截止目前,引用Bioss產(chǎn)品發(fā)表的文獻(xiàn)共26390篇,總影響因子125673.17分,發(fā)表在Nature, Science, Cell以及Immunity等頂級(jí)期刊的文獻(xiàn)共62篇,合作單位覆蓋了清華、北大、復(fù)旦、華盛頓大學(xué)、麻省理工學(xué)院、東京大學(xué)以及紐約大學(xué)等國(guó)際研究機(jī)構(gòu)上百所。
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近期收錄2023年9月引用Bioss產(chǎn)品發(fā)表的文獻(xiàn)共297篇(圖一,綠色柱),文章影響因子(IF) 總和高達(dá)1949.3,其中,10分以上文獻(xiàn)34篇(圖二)。
圖一
圖二
本文主要分享引用Bioss產(chǎn)品發(fā)表文章至Nature Nanotechnology, Immunity, Cancer Cell等期刊的7篇 IF>15 的文獻(xiàn)摘要,讓我們一起欣賞吧。
Nature [IF=64.8]
ADRB1/PE | IF、FCM
作者單位:美國(guó)索爾克生物研究所NOMIS免疫生物學(xué)和微生物發(fā)病機(jī)制中心
STTT [IF=39.3]
文獻(xiàn)引用抗體:bs-7656R
ATAD5 Rabbit pAb | WB
作者單位:四川大學(xué)華西醫(yī)院
摘要:The mineral dust-induced gene (MDIG) comprises a conserved JmjC domain and has the ability to demethylate histone H3 lysine 9 trimethylation (H3K9me3). Previous studies have indicated the significance of MDIG in promoting cell proliferation by modulating cell-cycle transition. However, its involvement in liver regeneration has not been extensively investigated. In this study, we generated mice with liver-specific knockout of MDIG and applied partial hepatectomy or carbon tetrachloride mouse models to investigate the biological contribution of MDIG in liver regeneration. The MDIG levels showed initial upregulation followed by downregulation as the recovery progressed. Genetic MDIG deficiency resulted in dramatically impaired liver regeneration and delayed cell cycle progression. However, the MDIG-deleted liver was eventually restored over a long latency. RNA-seq analysis revealed Myc as a crucial effector downstream of MDIG. However, ATAC-seq identified the reduced chromatin accessibility of OTX2 locus in MDIG-ablated regenerating liver, with unaltered chromatin accessibility of Myc locus. Mechanistically, MDIG altered chromatin accessibility to allow transcription by demethylating H3K9me3 at the OTX2 promoter region. As a consequence, the transcription factor OTX2 binding at the Myc promoter region was decreased in MDIG-deficient hepatocytes, which in turn repressed Myc expression. Reciprocally, Myc enhanced MDIG expression by regulating MDIG promoter activity, forming a positive feedback loop to sustain hepatocyte proliferation. Altogether, our results prove the essential role of MDIG in facilitating liver regeneration via regulating histone methylation to alter chromatin accessibility and provide valuable insights into the epi-transcriptomic regulation during liver regeneration.
Advanced Functional
Materials [IF=19.0]
bsk12001; IFN-γ ELISA KIT | ELISA
bsk12002; TNF-α ELISA KIT | ELISA
bsk12016; IL-2 ELISA KIT | ELISA
bsk12017; IL-12p70 ELISA KIT | ELISA
bs-0081R; Caspase-3 Rabbit pAb | WB
bs-0664R; HMGB1 Rabbit pAb | WB
bs-0784R; IFNB1 Rabbit pAb | WB
bs-8766R; HAVCR2/TIM-3 Rabbit pAb | WB
bs-9278R; phospho-IRF3 (Ser386) Rabbit pAb | WB
bs-41373R; GAPDH Rabbit pAb | WB
作者單位:南方醫(yī)科大學(xué)附屬第十醫(yī)院
Advanced Functional
Materials [IF=19.0]
IL-6 Rabbit pAb | IHC
作者單位:四川大學(xué)生物質(zhì)科學(xué)與工程學(xué)院、成都大三創(chuàng)新醫(yī)療科技有限公司、重慶醫(yī)科大學(xué)附屬第一醫(yī)院泌尿外科
摘要:Hydrophilic lubricant coatings with antifouling properties are commercially applied to urological devices, such as ureteral stents (USs), to inhibit biofilm formation and reduce the likelihood of infectious encrustation. However, their long-term effectiveness is limited due to the lack of active and precise antibacterial activity. Herein, this work reports a hydrophilic lubricant (defined as SA-PU/PVP) coating with smart urease-responsive antibiotic release functionality, achieved by incorporating the antibiotic sulfanilamide-conjugated polyurethane (SA-PU) polymers into a commercial lubricant coating agent containing hydrophilic polyvinylpyrrolidone (PVP). During the initial implantation period, the hydrophilic PVP chains rapidly absorb urine on the coating interface, forming a lubricating layer with the desired antifouling activities that reduce the attachment of host proteins, bacteria, and urate crystals by over 90%. As time progresses and the bacteria proliferates and produces urease, the urease enzymatically degrades the urea linkages in the SA-PU/PVP coating, actively releasing SA antibiotics on demand to prevent biofilm formation and encrustation. Benefiting from this synergistic antifouling and smart antibacterial activities, the SA-PU/PVP-coated US exhibits superior performance in preventing infectious encrustation in a porcine model over a 7-week period, surpassing the effectiveness of a commercial hydrophilic lubricant US. This coating strategy offers a practical solution for inhibiting urological device-associated complications.
Advanced Functional
Materials [IF=19.0]
Goat Anti-Rabbit IgG H&L / PE | IF
作者單位:中國(guó)科學(xué)技術(shù)大學(xué)中國(guó)科學(xué)技術(shù)大學(xué)附屬第一醫(yī)院
ACS Nano [IF=17.1]
文獻(xiàn)引用抗體:
bs-20124R; Collagen alpha-1(I) chain Rabbit pAb | IHC
作者單位:上海科技大學(xué)物理科學(xué)與技術(shù)學(xué)院、復(fù)旦大學(xué)附屬中山醫(yī)院
摘要:Replicating the controlled nanofibrillar architecture of collagenous tissue represents a promising approach in the design of tendon replacements that have tissue-mimicking biomechanics─outstanding mechanical strength and toughness, defect tolerance, and fatigue and fracture resistance. Guided by this principle, a fibrous artificial tendon (FAT) was constructed in the present study using an engineering strategy inspired by the fibrillation of a naturally spun silk protein. This bioinspired FAT featured a highly ordered molecular and nanofibrillar architecture similar to that of soft collagenous tissue, which exhibited the mechanical and fracture characteristics of tendons. Such similarities provided the motivation to investigate FAT for applications in Achilles tendon defect repair. In vitro cellular morphology and expression of tendon-related genes in cell culture and in vivo modeling of tendon injury clearly revealed that the highly oriented nanofibrils in the FAT substantially promoted the expression of tendon-related genes combined with the Achilles tendon structure and function. These results provide confidence about the potential clinical applications of the FAT.
Nature Communications
[IF=16.6]
pNP-β-D-glucopyranoside
作者單位:上海交通大學(xué)生命科學(xué)與生物技術(shù)學(xué)院
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