How it works

Join the Bluetide Peptides Affiliate Program and start earning with a simple, transparent process. Whether you’re an educator, content creator, researcher, or industry professional, we make it easy to share high-quality research peptides while earning competitive commissions.

Promote—Share—Earn.
Bluetide provides you with the tools, tracking, and support you need to grow your audience and generate passive income with confidence.

A streamlined partnership experience

Whether you’re joining as a creator, educator, researcher, or industry professional, becoming a Bluetide Peptides affiliate partner is simple, transparent, and built for long-term success. With instant approval and a two-tier commission system, you can start earning right away and build a network of partners under you.

Earn 15% on your direct referrals and 5% on your sub-affiliate referrals.

1

Sign Up - Automatic Approval

Create your affiliate account and gain instant access to your personal dashboard. No manual review or waiting period. Once you join, you immediately receive your unique tracking links, referral codes, and access to our two-tier earning structure. Earn 15% on your direct referrals and 5% on your sub-affiliate referrals.

2

Share & Grow Your Network

Promote Bluetide products and services using your personal affiliate links across social media, websites, email lists, or private communities. You can also recruit secondary affiliates, giving you the ability to earn commissions from your direct referrals and affiliates you refer to the program.

3

Earn Commissions Automatically

Every purchase made through your link or your tier-two affiliate links is tracked automatically in your dashboard. Monitor clicks, conversions, and payouts in real time. Commission payments are issued on a reliable schedule with full transparency so you always know what you’ve earned.

Partner with Bluetide Peptides

Our automated affiliate program gives you immediate access to unique tracking links, real-time analytics, and a transparent two-tier commission structure. Promote confidently and get paid for every successful referral.

Seamless Tracking & Fast Payments

Our affiliate program offers automated tracking, tier-two commission support, customizable referral links, promo codes, and real-time reporting. Affiliates gain a centralized dashboard that keeps everything organized—from clicks to conversions to payouts with fast referral payment options.

Interested in Partnering With Bluetide Peptides?

Become an Affiliate

Frequently asked questions

Discover our help desk FAQs to learn how we efficiently address your technical issues, ensuring you receive the support needed to stay productive and focused.

View All Questions

How can I contact the help desk?

You can contact the help desk via phone, email, or through our online support portal, available 24/7 for your convenience.

What types of issues can the help desk assist with?

Our help desk can assist with a wide range of technical issues including software troubleshooting, hardware problems, network connectivity, account access, and general IT support.

Can the help desk assist remotely?

Yes, our help desk can provide remote assistance using secure remote access tools to troubleshoot and resolve issues directly on your device.

What are the help desk's hours of operation?

The help desk operates 24/7 to ensure you receive timely support whenever you need it, including weekends and holidays.

Is there a way to check the status of my support request?

Yes, you can check the status of your support request through our online support portal or by contacting the help desk directly for updates.

Frequently asked questions

Find clear answers to the most common questions about the BlueTide Peptides Affiliate Program, including commissions, payouts, account setup, tracking, and referral guidelines. Please note: all peptide products are sold strictly for research, laboratory, and analytical purposes only — never for human consumption — and all affiliate promotions must follow these rules.

View All Questions

How can I contact Bluetide Peptides?

You can reach our affiliate program support team by Phone 302-281-5455, email affiliates@bluetidepeptides.com, or through the Contact Form on our website. Our representatives respond to most inquiries within one business day.

Who can purchase from Bluetide Peptides?

Our products are intended for laboratory research use only and are not for human consumption. Orders are accepted from qualified institutions, licensed laboratories, and researchers.

What types of peptides do you offer?

Bluetide Peptides specializes in custom-synthesized and catalog peptides for research applications. We also provide modifications, purity options, and bulk synthesis upon request.

How does the commission structure work?

Affiliates earn 15% on all direct referral sales and 5% on sales made by their sub-affiliates through our two-tier system. Our two-tier structure allows you to recruit sub-affiliates and you earn 5% on every sale they generate.

Commissions are processed through our Affiliate Dashboard on a regular payout schedule. You can track earnings, clicks, and conversions directly in your dashboard.

What promotional methods are allowed?

Affiliates may promote using websites, blogs, private communities, email lists, or social media—provided all promotions comply with research-use-only requirements and avoid medical, therapeutic, or human-use claims.

All Bluetide Peptides products are research-use only (RUO) and intended for laboratory, analytical, or scientific research—never for human or veterinary use. Affiliates must clearly follow these compliance rules in all promotions.

No medical claims, therapeutic promises, or health advice are allowed. Please use our provided creatives for paid ads. Promotions must comply with platform policies and FTC disclosure rules.

Is Bluetide Peptides a compounding pharmacy?

Bluetide Peptides is a chemical supplier providing high-purity research materials intended solely for laboratory and in vitro research use.

Bluetide Peptides is not a compounding pharmacy or chemical compounding facility as defined under Section 503A of the Federal Food, Drug, and Cosmetic Act (FD&C Act). Bluetide Peptides does not compound, manufacture, or dispense medications for human or veterinary use.

Bluetide Peptides is not an outsourcing facility as defined under Section 503B of the FD&C Act. The company does not produce sterile or non-sterile drug products and is not registered with the U.S. Food and Drug Administration (FDA) as a 503B outsourcing facility.

All products offered by Bluetide Peptides are intended for laboratory research purposes only. They are not intended for human consumption, medical use, clinical use, or diagnostic procedures. The purchaser assumes all responsibility for the safe handling, storage, and use of these materials in compliance with applicable laws and regulations.

Is Bluetide Peptides an outsourcing facility?

Bluetide Peptides is a chemical supplier providing high-purity research materials intended solely for laboratory and in vitro research use.

Knowledge Base

Peptides Knolwedge Base

A. Growth-Factor, Metabolic & Cellular Regulation Peptides (1–40)

1. BPC-157

Class: Growth / repair / angiogenesis

Gastric-derived pentadecapeptide studied in cell and tissue models for angiogenesis, fibroblast activity, and cytoprotective responses to mechanical or oxidative stress.

2. TB-500 (Thymosin Beta-4 Fragment)

Class: Cytoskeleton / migration

Synthetic fragment of thymosin beta-4 used to explore actin binding, cell migration, and tissue-remodeling pathways in vitro.

3. Thymosin Alpha-1

Class: Immune signaling

Immune-modulating peptide researched for effects on T-cell maturation, cytokine balance, and immune-system signaling cascades.

4. IGF-1 LR3

Class: Growth-factor analog

Long-acting insulin-like growth factor analog used to study cell proliferation, differentiation, and IGF-1 receptor signaling pathways.

5. IGF-1 DES (1–3)

Class: Local growth signaling

Truncated IGF-1 variant with high local receptor affinity, examined in site-specific growth and tissue-repair models in vitro and ex vivo.

6. CJC-1295 (with DAC)

Class: GHRH analog

Long-acting GHRH analog bound to a drug-affinity complex, used to investigate sustained growth hormone release and pituitary regulation in preclinical systems.

7. CJC-1295 (without DAC)

Class: GHRH analog

Shorter GHRH analog used to study pulsatile GH release, receptor dynamics, and short-term feedback in GH-axis models.

8. Ipamorelin

Class: Ghrelin receptor agonist

Selective GHSR agonist used in GH-axis research with minimal stimulation of other pituitary hormones, enabling focused growth-hormone pathway studies.

9. GHRP-2

Class: GH secretagogue

Ghrelin mimetic studied for pituitary stimulation, appetite-related signaling, and GH-release mechanisms in animal and cell-based systems.

10. GHRP-6

Class: GH secretagogue

Peptide used to examine appetite regulation, GH-axis activation, and gastrointestinal signaling in metabolic research models.

11. Hexarelin

Class: GH secretagogue

Synthetic hexapeptide GHRP used to study growth hormone release, cardiovascular effects, and pituitary–endocrine interactions in preclinical studies.

12. Sermorelin

Class: GHRH analog

GHRH(1–29) analog that targets pituitary somatotrophs, used in models of GH release, feedback loops, and hypothalamic–pituitary communication.

13. PEG-MGF

Class: IGF-1 splice variant

Pegylated mechano-growth factor used to examine mechanotransduction, localized repair signaling, and tissue adaptation to mechanical load in experimental systems.

14. Follistatin 315

Class: Myostatin/activin binder

Glycoprotein peptide that binds activin and myostatin, used to study muscle growth regulation, reproductive signaling, and tissue remodeling pathways in vitro and in vivo models.

15. Follistatin 344

Class: Myostatin/activin binder

Isoform of follistatin used to compare binding affinity, bioavailability, and modulation of TGF-β family ligands such as myostatin and activin A in research systems.

16. Myostatin-Inhibitor Peptides

Class: GDF-8 pathway inhibitors

Peptide sequences that interfere with myostatin (GDF-8) signaling, used to explore muscle hypertrophy, atrophy, and skeletal muscle regulation mechanisms in preclinical models.

17. MOTS-C

Class: Mitochondrial peptide

Mitochondrial-derived peptide studied for its role in AMPK activation, cellular energy sensing, and metabolic homeostasis under stress conditions in vitro and in vivo research.

18. Humanin (HNG variant)

Class: Mitochondrial survival peptide

Mitochondrial peptide examined for cytoprotective and anti-apoptotic effects in neuronal, cardiac, and oxidative-stress models, including studies on cell survival pathways.

19. Kisspeptin-10

Class: HPG-axis regulator

Truncated kisspeptin analog used to study GnRH neuron activation, reproductive hormone secretion, and hypothalamic–pituitary–gonadal axis regulation in preclinical research.

20. Gonadorelin (GnRH)

Class: GnRH analog

Synthetic gonadotropin-releasing hormone used to examine LH/FSH secretion, pituitary responsiveness, and reproductive feedback mechanisms in vitro and animal models.

21. Triptorelin

Class: GnRH agonist

GnRH analog used in research on pituitary desensitization, hormone downregulation, and endocrine feedback loops related to the reproductive axis.

22. Tesamorelin

Class: GHRH analog

GHRH analog studied for growth-hormone axis activation, IGF-1 modulation, and metabolic signaling in cell and animal models of endocrine regulation.

23. AOD-9604

Class: GH fragment

Synthetic fragment of growth hormone investigated in lipid-metabolism research, focusing on adipocyte function and fat-mobilization signaling pathways in vitro and in vivo models.

24. 5-Amino-1MQ

Class: NNMT pathway modulator

Small-molecule-like peptide analog studied as an inhibitor of nicotinamide N-methyltransferase (NNMT), affecting methylation pathways and adipocyte metabolism in research settings.

25. B7-33

Class: Relaxin-family analog

Single-chain analog of human relaxin-2 studied for anti-fibrotic signaling, vasodilation, and organ-protective effects in cardiovascular and tissue-remodeling models.

26. Glucagon

Class: Metabolic hormone

Peptide hormone used to model hepatic glycogenolysis, glucose homeostasis, and pancreatic signaling in metabolic and endocrine research systems.

27. GLP-1

Class: Incretin peptide

Glucagon-like peptide-1 studied for its roles in insulin secretion, β-cell function, and appetite-regulation pathways in preclinical metabolic research models.

28. Exendin-4

Class: GLP-1 receptor agonist

GLP-1 receptor agonist used to investigate incretin signaling, β-cell survival, and glucose-regulation mechanisms in cell and animal studies of metabolism.

29. GLP-2

Class: Intestinal growth peptide

Peptide involved in intestinal growth and barrier function, used in gut epithelium research and nutrient-absorption models.

30. GIP

Class: Incretin peptide

Gastric inhibitory polypeptide studied in insulin secretion, adipocyte metabolism, and enteroendocrine signaling pathways in metabolic research settings.

31. Tirzepatide (Backbone for Research)

Class: Dual incretin receptor agonist

Peptide backbone used to model dual GIP/GLP-1 receptor activation and metabolic synergy in experimental incretin research.

32. Amylin

Class: Islet peptide

Islet amyloid polypeptide co-secreted with insulin, used in satiety signaling, β-cell amyloid formation, and islet-stress models in vitro and in vivo.

33. Pramlintide

Class: Amylin analog

Stable amylin analog examined for its roles in gastric emptying, glucagon modulation, and satiety-related signaling in experimental metabolic models.

34. Leptin

Class: Adipokine

Adipocyte-derived hormone used in studies of energy balance, hypothalamic signaling, and adiposity-related feedback control in metabolic research systems.

35. Ghrelin

Class: Orexigenic peptide

Acylated peptide hormone, endogenous ligand for GHSR, studied in appetite regulation, GH release, and metabolic-switching research models.

36. Obestatin

Class: Ghrelin-related peptide

Peptide derived from the ghrelin gene, explored for potential counter-regulatory roles in appetite, GI motility, and energy-balance signaling pathways.

37. Adiponectin Peptides

Class: Adipokine fragments

Peptides derived from adiponectin used to study insulin sensitivity, fatty-acid oxidation, and anti-inflammatory signaling in metabolic tissues and cell models.

38. Resistin Peptides

Class: Adipokine models

Peptides modeled on resistin used in research on insulin resistance, adipose tissue inflammation, and metabolic dysregulation pathways in animal and cell systems.

39. Orexin-A (Hypocretin-1)

Class: Wakefulness peptide

Neuropeptide studied in sleep–wake regulation, arousal, and energy-balance circuits in neuroscience and behavioral research models.

40. Orexin-B (Hypocretin-2)

Class: Wakefulness peptide

Related neuropeptide used alongside orexin-A to investigate sleep–wake control, hypothalamic regulation, and energy homeostasis in preclinical studies.

B. Cognitive, Neurochemical & Nootropic Peptides (41–80)

41. Semax

Class: Neurotrophic peptide

ACTH-derived peptide studied for effects on BDNF expression, neuroplasticity, and cognitive performance in rodent and cellular models of brain function.

42. Selank

Class: Anxiolytic peptide

Tuftsin-derived heptapeptide examined for GABAergic modulation, stress resilience, and anxiety-related signaling in preclinical behavioral studies.

43. Dihexa

Class: Neurogenic hexapeptide

HGF/c-Met–binding peptide studied for synaptogenesis, memory formation, and neuroregeneration pathways in in vitro and in vivo models of brain repair.

44. N-Acetyl Semax Amidate (NAS-A)

Class: Modified neurotrophic peptide

Stability-enhanced Semax variant investigated for amplified BDNF signaling, neurocognitive support, and extended activity in experimental systems.

45. P21 Peptide

Class: Neurotrophic peptide

Experimental peptide studied for neurite outgrowth, synaptic repair, and long-term cognitive support pathways in neuronal models.

46. P22 Peptide

Class: Neurotrophic peptide

Peptide related to P21, investigated in neurogenesis, neuronal survival, and neurotrophic signaling research alongside other cognitive peptides.

47. Noopept (Peptidomimetic)

Class: Peptidomimetic

Dipeptide-like molecule examined for NMDA receptor modulation, antioxidant effects, and neuroprotection in memory and neurodegeneration models.

48. Cerebrolysin Peptide Fractions

Class: Neurotrophic mixture

Mixture of low-molecular-weight peptides used as a complex neurotrophic model in neuronal survival, synaptic plasticity, and brain-injury research.

49. DSIP (Delta Sleep-Inducing Peptide)

Class: Sleep-modulating peptide

Nonapeptide examined in sleep-cycle regulation, stress response, and endocrine interactions in rodent sleep and stress models.

50. Neuropeptide Y (NPY)

Class: Neuropeptide

Widely expressed neuropeptide involved in appetite, anxiety, and autonomic control, frequently studied in stress, feeding behavior, and energy-balance research models.

51. Oxytocin

Class: Social-bonding peptide

Nonapeptide hormone investigated for roles in social bonding, maternal behavior, and stress modulation in behavioral neuroscience research frameworks.

52. Vasopressin (AVP)

Class: Neuroendocrine peptide

Peptide hormone studied for water balance, vascular tone, and social memory functions, particularly in hypothalamic and limbic brain circuits research.

53. PACAP-38

Class: Neuropeptide

Pituitary adenylate cyclase-activating polypeptide studied for neuroprotection, circadian rhythm regulation, and neurodevelopment in diverse neural systems.

54. VIP (Vasoactive Intestinal Peptide)

Class: Neuropeptide / vasoactive peptide

Peptide hormone used in research on vasodilation, circadian entrainment, and gastrointestinal motility, including studies on clock gene regulation.

55. Substance P

Class: Tachykinin neuropeptide

Undecapeptide studied for pain signaling, neurogenic inflammation, and stress-related pathways in spinal cord and peripheral nerve models.

56. Nociceptin / Orphanin FQ

Class: Opioid-like neuropeptide

Endogenous ligand of the NOP receptor used to parse nociceptive, reward, and stress-related pathways distinct from classical opioid receptors in research models.

57. β-Endorphin Fragments

Class: Endogenous opioid fragments

Peptide fragments derived from β-endorphin used to characterize endogenous opioid receptor interactions, analgesia, and stress responses in experimental systems.

58. Somatostatin-14

Class: Inhibitory neuropeptide

Peptide hormone that inhibits GH, insulin, and glucagon release, used in endocrine inhibitory signaling research and pituitary secretory studies.

59. Melanotan-2 (MT-2)

Class: Melanocortin receptor agonist

Synthetic melanocortin agonist used to explore pigmentation, MC1R/MC4R signaling, and central melanocortin pathways in preclinical models.

60. PT-141 (Bremelanotide)

Class: Melanocortin receptor agonist

MC4R-focused peptide studied for CNS melanocortin signaling, reward circuits, and sexual-behavior pathways in animal models, strictly for research use only.

61. α-MSH (Alpha-Melanocyte Stimulating Hormone)

Class: Melanocortin peptide

Endogenous melanocortin peptide with roles in pigmentation, energy balance, and anti-inflammatory signaling, widely used in receptor and pathway research in vitro and in vivo.

62. N-Acetyl Selank Amidate (NSA)

Class: Modified anxiolytic peptide

Stability-enhanced Selank derivative used in GABA, neuropeptide Y, and stress-modulation research, offering extended activity in experimental models of anxiety.

63. Neurotensin

Class: Neuroactive peptide

Tridecapeptide involved in dopamine modulation, pain perception, and gastrointestinal function, commonly used in dopaminergic and analgesic research pathways.

64. Endomorphin-1

Class: μ-opioid peptide

High-affinity μ-opioid receptor agonist used to examine receptor selectivity, analgesic signaling, and endogenous opioid system dynamics in pain models.

65. Endomorphin-2

Class: μ-opioid peptide

Peptide closely related to endomorphin-1, used in research comparing spinal vs supraspinal pain processing and μ-receptor specific pathways in analgesia models.

66. CGRP (Calcitonin Gene-Related Peptide)

Class: Neuropeptide / vasodilator

Neuropeptide involved in vascular tone and migraine biology, widely used as a target ligand in CGRP receptor and antagonist studies in vascular and neural research.

67. Galanin

Class: Neuropeptide

Neuropeptide implicated in feeding, nociception, and mood regulation, used in behavioral and neurochemical studies involving hypothalamic and limbic circuits.

68. Dynorphin A Peptides

Class: κ-opioid peptides

Endogenous kappa-opioid receptor agonists used in research on dysphoria, addiction, and pain modulation pathways, especially in spinal cord and limbic regions.

69. Enkephalins (Met- and Leu-)

Class: Endogenous opioid peptides

Classical endogenous opioids examined in analgesia, stress response, and gut motility research, acting primarily at δ and μ opioid receptors in preclinical models.

70. Neuropeptide FF (NPFF)

Class: Opioid-modulating neuropeptide

Peptide modulator of opioid activity used in research on hyperalgesia, opioid tolerance, dependence, and spinal pain transmission in vivo and in vitro studies.

71. NPVF / RFRP Peptides

Class: GnIH-related peptides

Gonadotropin-inhibitory hormone–related peptides used to study reproductive inhibition, stress–reproduction interactions, and hypothalamic control of fertility in research animals.

72. Neuropeptide S (NPS)

Class: Arousal neuropeptide

Peptide involved in arousal and anxiety regulation, studied in rodent models of wakefulness, anxiety, and exploratory behavior for CNS research applications.

73. CCK-8 (Cholecystokinin Octapeptide)

Class: GI / neuropeptide

Gut–brain peptide used to investigate satiety signaling, gallbladder contraction, and anxiogenic pathways in metabolic and behavioral experiments.

74. Bombesin

Class: GRP-related peptide

Frog-skin–derived peptide used as a model for gastrin-releasing peptide signaling, cancer cell proliferation, and gastrointestinal hormone pathways in research models.

75. Urocortin

Class: CRF-related peptide

Corticotropin-releasing factor–related peptide involved in stress responses and cardiovascular regulation, used to study HPA-axis and cardiac signaling in preclinical models.

76. Arginine Vasotocin

Class: Non-mammalian vasopressin analog

Vasopressin-like peptide found in non-mammalian species, used in comparative endocrinology to study water balance, social behavior, and reproductive signaling across species.

77. Angiotensin IV

Class: Angiotensin fragment

Short angiotensin fragment studied for cognition-related effects and interaction with AT4/IRAP receptors in brain and vascular research models.

78. Thyrotropin-Releasing Hormone (TRH)

Class: Hypothalamic releasing hormone

Tripeptide hormone used to explore pituitary–thyroid axis regulation, TSH release, and neuroendocrine integration in endocrine research systems.

79. GnRH Antagonist Peptides

Class: GnRH blockers

Peptides designed to block GnRH receptors and suppress LH/FSH secretion, used to model reproductive suppression and pituitary regulation mechanisms in research animals.

80. CRF (Corticotropin-Releasing Factor)

Class: Stress-axis peptide

Key hypothalamic peptide driving HPA-axis activation, widely used in stress biology, anxiety, and endocrine research models.

C. Immune, Vascular, Inflammation & Repair Peptides (81–120)

81. LL-37

Class: Antimicrobial peptide

Human cathelicidin peptide studied for innate immune defense, biofilm disruption, chemotaxis, and wound-healing activity on epithelial and mucosal surfaces in vitro and in vivo.

82. Melittin

Class: Venom peptide

Major component of bee venom; used to explore membrane lysis, pore formation, and targeted cytotoxicity in cancer and antimicrobial research, with strong lytic activity.

83. Human β-Defensin 2

Class: Antimicrobial peptide

Epithelial antimicrobial peptide examined in mucosal defense, microbiome–host interactions, and inflammatory signal modulation in cell models and organoids.

84. Human β-Defensin 3

Class: Antimicrobial peptide

Potent antimicrobial peptide with broad spectrum activity, used in bactericidal, antiviral, and immune-modulation research on epithelial barriers and skin models.

85. Human α-Defensin 1 (HNP-1)

Class: Granulocyte peptide

Neutrophil-derived peptide used in studies of innate immunity, microbicidal activity, and interaction with host cells in inflammatory and infectious disease models.

86. Cathelicidin (hCAP-18 Fragments)

Class: Antimicrobial / immunomodulatory peptide

Peptide fragments from hCAP-18, investigated for antimicrobial, chemotactic, and immunomodulatory roles, including modulation of cytokine release in immune cells.

87. Bradykinin

Class: Vasoactive peptide

Nonapeptide involved in vasodilation, pain signaling, and inflammation, often used as a positive control in vascular and endothelial bioassays to model edema and permeability.

88. Angiotensin II

Class: RAAS peptide

Octapeptide hormone used to model hypertension, vascular remodeling, renal signaling, and RAAS activation in cardiovascular and renal research studies.

89. Angiotensin 1–7

Class: RAAS counter-regulator

Peptide that counteracts Ang II effects, studied for vasodilation, anti-fibrotic signaling, and cardioprotective pathways through Mas receptor activation in preclinical research.

90. Angiotensin 1–9

Class: RAAS intermediate peptide

Intermediate peptide in the RAAS cascade used to explore anti-inflammatory, cardioprotective, and endothelial signaling in cardiovascular and renal models.

91. Elabela (ELA-32)

Class: Apelin receptor ligand

Endogenous ligand of the apelin receptor studied in cardiovascular development, fluid balance, and heart function regulation in developmental and adult models.

92. Apelin-13

Class: Cardiovascular peptide

Peptide ligand that participates in heart contractility, angiogenesis, and metabolic regulation, used to study apelin receptor signaling in cardiometabolic research systems.

93. Thymopentin (TP-5)

Class: Immune-modulating peptide

Pentapeptide from thymopoietin used in T-cell function, thymic maturation, and immunosenescence models, particularly in aging and immune research studies.

94. MIF-1 (Prolyl-Leucyl-Glycinamide)

Class: Neuroimmune peptide

Tripeptide investigated in mood, neuroimmune, and endocrine interaction studies, often used in depression, stress, and neuroendocrine research models.

95. ACTH(1–24) Fragment

Class: Pituitary peptide fragment

Adrenocorticotropic hormone fragment used to stimulate adrenal cortisol production and study HPA-axis dynamics in endocrine cell and animal models.

96. Adrenomedullin Fragments

Class: Vasoactive peptides

Peptide fragments of adrenomedullin used in research on vasodilation, angiogenesis, and cardiac function, including heart failure and vascular remodeling models.

97. Kalata B1

Class: Cyclic plant peptide

Cyclic plant-derived peptide with membrane-disrupting properties, used in insecticidal, antimicrobial, and peptide engineering research to explore cyclotide frameworks.

98. Cyclo(RGDfK)

Class: Integrin-targeting peptide

Cyclic RGD peptide used to target αvβ3 integrins, study cell adhesion, angiogenesis, and tumor targeting in imaging, drug-delivery, and cancer research models.

99. Linear RGD Peptide

Class: Adhesion motif peptide

Linear RGD motif peptide employed for cell adhesion, biomaterial coating, and migration assays, often used as a baseline integrin-binding tool in vitro.

100. KPV (Lys-Pro-Val)

Class: Anti-inflammatory peptide

Short α-MSH fragment peptide examined for anti-inflammatory effects, epithelial repair, and barrier integrity in skin and gut models of inflammation.

101. PNC-27

Class: Tumor-targeting peptide

Peptide that binds a p53–MDM2 complex, studied for selective membrane disruption of cancer cell lines and tumor-targeting mechanisms in vitro.

102. Neuropeptide FF (NPFF)

Class: Opioid-modulating peptide

Opioid modulatory peptide used in research on hyperalgesia, tolerance, dependence, and spinal pain pathways, often alongside classical opioid ligands in pain models.

103. Neuropeptide AF

Class: Neuropeptide FF-related peptide

Peptide related to NPFF, used to explore nociception and spinal pain pathway modulation, including regulation of opioid receptor signaling in preclinical models.

104. Histone-Derived Peptides

Class: Chromatin peptides

Peptides derived from histone tails used to study chromatin structure, epigenetic modifications, and DNA repair mechanisms in biochemical and cell-based assays.

105. RANTES (CCL5) Peptide Fragments

Class: Chemokine peptides

Chemokine-derived peptides used to model T-cell recruitment, chemotaxis, and immune cell trafficking in inflammation and infection research systems.

106. SDF-1 (CXCL12) Peptide Fragments

Class: Stem-cell homing peptides

Chemokine fragments used in stem-cell homing, CXCR4 signaling, and tissue regeneration studies involving bone marrow and injured tissues in preclinical models.

107. Osteopontin Peptide Fragments

Class: ECM / immune peptides

Peptides derived from osteopontin used to explore bone remodeling, immune signaling, and cell adhesion in bone, vascular, and tumor microenvironment research.

108. RGD-Containing Collagen-Mimetic Peptides

Class: Adhesion/ECM peptides

Collagen-mimetic peptides incorporating RGD motifs, used to tune cell attachment, migration, and ECM–cell interface in biomaterial and tissue engineering research.

109. Eotaxin Peptide Fragments

Class: Chemokine peptides

Peptides from eotaxin chemokines used in eosinophil chemotaxis, allergic inflammation, and airway disease models focusing on CCR3-mediated responses.

110. Thrombin Receptor-Activating Peptide (TRAP-6)

Class: Platelet-activating peptide

Peptide agonist of the PAR-1 receptor used to stimulate platelet activation and aggregation in coagulation, thrombosis, and platelet-function assays.

111. Fibrin-Derived Peptides

Class: Coagulation peptides

Peptides derived from fibrin(ogen) used in research on clot formation, wound healing, and fibrinolysis, often to study integrin binding and matrix interactions in vitro.

112. Nesfatin-1

Class: Satiety neuropeptide

Neuropeptide involved in satiety and stress responses, used in hypothalamic, metabolic, and behavioral research related to appetite and stress-axis regulation.

113. Adrenomedullin 2 / Intermedin Peptides

Class: Vasoactive peptides

Peptides related to adrenomedullin studied in fluid balance, vasodilation, and endocrine regulation, including cardiovascular and renal models of disease.

114. Endothelin-1

Class: Vasoconstrictor peptide

Potent vasoconstrictive peptide studied in pulmonary hypertension, vascular remodeling, and endothelial dysfunction research as a key mediator of vascular tone.

115. Urotensin II

Class: Vasoconstrictor peptide

Highly potent vasoconstrictor peptide used in cardiovascular modeling, receptor pharmacology, and heart failure research in preclinical studies of vascular function.

116. CNP (C-type Natriuretic Peptide)

Class: Natriuretic peptide

Peptide studied for vascular relaxation, chondrocyte function, and bone growth signaling, particularly in skeletal development and vascular homeostasis research models.

117. ANP (Atrial Natriuretic Peptide)

Class: Natriuretic peptide

Cardiac hormone involved in natriuresis, blood pressure regulation, and fluid balance, used in cardiovascular, renal, and endocrine research models of volume control.

118. BNP (Brain Natriuretic Peptide) Fragments

Class: Natriuretic peptide

Fragments of BNP used in heart failure modeling, diagnostic assay development, and cardiac remodeling research focused on ventricular strain and stress biomarkers.

119. Ghrelin Antagonist Peptides

Class: GHSR blockers

Peptides such as [D-Lys3]-GHRP-6 used to block ghrelin receptor signaling, enabling dissection of orexigenic and GH-releasing pathways in metabolic and endocrine research.

120. Endothelin Receptor-Targeting Peptides

Class: Vascular receptor ligands

Peptides designed to selectively bind ETA or ETB receptors, used in vascular pharmacology, pulmonary hypertension, and endothelial-function research models.

D. Skin, Extracellular Matrix & Cosmetic-Pathway Peptides (121–150)

121. GHK-Cu

Class: ECM / copper complex

Copper tripeptide complex used in dermal models for collagen synthesis, wound repair, antioxidant activity, and anti-inflammatory signaling in skin and hair research systems.

122. GHK (Non-copper Tripeptide)

Class: ECM regulatory tripeptide

Tripeptide Gly-His-Lys used as a control and ECM signaling tool in studies of gene expression, tissue repair, and collagen regulation independent of copper binding.

123. Palmitoyl Pentapeptide-4 (Matrixyl)

Class: ECM signaling lipopeptide

Cosmetic-pathway pentapeptide attached to a lipid chain, investigated for collagen I/III stimulation and wrinkle-model research in skin-equivalent systems in vitro.

124. Palmitoyl Tripeptide-1

Class: ECM signaling lipopeptide

Lipo-tripeptide used to study ECM signaling, dermal repair, and collagen upregulation when applied to skin models and dermal fibroblast cultures in research.

125. Palmitoyl Tripeptide-5

Class: TGF-β pathway peptide

Peptide studied for its ability to influence TGF-β activation, collagen production, and dermal matrix organization in 2D and 3D skin research systems.

126. Acetyl Hexapeptide-8 (Argireline)

Class: SNARE-mimetic peptide

SNAP-25–related hexapeptide used to investigate neurotransmitter release, SNARE-complex interference, and expression-line dynamics in neuromuscular and skin models in vitro.

127. Acetyl Tetrapeptide-5

Class: Periorbital research peptide

Peptide explored in studies on periorbital puffiness, fluid retention, and microcirculation, frequently applied to eye-area skin models and lymphatic flow research.

128. Acetyl Hexapeptide-30

Class: SNARE-interfering peptide

Peptide designed to interfere with SNARE complex formation, studied in neuromuscular transmission models and facial expression-line research for cosmetic pathway analysis.

129. Acetyl Dipeptide-1 Cetyl Ester

Class: Sensory neuron–modulating peptide

Peptide studied for calming effects on sensory neurons and skin sensitivity, often used in neurocosmetic research targeting discomfort and irritation signaling.

130. Palmitoyl Tripeptide-38 (Matrixyl Synthe’6)

Class: ECM neo-synthesis peptide

Lipo-tripeptide used in research on ECM protein synthesis, dermo-epidermal junction support, and wrinkle-depth modeling in reconstructed skin assays.

131. Hexapeptide-11

Class: Yeast-derived peptide

Peptide derived from yeast fermentation used in elasticity, proteasome function, and dermal-firmness studies within skin and hair research applications.

132. Acetyl Octapeptide-3

Class: Neurotransmission-modulating peptide

SNAP-25–related octapeptide studied for neuromuscular transmission modulation and expression-line reduction in facial muscle and skin models in vitro.

133. Oligopeptide-1 (EGF Peptide)

Class: Growth-factor mimetic

Epidermal growth factor–like peptide used to study keratinocyte proliferation, wound closure, and epidermal regeneration in skin cell and tissue models for research purposes.

134. Oligopeptide-2

Class: Skin-barrier peptide

Short peptide used in studies of skin barrier support, hydration, and ECM regulation, often combined with other actives in cosmetic-pathway research formulations.

135. Oligopeptide-5

Class: ECM support peptide

Peptide studied for collagen support, fibroblast activity, and dermal matrix reinforcement in monolayer and 3D skin-equivalent research models in vitro.

136. Tripeptide-1

Class: ECM regulatory tripeptide

Small tripeptide used to monitor collagen degradation and synthesis, serving as a signaling cue in dermal matrix renewal and ECM turnover research.

137. Tripeptide-10 Citrulline

Class: Decorin-mimetic peptide

Peptide that mimics decorin activity, studied for collagen fiber organization, uniformity, and dermal matrix quality in cosmetic and ECM research systems.

138. Tetrapeptide-21

Class: ECM-inducing peptide

Peptide used in studies of collagen, fibronectin, and hyaluronic acid induction, supporting dermal rebuilding and hydration in experimental skin models in vitro.

139. Palmitoyl Hexapeptide-12

Class: Lipopeptide for elasticity

Lipid-conjugated hexapeptide investigated for firming and elasticity-supporting effects in skin, focusing on ECM reinforcement and dermal architecture research.

140. Laminin-Derived Peptides (e.g., YIGSR)

Class: Adhesion peptides

Peptides derived from laminin used to study cell adhesion, migration, and basement membrane interactions in skin, nerve, and tumor microenvironment research models.

141. RGD-Motif Collagen Peptides

Class: ECM adhesion peptides

Collagen-derived peptides containing RGD motifs, employed in cell-attachment tuning, migration assays, and biomaterial surface design for tissue engineering research.

142. Elastin-Derived Peptides (e.g., VGVAPG)

Class: Elastin receptor ligands

Elastin fragments studied for elastin receptor signaling, matrix remodeling, and skin elasticity models, especially in aging and UV-damage research contexts.

143. Hyaluronan-Binding Peptides

Class: HA-interacting peptides

Peptides engineered to bind hyaluronic acid, used in hydration, ECM structuring, and targeted drug-delivery research within dermal and joint models in vitro and in vivo.

144. SPARC-Derived Peptides

Class: ECM / angiogenesis peptides

Peptides derived from SPARC used to study ECM turnover, angiogenesis regulation, and fibrosis, including tumor and wound microenvironment research models.

145. Decorin-Mimetic Peptides

Class: Collagen-fibrillogenesis peptides

Peptides that mimic decorin activity used to modulate collagen fibrillogenesis, scar formation, and ECM architecture in tissue repair and fibrosis research systems.

146. Fibronectin-Derived Binding Peptides

Class: Adhesion peptides

Peptides from fibronectin domains used to explore integrin signaling, cell migration, and wound closure, particularly in keratinocyte and fibroblast models on biomaterials.

147. Tenascin-C Peptide Fragments

Class: ECM remodeling peptides

Peptides derived from tenascin-C used for studying tissue remodeling, neural plasticity, and tumor microenvironment changes in cancer and regenerative models.

148. Collagen VII–Mimetic Peptides

Class: Basement membrane peptides

Peptides mimicking collagen VII function used in epidermolysis bullosa research, basement membrane adhesion, and dermal–epidermal junction repair models.

149. Lysine–Proline-Rich ECM Peptides

Class: ECM structural peptides

Lysine- and proline-rich sequences used in cross-linking, tensile-strength, and structural-stability studies of collagen and ECM scaffolds in tissue engineering research.

150. Synthetic Peptides for Microneedle Delivery Studies

Class: Model delivery peptides

Model peptide cargos used to evaluate percutaneous penetration, release kinetics, and transdermal delivery via microneedles and other novel delivery platforms in research.

E. Peptide Combinations Used in Research Models (151–200)

151. CJC-1295 + Ipamorelin

Class: GH-axis dual-agonist combo

Co-administered to study combined GHRH and GHSR activation, GH pulse patterns, and downstream IGF-1 signaling in preclinical endocrine models of the GH axis.

152. GHRP-6 + CJC-1295

Class: GH secretagogue combo

Used to explore synergistic GH pulse amplitude, pituitary responsiveness, and feedback regulation when ghrelin and GHRH pathways are activated simultaneously in research animals.

153. IGF-1 LR3 + PEG-MGF

Class: Growth-factor combo

Combination studied in muscle and tissue models to compare localized vs systemic anabolic signaling, focusing on repair and adaptation to mechanical loading in preclinical contexts.

154. Follistatin + Myostatin-Inhibitor Peptides

Class: Myostatin pathway combo

Combined to intensify myostatin pathway blockade and evaluate compensatory signaling, muscle growth regulation, and TGF-β family interactions in animal and cell models.

155. BPC-157 + TB-500

Class: Tissue-repair combo

Pair used in tendon, ligament, and muscle injury models to assess overlapping and complementary roles in tissue repair, angiogenesis, and cell migration pathways in research systems.

156. MOTS-C + Humanin

Class: Mitochondrial peptide combo

Combined mitochondrial peptides studied in oxidative-stress, metabolic, and mitochondrial-dysfunction research to examine overlapping protective and energy-regulating pathways in cells.

157. Semax + Selank

Class: Neurotrophic/anxiolytic combo

Used together to study combined neurotrophic and anxiolytic-pathway modulation, including BDNF upregulation and GABAergic tone in behavioral and neurochemical models of stress and cognition.

158. AOD-9604 + CJC-1295

Class: Metabolic / GH-axis combo

Combination used to differentiate lipolytic GH-fragment effects from GHRH-driven GH release, assessing their separate and joint roles in adipocyte and metabolic signaling research models.

159. AOD-9604 + Ipamorelin

Class: Metabolic / GHSR combo

Paired to explore adipocyte signaling and GH-driven metabolic changes, as well as lipid-mobilization and appetite pathways in preclinical metabolic models of obesity and energy balance.

160. MT-2 + PT-141

Class: Melanocortin receptor combo

Combination of melanocortin agonists used to examine MC1R/MC4R co-activation, central melanocortin signaling, and CNS pathways related to pigmentation and behavior in research animals.

161. Thymosin Alpha-1 + Thymosin Beta-4/TB-500

Class: Immune & repair combo

Immune and tissue-migration peptide combination used in multi-system repair and inflammatory modulation studies, especially in tissue injury and immune-system research models in vivo.

162. LL-37 + KPV

Class: Antimicrobial/anti-inflammatory combo

Combined to examine synergistic antimicrobial, anti-inflammatory, and epithelial repair effects on skin and mucosal surfaces in infection and inflammation research models in vitro and in vivo.

163. Angiotensin II + Angiotensin 1–7

Class: RAAS counter-regulation combo

Dual RAAS peptides used to model opposing effects on vascular tone, hypertrophy, and fibrosis, studying RAAS balance and receptor interactions in cardiovascular and renal research systems.

164. DSIP + Selank

Class: Sleep/anxiolytic combo

Co-studied to explore sleep architecture, stress resilience, and inhibitory neurotransmission, focusing on combined effects on sleep–wake cycles and anxiety-related behaviors in rodent models.

165. Dihexa + Semax

Class: Cognitive enhancement combo

Pair used to examine synaptogenesis, BDNF-driven neuroplasticity, and memory consolidation, particularly in neurodegeneration and learning models in vitro and in vivo research.

166. Oxytocin + Vasopressin

Class: Social/neuroendocrine combo

Used together to study social behavior, aggression, social memory, and stress modulation, focusing on distinct but overlapping pathways in limbic and hypothalamic circuits of research animals.

167. VIP + PACAP-38

Class: Neurovascular peptide combo

Co-activation of receptors involved in neuroprotection, circadian rhythms, and vasodilation, used in CNS and vascular models studying peptide synergy and receptor cross-talk in vitro and in vivo.

168. Kisspeptin-10 + Gonadorelin

Class: HPG-axis combo

Explores upstream kisspeptin activation and downstream GnRH action on LH/FSH release, mapping multiple levels of the reproductive hormone axis in animal research studies.

169. Triptorelin + GnRH Antagonists

Class: Pituitary suppression combo

Used together to study pituitary desensitization, suppression dynamics, and rebound effects when agonist and antagonist GnRH pathways are manipulated in research animals.

170. Humanin + Elabela

Class: Cardio-metabolic peptide combo

Combination used in cardio-metabolic and mitochondrial protection models, probing overlapping cytoprotective signaling pathways in cardiac and metabolic tissues in vitro and in vivo research.

171. Angiotensin 1–9 + Bradykinin

Class: Vascular signaling combo

Employed in vascular biology research to study endothelial function, NO production, and vascular tone, exploring interactions between RAAS and kinin–kallikrein systems in preclinical models.

172. MT-2 + α-MSH

Class: Melanocortin pathway combo

Used to examine melanocortin receptor redundancy, pigmentation, and energy-balance pathways, comparing synthetic MT-2 to endogenous α-MSH in receptor and signaling studies in research models.

173. PT-141 + α-MSH

Class: Melanocortin receptor combo

Combination used to analyze central MC1R/MC4R signaling, behavioral responses, and melanocortin-driven pathways in CNS research, strictly within preclinical experimental frameworks.

174. CJC-1295 + Follistatin

Class: GH / myostatin combo

Assesses GH/IGF-1 pathway activation in tandem with myostatin inhibition, exploring combined endocrine and myogenic regulation in preclinical muscle and metabolism models in research.

175. BPC-157 + KPV

Class: Repair/anti-inflammatory combo

Combination used in epithelial and mucosal models to study inflammation resolution, barrier integrity, and tissue repair mechanisms in gut and skin research systems in vitro and in vivo.

176. GHK-Cu + Palmitoyl Pentapeptide-4

Class: ECM synergistic combo

Used in dermal models to investigate ECM synthesis, collagen alignment, and skin regeneration, combining copper-tripeptide activity with ECM-stimulating palmitoyl pentapeptide signals in research.

177. Acetyl Hexapeptide-8 + Related SNAP-25 Peptides

Class: Neurocosmetic combo

Grouped SNARE-mimetic peptides used in neuromuscular transmission and expression-line models to study cumulative effects on neurotransmitter release and facial muscle contraction in vitro.

178. CGRP + CGRP Antagonist Peptides

Class: Migraine pathway combo

Ligand and antagonist combination used to parse migraine-related vasodilation, nociceptive signaling, and receptor blockade in vascular and trigeminal nerve research models preclinically.

179. LL-37 + β-Defensin Peptides

Class: Innate defense combo

Combined antimicrobial peptides used to study layered innate defense mechanisms, biofilm disruption, and epithelial protection in mucosal and skin infection research systems in vitro and in vivo.

180. GLP-1 + GIP Peptides

Class: Dual incretin combo

Dual incretin research assessing additive or synergistic effects on β-cell function, insulin secretion, and metabolic control in preclinical models of glucose regulation and obesity research.

181. GLP-1 + Amylin

Class: Incretin / islet peptide combo

Pair used to separate pancreatic, gastric, and CNS contributions to glucose regulation and satiety, studying multi-hormone interactions in metabolic and islet research models preclinically.

182. Oxytocin + CRF

Class: Stress/social peptide combo

Used to explore stress-buffering and social modulation during HPA activation, examining how oxytocin and CRF pathways interact in stress, anxiety, and social behavior models in research animals.

183. Substance P + Neurokinin Antagonist Peptides

Class: Pain pathway combo

Combination of tachykinin agonist and antagonists used to map pain and inflammation receptor pharmacology, including NK1-mediated nociception in preclinical pain research models.

184. Bradykinin + Endothelin-1

Class: Opposing vasoactive combo

Opposing vasoactive peptides used to model vascular balance, endothelial response, and microcirculatory regulation when vasodilation and vasoconstriction stimuli are combined in research systems.

185. Apelin-13 + Angiotensin II

Class: Cardiovascular signaling combo

Combination used in cardiac remodeling and heart-failure models to examine how apelin and Ang II pathways interact in contractility, hypertrophy, and vascular regulation in preclinical research.

186. VIP + NO-Donor Peptides

Class: Vasodilatory combo

Combined to study neurovascular coupling, smooth-muscle relaxation, and cerebral blood-flow regulation, pairing VIP receptor activation with nitric oxide–mediated signaling in research models.

187. RGD Peptides + Growth Factors (e.g., EGF Peptides)

Class: Tissue engineering combo

Used in scaffold design to optimize cell adhesion and proliferative signaling by combining integrin-binding RGD motifs with growth-factor mimetics in 3D tissue engineering and organoid research.

188. Elastin-Derived Peptides + Collagen-Mimetic Peptides

Class: ECM remodeling combo

Examined in composite ECM remodeling, elasticity, and biomechanical studies where elastin and collagen cues are combined in tissue models and biomaterial testing systems.

189. Natriuretic Peptides (ANP + BNP + CNP)

Class: Cardio-renal peptide combo

Combined natriuretic peptides used to map receptor subtypes, natriuresis, vasodilation, and cardiac remodeling, particularly in heart failure and hypertension research models preclinically.

190. TRAP-6 + Fibrin-Derived Peptides

Class: Coagulation/platelet combo

Combination used to study platelet activation, clot formation, and fibrinolysis balance, providing insights into coagulation dynamics and thrombus stability in research systems in vitro.

191. Neuropeptide Y + NPY Antagonists

Class: Stress/feeding combo

Used in feeding behavior, anxiety, and stress research to dissect NPY receptor subtype contributions and pharmacologic blockade on energy balance and emotional behavior in animal models.

192. LL-37 + Melittin

Class: Potent antimicrobial combo

Potent combination investigated for biofilm eradication and membrane disruption, as well as selective targeting of microbial vs host cells in advanced antimicrobial research models in vitro.

193. B7-33 + Angiotensin 1–7

Class: Antifibrotic cardiovascular combo

Combined relaxin-family and RAAS counter-regulatory peptides used in antifibrotic and cardioprotective research, focusing on fibrosis, remodeling, and vascular protection in preclinical models.

194. MIF-1 + Endomorphin Peptides

Class: Mood/opioid combo

Studied together to explore interactions of mood regulation, reward, and endogenous opioid systems, particularly in stress, depression, and pain-related behavioral models in research animals.

195. NPFF + Enkephalins

Class: Opioid modulation combo

Used to dissect tolerance-modulating circuitry, hyperalgesia, and analgesia by examining NPFF’s modulation of enkephalin-mediated opioid receptor signaling in pain-research models preclinically.

196. Thymosin Alpha-1 + LL-37

Class: Immune & antimicrobial combo

Combination for immune priming plus antimicrobial defense, studied in host-response models examining how adaptive and innate immune pathways intersect in infection and inflammation research.

197. Dihexa + BDNF Mimetics

Class: Neuroplasticity combo

Used together to explore maximal synaptic density, neuron survival, and signal transduction, particularly in neurodegenerative disease and brain-injury models focused on plasticity in research.

198. GHK-Cu + Humanin

Class: Aging/repair peptide combo

Combination tested in aging models to examine joint effects on ECM remodeling, mitochondrial protection, and cellular resilience under oxidative and environmental stress in research applications.

199. AOD-9604 + GLP-1 Peptides

Class: Metabolic/hormonal combo

Used to study fat metabolism and incretin-mediated energy balance, exploring adipocyte signaling and glucose homeostasis in preclinical metabolic research models.

200. Composite “ECM Cocktail” Peptides

Class: Multi-ECM peptide mix

Multi-peptide mixtures combining collagen-, elastin-, and fibronectin-mimetic sequences, employed in 3D-tissue, organoid, and scaffold development to replicate native ECM microenvironments in research.

Disclaimer: All compounds described in this encyclopedia are intended exclusively for laboratory research use only (RUO). They are not approved drugs, are not evaluated or approved by the FDA, and must not be used for human consumption, medical treatment, or diagnostic purposes.

⚠️ Research Use Only — Not for Human or Animal Use All products sold by Bluetide Peptides LLC are intended strictly for laboratory and research purposes only. They are not intended for human or animal use, consumption, or application of any kind. No statements on this website have been evaluated by the FDA. Products are not medical devices, drugs, or cosmetics and are not intended to diagnose, treat, cure, or prevent any disease. Always handle all materials in accordance with applicable laws and proper laboratory safety procedures.

⚠️ Research Use Only — Not for Human or Animal Use

All products sold by Bluetide Peptides LLC are intended strictly for laboratory and research purposes only. They are not intended for human or animal use, consumption, or application of any kind. No statements on this website have been evaluated by the FDA. Products are not medical devices, drugs, or cosmetics and are not intended to diagnose, treat, cure, or prevent any disease. Always handle all materials in accordance with applicable laws and proper laboratory safety procedures.