BOC Sciences, with its strong technical expertise and advanced manufacturing capabilities in the field of bioactive peptides, provides high-quality anti-wrinkle peptide extraction and manufacturing services to global clients. We offer a complete supply chain from R&D, custom synthesis to large-scale production, meeting the diverse needs of the cosmetics, skincare, and pharmaceutical industries for anti-wrinkle peptides. BOC Sciences not only offers standardized products but also supports personalized customization, ensuring clients receive high-purity, highly bioactive anti-wrinkle peptides to enhance product competitiveness.
Anti-wrinkle peptides are functional short peptides that can reduce wrinkles and improve skin elasticity. They mainly work by stimulating collagen synthesis, inhibiting facial muscle contractions, or enhancing skin barrier function to delay skin aging. These peptide molecules are typically derived from the hydrolysis of natural proteins or are synthetically produced, and are widely used in skincare and cosmeceutical products. For example, Acetyl Hexapeptide-8 can inhibit neurotransmitter release to reduce dynamic wrinkle formation, while Palmitoyl Tripeptide-1 promotes collagen synthesis and improves skin firmness.
With rich experience in peptide synthesis and an advanced biotechnology platform, BOC Sciences provides professional custom synthesis services for anti-wrinkle peptides, covering the entire process from design and optimization to large-scale production, to meet the personalized needs of clients for specific functional peptides. Whether it is reverse engineering based on existing sequences or developing entirely new functional peptides, BOC Sciences can provide efficient and precise solutions.
Supports full-length peptide synthesis and fragment coupling strategies, enabling efficient synthesis of anti-wrinkle peptides ranging from short peptides (2-10 amino acids) to long peptides (>50 amino acids).
Optimizes the amino acid sequence according to the target function, improving bioactivity and stability.
Such as fatty acid modification, cyclization, PEGylation, etc., to improve the permeability and tolerance of anti-wrinkle peptides.
With its professional peptide synthesis platform and stringent quality control system, BOC Sciences offers a variety of popular anti-wrinkle peptides to meet the needs of the cosmetics and biopharmaceutical industries. These peptides play a significant role in improving skin elasticity, reducing fine lines, and delaying aging, and are widely used in high-end skincare formulations and functional skincare products. BOC Sciences is committed to providing customers with high-purity, high-quality anti-wrinkle peptides to drive innovation in skincare technology.
Peptides | CAS | Functional Characteristics |
Palmitoyl Pentapeptide-4 (Matrixyl) | 214047-00-4 | Promotes collagen synthesis, reduces fine lines and wrinkles. |
Palmitoyl Tripeptide-1 | 147732-56-7 | Enhances skin repair ability and strengthens skin barrier function. |
Palmitoyl Tripeptide-38 | 1447824-23-8 | Stimulates the synthesis of six major skin matrix components, improving skin elasticity and firmness. |
Hexapeptide-9 | 885024-94-2 | Promotes collagen synthesis in the dermis, enhances skin repair, and reduces wrinkles. |
Tripeptide-29 | 2239-67-0 | A collagen fragment that stimulates type I collagen production. |
Acetyl Hexapeptide-3 | 616204-22-9 | Botox-like effect, reduces dynamic wrinkles (e.g., forehead lines, crow's feet). |
Pentapeptide-3 | 135679-88-8 | Inhibits excessive muscle contraction, preventing wrinkle formation. |
Acetyl Octapeptide-3 (SNAP-8) | 868844-74-0 | Blocks SNARE complex formation, reducing muscle contraction frequency and expression lines. |
Tripeptide-10 Citrulline | 960531-53-7 | Regulates glycosaminoglycan distribution, increases skin elasticity. |
Tripeptide-1 | 72957-37-0 | Anti-oxidant and anti-aging, reduces free radical damage. |
Hexapeptide-11 | 161258-30-6 | Inhibits protease activity, promotes skin cell self-repair, and enhances anti-aging properties. |
Copper Peptide (GHK-Cu) | 49557-75-7 | Promotes skin repair, boosts collagen production, and has antioxidant properties. |
Palmitoyl Tetrapeptide-3 | 221227-05-0 | Protects against UV-induced and pollution-related skin damage, reduces inflammation. |
Acetyl Tetrapeptide-5 (Eyeseryl) | 820959-17-9 | Mainly used in eye care, reduces puffiness and dark circles, improves eye wrinkles. |
Dipeptide-2 | 24587-37-9 | Promotes lymphatic circulation, reduces eye bags and puffiness, and improves microcirculation. |
BOC Sciences boasts strong large-scale manufacturing capabilities for anti-wrinkle peptides, able to scale up from laboratory-level synthesis to commercial production, providing high-quality and high-purity anti-wrinkle peptide products for global cosmetics, pharmaceutical, and biotechnology companies. We employ advanced solid-phase peptide synthesis (SPPS), liquid-phase peptide synthesis (LPPS), and recombinant biotechnology, combined with efficient separation and purification processes, to ensure that the large-scale production of anti-wrinkle peptides meets the highest industry standards in terms of quality, stability, and batch consistency.
The efficacy of anti-wrinkle peptides depends not only on their biological activity but also on formulation design, stability, and transdermal absorption. BOC Sciences has a professional technical team specializing in formulation optimization, offering tailored solutions based on the characteristics of different anti-wrinkle peptides. These include optimizing solvent systems, pH adjustment, and carrier selection to ensure the stability and bioavailability of active ingredients.
By selecting appropriate solvent systems (such as water, glycerol, ethanol, etc.), we ensure the solubility of peptides in formulations while avoiding undesirable interactions.
Optimization of buffer systems (such as phosphate buffer solution, citrate-citric acid buffer) ensures that peptide components remain stable under suitable pH conditions.
Utilizing phospholipid bilayer structures to encapsulate anti-wrinkle peptides, forming biomimetic membrane systems that enhance skin penetration.
Employing oil-in-water (O/W) or water-in-oil (W/O) systems to improve the dispersion and bioavailability of anti-wrinkle peptides.
Incorporating agents such as polyethylene glycol (PEG), cholesterol derivatives, and ethanol effectively enhances the skin permeability of peptides.
Analyzing the compatibility of anti-wrinkle peptides with other active ingredients (such as hyaluronic acid and vitamin C) to optimize formulation combinations.
Providing anti-wrinkle peptides in lyophilized powder form to extend product shelf life and enhance stability.
BOC Sciences adheres to a strict quality control system (QC) to ensure that each batch of anti-wrinkle peptide products meets the highest industry standards for purity, safety, stability, and bioactivity. Our quality control system covers several stages, including raw material screening, synthesis process optimization, purification testing, final product analysis, and stability evaluation. We strictly follow GMP and ISO 9001 international quality management standards to ensure that products meet global market demands.
Demand Analysis and Consultation
Peptide Synthesis Design
Synthesis and Modification
Purification and Characterization
Quality Control and Testing
Delivery and Ongoing Support
BOC Sciences' anti-wrinkle peptides are widely used in skincare products, medical aesthetics, and bioactivity research. With excellent anti-aging effects, high biocompatibility, and stability, anti-wrinkle peptides have become popular ingredients in the global skincare and biotechnology industries. The following are the main application areas of BOC Sciences' anti-wrinkle peptides:
Anti-wrinkle peptides are widely used in high-end skincare products, especially in anti-aging serums, creams, eye creams, and masks. The signaling peptides, enzyme inhibitors, and neurotransmitter inhibitory peptides provided by BOC Sciences can effectively promote collagen synthesis, reduce the formation of expression lines, and inhibit the degradation of elastin, achieving skin tightening, wrinkle reduction, and improved skin elasticity.
The medical aesthetics industry has a huge demand for efficient and safe anti-wrinkle ingredients, and anti-wrinkle peptides excel in post-operative recovery, synergistic treatment with fillers, and non-invasive anti-aging care. BOC Sciences provides oligopeptides that promote cell repair and bioactive peptides that promote hyaluronic acid synthesis, helping the skin accelerate recovery after laser treatments, microneedling, and photorejuvenation.
Anti-wrinkle peptides also play a significant role in the field of derma-cosmetics, especially for sensitive skin anti-aging, skin barrier repair, and improvement of hormone-induced skin conditions. BOC Sciences provides bioactive peptides with anti-inflammatory and repair effects, such as copper peptides, mannan peptides, and yeast peptides, which help improve issues such as inflammatory aging, damaged skin barriers, and skin laxity caused by glycation.
In addition to topical skincare, the oral anti-aging product market (Nutricosmetics) has grown rapidly in recent years. Anti-wrinkle peptides have become key active ingredients in beauty drinks, beauty capsules, and beauty gummies. The collagen peptides, small molecular oligopeptides, and elastin peptides provided by BOC Sciences can promote collagen synthesis, improve skin moisture content, and enhance skin elasticity, achieving anti-aging effects from the inside out.
Anti-wrinkle peptides are also widely used in pharmaceutical and biotechnology research. BOC Sciences provides high-purity anti-wrinkle peptides that meet GMP standards for use in anti-aging mechanism studies, cell experiments, and skin model testing. Additionally, we collaborate with biotechnology companies and research institutions to provide technical support for the development of new peptide drugs and advanced skincare ingredients.
Peptides with a peptide chain structure, such as Hexapeptide-9 and peptide mixtures (e.g., copper peptides, palmitoyl peptides), are typically more effective for anti-wrinkle purposes. These peptides promote collagen synthesis in the skin, increase elasticity, and reduce the appearance of fine lines and wrinkles, thereby providing anti-aging benefits.
Yes, peptides have anti-aging effects and can reduce wrinkles by promoting collagen production, repairing the skin barrier, and enhancing skin elasticity. Certain peptides, such as copper peptides and Hexapeptide-9, have been proven effective in clinical and skincare applications, significantly improving skin texture.
Both peptides and retinol have their own advantages in wrinkle reduction. Retinol accelerates skin cell turnover and collagen synthesis, effectively reducing wrinkles. However, peptides are gentler on the skin and have fewer side effects, making them especially suitable for sensitive skin. The effectiveness of both varies depending on individual skin types, with peptides being better for long-term use with less irritation.