2024年度欣博盛自產(chǎn)試劑盒獎學金計劃
使用欣博盛品牌(NeoBioscience)ELISA試劑盒在 SCI 期刊上發(fā)表學術文章�,
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使用欣博盛品牌(Neobioscience) ELISA試劑盒在SCI期刊上發(fā)表學術文章并注明試劑盒購自“Neobioscience Technology Co,Ltd.”
官網(wǎng)申請:登錄? ?www.neobioscience.net? ? ?在”獎學金申請”頁面在線提交申請表��。
收到您的獎學金申請后���,欣博盛生物將在7個工作日內(nèi)審核并處理��。審核通過后��,將根據(jù)您文章的影響因子(IF)發(fā)放獎勵�。
IF越高�����,獎勵越多�����!欣博盛生物祝您多發(fā)Paper多拿獎勵��!
●?申請文章需于2024年發(fā)表(以見刊時間為準)�,文章影響因子(IF)以申請時該期刊的數(shù)據(jù)為準;
●?獲獎老師為文章第一作者或共同第一作者����,每篇文章僅能申請一次獎勵;
●?文章內(nèi)使用指標與購買的試劑盒指標須一致�;
●?以96T試劑盒為單位計算,申請文章總數(shù)不能多于三年內(nèi)購買試劑盒的總數(shù)��;
●?購物金僅限購買欣博盛ELISA時從單筆訂單中抵扣�����;
●?本活動最終解釋權歸欣博盛生物所有。
期刊:Translational Oncology, 2023
首都醫(yī)科大學宣武醫(yī)院-張老師
使用產(chǎn)品:Human IFN-γ and TNF-α ELISA Kit
●?我用過貴公司的多種細胞因子的ELISA檢測試劑盒�����,包括顆粒酶B和穿孔素等��。首先覺得試劑盒的質(zhì)量就很好�,每次檢測后標準曲線均一性不錯��,數(shù)據(jù)的可重復性強�����。其次試劑盒使用方便���,簡單����,說明書寫得很明確����,操作起來可重復性也很好?���?傊褂觅F公司的ELISA試劑盒體驗極佳���,接下來的科研工作如果做到ELISA實驗��,也會首選欣博盛的產(chǎn)品��。
期刊:Annals of the New York Academy of Sciences, 2023
武漢大學口腔醫(yī)院-彭老師
使用產(chǎn)品:Mouse IL-1β ELISA Kit
●?非常方便��,并且說明書上的步驟也非常詳細��,上手很快���,反應也比較靈敏����,副孔之間以及每次重復的結果相差都不大���,擬合出來的標準曲線R2值比較高��,可信度也很不錯���。
期刊:Immunity, 2023
南方醫(yī)科大學-曾老師
使用產(chǎn)品:Mouse TNF-α, IL-1β, IL-6 and IL-18 ELISA Kits
●?我用過好多欣博盛ELISA試劑盒,包括鼠的IL-1β�����、TNF-α等��,總體感覺不錯�����。比起進口試劑盒��,價格要公道便宜的多��;與國內(nèi)其他公司相比����,應該算是國產(chǎn)頂級梯隊的產(chǎn)品了�����,值得信賴。
●?LV J W Y, YIN J H, et al. 2023. The tumor immune microenvironment of nasopharyngeal carcinoma after gemcitabine plus cisplatin treatment. Nature Medicine [J], 6 June 2023. (IF=82.9)
●?SHI X, SUN Q, HOU Y, et al. 2023. Recognition and maturation of IL-18 by caspase-4 noncanonical inflammasome. Nature [J], 22 November 2023. (IF=64.8)
●?CHEN X W R, LI L, et al. 2023. Pregnancy-induced changes to the gut microbiota drive macrophage pyroptosis and exacerbate septic inflammation. Immunity [J], 14 February 2023. (IF=32.4)
●?CHENG J Y J, LIU Y, et al. 2023. Cancer-cell-derived fumarate suppresses the anti-tumor capacity of CD8+ T cells in the tumor microenvironment. Cell Metabolism [J], 12 May 2023. (IF=29)
●?ZENG Y W R, WANG F, et al. 2023. Liberation of daidzein by gut microbial β-galactosidase suppresses acetaminophen-induced hepatotoxicity in mice. Cell Host & Microbe [J], 25 April 2023. (IF=30.3)
●?LIANG W Y Y, GONG S, et al. 2023. Airway dysbiosis accelerates lung function decline in chronic obstructive pulmonary disease. Cell Host & Microbe [J], 15 May 2023. (IF=30.3)
●?LIU W Z S, LI Q, et al. 2023. Lactate modulates iron metabolism by binding soluble adenylyl cyclase. Cell Metabolism [J], 21 July 2023. (IF=29)
●?WANG J Z L, WU N, et al. 2023. Inhibition of Phosphoglycerate dehydrogenase induces ferroptosis and overcomes enzalutamide resistance in castration-resistant prostate cancer cells. Drug Resistance Updates [J], 14 June 2023. (IF=24.3)
●?GUO Y Z X N, SU S, et al. 2023. β-adrenoreceptor-triggered PKA activation negatively regulates the innate antiviral response. Cellular & Molecular Immunology [J], 5 January 2023. (IF=24.1)
●?SHI Y S J, SUN Y, et al. 2023. A Hierarchical 3D Graft Printed with Nanoink for Functional Craniofacial Bone Restoration. Advanced Functional Materials [J], 6 June 2023. (IF=19)
●?LI X L Z, WANG P, et al. 2023. Dopamine‐Integrated Nanointerface between Fibrillar Matrix and Hydrophilic Nanohydroxyapatite Regulates Immune Microenvironment to Boost Endogenous Bone Regeneration. Advanced Functional Materials [J], 17January 2023. (IF=19)
●?ZHANG X Y Y, LI J, et al. 2023. Engineered Oxygen Factories Synergize with STING Agonist to Remodel Tumor Microenvironment for Cancer Immunotherapy. Advanced Functional Materials [J], 19 June 2023. (IF=19)
●?ZHANG L H S, MOVAHEDI F, ET AL. 2023. Amyloid-β/Tau burden and neuroinflammation dual-targeted nanomedicines synergistically restore memory and recognition of Alzheimer’s disease mice. Nano Today [J], 20 February 2023. (IF=17.4)
●?SHI X, SUN Q, HOU Y, et al. 2023. Recognition and maturation of IL-18 by caspase-4 noncanonical inflammasome. Nature [J], 624: 442-450.
●?ZHOU P, SHE Y, DONG N, et al. 2018. Alpha-kinase 1 is a cytosolic innate immune receptor for bacterial ADP-heptose. Nature [J], 561: 122-126.
●?SHI J, ZHAO Y, WANG K, et al. 2015. Cleavage of GSDMD by inflammatory caspases determines pyroptotic cell death. Nature [J], 526: 660-665.
●?XU H, YANG J, GAO W, et al. 2014. Innate immune sensing of bacterial modifications of Rho GTPases by the Pyrin inflammasome. Nature [J], 513: 237-241.
●?ZHAO Y, YANG J, SHI J, et al. 2011. The NLRC4 inflammasome receptors for bacterial flagellin and type III secretion apparatus. Nature [J], 477: 596-600.
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