PEPTIDE NOVA
LIPO-C (MIC-B12 Skinny Shot)
Original price was: $149.99.$89.99Current price is: $89.99.
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Description
Product Overview
LIPO-C (MIC-B12 Skinny Shot) is a laboratory research compound referenced in scientific literature and studied in peptide and metabolic pathway research contexts. Within controlled laboratory and preclinical research environments, this formulation is examined for its component interactions in metabolic signaling pathways, molecular communication, and laboratory peptide characterization when used in experimental model systems.
As a laboratory research compound, LIPO-C is utilized to study molecular mechanisms, cellular signaling interactions, and biochemical stability of its constituent compounds. Researchers focus on its chemical composition and activity profiles for preclinical studies investigating metabolic and molecular regulatory pathways.
WHAT IS LIPO-C (MIC-B12)
LIPO-C is a synthetic laboratory research compound formulated to include B-complex vitamins and amino acid derivatives commonly studied in experimental metabolic and signaling research. It is classified as a biochemical research formulation, designed for laboratory investigation of metabolic interactions and molecular signaling pathways.
In research contexts, LIPO-C is examined for its component effects on metabolic signaling networks, cellular communication systems, and intracellular molecular pathways in preclinical experimental models. Researchers utilize it to investigate biochemical interactions, molecular stability, and pathway-specific mechanisms under controlled laboratory conditions.
Key Research Areas
Scientific literature references LIPO-C in several laboratory research areas, including:
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metabolic pathway research
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peptide and amino acid signaling studies
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cell signaling research
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intracellular signaling mechanism analysis
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molecular regulatory pathway investigation
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biochemical stability and structural activity studies
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laboratory peptide and compound characterization
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receptor interaction studies in experimental models
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preclinical research compound evaluation
These areas are explored in controlled laboratory and preclinical research models.
Molecular Structure & Scientific Profile
Compound Name: LIPO-C (MIC-B12)
Peptide Classification: Laboratory research compound / metabolic formulation
Composition: Amino acid derivatives (e.g., methionine, inositol, choline) with vitamin B12 (cyanocobalamin)
Format: Liquid formulation for laboratory research
Quantity: Standard laboratory vial (volume variable, e.g., 1–10 mL)
CAS Numbers: Individual components referenced in scientific literature (e.g., B12: 68-19-9)
LIPO-C is a synthetic laboratory compound composed of amino acid derivatives and vitamin cofactors formulated for experimental research. Its structure allows researchers to study biochemical and metabolic interactions, cellular signaling, and pathway-specific regulatory mechanisms. Laboratory characterization studies include analysis of molecular stability, component interactions, and signaling pathway activity in preclinical models.
Scientific Research Context
LIPO-C has been explored in preclinical and experimental research investigating metabolic signaling pathways, molecular regulatory mechanisms, and amino acid-mediated cellular interactions. Studies focus on component interactions within laboratory-controlled conditions and their impact on biochemical and molecular signaling networks.
In experimental research models, LIPO-C has been examined in studies related to intracellular signaling cascades, metabolic pathway modulation, and biochemical compound interactions. These investigations are conducted in preclinical laboratory environments to understand molecular mechanisms and pathway-specific responses.
Product Specifications
Compound Name: LIPO-C (MIC-B12)
Peptide Classification: Laboratory research compound / metabolic formulation
Format: Liquid formulation for laboratory research
Quantity: 1–10 mL per vial (as provided for experimental use)
Research Category: Metabolic pathway research / peptide and amino acid signaling research / laboratory compound characterization
Storage Recommendations: Store under refrigerated laboratory conditions in a cool, dry environment. Protect from light and contamination. Follow laboratory safety procedures for handling biochemical solutions.
Research Disclaimer
Research Use Only. Not for human or veterinary use. Not approved by the FDA and not intended to diagnose, treat, cure, or prevent any disease.
Links To Research Studies
Research Studies:
• A study published in The Journal of Physiology (2007) found that L-Carnitine supplementation supports fat metabolism and may improve body composition by reducing fat mass and increasing muscle glycogen, particularly in active individuals.
• Research from the University of Maryland Medical Center (2002) indicates that L-Carnitine, when injected, is absorbed nearly 100% compared to oral supplements, enhancing its effectiveness in fat metabolism.
• A 2023 study in Nutrients linked Vitamin B12 deficiency to higher body weight and fat mass, suggesting that B12 supplementation, as found in LIPO-C, may support energy levels and weight management.
• A study in The American Journal of Clinical Nutrition showed that dietary methionine restriction in individuals with metabolic syndrome increased fat digestion, supporting the role of methionine in fat metabolism.
• Research on Inositol, published in Metabolism: Clinical and Experimental, demonstrated that a combination of myoinositol and D-chiroinositol accelerated weight and fat loss in women with polycystic ovary syndrome, indicating its potential lipotropic effects.
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