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西班牙Certest滅活的鮑氏志賀氏菌抗原(天然提取物)
廣州健侖生物科技有限公司
廣州健侖長期供應各種生物原料,主要代理品牌:西班牙Certest。
主要產品包括各種生物單克隆抗原抗體、重組蛋白。
西班牙Certest滅活的鮑氏志賀氏菌抗原(天然提取物)
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【產品介紹】
| 貨號 | 產品名稱 | 規格 | 英文名稱 |
| MT-18EH30 | 阿米巴原蟲抗體(克隆H30) | x1mg | Anti-Entamoeba Mab (clone EH30) |
| MT-25ETV | 腸道病毒VP1重組蛋白 | x1mg | Enterovirus VP1 recombinant protein |
| MT-18EV5 | 腸道病毒抗體(克隆EV5) | x1mg | Anti-Enterovirus Mab (clone EV5) |
| MT-25STX | 大腸桿菌O157 VT1重組蛋白 | x1mg | E. coli O157 VT1 recombinant protein |
| MT-25VT2 | 大腸桿菌O157 VT2重組蛋白 | x1mg | E. coli O157 VT2 recombinant protein |
| MT-18E10 | 大腸桿菌O157抗體(克隆E10) | x1mg | Anti-E. coli O157 Mab (clone E10) |
| MT-18SN3 | 肺炎鏈球菌單克隆抗體(克隆SN3) | x1mg | Anti-Streptococcus pneumoniae Mab (clone SN3) |
| MT-18SN4 | 肺炎鏈球菌單克隆抗體(克隆SN4) | x1mg | Anti-Streptococcus pneumoniae Mab (clone SN4) |
| MT-16CP14 | 鈣結合蛋白單克隆抗體(克隆CP14) | x1mg | Anti-Calprotectin Mab (clone CP14) |
| MT-18RV3 | 呼吸道合胞病毒單抗(克隆RV3) | x1mg | Anti-RSV Mab (clone RV3) |
| MT-18RV4 | 呼吸道合胞病毒單抗(克隆RV4) | x1mg | Anti-RSV Mab (clone RV4) |
| MT-25RSV | 呼吸道合胞病毒重組融合蛋白 | x1mg | RSV recombinant fusion protein |
| MT-18Y77 | 甲型流感病毒單抗(克隆Y77) | x1mg | Anti-Influenza A Mab (clone Y77) |
| MT-25FAN | 甲型流感病毒重組核蛋白 | x1mg | Influenza A recombinant nucleoprotein |
| MT-16G18 | 賈第鞭毛蟲抗體(克隆G18) | x1mg | Anti-Giardia Mab trophozoite protein (clone G18) |
| MT-16G22 | 賈第鞭毛蟲抗體(克隆G22) | x1mg | Anti-Giardia Mab trophozoite protein (clone G22) |
| MT-25A1G | 賈第蟲腸道滋養體重組蛋白 | x1mg | Giardia intestinalis trophozoite recombinant protein |
| MT-25GCP | 賈第蟲腸囊菌重組蛋白 | x1mg | Giardia intestinalis cyst recombinant protein |
| MT-25GDH | 艱難梭菌GDH重組蛋白 | x1mg | Clostridium difficile GDH recombinant protein |
| MT-18TA5 | 艱難梭菌毒素A抗(克隆TA5) | x1mg | Anti-CD Toxin A Mab (clone TA5) |
| MT-18TA7 | 艱難梭菌毒素A抗(克隆TA7) | x1mg | Anti-CD Toxin A Mab (clone TA7) |
| MT-24TXA | 艱難梭菌毒素A重組蛋白(無毒性片段) | x1mg | C. difficile Toxin A recombinant protein (fragment without toxic activity) |
| MT-18TB41 | 艱難梭菌毒素B抗(克隆TB41) | x1mg | Anti-CD Toxin B Mab (clone TB41) |
| MT-18TB48 | 艱難梭菌毒素B抗(克隆TB48) | x1mg | Anti-CD Toxin B Mab (clone TB48) |
| MT-24TXB | 艱難梭菌毒素B重組蛋白(無毒性片段) | x1mg | C. difficile Toxin B recombinant protein (fragment without toxic activity) |
| MT-16GD10 | 艱難梭菌抗體(克隆GD10) | x1mg | Anti-GDH Mab (clone GD10) |
| MT-25CEP | 空腸彎曲桿菌重組外膜蛋白 | x1mg | Campylobacter jejuni recombinant outer membrane protein |
| MT-26VP6 | 輪狀病毒VP6重組蛋白 | x1mg | Rotavirus VP6 recombinant protein |
| MT-16R15 | 輪狀病毒單克隆抗體(克隆R15) | x1mg | Anti-Rotavirus Mab (clone R15) |
| MT-28SAGU | 滅活A鏈球菌抗原(天然提取物) | x1mg | Inactivated STREP A antigen (native extract) |
| MT-28SEU | 滅活腸炎沙門氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella enteritidis antigen (native extract) |
| MT-28SBU | 滅活的鮑氏志賀氏菌抗原(天然提取物) | x1mg | Inactivated Shigella boydii antigen (native extract) |
| MT-28EC7U | 滅活的大腸桿菌O157抗原(天然提取物) | x1mg | Inactivated E. coli O157 antigen (native extract) |
| MT-28CCU | 滅活的大腸桿菌抗原(天然提取物) | x1mg | Inactivated Campylobacter coli antigen (native extract) |
| MT-28LMU | 滅活的單核細胞增生李斯特菌抗原(天然提取物) | x1mg | Inactivated Listeria monocytogenes antigen (native extract) |
| MT-28SPNU | 滅活的肺炎鏈球菌抗原(天然提取物) | x1mg | Inactivated Streptococcus pneumoniae antigen (native extract) |
| MT-28SFU | 滅活的福氏志賀氏菌抗原(天然提取物) | x1mg | Inactivated Shigella flexneri antigen (native extract) |
| MT-28CJU | 滅活的空腸彎曲桿菌抗原(天然提取物) | x1mg | Inactivated Campylobacter jejuni antigen (native extract) |
| MT-28SDU | 滅活的痢疾志賀氏菌抗原(天然提取物) | x1mg | Inactivated Shigella dysenteriae antigen (native extract) |
| MT-28LNU | 滅活的嗜肺軍團菌抗原(天然提取物) | x1mg | Inactivated Legionella pneumophila antigen (native extract) |
| MT-28STMU | 滅活的鼠傷寒沙門氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella typhimurium antigen (native extract) |
| MT-28SSU | 滅活的宋內氏志賀菌抗原(天然提取物) | x1mg | Inactivated Shigella sonnei antigen (native extract) |
| MT-28PECU | 滅活的幽門螺桿菌抗原(天然提取物) | x1mg | Inactivated H. pylori antigen (native extract) |
| MT-29RVV | 滅活呼吸道合胞病毒抗原(天然提取物) | x1mg | Inactivated RSV antigen (native extract) |
| MT-28SPAU | 滅活沙門氏菌副傷寒A抗原(天然提取物) | x1mg | Inactivated Salmonella paratyphi A antigen (native extract) |
| MT-28SPBU | 滅活沙門氏菌副傷寒B抗原(天然提取物) | x1mg | Inactivated Salmonella paratyphi B antigen (native extract) |
| MT-28STU | 滅活傷寒沙門氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella typhi antigen (native extract) |
| MT-28YE3U | 滅活小腸結腸炎耶爾森氏菌O:3抗原(天然提取物) | x1mg | Inactivated Yersinia enterocolitica O:3 antigen (native extract) |
| MT-28YE9U | 滅活小腸結腸炎耶爾森氏菌O:9抗原(天然提取物) | x1mg | Inactivated Yersinia enterocolitica O:9 antigen (native extract) |
| MT-29KOE | 滅活小球隱孢子蟲抗原(天然提取物) | x1mg | Inactivated Cryptosporidium parvum antigen (native extract) |
| MT-25EDP | 內阿米巴重組蛋白 | x1mg | Entamoeba dispar recombinant protein |
| MT-25NGI1 | 諾如病毒GI.1重組P結構域 | x1mg | Norovirus GI.1 recombinant P domain |
| MT-31NGA | 諾如病毒GI.1重組VLP | x1mg | Norovirus GI.1 recombinant VLP |
| MT-25NGI3 | 諾如病毒GI.3重組P結構域 | x1mg | Norovirus GI.3 recombinant P domain |
| MT-25NGII10 | 諾如病毒GII.10重組P結構域 | x1mg | Norovirus GII.10 recombinant P domain |
| MT-25NGII17 | 諾如病毒GII.17重組P結構域 | x1mg | Norovirus GII.17 recombinant P domain |
| MT-25NGII14 | 諾如病毒GII.4重組P結構域 | x1mg | Norovirus GII.4 recombinant P domain |
| MT-31NPA | 諾如病毒GII.4重組VLP | x1mg | Norovirus GII.4 recombinant VLP |
| MT-18NP8 | 諾如病毒GII單克隆抗體(克隆NP8) | x1mg | Anti-Norovirus GII Mab (clone NP8) |
| MT-18NG28 | 諾如病毒GI單克隆抗體(克隆NG28) | x1mg | Anti-Norovirus GI Mab (clone NG28) |
| MT-25HCP | 人類鈣衛蛋白重組蛋白 | x1mg | Human Calprotectin recombinant protein |
| MT-29HLF | 人乳鐵蛋白蛋白質(天然提取物) | x1mg | Human Lactoferrin protein (native extract) |
| MT-29HHB | 人血紅蛋白蛋白質(天然提取物) | x1mg | Human Haemoglobin protein (native extract) |
| MT-29HTF | 人轉鐵蛋白蛋白質(天然提取物) | x1mg | Human Transferrin protein (native extract) |
| MT-20TSS | 溶血性A鏈球菌抗體 | x1mg | Anti-Strep A Pab |
| MT-25EHP | 溶組織內阿米巴重組蛋白 | x1mg | Entamoeba histolytica recombinant protein |
| MT-16LC16 | 乳鐵蛋白單抗(克隆LC16) | x1mg | Anti-Lactoferrin Mab (clone LC16) |
| MT-16LC4 | 乳鐵蛋白單抗(克隆LC4) | x1mg | Anti-Lactoferrin Mab (clone LC4) |
| MT-18LN14 | 嗜肺軍團菌單抗(克隆LN14) | x1mg | Anti-Legionella pneumophila Mab (clone LN14) |
| MT-18LN29 | 嗜肺軍團菌單抗(克隆LN29) | x1mg | Anti-Legionella pneumophila Mab (clone LN29) |
| MT-16CA29 | 彎曲桿菌抗體(克隆ECA29) | x1mg | Anti-Campylobacter Mab (clone CA29) |
| MT-25CCP | 彎曲桿菌重組外膜蛋白 | x1mg | Campylobacter coli recombinant outer membrane protein |
| MT-25HEX | 腺病毒HEXON重組蛋白 | x1mg | Adenovirus HEXON recombinant protein |
| MT-18A14 | 腺病毒單克隆抗體(克隆A14) | x1mg | Anti-Adenovirus Mab (clone A14) |
| MT-18A15 | 腺病毒單克隆抗體(克隆A15) | x1mg | Anti-Adenovirus Mab (clone A15) |
| MT-18A15 | 腺病毒抗體(克隆A15) | x1mg | Anti-Adenovirus Mab (clone A15) |
| MT-25HEXR | 腺病毒六鄰體重組蛋白 | x1mg | Adenovirus HEXON recombinant protein |
| MT-18AT18 | 星狀病毒單克隆抗體(克隆AT18) | x1mg | Anti-Astrovirus Mab (clone AT18) |
| MT-18AT8 | 星狀病毒單克隆抗體(克隆AT8) | x1mg | Anti-Astrovirus Mab (clone AT8) |
| MT-25AST | 星狀病毒衣殼重組蛋白 | x1mg | Astrovirus capsid recombinant protein |
| MT-16F22 | 血紅蛋白單抗(克隆F22) | x1mg | Anti-Haemoglobin Mab (clone F22) |
| MT-18YB91 | 乙型流感病毒單抗(克隆YB91) | x1mg | Anti-Influenza B Mab (clone YB91) |
| MT-25FBN | 乙型流感病毒重組核蛋白 | x1mg | Influenza B recombinant nucleoprotein |
| MT-18K31 | 隱球菌抗體(克隆K31) | x1mg | Anti-Crypto Mab (clone K31) |
| MT-25PCH | 幽門螺桿菌重組外膜蛋白 | x1mg | H. pylori recombinant outer membrane protein |
| MT-16P2 | 幽門螺旋桿菌抗體(克隆P2)HP抗體 | x1mg | Anti-H. pylori Mab (clone P2) |
西班牙
目前,美國羅格斯大學副教授Ki-Bum Lee開發的一項技術,可以克服利用干細胞完整治療潛力的一個關鍵障礙。
致力于再生細胞并培養新組織來治療衰竭性損傷和疾病(如帕金森病、心臟病和脊髓損傷)的研究人員,所面臨的一個主要挑戰是,創建一種簡單、有效和無毒性的方法,來控制到特定細胞譜系的分化。Lee及其羅格斯大學、日本京都大學的同事們,發明了一種平臺,他們稱之為NanoScript,對于基因表達領域的研究人員來說,這是一個重要的突破。基因表達是指細胞在生命過程中,把儲存在DNA順序中遺傳信息經過轉錄和翻譯,轉變成具有生物活性的蛋白質分子,對于通過干細胞治療的組織發育過程是很重要的。
干細胞具有很大的潛力應用于各種醫學治療,因為它們能夠培養整個身體的組織。在許多組織中,干細胞作為一種內部修復系統,具有幾乎無限分裂和補充其他細胞的能力。
轉錄因子(TF)蛋白質是基因表達的主要調控因子。TF蛋白在調控干細胞分化過程中發揮重要的作用。雖然有些人試圖制造行使天然轉錄因子功能的合成分子,但NanoScript是*個能夠與內源DNA相互作用的納米材料TF蛋白質。Lee關于NanoScript的這項研究,發表在zui近的美國化學學會期刊《ACS Nano》。該研究是由美國國立衛生研究院(NIH)資助支持。
Lee帶領羅格斯大學的一個研究小組,主要集中開發和整合納米技術與化學生物學,來調控癌癥和干細胞中的信號通路。他指出:“我們的動機是,開發一種非常強大的、高效的納米粒子為基礎的平臺,能夠調節基因表達,zui終調節干細胞的分化。因為NanoScript是TF蛋白的一個功能性復制品和一個可調諧的基因調控平臺,它有巨大的潛力做到這一點。現在,干細胞生物學領域有另外一種平臺來調控分化,而納米技術領域*證明,我們可以在轉錄水平上調控基因表達。”
NanoScript是由網絡共享功能肽和小分子(稱為合成轉錄因子)構建而成,模擬單個TF結構域,映射到金納米粒子上。
本文共同作者、羅格斯大學化學研究生Sahishnu Pa指出:“NanoScript定位在細胞核內,可高達30倍地啟動一個報告質粒的轉錄。NanoScript可以一種非病毒的方式,有效地在內源性DNA上轉錄靶基因。”
Lee說,他的研究的下一步是,探討利用NanoScript后,金納米粒子上發生了什么情況,以確保沒有毒害作用產生,并確保NanoScript長時間的有效性。
西班牙
想了解更多的產品及服務請掃描下方二維碼:
【公司名稱】 廣州健侖生物科技有限公司
【市場部】 楊永漢
【】
【騰訊 】 2042552662
【公司地址】 廣州清華科技園創新基地番禺石樓鎮創啟路63號二期2幢101-103室
Currently, a patented technology developed by Ki-Bum Lee, an associate professor at Rutgers University, can overcome one of the key barriers to harnessing the full therapeutic potential of stem cells.
A major challenge for researchers working on regenerating cells and developing new tissue to treat failing lesions and diseases such as Parkinson's disease, heart disease, and spinal cord injury is creating a simple, effective, and non-toxic approach , To control the differentiation of specific cell lineages. Lee and his colleagues at Rutgers University and Kyoto University in Japan invented a platform that they call NanoScript, an important breakthrough for researchers in the field of gene expression. Gene expression refers to the cells in the life process, stored in the DNA sequence of genetic information through transcription and translation, into a biological activity of protein molecules, through the stem cell treatment of tissue development is very important.
Stem cells have great potential for use in a variety of medical treatments because they are capable of developing tissue throughout the body. In many tissues, stem cells act as an internal repair system that has the ability to divide and replenish other cells almost indefiniy.
Transcription factor (TF) proteins are the major regulatory elements of gene expression. TF protein plays an important role in the regulation of stem cell differentiation. Although some people try to make synthetic molecules that perform the function of natural transcription factors, NanoScript is the first TF protein of nanomaterials that interacts with endogenous DNA. Lee's research on NanoScript was published in the recent ACS Nano Journal. The study was funded by the National Institutes of Health (NIH).
Lee led a research group at Rutgers, which focused on developing and integrating nanotechnology and chemical biology to regulate signaling pathways in cancer and stem cells. "Our motivation is to develop a very powerful and efficient nanoparticle-based platform that regulates gene expression and eventually regulates stem cell differentiation, because NanoScript is a functional copy of the TF protein and a Tuned gene regulation platform, which has great potential to do this.Now there is another platform in stem cell biology to regulate differentiation, and for the first time in the field of nanotechnology, that we can regulate gene expression at the transcriptional level. "
NanoScript is a network of shared functional peptides and small molecules (called synthetic transcription factors) constructed to simulate a single TF domain, mapped to gold nanoparticles.
Co-author Sahishnu Pa, a graduate student in chemistry at the University of Rutgers, said: "NanoScript, which is located in the nucleus, can initiate up to 30-fold transcription of a reporter plasmid. NanoScript works efficiently on endogenous DNA in a non-viral fashion Transcription target genes. "
Lee said the next step in his research is to explore what happens to gold nanoparticles after using NanoScript to ensure no toxic effects and to ensure the long-term effectiveness of NanoScript.
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