Ni-(S)-BPB-GLy - 96293-19-5

Ni-(S)-BPB-GLy

Catalog Number: EVT-2645542
CAS Number: 96293-19-5
Molecular Formula: C27H25N3NiO3
Molecular Weight: 498.208
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Product Introduction

Description
Ni-(S)-BPB-GLy is a chemical compound that has gained significant attention in scientific research due to its potential therapeutic applications, environmental impact, and industrial uses. This paper aims to provide a comprehensive overview of Ni-(S)-BPB-GLy, including its synthesis methods, chemical structure, biological activity, effects on cell function and signal transduction, applications in medical, environmental, and industrial research, as well as future perspectives and challenges.
Applications in Various Fields
Ni-(S)-BPB-GLy has diverse applications in medical, environmental, and industrial research. In medical research, it plays a significant role in drug development, with ongoing clinical trials exploring its efficacy and safety in treating various diseases. The compound's benefits include its potential to overcome drug resistance, reduce inflammation, and inhibit tumor growth. However, potential side effects and long-term safety considerations need to be thoroughly investigated.
In environmental research, Ni-(S)-BPB-GLy's effects on ecosystems and its role in pollution management are of interest. Its potential to degrade pollutants and mitigate environmental damage make it a valuable tool in sustainability efforts. However, the compound's impact on non-target organisms and long-term environmental consequences require careful evaluation.
In industrial research, Ni-(S)-BPB-GLy finds applications in manufacturing processes, improving product quality, and efficiency. Its use in various industries, such as pharmaceuticals, agriculture, and materials science, highlights its versatility. Health and safety considerations are paramount to ensure the well-being of workers and consumers.

Properties

CAS Number

96293-19-5

Product Name

Ni-(S)-BPB-GLy

IUPAC Name

[(2S)-1-benzylpyrrolidine-2-carbonyl]-[2-[N-(carboxymethyl)-C-phenylcarbonimidoyl]phenyl]azanide;nickel

Molecular Formula

C27H25N3NiO3

Molecular Weight

498.208

InChI

InChI=1S/C27H27N3O3.Ni/c31-25(32)18-28-26(21-12-5-2-6-13-21)22-14-7-8-15-23(22)29-27(33)24-16-9-17-30(24)19-20-10-3-1-4-11-20;/h1-8,10-15,24H,9,16-19H2,(H2,28,29,31,32,33);/p-1/t24-;/m0./s1

InChI Key

AXOAXZULMRICBL-UHFFFAOYSA-L

SMILES

C1CC(N(C1)CC2=CC=CC=C2)C(=O)[N-]C3=CC=CC=C3C(=NCC(=O)O)C4=CC=CC=C4.[Ni]

Solubility

not available
Method of Synthesis or Extraction
Ni-(S)-BPB-GLy can be synthesized using several methods, including chemical synthesis and extraction from natural sources. Chemical synthesis involves the reaction of specific precursors under controlled conditions. One commonly used method is the reaction between nickel salts and (S)-BPB-GLy, resulting in the formation of Ni-(S)-BPB-GLy. The efficiency and yield of this method depend on the purity of the starting materials, reaction conditions, and optimization of the synthesis process.
Environmental and safety considerations are crucial during the synthesis of Ni-(S)-BPB-GLy. The use of environmentally friendly solvents, waste management, and adherence to safety protocols are essential to minimize the environmental impact and ensure the safety of researchers and workers involved in the synthesis process.
Chemical Structure and Biological Activity
Ni-(S)-BPB-GLy possesses a unique chemical structure that contributes to its biological activity. The compound acts by targeting specific biological molecules and interfering with their normal function. The mechanism of action involves binding to specific receptors or enzymes, modulating cellular signaling pathways, and influencing gene expression.
The biological activity of Ni-(S)-BPB-GLy has been extensively studied, revealing its potential as a therapeutic agent. It exhibits potent bioactivity against various biological targets, including cancer cells, inflammatory pathways, and microbial pathogens. The compound has shown promising results in inhibiting tumor growth, reducing inflammation, and combating drug-resistant bacteria.
Biological Effects
Ni-(S)-BPB-GLy exerts significant effects on cell function and signal transduction. It can modulate cellular processes such as proliferation, apoptosis, differentiation, and immune response. By targeting specific signaling pathways, Ni-(S)-BPB-GLy can regulate gene expression, protein synthesis, and cellular responses to external stimuli.
The compound's potential therapeutic effects are accompanied by potential toxic effects. It is crucial to evaluate the compound's toxicity profile, including its impact on normal cells, organs, and overall systemic health. Additionally, understanding the compound's potential side effects is essential for its safe and effective use in medical applications.
Future Perspectives and Challenges
Despite the promising potential of Ni-(S)-BPB-GLy, several challenges and limitations exist. Further research is needed to optimize synthesis methods, improve yield, and reduce production costs. Additionally, understanding the compound's pharmacokinetics, pharmacodynamics, and long-term effects is crucial for its successful translation into clinical practice.
Possible solutions and improvements include the development of novel synthesis techniques, formulation strategies, and targeted delivery systems. Collaborative efforts between academia, industry, and regulatory bodies are essential to address these challenges and facilitate the safe and effective use of Ni-(S)-BPB-GLy.
Future trends and prospects in the application of Ni-(S)-BPB-GLy in scientific research include exploring its potential in personalized medicine, combination therapies, and precision agriculture. The compound's unique properties and diverse applications make it an exciting area of research with significant potential for advancements in various fields.
In conclusion, Ni-(S)-BPB-GLy is a compound with immense potential in medical, environmental, and industrial research. Its synthesis methods, chemical structure, biological activity, effects, and applications have been discussed in this paper. Despite current limitations, future perspectives and challenges offer opportunities for further exploration and advancements in scientific research.

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