Aptamer 学术简报 — infectious_disease — 2026-06-16

自动生成 by RBTX Aptamer Tracker v0.1。子主题 infectious_disease：近 14 天 10 篇命中（aptamer 池 155 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 [20.5] Aptamer modified NPA hollow nanozymes with intrinsic peroxidase-like activity for colorimetric sensing of H1N1.

Journal: Analytica chimica acta (IF 5.4)
Date: 2026-06-08 · Citations: 3 · 0.38 cites/day
Authors: Wang J, Zhang S, Wang Q et al. (9 authors)
DOI: 10.1016/j.aca.2026.345189 · PMID: 41934996
Score components: IF 8.1 · velocity 27.2 · recency 73.3

A colorimetric sensor based on aptamer-functionalized nanozyme probes was successfully developed for the sensitive and specific detection of influenza A (H1N1) virus. In this study, trimetallic nickel-palladium-gold hollow nanozymes (NPA) with excellent peroxidase (POD)-like activity were used as catalytic probes. Compared to the horseradish per...

#2 [13.0] Amino Acid-Programmed Biomineralization for Radical-Proximal Enzyme-MOF Interfaces in Electrochemiluminescent Influenza Hemagglutinin Sensing.

Journal: Analytical chemistry (IF 6.7)
Date: 2026-06-13 · Citations: 0
Authors: Li YX, Dai YX, Wu Y et al. (8 authors)
DOI: 10.1021/acs.analchem.6c02318 · PMID: 42287620
Score components: IF 8.9 · recency 90.0

Electrochemiluminescent (ECL) biosensing is fundamentally limited by inefficient coupling between catalytic radical generation and luminophore excitation. Here, we report an amino acid-programmed biomineralization strategy for constructing radical-proximal enzyme-MOF interfaces under mild aqueous conditions. Serine reconfigures zirconium precurs...

#3 [10.0] A Portable Dual-Mode Aptasensor for Rapid Detection of Influenza A Hemagglutinin.

Journal: ACS sensors (IF 8.2)
Date: 2026-06-03 · Citations: 0
Authors: Koneru A, Barui AK, Cantemir M et al. (5 authors)
DOI: 10.1021/acssensors.5c02025 · PMID: 42234406
Score components: IF 9.6 · recency 56.7

We report a highly portable dual modality aptasensing platform for the detection of surface glycoprotein, hemagglutinin (HA), of the influenza A virus. The sensing device consists of a colorimetric detection component composed of a microfluidic paper-based analytical device (μPAD) having four analyte testing areas, as well as a flexible, miniatu...

#4 [8.0] Sennoside A and Ceftazidime Inhibit Nucleocapsid RNA Binding Across SARS-CoV-2, SARS-CoV, and MERS-CoV

Journal: bioRxiv (Cold Spring Harbor Laboratory) (IF ?)
Date: 2026-06-10 · Citations: 0
Authors: Shweta Singh, Gagan D. Gupta
DOI: 10.64898/2026.06.09.731089
Score components: recency 80.0

SARS-CoV, MERS-CoV, and SARS-CoV-2 exemplify the persistent threat posed by coronaviruses, with their capacity for zoonotic spill over, rapid transmission, and high mortality, and thus underscores the urgent need for broad-spectrum antiviral strategies. The nucleocapsid (N) protein, essential for RNA binding, genome packaging, and viral replicat...

#5 [6.3] Synthesis and Evaluation of Aromatic Sulfonamide and Disulfonamide Derivatives as Dengue Virus NS3–NS5 Interaction Inhibitors

Journal: ChemMedChem (IF ?)
Date: 2026-06-05 · Citations: 0
Authors: Jakub Janáč, Jan Drahorád, Jakub Harvalík et al. (9 authors)
DOI: 10.1002/cmdc.70337
Score components: recency 63.3

Emerging viral threats highlight the urgent need for antivirals targeting viral replication mechanisms. Based on previous research, we expanded a series of asymmetric benzene‐1,4‐disulfonamides. As these proved to be synthetically challenging and generally more toxic than expected, we optimized a hit structure by omitting one sulfonamide group. ...

#6 [6.3] A High-Sensitivity Colorimetric Dot-Blot Aptamer Assay Platform for SARS-CoV-2 Nucleocapsid Protein Detection in Resource-Limited Settings.

Journal: ACS infectious diseases (IF ?)
Date: 2026-06-05 · Citations: 0
Authors: Banu K, Mondal B, Kumar SM et al. (5 authors)
DOI: 10.1021/acsinfecdis.5c01125 · PMID: 42246616
Score components: recency 63.3

We developed a colorimetric dot-blot aptamer assay to address the urgent need for accessible, high-performance SARS-CoV-2 diagnostics in resource-limited settings. Our in-house 96-well dot-blot platform featuring optimized PVDF membrane fluidics and standardized clamping combines nucleocapsid protein (N)-specific monoclonal antibody capture with...

#7 [6.3] A High-SensitivityColorimetric Dot-Blot Aptamer AssayPlatform for SARS-CoV‑2 Nucleocapsid Protein Detection in Resource-LimitedSettings

Journal: Figshare (IF ?)
Date: 2026-06-05 · Citations: 0
Authors: Kauser Banu, Bhairab Mondal, S. Madhan Kumar (15388901) et al. (5 authors)
DOI: 10.1021/acsinfecdis.5c01125.s001
Score components: recency 63.3

We developed a colorimetric dot-blot aptamer assay to address the urgent need for accessible, high-performance SARS-CoV-2 diagnostics in resource-limited settings. Our in-house 96-well dot-blot platform featuring optimized PVDF membrane fluidics and standardized clamping combines nucleocapsid protein (N)-specific monoclonal antibody capture with...

#8 [5.7] Translating biosynthetic gene cluster architecture into biosensor design for microbial natural product discovery.

Journal: Essays in biochemistry (IF ?)
Date: 2026-06-03 · Citations: 0
Authors: Trejo-Alarcón LM, Tierrafría VH, Salazar-García LM et al. (7 authors)
DOI: 10.1042/EBC20250015 · PMID: 42233250
Score components: recency 56.7

Antimicrobial resistance (AMR) is a growing global health crisis, with mortality already in the millions and projections of up to 10 million deaths annually by 2050. Traditional discovery strategies, such as one strain many compounds-based screening of large strain collections, have yielded most of our current antibiotics but are slow, resource-...

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