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VANTA
//Research Library

Reference, not prescription.

Compound overviews built from the primary literature, side-by-side comparisons, and handling notes - every line cited, nothing here medical advice. Reference material for laboratory work with VANTA compounds.

11

Compound overviews

5

Comparisons

87+

Cited references

All products are sold strictly for laboratory research purposes only. Not for human consumption, diagnostic, or therapeutic use.

01Compound research

Deep-dive references by compound.

Featured / 01

BPC-157: A Research Reference for the Stable Gastric Pentadecapeptide

BPC-157 is a synthetic pentadecapeptide that has been examined across a range of preclinical and in-vitro research models. This page summarizes how the peptide is described in the published literature and how VANTA verifies the identity and purity of each batch. All content is provided for laboratory research and reference purposes only and is not intended to describe human use.

Read the full overview
02

TB-500 (Thymosin Beta-4): A Research Reference

TB-500 is a synthetic peptide associated in the literature with the actin-regulating region of thymosin beta-4. This reference page summarizes how the molecule is described in published preclinical and in-vitro studies, the research areas it appears in, and how VANTA verifies identity and purity. All content is for laboratory research use only and is not guidance for human or animal administration.

Read overview
03

GHK-Cu (Copper Tripeptide): A Research Reference

GHK-Cu is a copper-bound tripeptide that has been examined across decades of laboratory and preclinical literature for its role in extracellular-matrix biology and cellular signaling. This page summarizes what researchers have reported in in-vitro, animal, and gene-expression models. It is reference material for laboratory research only and makes no human, therapeutic, or clinical claims.

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04

CJC-1295 + Ipamorelin: A Research Reference Overview

CJC-1295 and Ipamorelin are two synthetic peptides frequently paired in the growth-hormone secretagogue literature, where they have been examined for complementary effects on the somatotropic axis in preclinical and in-vitro models. This page summarizes the published research framing for both compounds and outlines how VANTA verifies identity and purity. All material is provided strictly for laboratory research use only and makes no human, clinical, or therapeutic claims.

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05

Ipamorelin: A Research Reference for Laboratory Study

Ipamorelin is a synthetic pentapeptide that has been studied in the scientific literature as a selective growth hormone secretagogue. This reference page summarizes what researchers have reported in preclinical and in-vitro models. It is intended solely as reference material for qualified laboratory investigators and makes no claims about use in humans.

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06

MK-677 (Ibutamoren): Research Overview, Studied Mechanisms, and Sourcing

MK-677 (Ibutamoren, also designated MK-0677) is a non-peptide compound widely characterized in the literature as an orally bioavailable growth hormone secretagogue. This reference page summarizes how researchers have described its mechanism and the preclinical and clinical models in which it has been examined. All material is provided strictly for laboratory research and informational purposes; nothing here is a recommendation for human or animal use.

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07

Epitalon (AEDG): A Research Reference Overview

Epitalon, also written Epithalon or Epithalone, is a synthetic tetrapeptide (Ala-Glu-Asp-Gly) that has been studied in the gerontology and pineal-bioregulation literature for over two decades. This reference page summarizes what researchers have examined in preclinical, in-vitro, and in-silico models. All content is provided strictly for laboratory research use; nothing here describes human use, dosing, or therapeutic outcomes.

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08

NAD+ (Nicotinamide Adenine Dinucleotide): A Research Reference

NAD+ (nicotinamide adenine dinucleotide) is a coenzyme that appears across a large body of biochemistry and preclinical literature. This page summarizes how researchers have characterized it and the model systems in which it has been examined. It is reference material for laboratory professionals only, framed around published findings rather than any outcome claim.

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09

Selank: A Research Reference Overview

Selank is a synthetic heptapeptide derived from the immunomodulatory fragment tuftsin, studied in academic literature primarily for its proposed effects on GABAergic signaling, enkephalin metabolism, and neurotrophic factor expression. This page summarizes what the preclinical and in-vitro literature reports for laboratory reference only. All information is provided for research-use-only contexts and is not guidance for human or animal use.

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10

Semax: A Research Reference on the ACTH(4-10) Analog Peptide

Semax is a synthetic heptapeptide derived from a fragment of adrenocorticotropic hormone (ACTH) that has been examined extensively in preclinical neuroscience literature. This page summarizes what the peptide is, the mechanisms researchers have studied, and the laboratory models in which it appears. All information is provided for research and reference purposes only and describes published findings in animal and in-vitro systems, not outcomes in humans.

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11

MOTS-c: Mitochondrial-Derived Peptide Research Reference

MOTS-c is a mitochondrial-derived peptide that researchers have examined in preclinical metabolic, skeletal-muscle, and aging models. This reference summarizes how it has been studied in the literature, with hedged framing throughout. All content is intended for laboratory research use only and makes no human, therapeutic, or dosing claims.

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02Compared

Side-by-side research comparisons.

BPC-157 vs TB-500: How the Literature Studies Two Repair-Associated Peptides

BPC-157 and TB-500 are two of the most frequently referenced peptides in tissue-repair literature, yet they are studied through different mechanistic lenses. This reference overview compares how preclinical and in-vitro investigators have characterized each compound, what experimental models each appears in, and how the two are distinguished. It is intended strictly for laboratory researchers and makes no human, therapeutic, or dosing claims.

Compare

CJC-1295 vs Ipamorelin: How the Literature Treats Each Peptide

CJC-1295 and Ipamorelin are two research peptides that the literature has studied in connection with the growth-hormone (GH) axis, but they appear to act on different receptor systems and surface in different experimental models. This reference compares how published preclinical and in-vitro work characterizes each compound. It is intended for laboratory researchers only and makes no human, therapeutic, or dosing claims.

Compare

MK-677 vs Ipamorelin: A Research-Use Comparison

MK-677 and ipamorelin are both studied in the published literature as growth hormone secretagogues that engage the ghrelin/GHS receptor system, but they differ in chemical class, route, and the preclinical models in which they appear. This overview summarizes how researchers have characterized each compound. It is provided strictly for research-use-only context and makes no human, dosing, or therapeutic claims.

Compare

Selank vs Semax: A Reference Comparison of Two Studied Regulatory Peptides

Selank and Semax are both short synthetic peptides derived from endogenous human sequences that appear frequently in the neuropeptide research literature. This reference is intended for laboratory researchers and compares how the two compounds are characterized and studied in preclinical and in-vitro models; it makes no claims about effects in humans. All material is provided strictly for research-use-only context and is not guidance for any form of use.

Compare

GHK-Cu vs BPC-157: How the Research Literature Compares Two Study Compounds

GHK-Cu and BPC-157 are two distinct peptides that recur in preclinical and in-vitro literature, often within overlapping themes of tissue remodeling and repair. This reference compares what each compound is, how their studied mechanisms differ, and which experimental models each appears in. All statements are research-framed and for laboratory reference only; nothing here is intended to describe human use, dosing, or outcomes.

Compare
03Handling essentials

Treat the material like the data depends on it.

01

Reconstitution

Lyophilized peptides are reconstituted with bacteriostatic water. Add solvent slowly down the vial wall, never directly onto the powder, and swirl gently rather than shaking.

02

Storage

Store sealed vials cold and dark. Lyophilized material is stable refrigerated; once reconstituted, keep refrigerated and use within the working window for that compound class.

03

Documentation

Log batch numbers and COA verification keys against your experiments. Each VANTA batch carries its own identity and purity record for full traceability.

05Common questions

Straight answers.

What does reference-grade mean here?

It means the compound has been confirmed for identity by mass spectrometry and quantified for purity by HPLC against a reference standard, with results recorded on a per-batch Certificate of Analysis.

Why is bacteriostatic water sold separately?

Reconstitution solvent is consumable and dependent on the researcher's protocol and volume. We stock bacteriostatic water so you can match it to your own work rather than pay for a fixed pairing.

Do you provide protocols or dosing?

No. VANTA supplies materials for laboratory research only and does not provide dosing, protocols, or guidance for use in or on any living subject. Reference data is limited to identity, purity, and handling.