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Pathways Recommended:	Cell Cycle/DNA Damage

Results for "

DNA aptamer

" in MedChemExpress (MCE) Product Catalog:

By Targets:	Cholecystokinin Receptor (1) Fluorescent Dye (2) Mucin (1) PDGFR (1) Thrombin (1)
By Research Areas:	Cancer (8)

10

Inhibitors & Agonists

1

Fluorescent Dye

1

Peptides

Targets Recommended: DNA-PK DNA Methyltransferase DNA Stain DNA Alkylator/Crosslinker DNA/RNA Synthesis

Cat. No.	Product Name	Target	Research Areas	Chemical Structure

*AP1153 aptamer* sodium**	Cholecystokinin Receptor	Cancer
AP1153 aptamer sodium is a DNA aptamer that specifically binds to the cholecystokinin receptor CCKBR (Kd: ~15 pM), but does not activate CCKBR-related signaling pathways. AP1153 aptamer sodium is internalized by pancreatic ductal adenocarcinoma (PDAC) cells in a receptor-mediated manner. AP1153 aptamer sodium can bioconjugate to the surface of fluorescent nanoparticles to facilitate nanoparticle delivery to PDAC tumors in vivo .

L-Argininamide	Fluorescent Dye	Others
L-Argininamide is a hydrophilic amino acid derivative and can be used as a compound for ligand binding DNA aptamers. L-Argininamide has the potential for fluorescent aptasensors development .

*SYL3C aptamer* sodium**	Others	Cancer
SYL3C aptamer sodium is a DNA aptamer that targets the epithelial cell adhesion molecule (EpCAM) on the surface of cancer cells. SYL3C aptamer sodium targets multiple human cancer cell lines including MDA-MB-231, Kato III, HT-29, T47D and SW480. The Kd of SYL3C aptamer sodium against breast cancer cell line MDA-MB-231 and gastric cancer cell line Kato III is 38 nM and 67 nM, respectively. SYL3C aptamer sodium provides stability, high binding affinity, and selectivity for targeted cancer therapy, cancer cell imaging, and circulating tumor cell detection .

*MA3 aptamer* sodium**	Mucin	Cancer
MA3 aptamer sodium is an 86-base long DNA aptamer targeting the mucin MUC1. MA3 aptamer sodium binds to the peptide epitope of mucin 1 (MUC1) with a Kd of 38.3 nM and has minimal cross-reactivity with albumin .

*SW1 aptamer* sodium**	Others	Cancer
SW1 aptamer sodium is a high-affinity DNA aptamer (Kd: 123.62 nM) that targets liver cancer SMMC-7721 cells and targets intracellular components within the nucleus. SW1 aptamer sodium can also identify various other types of cancer cells and tissues, serving as an effective molecular probe for clinical cancer diagnosis .

Rovunaptabin ARC 183	Thrombin	Others
Rovunaptabin (ARC 183) is a DNA aptamer, which is a single-stranded DNA molecule consisting of 15 deoxynucleotides that forms well-defined three-dimensional configuration, allowing it to bind to thrombin with high affinity and specificity.

*CD63-1 aptamer* sodium**	Others	Cancer
CD63-1 aptamer sodium is a high-affinity and specific DNA aptamer targeting the CD63 protein (Kd: 38.71 nM). CD63-1 aptamer sodium efficiently binds to CD63-positive cells, including breast cancer MDA-MB-231 cells and CD63-overexpressing HEK293T cells, with moderate binding affinity (Kd~100 nM) as assessed by flow cytometry .

*CD63-2 aptamer* sodium**	Others	Cancer
CD63-2 aptamer sodium is a high-affinity and specific DNA aptamer targeting the CD63 protein (Kd: 78.43 nM). CD63-1 aptamer sodium efficiently binds to CD63-positive cells, including breast cancer MDA-MB-231 cells and CD63-overexpressing HEK293T cells, with moderate binding affinity (Kd~100 nM) as assessed by flow cytometry .

PEG40K unconjugated/naked AX102 sodium	PDGFR	Cancer
PEG40K unconjugated/naked AX102 sodium is AX102 without PEG40K conjugation. AX102 is a DNA oligonucleotide aptamer for platelet-derived growth factor PDGF-B. AX102 is 34 bases in length, selectively binds platelet-derived growth factor B (PDGF-B), and causes tumor vessel regression .

DFAME	Fluorescent Dye	Cancer
DFAME is a red fluorophore (Ex=508 nm, Em=641 nm). Beetroot and Corn are dimeric fluorogenic RNA aptamers that can bind to DFAME to form Beetroot-DFAME (K_d=460nM) and Corn-DFAME (K_d= 3600nM). Beetroot-DFAME (Kd=460nM) and Corn-DFAME can be used to form RNA assemblies in living cells. Creating RNA assemblies can be used for the study of RNA Nanostructures. DNA/RNA Nanostructures would be useful in cell and gene therapy (CGT) research .

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