Chemistry
Enass J. Waheed; Ali M. A. Al-Khazraji; Awf A. R. Ahmed
Abstract
Mannich base is a versatile compound that can be easily modified to introduce different functional groups, allowing for the creation diverse selection of items with varying features. Additionally, the Mannich reaction is a valuable tool in organic synthesis, due to the fact it provides an effortless ...
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Mannich base is a versatile compound that can be easily modified to introduce different functional groups, allowing for the creation diverse selection of items with varying features. Additionally, the Mannich reaction is a valuable tool in organic synthesis, due to the fact it provides an effortless and efficient approach for synthesizing C-N bonds. Overall, The Mannich base and even its derivatives are essential in many aspects of chemistry and its complexes are in the pharmaceutical industry. Studies have revealed that it shows good anti-cancer, anti-mycobacterial, remarkable anti-HIV, anti-tubercular, anti-convulsant, anti-fungal, antiviral, antitumor, cytotoxic activities and in industrial applications such as in the creation of polymers, surface activity agents, deter gents and resins. The presence of the basic Mannich sidechain has shown marked antimalarial, anti - inflammatory, analgesic and anti - microbial activities. These compounds have also been shown to inhibit corrosion, as well as antioxidant and reducing agents. This review article shows the definition, importance and different applications of Mannich base ligands with transitional metal. These complexes exhibit potent anti-microbial, antiviral, and anti-cancer activities, showcasing their potential in pharmaceutical research and drug development. Moreover, the luminescent properties of Mannich base metal complexes have been harnessed for applications in optoelectronics and sensing. Their tunable emission profiles make them suitable candidates for various sensing platforms and light-emitting devices Mannich base metal complexes.
Biotechnology
Zainab S. Abbas; Ghassan M. Sulaiman; Majid S. Jabir; Hamdoon A. Mohammed; Salman A. A. Mohammed
Abstract
Galangin, a non-toxic phytochemical, is known to have a variety of therapeutic uses. This study looked into the role of inclusion complexes of galangin/β-cyclodextrin in increasing antioxidant activity over pure galangin. The role of this inclusion complex in increasing antioxidant activity in comparison ...
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Galangin, a non-toxic phytochemical, is known to have a variety of therapeutic uses. This study looked into the role of inclusion complexes of galangin/β-cyclodextrin in increasing antioxidant activity over pure galangin. The role of this inclusion complex in increasing antioxidant activity in comparison to pure galangin. In this study, hydrogen peroxide assays were used in vitro. Galangin demonstrated concentration-dependent scavenging action in the 2-50 µg mL-1 range, with the highest level of activity possible 92.00% at 50 µg mL-1. In pure galangin, a decrease of 85.00% was observed. The ferric thiocyanate lipoperoxidation method was clarified by using galangin and galangin/β-cyclodextrin and demonstrated concentration-dependent suppress lipid peroxidation in the 2-50 µg mL-1 range, at 50 µg mL-1, the highest level of activity was 70.00%. A 60.00% decrease in pure galangin was observed. Xanthine oxidase activity using uric acid was given. The co-incubation of galangin and galangin/β-cyclodextrin inhibited xanthine oxidase activity in a concentration-dependent manner in 2-50 µg mL-1 range, at 50 µg mL-1, the highest level of activity was 90.00 %. Pure galangin showed an 82.00 % decrease. There were no significant differences in absolute weight of mice organs and hematological parameters between pure galangin and galangin/ β-cyclodextrin when used concentration 80 mg kg-1, compared to control group. According to the findings, galangin combined with β-cyclodextrin has excellent properties as a therapeutic agent and food supplement.
Chemistry
Reem A. Al-Qaisi; Abdulnasser M. Al-Gebori; Mohammed Hadi Munshed Alosami
Abstract
Oxidative stress has been linked to the development of a variety of malignancies, including leukemia. Furthermore, the incidence of leukemia increases with age due to an increase in the number of free radicals reacting with age and a lower ability of the immune system to detoxify those free radicals. ...
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Oxidative stress has been linked to the development of a variety of malignancies, including leukemia. Furthermore, the incidence of leukemia increases with age due to an increase in the number of free radicals reacting with age and a lower ability of the immune system to detoxify those free radicals. This study aims to investigate the levels of antioxidant activity and their relationship with various types of leukemia. The current study was carried out in the Hematology section of Baghdad Teaching Hospital/Medical City from November 2020 to January 2021. Patients with leukemia (n = 60) were divided into four groups based on their leukemia type: Acute lymphoid leukemia (ALL), acute myeloid leukemia (AML), chronic lymphoid leukemia (CLL), and chronic myeloid leukemia (CML). These groups were compared to 30 healthy subjects. In this study, serum levels of superoxide dismutase (SOD) and vitamin E were measured using an enzyme-linked immunosorbent assay. The findings revealed that (Mean±SE) SOD levels were observed to be raised with age, but (Mean±SE) vitamin E levels decreased with age in leukemia patients. There were no statistically significant differences in gender (males and females). Compared with healthy subjects, the results showed a significant increase in SOD levels in ALL, AML, CLL, and CML (P < 0.01). There were no statistically significant differences observed in vitamin E levels in ALL, AML, and CML except for the CLL group, which showed a significant decrease compared to the healthy subjects. Positive correlations were found between SOD and age (r = 0.367 P < 0.01). These results suggest that SOD and vitamin E levels play a critical role as an indicator of acute and chronic leukemia.
Laser Science and Technology
Kareem H. Jawad; Butheina Hasson
Abstract
Porous silicon nanoparticles, or PSNPs, are one of the most common NPS with distinct characteristics. PSNPs were created using an enhanced approach known as the electrochemical etching process. The nanoparticles were treated with a post-laser to obtain the nanoparticles, which were subsequently analyzed ...
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Porous silicon nanoparticles, or PSNPs, are one of the most common NPS with distinct characteristics. PSNPs were created using an enhanced approach known as the electrochemical etching process. The nanoparticles were treated with a post-laser to obtain the nanoparticles, which were subsequently analyzed using (SEM), (UV-Vis), and (XRD). The size refers to porous silicon with a nanostructure. Because of the differences in interaction between the HF electrolyzed and silicon and crystal structure, PS (100) offers better NP properties than directional silicon (111). PSNPs' antioxidant activity was measured using the DPPH test, while cytotoxicity was measured using the MTT assay on Hella cells. PSNPs have an inhibitory impact on cancer cell growth and antioxidants, according to the findings. PSNPs did not have any toxicological effects on the skin, lungs, or spleen after injection.