosphatases: Study of Interest

Cited by 3 publications

References 41 publications

H+-translocating pyrophosphatases in protozoan parasites

H+-translocating pyrophosphatases in protozoan parasites

Root endophytic fungus Serendipita indica modulates barley leaf blade proteome by increasing the abundance of photosynthetic proteins in response to salinity

Calcium Carbonate of Blood Cockle (Anadara granosa) Shells induced VEGF-A Expression in Dentin Pulp Complex An In Vivo Study

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