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當前位置:首頁  >  技術文章  >  【25年5月文獻戰報】Bioss抗體新增高分文獻精彩呈現

【25年5月文獻戰報】Bioss抗體新增高分文獻精彩呈現

更新時間:2025-07-02  |  點擊率:1308

       截止目前,引用Bioss產品發表的文獻共34824篇,總影響因子172,562.51分,發表在Nature, Science, Cell以及Immunity等頂刊的文獻共125篇,合作單位覆蓋了清華、北大、復旦、華盛頓大學、麻省理工學院、東京大學以及紐約大學等上百所國際研究機構。
       我們每月收集引用Bioss產品發表的文獻。若您在當月已發表SCI文章,但未被我公司收集,請致電Bioss,我們將贈予現金鼓勵,金額標準請參考“發文章 領獎金"活動頁面。

       本文主要分享引用Bioss產品發表文章至Signal Transduction and Targeted Therapy, Nano-Micro Letters, Nature Nanotechnology, Molecular Cancer, Cell Metabolism, Nature Biomedical Engineering, Advanced Functional Materials等期刊的10篇IF>18的文獻摘要,讓我們一起欣賞吧。

 

Signal Transduction and 

Targeted Therapy [IF=52.7]

文獻引用產品:

bs-10197R | nNOS Rabbit pAb | WB

bs-3440R | Phospho-TBK1 (Ser172) Rabbit pAb | WB

bs-7497R | TBK1 Rabbit pAb | WB

作者單位:陸(Daping Hospital, Army Medical University)軍軍醫大學大坪醫院

摘要:Ischemic/hypoxic injury significantly damages vascular function, detrimentally impacting patient outcomes. Changes in mitochondrial structure and function are closely associated with ischemia/hypoxia-induced vascular dysfunction. The mechanism of this process remains elusive. Using rat models of ischemia and hypoxic vascular smooth muscle cells (VSMCs), we combined transmission electron microscopy, super-resolution microscopy, and metabolic analysis to analyze the structure and function change of mitochondrial cristae. Multi-omics approaches revealed arginase 1 (Arg1) upregulation in ischemic VSMCs, confirmed by in vivo and in vitro knockout models showing Arg1’s protective effects on mitochondrial cristae, mitochondrial and vascular function, and limited the release of mtDNA. Mechanistically, Arg1 interacting with Mic10 led to mitochondrial cristae remodeling, together with hypoxia-induced VDAC1 lactylation resulting in the opening of MPTP and release of mtDNA of VSMCs. The released mtDNA led to PANoptosis of VSMCs via activation of the cGAS-STING pathway. ChIP-qPCR results demonstrated that lactate-mediated Arg1 up-regulation was due to H3K18la upregulation. VSMCs targeted nano-material PLGA-PEI-siRNA@PM-α-SMA (NP-siArg1) significantly improved vascular dysfunction. This study uncovers a new mechanism of vascular dysfunction following ischemic/hypoxic injury: a damaging positive feedback loop mediated by lactate-regulated Arg1 expression between the nucleus and mitochondria, leading to mitochondria cristae disorder and mtDNA release, culminating in VSMCs PANoptosis. Targeting VSMCs Arg1 inhibition offers a potential therapeutic strategy to alleviate ischemia/hypoxia-induced vascular impairments.

 

Nano-Micro Letters [IF=36.3]

文獻引用產品:

bs-0283P-RBITC | Ovalbumin, RBITC conjugated | Other

作者單位上海交通大學醫學院

摘要Immunization has long played essential roles in preventing diseases. However, the desire for precision delivery of vaccines to boost a robust immune response remains largely unmet. Here, we describe the use of acupoint delivery of nanovaccines (ADN) to elicit dual-niche immunological priming. ADN can simultaneously stimulate mast cell-assisted maturation of dendritic cells at the acupoint and enable direct delivery of nanovaccines into the draining lymph nodes. We demonstrate that ADN not only provokes antigen presentation by lymph node-resident CD8α+ dendritic cells, but also induces the accumulation of nanovaccines in B-cell zones, amplifying antigen-specific cytotoxic T lymphocyte responses and immunoglobulin G antibody expression in draining lymph nodes. ADN also generates systemic immune responses by causing immune memory and preventing T-cell anergy in the spleen. Further supported by evoking effective antitumor responses and high-level antiviral antibodies in mice, ADN provides a simple yet versatile platform for advanced nanovaccination.

 

Nature Nanotechnology [IF=34.9]

文獻引用產品:

V2004 | AFP Mouse mAb | ELISA

V2005 | AFP Mouse mAb | ELISA
V1903 | Human CEA Mouse mAb | ELISA
V1904 | Human CEA Mouse mAb | ELISA
V1801 | NSE Mouse mAb  | ELISA
V1802 | NSE Mouse mAb  | ELISA
V7401 | CA125 Mouse mAb | ELISA
V7402 | CA125 Mouse mAb | ELISA
bs-15455R | HBcAg Rabbit pAb | ELISA

作者單位中國科學院化學研究所

摘要:Enzyme-linked immunosorbent assay (ELISA) has been widely used in cancer diagnostics due to its specificity, sensitivity and high throughput. However, conventional ELISA is semiquantitative and has an insufficiently low detection limit for applications requiring ultrahigh sensitivity. In this study, we developed an α-hemolysin-nanopore-based ELISA for detecting cancer biomarkers. After forming the immuno-sandwich complex, peptide probes carrying enzymatic cleavage sites are introduced, where they interact with enzymes conjugated to the detection antibodies within the complex. These probes generate distinct current signatures when translocated through the nanopore after enzymatic cleavage, enabling precise biomarker quantification. This approach offers a low detection limit of up to 0.03?fg?ml–1 and the simultaneous detection of six biomarkers, including antigen and antibody biomarkers in blood samples. Overall, the nanopore-based ELISA demonstrates high sensitivity and multiplexing capability, making it suitable for next-generation diagnostic and point-of-care testing applications.

 

Nature Nanotechnology [IF=34.9]

文獻引用產品:

bs-0300R | Mesothelin Rabbit pAb | FC
作者單位:山東大學

摘要:Chimeric antigen receptor (CAR) T cell therapy has revolutionized the treatment of haematological malignancies. Challenges in overcoming physical barriers however greatly limit CAR-T cell efficacy in solid tumours. Here we show that an approach based on collagenase nanogel generally improves the outcome of T cell-based therapies, and specifically of CAR-T cell therapy. The nanogels are created by cross-linking collagenase and subsequently modifying them with a CXCR4 antagonist peptide. These nanogels can bind CAR-T cells via receptor–ligand interaction, resulting in cellular backpack delivery systems. The nanogel backpacks modulate tumoural infiltration and localization of CAR-T cells by surmounting physical barriers and disrupting chemokine-mediated CAR-T cell imprisonment, thereby addressing their navigation deficiency within solid tumours. Our approach offers a promising strategy for pancreatic cancer therapy and holds potential for advancing CAR-T cell therapy towards clinical applications.

 

Molecular Cancer [IF=33.9]

文獻引用產品:

C7163 | DPBS (without Ca2? & Mg2?) | Other
作者單位:北京生物技術研究院

摘要:Colorectal cancer (CRC) liver metastasis is the main cause of cancer-related mortality. How liver influences intercellular communication to support CRC liver metastasis remains unknown. Herein, we link GP73, whose chronic upregulation in hepatocytes triggers non-obese metabolic-dysfunction associated steatotic liver disease (MASLD) in mice, with exosome biogenesis and CRC liver metastasis. Mice with high liver GP73 expression exhibited increased CRC liver metastasis in an exosome-dependent manner. GP73 modulated the cholesterol contents in endosomal compartments to promote exosome production. Quantitative proteomics revealed GP73 reshaped hepatocyte exosomal proteome and produced NAV2-rich exosomes. Clinically, serum GP73 levels positively correlated with exosomal NAV2 levels in CRC patients with liver metastasis. Knockdown of liver NAV2 suppressed enhanced CRC liver metastasis in GP73-induced non-obese mice, and GP73 blockade mitigated the increased CRC liver metastasis in obese mice fed by high-fat diet or high-fructose diet. Our findings suggest GP73 blockade as a potential therapeutic strategy for mitigating CRC liver metastasis.

 

Cell Metabolism [IF=30.9]

文獻引用產品:

bs-1278R | 8-OHdG (DNA/RNA Damage) Rabbit pAb | IF

作者單位:華中科技大學同濟醫學院

摘要:Atherosclerosis (AS) has been shown to be an independent risk factor for vascular cognitive impairment (VCI), but the mechanisms remain unclear. Here, we found that AS circulating exosomes exacerbated ischemic white matter injury and VCI. Exosomes originating from macrophage-derived foam cells targeted microglia. Mechanistically, foam cell-derived exosomes transmitted redox imbalance, mitochondrial dysfunction, and metabolic defects to microglia via the miR-101-3p-Nrf2-Slc2a1 axis. Anti-miR-101-3p or activation of Nrf2, both genetically and pharmacologically, could antagonize AS exosomes and ameliorate VCI. In conclusion, our findings reveal a distant connection between peripheral macrophages and brain microglia, which provides new insights and potential targets of AS-induced VCI.

 

Nature Biomedical 

Engineering [IF=26.6]

文獻引用產品:

bs-0295G-BF647 | Goat Anti-Rabbit IgG H&L,BF647 conjugated | IF

作者單位:中國科學技術大學第一附屬醫院

摘要:The delivery of nanoparticles (NPs) into solid tumours is challenged by the tumour vascular basement membrane (BM), a critical barrier beneath the endothelium with robust mechanical properties resistant to conventional treatments. Here we propose an approach that uses nitric oxide (NO) to induce the opening of endothelial junctions, creating gaps between endothelial cells and enabling the navigation of NPs through these gaps. Subsequently, NO orchestrates a transient degradation of the BM encasing NP pools in a precise, localized action, allowing the enhanced passage of NPs into the tumour interstitial space through explosive eruptions. We have engineered a NO nanogenerator tailored for near-infrared laser-triggered on-demand NO release at tumour sites. Through breaching the BM barrier, this system results in an increase of clinical nanomedicines within the tumour, boosting the tumour suppression efficacy in both mouse and rabbit models. This approach delicately manages BM degradation, avoiding excessive degradation that might facilitate cancer metastasis. Our NO nanogenerator serves as a precise spatial catalytic degradation strategy for breaching the tumour vascular BM barrier, holding promise for NP delivery into non-tumour diseases.

 

Advanced Functional 

Materials [IF=19]

文獻引用產品:

bs-0159R | Tubulin-alpha Rabbit pAb, Loading Control | WB

作者單位:鄭州大學附屬兒童醫院

摘要:In vivo optical tumor molecular imaging encounters significant challenges in achieving adequate tumor specificity and sensitivity, largely attributed to off-tumor signal leakage and the relatively low expression levels of target molecules. Therefore, a double self-amplified programmable allosteric DNA nanomachine (named HPs-tFNA) is developed through two elaborately designed hairpin structures (HP1 and HP2) hybridized on tetrahedral framework DNA (tFNA), enabling rapid, specific, and sensitive tumor molecular imaging using the highly specific expression of apurinic/apyrimidinic endonuclease 1 (APE1) in the tumor cytoplasm as a stimulus-response target. In the presence of APE1, HP2 modifies two apurinic/apyrimidinic sites (AP sites), which can be specifically recognized and cleaved by APE1, releasing a significant number of cyclic sequences (cyclic-seq) and achieving initial APE1-assisted signal amplification. Subsequently, cyclic-seq hybridizes with HP1, inducing a conformational change that converts the stem-loop structure of HP1 to a linear form. This structural change facilitates the spatial separation of the fluorophore and quencher, thereby generating fluorescence signals. Furthermore, APE1 incises two AP sites within the HP1 loop region, resulting in the release of cyclic-seq. The released cyclic-seq can hybridize with additional HP1 to continuously amplify the fluorescence signal in a cyclic manner, thereby achieving the second round of signal amplification assisted by APE1. The experimental results of this study demonstrated that HPs-tFNA can achieve rapid in situ tumor molecular imaging and guide precise surgical excision in vivo, with superior spatial specificity. In particular, HPs-tFNA can effectively monitor drug resistance in neuroblastoma cells and stratify risk levels of neuroblastoma via plasma analysis.

 

Advanced Functional

 Materials [IF=19]

文獻引用產品:

bs-10802R | TNF alpha Rabbit pAb | IF

作者單位:中南大學

摘要Antioxidant cascade nanozymes demonstrate significant potential for treating inflammatory bowel disease (IBD) by eliminating excess reactive oxygen species (ROS). However, developing oral antioxidant nanozymes with stable and efficient superoxide dismutase-catalase (SOD-CAT) cascade activity remains challenging. Herein, montmorillonite (MMT) is employed to modulate the upward shift of the MnO2-x d-band center, thereby enhancing its SOD-CAT activity and stability. Both experimental and theoretical analyses reveal that the strong interfacial interaction between MMT and MnO2-x improves stability, reduces the oxygen vacancy formation energy of MnO2-x, and elevates the Mn d-band center. This upward shift enhances the adsorption of key intermediates, such as *OH and *O2, in the SOD and CAT reaction pathways, which in turn lowers the energy barrier of the rate-determining step. MnO2-x@MMT effectively scavenges intracellular ROS through the SOD-CAT cascade reaction. Transcriptomic analysis further elucidates the molecular mechanisms through which MnO2-x@MMT alleviates cellular oxidative stress by activating autophagy and mitophagy pathways. Furthermore, MnO2-x@MMT accumulates at the site of enteritis via electrostatic adsorption, exerting antioxidant therapeutic effects and facilitating the restoration of intestinal microecology. Collectively, utilizing minerals to modulate the upward shift of the antioxidant cascade nanozyme d-band center offers novel insights for the design of materials targeting IBD.

 

Advanced Functional

Materials [IF=19]

文獻引用產品:

bs-5570R | phospho-PI3KCA (Tyr317) Rabbit pAb | WB

作者單位溫州醫科大學附屬第二醫院

摘要Engineered extracellular vesicles (EVs) loaded with therapeutic cargos offer promise for therapeutic applications in various diseases. Yet, engineering EVs with optimal functions presents a significant challenge that necessitates the precise selection of functionally specialized vesicles and a proper engineering strategy. Here, magnesium oxide-incorporated apoptotic bodies (MgO@ABs) are developed by isolating ABs from human umbilical vein endothelial cells (HUVECs) after MgO exposure. MgO@ABs mitigate tert-butyl hydroperoxide (TBHP) induced dysfunction in HUVECs and promote M1 to M2 macrophage polarization in vitro. When administered in vivo via injection into ischemic skin flaps, MgO@ABs effectively stimulate angiogenesis, reduce oxidative stress, and suppress inflammation, thereby improving flap survival. Furthermore, RNA-seq analysis reveals that MgO@ABs potentially enhance flap survival by activation of the PI3K-Akt axis. This study highlights a promising approach for treating ischemic skin flaps and offers valuable insights and inspiration for advancing tissue engineering research centered on ABs.


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