Peptide Information

Welcome to BioBoost Labs+TM!

Here you’ll find top-quality research peptides designed for scientific and laboratory use.

Please note: All our products are strictly for research purposes only. They are not meant for human consumption, nor for medical or therapeutic use. This labeling is required by law to ensure safety and regulatory compliance.

Research Use Disclaimer

BioBoost Labs™+ products are intended strictly for laboratory research purposes only. These compounds are not approved for human or veterinary use.

BioBoost Labs™+ does not provide medical advice, dosing guidance, reconstitution instructions, administration protocols, or usage recommendations of any kind. We do not promote or support the use of our products outside of qualified research settings.

All products are sold with the understanding that they will be handled and used solely by properly trained and licensed professionals in compliance with applicable laws and regulations.

BioBoost Labs™+ assumes no liability for misuse, misrepresentation, or use outside of designated research purposes.

Inhibits nicotinamide N-methyltransferase (NNMT), resulting in elevated cellular NAD+ concentrations in research models.

A synthetic peptide fragment corresponding to the C-terminal region (residues 177-191) of human growth hormone, characterized for receptor-ligand interaction profiling and downstream signaling cascade analysis in cell-free assay systems.

A USP-grade sterile aqueous research solvent preserved with 0.9% benzyl alcohol, for the solubilization and preparation of lyophilized research reference standards in controlled laboratory settings. For in-vitro laboratory use only.

A synthetic pentadecapeptide fragment characterized for VEGFR2 receptor interaction dynamics and signaling cascade analysis in cell-based assay systems.

A synthetic acylated amylin receptor-binding peptide analog for in-vitro amylin receptor binding affinity assays and receptor complex characterization.

CJC-1295 functions as a growth hormone-releasing hormone (GHRH) receptor agonist with an extended half-life (when DAC-modified); Ipamorelin acts as a ghrelin mimetic stimulating the growth hormone secretagogue receptor, together enhancing somatotropic axis signaling.

A multi-peptide research complex for in-vitro multi-target pathway interaction profiling, extracellular matrix component analysis, and comparative signaling cascade studies across complementary receptor systems.

A synthetic analog of insulin-like growth factor-1 with a 13-amino acid N-terminal extension, for in-vitro IGF-1 receptor binding kinetics assays, receptor-ligand interaction profiling, and downstream signaling cascade analysis.

A peptide complex associated with lipotropic activity that may increase mitochondrial fatty acid oxidation and enhance energy metabolism.

A synthetic alpha-MSH analog peptide for in-vitro melanocortin receptor subtype binding selectivity profiling (MC1R, MC3R, MC4R, MC5R) and downstream cAMP signaling cascade quantification.

A mitochondrial-derived peptide regulating metabolic homeostasis by modulating cellular energy pathways.

Nicotinamide adenine dinucleotide, a coenzyme for in-vitro redox reaction studies, mitochondrial electron transport chain analysis, sirtuin pathway activity assays, and DNA repair mechanism quantification.

A neuropeptide analog that interacts with oxytocin receptors, modulating neurochemical signaling.

A synthetic melanocortin receptor agonist peptide for melanocortin receptor subtype selectivity profiling in non-clinical cell-based models.

A synthetic tri-receptor research peptide for in-vitro GLP-1, GIP, and glucagon receptor binding selectivity profiling and comparative receptor affinity studies.

A synthetic GLP-1 receptor-binding peptide analog for in-vitro receptor affinity and signaling pathway analysis in cell-free assay systems.

A synthetic growth hormone-releasing hormone (GHRH) analog stimulating pituitary somatotrophs.

A synthetic 43-amino acid peptide fragment of Thymosin Beta-4 for in-vitro actin-binding interaction assays, cytoskeletal dynamics profiling, and cellular motility analysis in controlled cell-based systems.

A synthetic growth hormone-releasing hormone receptor-binding peptide analog for in-vitro GHRH receptor binding kinetics and downstream endocrine signaling pathway analysis.

A synthetic dual-receptor research peptide for in-vitro GIP and GLP-1 receptor binding selectivity profiling and incretin pathway signaling analysis.

A mitochondria-targeted tetrapeptide antioxidant that mitigates mitochondrial oxidative stress by preserving electron transport chain function.