Catalog No.
Product Name
Application
Product Information
Citations
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Nucleoside Analog
2'-F-dCTP is a nucleoside analog that serves as a key building block in nucleic acid synthesis. It is used in various applications, including the development of modified nucleic acids for therapeutic research and the study of nucleic acid interactions. Its incorporation into oligonucleotides can enhance stability and binding affinity, making it a valuable tool in molecular biology and genetic studies. -
Nucleoside Analog
5'-O-TBDMS-3'-O-TBDMS-5-(Hydroxymethyl)-dC is a nucleoside analog that serves as a critical monomeric building block for nucleic acid synthesis. Its modified hydroxymethyl group enhances stability and incorporation into oligonucleotides. This reagent is particularly useful in synthetic biology and genetic engineering applications, allowing for the exploration of nucleic acid function and structure. -
Nucleoside Analog
2',3'-Dideoxy-C(Bz) is a nucleoside analog that serves as a crucial monomer for synthesizing nucleic acids. This compound can effectively inhibit viral reverse transcriptase, making it valuable for research applications in antiviral drug development and molecular biology studies. Its structural modifications enhance its stability and compatibility in various synthetic procedures. -
Nucleoside Analog
3'-O-Aminothymidine is a nucleoside analog that serves as a monomeric raw material for nucleic acid synthesis. Its structure allows for incorporation into oligonucleotides, aiding in the study of nucleic acid functionality and interactions. This compound is valuable in research applications aimed at elucidating mechanisms of gene expression and developing novel therapeutic strategies. -
Nucleoside Analog
2'F-DMTr-A(Bz)-SA (TEA) is a nucleoside analog designed for applications in nucleic acid synthesis. This monomeric raw material facilitates the incorporation of modified nucleotides into oligonucleotides, enhancing their stability and functionality. It is particularly valuable in the development of nucleic acid therapeutics and diagnostics. -
Nucleoside Analog
5'-O-DMTr-N1-Me-pseudoU is a nucleoside analog specifically designed for nucleic acid synthesis applications. This modified uridine analogue features a 5'-O-DMTr protective group and an N1-methyl substitution, enhancing its incorporation into RNA sequences. Its unique structure allows for improved stability and functionality in oligonucleotide synthesis, making it an essential reagent for researchers in molecular biology and genetic engineering. -
Nucleoside Analog
Im-NMN is a nucleoside analog that serves as a critical monomer for nucleic acid synthesis. This compound is integral for the development of various oligonucleotides and can be employed in research applications focusing on genetic engineering, synthetic biology, and molecular diagnostics. Its unique structural properties make it a valuable tool for advancing studies in nucleic acid chemistry. -
Nucleoside Analog
7-Deaza-GTP is a nucleoside analog that serves as a building block for nucleic acid synthesis. It acts as a substrate for polymerases, enabling its incorporation into RNA and DNA, which may alter their stability and function. This reagent is valuable in biochemical studies related to nucleic acid interactions, RNA modifications, and the development of novel therapeutics. -
Nucleoside Analog
5'-O-Bz-rA(Bz) is a nucleoside analog that serves as a monomeric substrate for nucleic acid synthesis. This compound is crucial in the development of oligonucleotides and assists in the study of nucleic acid structures and functions. Its incorporation into nucleic acid constructs can facilitate research in areas such as gene expression, RNA processing, and therapeutic applications. -
Nucleoside Analog
3'-NH2-ddG (3'-Amino-2',3'-dideoxyguanosine) is a nucleoside analog that serves as a key monomer for the synthesis of nucleic acids. This compound is essential for studies involving DNA and RNA modification, as well as in the development of nucleotide analogs for therapeutic applications. Its unique structural features facilitate applications in molecular biology and genetic engineering research. -
Nucleoside Analog
2'-O-TBDMS-rG(iBu) is a nucleoside analog featuring a tert-butyldimethylsilyl (TBDMS) protecting group at the 2'-position of riboguanosine. This compound serves as a valuable monomer for nucleic acid synthesis, facilitating the construction of modified RNA sequences. Its ability to enhance stability and influence the hybridization properties of RNA oligonucleotides makes it a useful tool in various molecular biology applications, including RNA therapeutics and gene regulation studies. -
Nucleoside Analog
5'-O-TBDMS-3'-O-TBDMS-5-I-dC is a nucleoside analog designed for use in nucleic acid synthesis. Its TBDMS (tert-butyldimethylsilyl) protection groups enhance stability during the synthesis process. This reagent is ideal for constructing oligonucleotides and exploring nucleic acid structures in various biochemical studies. -
Nucleoside Analog
4'-O-CH2-phosphate methyl ester-2'-O-Me-rU-3'-CE-phosphoramidite is a nucleoside analog designed for the synthesis of modified nucleic acids. Its unique structure enhances incorporation into oligonucleotides, contributing to novel properties and stabilization. This reagent is suitable for applications in the development of therapeutics, antisense oligonucleotides, and RNA-based research. -
Nucleoside Analog
3'-OMe-m7GDP is a nucleoside analog that serves as a critical building block for nucleic acid synthesis. Its modified ribose moiety enhances stability against degradation, making it a valuable reagent for studies involving RNA synthesis and modifications. This compound is applicable in various fields, including molecular biology and genetic research, where precise nucleic acid constructs are essential. -
Nucleoside Analog
2'-F-dUTP (2'-Fluoro-dUTP) is a nucleoside analog that serves as a key building block for the synthesis of nucleic acids. Its incorporation into oligonucleotides can enhance stability and resistance to exonuclease degradation. This reagent is commonly used in applications such as PCR, oligonucleotide synthesis, and sequencing studies, where its unique properties can facilitate improved performance and specificity. -
Nucleoside Analog
4'-O-Ac-3'-O-Bz-2'-O-Me-N3-Bz-U is a nucleoside analog that serves as a key monomeric building block for nucleic acid synthesis. This compound can be utilized in the development of oligonucleotides and various gene editing applications, facilitating studies in molecular biology and genetic engineering. Its chemical modifications enhance stability and lipophilicity, which may improve the delivery of nucleic acid therapeutics. -
Nucleoside Analog
3'-O-Azidomethylene-dT is a nucleoside analog that serves as a key building block for nucleic acid synthesis. It features an azido group at the 3' position, which enables specific modifications in oligonucleotide design and synthesis. This compound is valuable in the study of nucleic acid interactions, probe development, and therapeutic applications in molecular biology and genetic research. -
Nucleoside Analog
2',3'-Di-O-iBu-rG(iBu) is a nucleoside analog designed for use in nucleic acid synthesis. This compound serves as a valuable monomer in the construction of RNA molecules, providing unique chemical properties that can enhance stability and optimize performance in various biological assays. Its applications extend to research areas such as oligonucleotide synthesis and the development of RNA-based therapeutics. -
Nucleoside Analog
(2'OMe-5'pp-m6A)pG is a nucleoside analog that acts as a modified guanosine monomer. This compound is primarily utilized in nucleic acid synthesis, enabling the incorporation of methylated adenosine modifications into RNA molecules. It plays a crucial role in the study of RNA structure and function, particularly in understanding m6A modification effects on gene regulation and biogenesis. -
Nucleoside Analog
2′-OMe-UDP is a nucleoside analog that serves as a crucial intermediate in the synthesis of modified oligonucleotides. This compound exhibits enhanced stability and resistance to nuclease degradation, making it valuable for various nucleic acid research applications. Its incorporation into oligonucleotides facilitates studies in gene expression, RNA interference, and antisense therapy. -
Nucleoside Analog
3'-ONH₂-dCTP is a nucleoside analog that serves as a substrate for DNA polymerases during nucleic acid synthesis. Its modified structure allows for incorporation into DNA, facilitating the study of biological processes and enabling the development of novel therapeutic strategies. This reagent is valuable for research applications in genetics, molecular biology, and biotechnology. -
Nucleoside Analog
DMTr-2'-O-Bn-rU-3'-CE-phosphoramidite is a nucleoside analog that serves as a key building block for the synthesis of nucleic acids. With its unique protective groups, this phosphoramidite facilitates efficient incorporation into oligonucleotides, enabling researchers to create modified RNA structures. Its applications extend to studies in gene expression, RNA stability, and the exploration of novel therapeutics. -
Nucleoside Analog
5'-O-DMTr-2'-O-(2-cyanoethoxymethyl)-rA(Ac) is a nucleoside analog designed for use in nucleic acid synthesis. This compound serves as a versatile building block, facilitating the incorporation of modified nucleotides into oligonucleotides. Its unique chemical structure allows for enhanced stability and functionality in various genomic applications, making it suitable for research in fields such as molecular biology and genetic engineering. -
Nucleoside Analog
DMTr-2'-O-Bn-rC(Ac)-3'-CE-phosphoramidite is a nucleoside analog that serves as a building block for nucleic acid synthesis. This reagent facilitates the incorporation of modified nucleotides into oligonucleotides, enhancing their stability and activity. Its applications include the development of antisense oligonucleotides and RNA interference technologies, making it valuable for research in gene expression regulation and therapeutic development. -
Nucleoside Analog
3′-O-Azidomethyl-dTTP is a nucleoside analog that serves as a key building block in nucleic acid synthesis. Its azide functional group enables specific reactions for the incorporation of modified nucleotides into DNA strands. This reagent is essential for research applications involving genetic engineering, oligonucleotide synthesis, and the development of novel bioconjugates. -
Nucleoside Analog
LNA-GTP is a nucleoside analog that serves as a critical building block for the synthesis of oligonucleotides. Its unique structural features enhance binding affinity and stability, making it suitable for applications in nucleic acid research, including gene expression studies and molecular diagnostics. This reagent is particularly useful in the development of locked nucleic acid (LNA)-modified oligonucleotides, which exhibit improved hybridization properties. -
Nucleoside Analog
dCDP disodium is a nucleoside analog that serves as a key building block for nucleic acid synthesis. Its primary mechanism involves incorporation into DNA and RNA strands, where it acts as a substrate for polymerases. This reagent is essential for various molecular biology applications, including the study of nucleic acid structure and function, as well as in the development of therapeutic oligonucleotides. -
Nucleoside Analog
2',5'-di-OBz-rC(Bz) is a nucleoside analog that serves as a key monomer for nucleic acid synthesis. Its structural modifications enhance base pairing and stability, facilitating the design of nucleic acids with tailored properties. This compound is particularly useful in research applications involving RNA synthesis, molecular biology, and therapeutic development. -
Nucleoside Analog
LNA-GMP is a nucleoside analog that serves as a crucial building block in the synthesis of oligonucleotides. This compound enhances the stability and binding affinity of nucleic acid sequences, making it useful for applications in antisense oligonucleotide design, molecular diagnostics, and gene expression studies. Its unique properties enable researchers to develop more effective therapeutic agents and probe designs in nucleic acid research. -
Nucleoside Analog
2'-Deoxy-3',5'-ADP is a nucleoside analog that serves as a fundamental building block for nucleic acid synthesis. This compound is essential for studies involving DNA and RNA manipulation, facilitating the synthesis of oligonucleotides and polydeoxynucleotides. Its incorporation into nucleic acid structures allows for the exploration of various biochemical pathways and the development of diagnostic tools. -
Nucleoside Analog
DMTr-2'-O-Me-rA(Bz)-3'-(L)-PSM-phosphoramidite is a nucleoside analog that serves as a key monomer for nucleic acid synthesis. Its structures enable the incorporation of modified ribonucleotides into oligonucleotides, enhancing stability and biological functionality. This reagent is essential in various applications including the development of therapeutics, molecular probes, and antisense oligonucleotides. -
Nucleoside Analog
6'-O-DMTr-2'-O-Me-5'-Homo-U-3'-CE-phosphoramidite is a nucleoside analog that serves as a versatile monomeric building block for oligonucleotide synthesis. Its unique chemical structure enables the incorporation of modified nucleotides, facilitating advanced applications in molecular biology and genetic research. This reagent is particularly useful in the design and synthesis of oligonucleotides for therapeutic and diagnostic purposes. -
Nucleoside Analog
Biotin-16-aminoallyluridine-5'-triphosphate is a nucleoside analog that serves as a valuable substrate for RNA synthesis. This compound is utilized in various biochemical applications, including the labeling of nucleic acids, facilitating the detection and quantification of RNA molecules. Its incorporation into RNA can enhance the stability and functionality of synthesized transcripts for research purposes. -
Nucleoside Analog
3'-ONH2-dTTP is a nucleoside analog that serves as a monomeric building block for the synthesis of nucleic acids. Its primary mechanism involves acting as a substrate for DNA polymerases, enabling the incorporation of modified nucleotides into DNA strands. 3'-ONH2-dTTP is utilized in various research applications, including studies on DNA structure-function relationships and the development of novel therapeutic agents. -
Nucleoside Analog
2'-F-CMP is a nucleoside analog that serves as a substrate for the synthesis of oligonucleotides. Its incorporation into RNA sequences mimics the natural nucleotides, allowing for studies in RNA function and stability. This reagent is valuable in molecular biology research for generating modified oligonucleotides that confer unique properties in therapeutic and diagnostic applications. -
Nucleoside Analog
CAP GAU m7G(5')ppp(5')(2'OMeA)pU is a nucleoside analog that serves as a critical monomer for nucleic acid synthesis. This compound is valuable in the development of modified RNA molecules and can be utilized in various applications such as the study of gene expression and the design of RNA-based therapeutics. Its unique structural features enhance stability and facilitate the exploration of RNA functionality in biochemical research. -
Nucleoside Analog
DMTr-2'-O-(Methyl palmitate)-rU-3'-CE-phosphoramidite is a nucleoside analog utilized in the synthesis of oligonucleotides. This compound serves as a monomeric building block, enabling the incorporation of modified nucleotides into nucleic acid sequences. Its unique structure facilitates enhanced stability and solubility in various biochemical assays, supporting applications in molecular biology and genetic research. -
Nucleoside Analog
5-Aminoallyl-dUTP is a nucleoside analog that serves as a building block for nucleic acid synthesis. Its incorporation into DNA allows for further functionalization and analysis, making it valuable in applications such as label-free detection, genetic engineering, and sequencing technologies. This reagent is ideal for researchers aiming to explore nucleic acid interactions and develop novel bioconjugates. -
Cytidine Analog
2-Chloro-2'-deoxycytidine is a cytidine nucleoside analog that acts primarily by inhibiting DNA methyltransferases. This compound exhibits important biological activity, including anti-metabolic and anti-tumor effects. It is widely utilized in research applications focusing on epigenetic regulation, cancer biology, and the development of novel therapeutic strategies. -
Nucleoside Analog
DMTr-2'-O-Me-rG(iBu)-3'-(D)-DPSE-phosphoramidite is a nucleoside analog designed for use in nucleic acid synthesis. This phosphoramidite monomer enhances the stability and solubility of oligonucleotides, making it valuable in the development of complex nucleic acid structures. Its unique properties facilitate various research applications, including the synthesis of modified RNA and DNA sequences for therapeutic and diagnostic purposes. -
Nucleoside Analog
6'-O-DMTr-2'-O-Me-5'-Homo-C(Ac)-3'-CE-phosphoramidite is a nucleoside analog designed for use in nucleic acid synthesis. This phosphoramidite is suitable for synthesizing modified oligonucleotides with enhanced stability and specificity. It plays a crucial role in the development of therapeutic oligonucleotides and molecular probes, facilitating advancements in genetic research and drug discovery. -
Nucleoside Analog
6'-O-DMTr-2'-O-Me-5'-Homo-G(iBu)-3'-CE-phosphoramidite is a nucleoside analog designed for use in nucleic acid synthesis. This monomeric reagent features unique modifications that enhance the stability and performance of the resulting oligonucleotides. It is applicable in various research applications, including gene synthesis and oligonucleotide-based therapies. -
Nucleoside Analog
3'-OMe-m7GpppGmpG is a nucleoside analog that serves as a valuable monomeric raw material for nucleic acid synthesis. This compound is particularly useful in the development of modified RNA and DNA molecules, offering enhanced stability and biological activity. Its applications extend to research in gene expression, oligonucleotide design, and therapeutic development. -
Nucleoside Analog
Nucleoside-analog-3 is a novel S-cEt guanosine intermediate that functions as a nucleoside analog. This compound exhibits key biological activities relevant to antiviral and anticancer research applications, facilitating the study of nucleoside metabolism and enabling the development of therapeutic strategies targeting nucleic acid synthesis. It serves as an essential tool for researchers investigating the mechanistic pathways of nucleoside-based therapeutics. -
Nucleoside Analog
DMTr-2'-O-C16-rU-3'-CE-phosphoramidite is a nucleoside analog designed for use in nucleic acid synthesis. This phosphoramidite serves as a monomeric building block, facilitating the incorporation of modified ribonucleotides into RNA sequences. Its unique structure enhances the stability and functionality of synthesized nucleic acids, making it suitable for various research applications, including gene expression studies and the development of RNA-based therapeutics. -
Nucleoside Analog
7-Deaza-2'-dG, a nucleoside analog, serves as a crucial building block in nucleic acid synthesis. This compound is utilized in the production of modified oligonucleotides, enhancing the stability and activity of nucleic acids in various biochemical and genetic studies. Its application is particularly valuable in designing experiments involving antisense oligonucleotides and other therapeutic nucleic acid constructs. -
Nucleoside Analog
(2'OMe-5'p(S)-A)pG is a nucleoside analog that serves as a monomeric substrate for nucleic acid synthesis. Its modified structure enhances stability and improves enzymatic properties, making it valuable for applications in RNA research and therapeutic development. This reagent is ideal for constructing modified oligonucleotides that can facilitate studies in gene expression, RNA interference, and other nucleic acid-related fields. -
Nucleoside Analog
3'-ONH2-dATP is a nucleoside analog that serves as a substrate for DNA polymerase during nucleic acid synthesis. Its unique amine modification enhances the structural diversity of oligonucleotides, making it a valuable tool in research applications including genetic engineering, molecular cloning, and the development of modified nucleic acids. This reagent is ideal for studies investigating the effects of nucleotide modifications on enzymatic activity and stability of nucleic acids. -
Nucleoside Analog
3′-O-Azidomethyl-dUTP is a nucleoside analog that serves as a substrate for nucleic acid synthesis. Its azide functionality allows for the incorporation into DNA strands, facilitating the introduction of modifications in genetic studies. This reagent is valuable for applications such as the synthesis of modified oligonucleotides and in bioconjugation techniques to visualize or manipulate nucleic acids in various research settings. -
Nucleoside Analog
5-CF₃-ddUTP is a nucleoside analog that serves as a building block for nucleic acid synthesis. This compound is designed to incorporate into DNA and RNA strands, providing a unique fluorescence feature that enables detection and quantification in various assays. Its application extends to molecular biology, particularly in studies involving DNA polymerase activity and sequencing.
