Aptamer 学术简报 — cancer — 2026-06-24

自动生成 by RBTX Aptamer Tracker v0.1。子主题 cancer：近 14 天 46 篇命中（aptamer 池 168 篇）。

评分公式：composite = 0.45×log(IF) + 0.35×log(cites_velocity) + 0.10×social + 0.10×recency_bonus；满分 100。

#1 [26.0] A photocurrent polarity switching photoelectrochemical aptasensor based on Er-MOF nanosheets and methylene blue for high-performance determination of CA15-3.

Journal: Analytica chimica acta (IF 5.4)
Date: 2026-06-22 · Citations: 2 · 1.00 cites/day
Authors: Wu W, Hong Y, Zhou Y et al. (8 authors)
DOI: 10.1016/j.aca.2026.345454 · PMID: 41997681
Score components: IF 8.1 · velocity 37.3 · recency 93.3

BACKGROUND: Photoelectrochemical (PEC) biosensors have attracted increasing interest for tumor biomarker detection due to their intrinsic advantages. However, conventional PEC sensing strategies are typically based on unidirectional "signal-on" or "signal-off" modes, which are vulnerable to matrix interferences in complex biological samples and ...

#2 [13.5] Target-Specific Recognition and Standardized Readout: A DNA Nanotransduction Strategy for Nanopore Exosome Sensing toward Clinical Applications.

Journal: ACS nano (IF 15.8)
Date: 2026-06-18 · Citations: 0
Authors: Jiao K, Wang G, Cheng T et al. (10 authors)
DOI: 10.1021/acsnano.6c06233 · PMID: 42316416
Score components: IF 12.2 · recency 80.0

Solid-state nanopores are powerful single-molecule sensing tools, but their reliance on direct translocation requires high analyte concentrations and complicates biochemical specificity. We propose a DNA nanotransduction strategy featuring target-specific molecular recognition and standardized electrical readout, converting complex vesicular inf...

#3 [13.2] Engineered Lysosome-Targeted Protein Degradation via Hijacking Macropinocytosis.

Journal: ACS nano (IF 15.8)
Date: 2026-06-17 · Citations: 0
Authors: Xu W, Pan H, Han Y et al. (5 authors)
DOI: 10.1021/acsnano.6c07737 · PMID: 42304955
Score components: IF 12.2 · recency 76.7

Recently, targeted protein degradation (TPD) strategies have emerged as an effective tool for addressing undruggable targets in both biomedical research and the pharmaceutical industry, selectively binding proteins of interest and targeting them to the intracellular degradation machinery for degradation. However, the targeting of extracellular p...

#4 [12.6] Competitive evolution of aptamer probes on intact exosome surfaces for tumor-exosome recognition and biomarker discovery

Journal: Sensors and Actuators B Chemical (IF 8.0)
Date: 2026-06-19 · Citations: 0
Authors: Jun Li, Hai Yan Cao, Yaoyao Fan et al. (6 authors)
DOI: 10.1016/j.snb.2026.140377
Score components: IF 9.5 · recency 83.3

#5 [12.6] An Engineered Core-Satellite Magnetic Aptasensor with Built-In Calibration and Regeneration for Accurate Quantification of Oral Cancer Exosomes.

Journal: ACS applied materials & interfaces (IF 9.5)
Date: 2026-06-18 · Citations: 0
Authors: Wang W, Li R, Wei S et al. (9 authors)
DOI: 10.1021/acsami.6c09184 · PMID: 42313649
Score components: IF 10.2 · recency 80.0

Exosomes carry diverse biologically active substances that can be transferred between cells, thereby influencing physiological and pathological states of the organism. Abnormal exosome levels are closely associated with cancer. Consequently, the precise detection of exosomes holds considerable importance for noninvasive cancer diagnosis and moni...

#6 [12.3] Real-Time Monitoring of Trastuzumab Monoclonal Antibodies Using Electrochemical Aptamer-Based Sensors.

Journal: ACS sensors (IF 8.2)
Date: 2026-06-18 · Citations: 0
Authors: Foo W, Zhang X, Vanichakorntanes SM et al. (5 authors)
DOI: 10.1021/acssensors.6c01078 · PMID: 42315975
Score components: IF 9.6 · recency 80.0

The real-time monitoring of trastuzumab (Tmab), a monoclonal antibody used for cancer treatment, is critical for personalized, response-guided dosing and improved biomanufacturing quality control. Currently, Tmab concentrations are quantified using immunoassays and mass spectrometry, but these platforms provide only discrete measurements and req...

#7 [12.3] A Biomimetic Dual-Targeting Nano-APA-Editor Reprograms the 3'UTR Landscape for Tongue Squamous Cell Carcinoma Therapy.

Journal: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (IF 14.3)
Date: 2026-06-15 · Citations: 0
Authors: Ao Y, Gu B, Zhao H et al. (6 authors)
DOI: 10.1002/advs.76126 · PMID: 42294590
Score components: IF 11.8 · recency 70.0

Targeting post-transcriptional dysregulation of tumor suppressors represents a new frontier in cancer therapy. Here, we identify the alternative polyadenylation (APA) regulator NUDT21 as a pivotal therapeutic target in oral squamous cell carcinoma (OSCC). NUDT21 is highly upregulated, correlating strongly with poor survival and advanced clinical...

#8 [11.5] A thiol-tolerant Au-Se anchored fluorescent aptamer nanosensor for GP73 detection with anti-interference validation and proof-of-concept serum/cellular imaging.

Journal: Talanta (IF 6.1)
Date: 2026-06-17 · Citations: 0
Authors: Fu L, Xu C, An G et al. (7 authors)
DOI: 10.1016/j.talanta.2026.130149 · PMID: 42330825
Score components: IF 8.5 · recency 76.7

Golgi protein 73 (GP73) is a clinically relevant biomarker associated with hepatocellular carcinoma (HCC). However, fluorescence-based quantification and intracellular imaging are susceptible to interference and signal instability in thiol-rich biological environments. Herein, we report a fluorescent aptamer nanosensor based on Au-Se anchoring, ...

#9 [11.4] Engineering human PEG10-based nanoparticles for RNA self-packaging, delivery and cancer therapy

Journal: Nature Communications (IF 14.7)
Date: 2026-06-12 · Citations: 0
Authors: P. W. Chen, Ting-Lun Tien, Vy Anh Truong et al. (7 authors)
DOI: 10.1038/s41467-026-74352-x
Score components: IF 12.0 · recency 60.0

PEG10 protein was recently uncovered to self-assemble and self-package its own mRNA into nanoparticles, but the particles require expensive transfection for production and have yet to be explored for cancer therapy. Here we develop a human PEG10-based nanoparticles (PBNPs) platform for cargo RNA self-packaging and delivery for cancer therapy. We...

#10 [11.0] An Aptamer-Engineered Phenotyping System for Extracellular Vesicles Based on Honeycomb-like Melamine-Formaldehyde Microspheres and Carbon Dot Nanozymes.

Journal: Analytical chemistry (IF 6.7)
Date: 2026-06-15 · Citations: 0
Authors: Li J, Xu L, Fan H et al. (9 authors)
DOI: 10.1021/acs.analchem.6c01912 · PMID: 42296185
Score components: IF 8.9 · recency 70.0

Molecular phenotyping of extracellular vesicles (EVs) holds promise for noninvasive cancer diagnosis; however, current methodologies encounter limitations in cost, throughput, and sensitivity. Herein, we developed an aptamer-engineered phenotyping system designed for multiplexed, cost-effective, and user-friendly detection of EV membrane protein...

Methodology

数据源：PubMed (esearch + esummary), OpenAlex (concept C2776201186 + DOI 反查 citations), bioRxiv (preprints)
去重：按 DOI 跨源合并
IF：硬编码 top 50 期刊 JCR 2024 IF（config.JOURNAL_IF）
Citation velocity：OpenAlex cited_by_count / 发表天数
Social：Reddit r/science + r/biotech + HN（DOI/title 关键词搜）
窗口：近 14 天发表；超出 30 天 recency_bonus = 0
每天：建议 8-9am 跑 python run.py collect && python run.py score && python run.py report