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Peptide
TKD (450-463) is a 14-mer peptide that targets natural killer (NK) cells. This peptide enhances both the cytolytic and proliferative activities of NK cells at concentrations comparable to full-length Hsp70 protein. It serves as a valuable tool in immunological research focusing on NK cell activation and tumor immunity. -
Peptide
LITLAIPVNKPGR is a soybean-derived peptide that serves as a marker for the identification of soybean allergens. Its utility lies in its application in ultra-high-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS), facilitating precise detection of allergenic proteins. This peptide is valuable for research involving allergenicity assessment and food safety analysis. -
Cell Penetrating Peptide
M918 is a cell-penetrating peptide that facilitates internalization by cells through endocytosis. Demonstrating effective penetration of a wide range of cell types without inducing toxicity, M918 is a valuable tool for advancing gene therapy and drug delivery system research. Its ability to traverse cellular membranes enhances its potential applications in therapeutic development and cellular studies. -
Biologically Active Peptide
Cardiogen is a short biologically active peptide (Ala-Glu-Asp-Arg) that primarily interacts with nucleic acids. It demonstrates a selective quenching effect on the fluorescence of methylated and unmethylated λ phage DNA-ethidium bromide complexes, while exhibiting a milder quenching effect on certain double-stranded deoxyribooligonucleotides. This peptide is valuable for research applications involving DNA-protein interactions and fluorescence-based assays in molecular biology. -
Oligopeptide
Ac-Lys-D-Ala-D-Ala-OH is an oligopeptide that serves as a crucial inhibitor of bacterial cell wall synthesis by mimicking the structure of natural peptidoglycan precursors. Its primary activity is to interfere with the transpeptidation step, which is integral to maintaining bacterial cell integrity. This oligopeptide is widely used in biochemical research to study antibiotic resistance mechanisms and the development of novel antimicrobial agents. -
Self-assembling Peptide
Ac-ILVAGK-NH2 is a self-assembling peptide designed to support the maintenance of pluripotency in human H1 embryonic stem cells. This peptide facilitates the creation of a favorable microenvironment for stem cell culture, promoting sustained proliferation and differentiation potential. Its applications extend to stem cell research and regenerative medicine, making it a valuable tool for investigating stem cell biology and tissue engineering. -
Model Peptide
WALP23 is a synthetic model peptide that targets lipid bilayer interactions. It induces heterogeneity in lipid bilayers, generating stripe-like microdomains within DPPC bilayers. This peptide is utilized to investigate protein-membrane interactions and to elucidate helical orientation during their association processes, making it valuable for research in membrane biophysics and cell biology. -
MBP Inhibitor
J5 peptide is a competitive inhibitor of myelin basic protein (MBP) that prevents the binding of MBP85-99 to HLA-DR2. This peptide has demonstrated efficacy in alleviating PLP139-151/MBP85-99-induced experimental autoimmune encephalomyelitis (EAE) in murine models. J5 peptide is relevant for research on inflammatory and immune diseases, particularly in studies targeting autoimmune mechanisms. -
Gold-binding Peptide
AuBP1 is a gold-binding peptide that specifically interacts with gold nanoparticles. This peptide demonstrates notable affinity for gold substrates, making it a valuable tool for applications in bioconjugation, targeted drug delivery, and nanomaterials research. Its functionality in binding gold enhances its utility in biosensors and imaging studies, facilitating advancements in nanotechnology and biomedical fields. -
Peptide
TANELNLLILR is a peptide derived from peanut proteins that acts as a specific marker for peanut allergens. This peptide is utilized in analytical methods such as UHPLC-MS/MS for the detection and quantification of peanut allergens in various samples. Its application supports research in food safety, allergy diagnostics, and monitoring peanut-related allergic reactions. -
Peptide Substrate
Boc-Val-Gly-Arg-AMC is a peptide substrate designed for the analysis of proteasome activity. This compound serves as a sensitive fluorogenic reporter, enabling the quantification of proteolytic processes in biological samples. Its utility extends to various research applications, including drug discovery and the study of cellular protein degradation mechanisms. -
Repetitive Sequence Constituting Elastin-like Peptides
VPGVG is a repeating sequence that forms elastin-like peptides, derived from the hydrophobic regions of vertebrate elastin. It exhibits temperature-responsive properties, making it suitable for applications in biomaterials research and development. This compound is instrumental in studies focused on biomimetic materials, tissue engineering, and controlled drug delivery systems. -
Peptide
Galanin-B2 is a neuropeptide that targets galanin receptors, demonstrating significant activity in epilepsy models. This compound effectively penetrates the blood-brain barrier, making it a valuable tool for studies related to neurological disorders and potential therapeutic applications in epilepsy research. Its unique properties facilitate investigations into the modulation of neuronal excitability and synaptic transmission. -
Peptide
H-D-Tyr-Val-Gly-OH is a peptide compound that plays a significant role in catalyzing the synthesis of phenylhydrazones. This reagent is particularly useful for researchers exploring peptide chemistry and the development of hydrazone derivatives. Its unique structural properties facilitate various applications in organic synthesis, including the creation of novel biomolecules for therapeutic research. -
Peptide
YSDSPSTST is a peptide that serves as a substrate for UDP-N-acetylglucosamine:peptide N-acetylglucosaminyltransferase, an enzyme involved in the glycosylation of proteins. This compound is critical for studies related to post-translational modifications and cellular signaling pathways. Its application extends to researching various biological processes where N-acetylglucosamine plays a pivotal role. -
Peptide
FNLAGNHEQEFLR is a peptide derived from peanut proteins, serving as a specific marker for the identification of peanut allergens. This peptide is effectively utilized in advanced analytical techniques such as Ultra High-Performance Liquid Chromatography coupled with Tandem Mass Spectrometry (UHPLC-MS/MS) for allergen detection. Its application is critical in food safety testing and allergy research, aiding in the accurate monitoring of peanut allergens in various samples. -
Modified Peptide
D-2-Thiolhistidine is a modified peptide featuring a thiol group that can be utilized for the post-translational modification of proteins and peptides. Its reactivity allows for the formation of disulfide bonds and the introduction of additional functionality to biomolecules. This compound is particularly beneficial in studies involving protein engineering, redox biology, and the development of targeted therapeutics. -
Heptapeptide
Ac-IHIHIYI-NH2 is a fibrous heptapeptide known for its ability to form fibril-like structures. This compound exhibits enhanced esterase activity, making it a valuable tool in studies related to enzymatic processes and peptide interactions. Its unique structural properties facilitate research in protein aggregation and biomaterials applications. -
Peptide
NIGELGVEK is a peptide derived from hen egg proteins that exhibits structural homology with peptides from Anas platyrhynchos (mallard duck) eggs. This peptide serves as a valuable marker for the detection of egg allergens through ultra-high-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS). Its specificity makes it an essential tool in allergen research and food safety assessment. -
Osteocalcin Peptide Fragment
Osteocalcin (37-49), human is a peptide fragment derived from the Osteocalcin protein. This fragment is primarily utilized to identify intact human osteocalcin in various biological samples, including HPLC-purified plasma and peritoneal dialysate from individuals with terminal renal insufficiency, as well as in extracted human bone. Its application is critical in studies involving bone metabolism and related disorders. -
hpDNA Correlated Peptide
KSDSC is a penta-peptide that interacts specifically with hairpin DNA (hpDNA) featuring tetramer loops. This compound enhances selectivity as a sensing material in detection systems, making it suitable for applications such as surface plasmon resonance imaging (SPRi). Its ability to correlate with hpDNA offers potential in various biochemical assays and molecular diagnostics. -
Au Nanoparticles Stabilizer
Ultrashort α,β-Peptide functions as a stabilizer for colloidal gold nanoparticles, enhancing their stability in physiological media for extended periods exceeding three months. Its unique structural properties contribute to effective dispersion and prevent aggregation of nanoparticles, making it a valuable tool in biomedical research and applications involving gold nanoparticle-based systems. This reagent is suitable for studies in targeted drug delivery, imaging, and biosensing technologies. -
Mannosyl glycopeptide
Trimannosyldilysine (Man3Lys2) is a mannosyl glycopeptide designed to facilitate targeted delivery to macrophages by enhancing the uptake of therapeutic agents. Its primary application involves coupling with human placental β-glucocerebrosidase, which can improve enzyme effectiveness in lysosomal storage disorders. This compound may also be useful in research focused on drug delivery systems and cellular targeting strategies. -
Compound for Labeling Peptides
Dansyl-DL-valine cyclohexylammonium is a salt derivative of Dansyl-DL-valine, primarily utilized for labeling peptides. This compound serves as an effective analyte in chromatographic techniques, facilitating the separation of enantiomers and diastereomers of dansyl amino acids, aromatic carboxylic acids, and isoxazolines. Its application is pivotal in peptide analysis and characterization in various biochemical studies. -
Emulsified Peptide
YQEAFRRFFGPV is an emulsified peptide composed of 12 amino acid residues that exhibits potential emulsification properties. This peptide can facilitate the formation of stable emulsions, making it valuable in research applications related to drug delivery systems and cosmetic formulations. Its unique sequence may offer insights into peptide behavior in various biological contexts. -
Quantitative Peptide Of Ovalbumin
GR-16 is a synthetic peptide derived from ovalbumin, specifically designed for quantitative analysis. This reagent serves as a standard in immunological assays and is instrumental in the study of immune responses, such as the assessment of allergenic potential in food products and the evaluation of vaccination efficacy. Its precise quantification capabilities make it a valuable tool for researchers investigating peptide-related immunological pathways. -
Atrial Natriuretic Peptide
BNP (7-32), porcine, is a peptide derived from atrial natriuretic peptide (ANP) that plays a crucial role in the regulation of blood pressure and fluid balance. It is commonly used in radioimmunoassay applications to assess cardiovascular function and diagnose related diseases. This reagent is valuable for research focused on cardiovascular biology and hypertension studies. -
Self-assembling Fber Peptide
SAF-p1 is a self-assembling fiber peptide that targets the formation of sticky-ended heterodimers through complementary amino acid sequences, specifically with SAF-p2. This interaction leads to the self-assembly of long-chain fiber structures, making SAF-p1 a valuable tool for the development of nanomaterials in biomedical applications. Its unique properties can be leveraged in various research areas, including tissue engineering, drug delivery systems, and biomaterials design. -
Self-assembling Fber Peptide
Nap-GFFY is a self-assembling fiber peptide derived from the tetrapeptide GFFY and modified with naphthylacetic acid. This compound exhibits distinctive self-assembly properties, making it valuable for studies in biomaterials and nanotechnology. Research applications include the development of scaffolds for tissue engineering, drug delivery systems, and other biotechnology applications. -
Peptide
UBI (31-38) is a peptide derived from ubiquicidin that specifically targets anionic phospholipid membranes. Its unique binding properties make it valuable for research applications in developing low-toxicity infection imaging probes, facilitating the study of infectious diseases and cellular interactions. Utilizing UBI (31-38) can enhance the understanding of membrane dynamics and the role of phospholipids in various biological processes. -
SIINFEKL Variant
OVA G4 peptide is a variant of the ovalbumin (OVA) peptide SIINFEKL, spanning amino acids 257-264. This peptide is utilized to stimulate ovalbumin-specific T cells, making it an essential tool for immunological research. Additionally, it serves as a valuable component in testing new vaccine adjuvants, particularly for the formation of stable hydrogels. -
Active Peptide
Y-{d-Trp}-GFM-NH2 is an active peptide that functions as a selective modulator for various biological pathways. This compound is primarily employed in biochemical studies to investigate peptide interactions and signaling mechanisms. Its potential applications include studies in neurobiology and receptor pharmacology, making it a valuable tool for researchers exploring peptide-mediated effects in cellular systems. -
Anti-Inflammatory Peptide
Transforming Growth Factor alpha (1-50) (rat) is an anti-inflammatory peptide that plays a crucial role in modulating immune responses. This peptide exhibits significant biological activity in reducing inflammation, making it a valuable tool for research in inflammation and immunology. Researchers can utilize TGF α (1-50) to investigate its mechanisms and potential therapeutic effects in various inflammatory conditions. -
Peptide
HQGLPQEVLNENLLR is a peptide derived from milk proteins, serving as a valuable marker for the identification of milk allergens. This peptide enables precise detection and quantification of allergens using ultra-high-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS). It is essential for studies focused on food safety, allergen monitoring, and allergenic response research. -
Cyclic Peptide
Acetyl-(Cys4,D-Phe7,Cys10)-α-MSH (4-13) is a cyclic peptide that targets melanocortin receptors, demonstrating strong melanotropic activity. This peptide significantly enhances melanotropic effects in frog and lizard skin models, showcasing potent agonistic properties. Additionally, Acetyl-(Cys4,D-Phe7,Cys10)-α-MSH (4-13) is resistant to tryptic degradation, making it a valuable tool for studies in skin pigmentation and hormone signaling pathways. -
Peptide
LSFNPTQLEEQCHI is a signature peptide derived from β-lactoglobulin found in cow milk. This peptide serves as a reliable biomarker in proteomics-based techniques for quantifying the proportion of cow milk in dairy product raw materials. Its application is crucial in ensuring the authenticity and quality of dairy ingredients in various formulations. -
Peptide Derivative
Cbz-D-Leu-Val-Boc is a peptide derivative that serves as a key building block in peptide synthesis. Its primary mechanism involves protecting the amino groups, which facilitates the stable formation of complex peptides. This compound is relevant for research applications in the development of peptide-based therapeutics and tools in drug discovery. Its structural properties contribute to the exploration of peptide interactions and functional studies in biological assays. -
Coacervates-forming Tripeptides
Fmoc-Lys-Gly-Dopa-OH is a coacervate-forming tripeptide that facilitates phase separation in aqueous environments. This compound generates coacervates that, in conjunction with Fe3+, serve as effective materials for engineering mammalian cell surfaces. Its unique properties make it valuable for applications in biomaterials research and cell surface modification studies. -
Glycopeptide
Neu5Gcα(2-6) N-Glycan-Asn is a glycopeptide characterized by its α(2-6) linked sialic acid residue, which is integral to cell recognition and signaling processes. This compound is utilized in biochemical research to investigate glycan-protein interactions, cellular communication, and the role of sialylation in various biological systems. It provides valuable insight into the complexity of glycosylation and its implications in disease mechanisms. -
Polypeptide
Cdc25A (80-93) (human) is a polypeptide that serves as a vital regulator of cell proliferation and tumorigenesis through modulation of cyclin D1 expression and G1/S phase transition. This peptide is instrumental in cancer research, providing insights into mechanisms of cell cycle regulation and potential therapeutic targets in malignancies. -
Cell Adhesion Peptide
CRGDS is a cell adhesion peptide that primarily targets integrins to promote cell attachment and migration. This compound plays a crucial role in various biological processes, particularly in vascular research where it is utilized to study cell-extracellular matrix interactions. Additionally, CRGDS can be used to investigate wound healing, tissue engineering, and cancer metastasis by facilitating cellular responses. -
Peptide
Lifeact peptide is a 17-amino-acid sequence derived from the actin-binding domain of yeast. It specifically binds to actin microfilaments, making it a valuable tool for labeling and visualizing actin in live and fixed cells. Its application extends to studies of cytoskeletal dynamics, cell motility, and various cellular processes involving actin filament organization. -
Peptide
EAFGVNMQIVR is a peptide derived from soybean proteins, functioning as a marker peptide for the detection of soybean allergens. This peptide is particularly valuable in research applications utilizing ultra-high-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS) for allergen identification and quantification. Its specificity makes it an essential tool in studies focused on food safety and allergen characterization. -
Peptide Substrate
Ac-DMQD-pNA is a peptide substrate designed for the characterization of caspase activity. It serves as an effective substrate for both recombinant CgCaspase-1 and its C-terminus variant, rCgCaspase-1-C, facilitating the study of proteolytic activity. This reagent is primarily utilized in apoptosis research and can aid in understanding caspase-mediated cellular processes. -
Peptide
NIPFAEYPTYK is a peptide derived from hen egg proteins, exhibiting homology with peptides found in Anas platyrhynchos (mallard duck) eggs. This peptide serves as a crucial marker for the detection of egg allergens, particularly when employing advanced techniques such as UHPLC-MS/MS. Its specificity and reliability make it a valuable tool for research in allergen characterization and food safety studies. -
Peptide
LR-13 is a peptide derived from the egg white allergen ovalbumin (OVA), functioning as a valuable marker peptide. Primarily utilized for the detection of OVA allergens, LR-13 can be analyzed using ultra-high-performance liquid chromatography coupled with tandem mass spectrometry (UHPLC-MS/MS). This reagent is suitable for research applications focused on allergen identification and food safety analysis. -
Self-assembling Fber Peptide
SAF-p2 is a self-assembling fiber peptide that forms sticky-ended heterodimers through interactions with complementary amino acid sequences. This process leads to the self-assembly of long-chain fiber structures, making SAF-p2 a valuable reagent for the development of nanomaterials in biomedical applications. Its unique properties enable potential applications in drug delivery, tissue engineering, and regenerative medicine. -
Peptide
DSTYSLSSTLTLSK is a synthetic peptide designed for quantitative detection of infliximab, a chimeric monoclonal IgG1 antibody that specifically targets tumor necrosis factor-alpha (TNF-α). This peptide serves as a valuable tool for research applications involving the assessment of infliximab levels in biological samples and the study of TNF-α modulation in various disease contexts. Its specificity for infliximab enhances its utility in pharmacokinetic studies and therapeutic monitoring. -
Peptide
NTLEAAFNAEFNEIR is a peptide derived from peanut proteins, serving as a potential marker for the detection of peanut allergens via UHPLC-MS/MS. This compound facilitates the identification and quantification of peanut allergens in various research applications, aiding in the development of allergen detection methods and improving food safety assessments. Its specificity makes it a valuable tool for researchers focusing on food allergy studies. -
β-sheet-forming Peptide
Q11 peptide is a β-sheet-forming peptide that facilitates self-assembly and serves as an effective scaffold for displaying immunogenic epitopes. This peptide is extensively utilized in peptide-based immune vaccine research and can be conjugated with MUC1 glycopeptides to investigate adjuvant-free MUC1 glycopeptide vaccines. Q11 peptide holds significant promise in advancing research within the field of cancer immunology.

