13 Results for "

protocols

" in MedChemExpress (MCE) Product Catalog:
Products (13)

13 Results for "protocols" in MCE Product Catalog:

8
8 Cited Publications
Cat. No.: HY-125658
CAS No.: 41994-02-9
Purity:  99.80%
Target:  

Fluorescent Dye

Research Areas:  

Others

Biotinyl tyramide is a biotin derivative used for tyramide signal amplification (TSA), as a reagent to amplify both immunohistochemical signals and in situ hybridization protocols. Biotinyl tyramide can be used for the research of tyramide signal amplification .
Cat. No.: HY-D0025
CAS No.: 106562-32-7
7-Amino-4-methylcoumarin-3-acetic acid (AMCA) serves as the parent structure of coumarin-based blue fluorescent dyes, and its activated form AMCA-NHS can directly conjugate with proteins (Ex/Em ≈ 350/440-460).
Cat. No.: HY-151781
CAS No.: 2250437-44-4
Target:  

ADC Linkers

Research Areas:  

Others

Fmoc-L-Dap(Poc)-OH is a click chemistry reagent containing an azide group. Amino acid building block suitable for side chain Click conjugation with standard protocols and together with tetrazine linkers in copper-free Click conjugation (Diels-Alder) .
Cat. No.: HY-151780
CAS No.: 2250436-47-4
Target:  

ADC Linkers

Research Areas:  

Others

Fmoc-L-Dap(Pentynoyl)-OH is a click chemistry reagent containing an azide group. Fmoc-L-Dap(Pentynoyl)-OH serves as an amino acid building block for introducing alkyne functions into peptide sequences by standard Fmoc/tBu protocols. The alkyne residue can be engaged for copper catalyzed click reaction with organic azides or with tetrazines for copper-free conjugations . Fmoc-L-Dap(Pentynoyl)-OH is a click chemistry reagent, it contains an Alkyne group and can undergo copper-catalyzed azide-alkyne cycloaddition (CuAAc) with molecules containing Azide groups.
Cat. No.: HY-19500
CAS No.: 215122-74-0
Target:  

COX

Research Areas:  

Others

SC-75416 is a selective cyclooxygenase-2 inhibitor. Its pharmacokinetic/pharmacodynamic (PK/PD) model was used for development and clinical trial simulation to design a study protocol to verify its analgesic effect in a post-oral surgery pain model. The simulation results showed that 360 mg of SC-75416 may provide better pain relief than 400 mg of ibuprofen. The actual clinical trial results confirmed this hypothesis, and 360 mg of SC-75416 was indeed superior to 400 mg of ibuprofen in pain relief. The PK/PD model of SC-75416 showed good predictive performance and successfully predicted its clinical effect. These research results show that SC-75416, as a new selective COX-2 inhibitor, has potential clinical application value in the management of post-oral surgery pain.
Cat. No.: HY-D1839
Synonyms: Biotin Tyramide
Biotin TSA (200×) (Biotin Tyramide) is a biotin derivative used for tyramide signal amplification (TSA), as a reagent to amplify both immunohistochemical signals and in situ hybridization protocols. Biotinyl tyramide can be used for the research of tyramide signal amplification .
Cat. No.: HY-125658S
Biotinyl tyramide-d4 is a deuterated labeled Biotinyl tyramide (HY-125658). Biotinyl tyramide is a biotin derivative used for tyramide signal amplification (TSA), as a reagent to amplify both immunohistochemical signals and in situ hybridization protocols. Biotinyl tyramide can be used for the research of tyramide signal amplification .
Cat. No.: HY-132274
CAS No.: 1173109-53-9
Research Areas:  

Others

DMS(O)MT aminolink C6 for oligonucleotide synthesis. DMS(O)MT is a special protective group similar to traditional MMT, but designed as an improved alternative to it. DMS(O)MT aminolink is fully compatible with standard coupling, deblock, and purification protocols.
Cat. No.: HY-W713888
CAS No.: 66687-07-8
Aniline blue diammonium is a component of commonly used polychrome stains. Aniline blue diammonium is used to stain collagen fibers in tissue sections using Masson′s trichrome protocol for staining multiple components. Collagen is stained blue by this method. The dye is suitable for selective staining of callose in plant specimens and staining histones for assessing nuclear maturity. Aniline blue diammonium is used in Gomori′s one-step trichrome stain and Mallory′s connective tissue stain for tissue including kidney and intestine.
Cat. No.: HY-D3252
IR 650 maleimide is a near-infrared fluorescent dye. It should be noted that IR 650 maleimide‘s fluorescence stability is poor, with less than 16% of the fluorescence signal retained after the expansion microscopy experimental procedure .
Cat. No.: HY-LD002
100 billion compounds

The discovery of hit molecule is a cornerstone of drug development. Among the diverse tools available, DNA-encoded libraries have emerged a revolutionary platform for high-throughput screening. Compared with traditional HTS, DEL features shorter screening processes, lower costs, simpler assays, and larger library capacities.

DEL Construction utilizes split-and-pool synthesis, a combinatorial chemistry approach that involves iterative splitting, reaction, and pooling. This strategy enables rapid, exponential assembly of fragments in minimal steps without the need for individual compound synthesis andassoicicated isolation or purification steps, thus greatly reducing overall costs. The technology enables simultaneous affinity screeningof massive compound collections to target proteins in a single step. By coupling chemical structures with unique DNA barcodes, each compound is tagged with a distinct DNA sequence for convenient tracking and decoding.DELs readily enable the construction and efficient screening of libraries containing millions to billions of compounds. As a result, DEL screening combines the dual advantages of high efficiency and low cost, making DEL a transformative technology in modern drug discovery.

The DEL kit consists of 50 independent libraries with a total scale of 100 billion compounds. It is constructed through stepwise combinatorial chemistry strategies involving 2-, 3-, and 4-round synthesis. By employing diverse scaffolds and flexible linking strategies, it encompasses various ring systems, linear frameworks, and heterocyclic structures. Screening can be achieved solely through affinity, independent of target-specific activity detection methods. This library is suitable for DEL screening against a wide range of targets.

Cat. No.: HY-LD004
14 million compounds

DEL technology enables the simultaneous screening of millions or billions of compounds in a single tube by covalently linking each small molecule with a unique DNA sequence. Traditional DEL screening primarily focuses on identifying non-covalent binding molecules, where interactions with the target are reversible. In contrast, DNA‑encoded covalent library is an ultra‑high‑throughput screening library developed on the basis of conventional DNA‑encoded library technology. It incorporates controllable electrophilic covalent warheads capable of forming irreversible covalent bonds with amino acid residues at the active sites of target proteins, including Cys, Lys, Ser, Tyr, and others. This covalent binding enhances binding affinity, prolongs residence time at the target site, and has the potential to overcome challenges associated with traditional non-covalent inhibitors, such as drug resistance or off-target effects.

Each compound in the library contains both a binding domain and an electrophilic warhead. It first recognizes and binds to the target through non covalent interactions, and then forms a stable covalent bond with key amino acid residues to achieve irreversible inhibition. This library is specifically designed for the discovery of potent, long lasting, and highly selective covalent inhibitors, particularly for undruggable targets such as kinases, GPCRs, proteases, and mutant oncoproteins. Each molecule is uniquely labeled with a DNA barcode for molecular identification and sequencing decoding.

This library is an advanced and highly diverse collection, consists of 35 independent sub-libraries with a total scaleof 14 million compounds, It incorporates over 14 experimentally validated covalent warheads capable of targeting cysteine, lysine, arginine, aspartic acid and glutamic acid. This library is constructed with diverse drug like core scaffolds and integrated controllable covalent warheads, it features structural diversity, reaction spec

Cat. No.: HY-LD005
1.2 billion compounds

Cyclic peptide library have advantages such as high affinity, high selectivity, and suitability for targeting protein–protein interactions. Through DEL synthesis technology, the library size can achieve hundreds of millions. DEL cyclic peptide library have advantages like low cost andhigh screeing efficiency, making them valuable for discovering lead compounds against challenging drug targets.

This cyclic peptide library is constructed with unnatural amino acids as building block, synthesized through DNA-compatible chemical reactions. Each cyclic peptide consist of six amino acids and constrained conformations such as side-chain cross-linking, disulfide bonds, and macrocyclization. These cyclic peptides exhibit significantly improved stability and druggability compared with linear peptides, filling the gap between small molecules and macromolecular biologics. Each cyclic peptide is uniquely conjugated to a DNA barcode sequence for molecular identification and sequencing decoding.

MCE’s cyclic peptide library has8 independent sub-libraries, with a total molecular diversity of 1.2 billion. It is constructed via multi-round combinatorial assembly of building blocks and diverse cyclization strategies, facilitating the discovery of cyclic peptide leads for undruggable targets.

  • 1