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西班牙Certest星状病毒单克隆抗体(克隆AT18)
广州健仑生物科技有限公司
广州健仑长期供应各种生物原料,主要代理品牌:西班牙Certest。
Certest Biotec,S.L. 是一家独立的生物技术公司,致力于人类临床领域的IVD诊断产品的开发和制造。快速检测是基于快速、准确和易于操作的诊断产品。 此外,Cerstest还有多种实时PCR产品,可以用于医院临床、实验室科研等。
Certest公司于2002年在萨拉戈萨成立,是一家创新技术型公司。公司的发展是基于新产品的开发、市场空间和机遇的探索,十几年来一直以高度专业化,以客户为导向,不断得创新,优化产品,专业知识,取得广大客户的信任和支持。Certest的质量体系已通过ISO 13485认证。
主要产品包括各种生物单克隆抗原抗体、重组蛋白。
轮状病毒单克隆抗体、腺病毒抗体、星状病毒单克隆抗体、诺如病毒单克隆抗体、幽门螺旋杆菌抗体、隐球菌抗体、肠道病毒抗体、贾第鞭毛虫抗体、弯曲杆菌抗体、阿米巴原虫抗体、呼吸道合胞病毒单抗等等。
西班牙Certest星状病毒单克隆抗体(克隆AT18)
我司还提供其它进口或国产试剂盒:登革热、疟疾、流感、A链球菌、合胞病毒、腮病毒、乙脑、寨卡、黄热病、基孔肯雅热、克锥虫病、违禁品滥用、肺炎球菌、军团菌、化妆品检测、食品安全检测等试剂盒以及日本生研细菌分型诊断血清、德国SiFin诊断血清、丹麦SSI诊断血清等产品。
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西班牙Certest公司简介
Certest Biotec, S.L. is an independent biotechnology company devoted to the development and manufacturing of IVD diagnostic products in human clinical field. Our Rapid Test are based in a fast, reliable and easy-interpretation process. In addition, VIASURE contains a wide range of products for Real Time PCR that allow to identify the causal pathogens of the infectious diseases in physicians’ offices, labs and hospitals.
The company was established in Zaragoza in 2002 as an innovative and technology-based company. The company’s growth is based on the development of new products and the exploration for new market niches and opportunities. The key to understand its success is the way to understand its organization: highly specialised and customer-oriented based.
Mission, Vision, Values and Human Team
Mission
To develop, produce and market a wide range of innovative solutions and quality in vitro diagnostics for the detection of viruses, bacteria and parasites.
Vision
Being the international leader company in research and development for in vitro diagnostic solutions, increasing our distribution network through added value creation and company-customer trust.
Values
Customer orientation · Ethical behaviour · Teamwork · Continuous research and innovation ·Trained and motivated team · Quality and creativity in all processes
Human team
The multi-skilled team is a dedicated and experience professional group responsible for dealing with all the different company activities in an international environment.
Commitment to Innovation, Export and High-Technology.
Certest’s Quality System has been certified with ISO 13485.
One of the main objectives of Certest is to achieve customer satisfaction. For this, the management of the company ensures that customer requirements are determined and reviewed, identifying their needs and expectations, and translating them into requirements, all in order to maintain customer satisfaction.
See/Download the Certest Biotec ISO Standard Certification Certest Policy is consistent with its primary purpose, that of getting to all its products and services, quality and reliability, meeting the requirements and maintaining the effectiveness of the management system.
“Comparative study of two diagnostic tests for detection of RNA Zika Virus (ZIKV) in clinical samples”
“Comparison of Real-Time PCR test with the routine diagnosis technique to detect enteric pathogenic protozoa”
“Diagnostic of the Enteric Virus infection by Real-Time PCR in stool samples”
“Clinical performance evaluation of lyophilized VIASURE Real Time PCR Detection Kits for pathogen detection by participation in External Quality Assessment (EQA) programs”
“Detection and differentiation of Influenza A Virus, Influenza B Virus and H1N1 (pdm09) variant through an stabilized Real Time PCR Mix”
“Comparison of different molecular methods for the detection of non-influenza respiratory virus”virus”
【西班牙Certest生物原料】
货号 | 产品名称 | 规格 | 英文名称 |
MT-16R15 | 轮状病毒单克隆抗体(克隆R15) | x1mg | Anti-Rotavirus Mab (clone R15) |
MT-16R15s1 | 轮状病毒单克隆抗体(克隆R15) | x100μg | Anti-Rotavirus Mab (clone R15) |
MT-18A15 | 腺病毒抗体(克隆A15) | x1mg | Anti-Adenovirus Mab (clone A15) |
MT-18A15s1 | 腺病毒抗体(克隆A15) | x100μg | Anti-Adenovirus Mab (clone A15) |
MT-18AT18 | 星状病毒单克隆抗体(克隆AT18) | x1mg | Anti-Astrovirus Mab (clone AT18) |
MT-18AT18s1 | 星状病毒单克隆抗体(克隆AT18) | x100μg | Anti-Astrovirus Mab (clone AT18) |
MT-18AT8 | 星状病毒单克隆抗体(克隆AT8) | x1mg | Anti-Astrovirus Mab (clone AT8) |
MT-18AT8s1 | 星状病毒单克隆抗体(克隆AT8) | x100μg | Anti-Astrovirus Mab (clone AT8) |
MT-18NG28 | 诺如病毒GI单克隆抗体(克隆NG28) | x1mg | Anti-Norovirus GI Mab (clone NG28) |
MT-18NG28sl | 诺如病毒GI单克隆抗体(克隆NG28) | x100μg | Anti-Norovirus GI Mab (clone NG28) |
MT-18NP8 | 诺如病毒GII单克隆抗体(克隆NP8) | x1mg | Anti-Norovirus GII Mab (clone NP8) |
MT-18NP8sl | 诺如病毒GII单克隆抗体(克隆NP8) | x100μg | Anti-Norovirus GII Mab (clone NP8) |
MT-18EV5 | 肠道病毒抗体(克隆EV5) | x1mg | Anti-Enterovirus Mab (clone EV5) |
MT-18EV5sl | 肠道病毒抗体(克隆EV5) | x100μg | Anti-Enterovirus Mab (clone EV5) |
MT-16P2 | 幽门螺旋杆菌抗体(克隆P2)HP抗体 | x1mg | Anti-H. pylori Mab (clone P2) |
MT-16P2sl | 幽门螺旋杆菌抗体(克隆P2)HP抗体 | x100μg | Anti-H. pylori Mab (clone P2) |
MT-16GD10 | 艰难梭菌抗体(克隆GD10) | x1mg | Anti-GDH Mab (clone GD10) |
MT-16GD10sl | 艰难梭菌抗体(克隆GD10) | x100μg | Anti-GDH Mab (clone GD10) |
MT-18TA5 | 艰难梭菌毒素A抗(克隆TA5) | x1mg | Anti-CD Toxin A Mab (clone TA5) |
MT-18TA5sl | 艰难梭菌毒素A抗(克隆TA5) | x100μg | Anti-CD Toxin A Mab (clone TA5) |
MT-18TA7 | 艰难梭菌毒素A抗(克隆TA7) | x1mg | Anti-CD Toxin A Mab (clone TA7) |
MT-18TA7sl | 艰难梭菌毒素A抗(克隆TA7) | x100μg | Anti-CD Toxin A Mab (clone TA7) |
MT-18TB41 | 艰难梭菌毒素B抗(克隆TB41) | x1mg | Anti-CD Toxin B Mab (clone TB41) |
MT-18TB41sl | 艰难梭菌毒素B抗(克隆TB41) | x100μg | Anti-CD Toxin B Mab (clone TB41) |
MT-18TB48 | 艰难梭菌毒素B抗(克隆TB48) | x1mg | Anti-CD Toxin B Mab (clone TB48) |
MT-18TB48sl | 艰难梭菌毒素B抗(克隆TB48) | x100μg | Anti-CD Toxin B Mab (clone TB48) |
MT-18E10 | 大肠杆菌O157抗体(克隆E10) | x1mg | Anti-E. coli O157 Mab (clone E10) |
MT-18E10sl | 大肠杆菌O157抗体(克隆E10) | x100μg | Anti-E. coli O157 Mab (clone E10) |
MT-16CA29 | 弯曲杆菌抗体(克隆ECA29) | x1mg | Anti-Campylobacter Mab (clone CA29) |
MT-16CA29sl | 弯曲杆菌抗体(克隆ECA29) | x100μg | Anti-Campylobacter Mab (clone CA29) |
MT-18K31 | 隐球菌抗体(克隆K31) | x1mg | Anti-Crypto Mab (clone K31) |
MT-18K31sl | 隐球菌抗体(克隆K31) | x100μg | Anti-Crypto Mab (clone K31) |
MT-16G18 | 贾第鞭毛虫抗体(克隆G18) | x1mg | Anti-Giardia Mab trophozoite protein (clone G18) |
MT-16G18sl | 贾第鞭毛虫抗体(克隆G18) | x100μg | Anti-Giardia Mab trophozoite protein (clone G18) |
MT-16G22 | 贾第鞭毛虫抗体(克隆G22) | x1mg | Anti-Giardia Mab trophozoite protein (clone G22) |
MT-16G22sl | 贾第鞭毛虫抗体(克隆G22) | x100μg | Anti-Giardia Mab trophozoite protein (clone G22) |
MT-18EH30 | 阿米巴原虫抗体(克隆H30) | x1mg | Anti-Entamoeba Mab (clone EH30) |
MT-18EH30sl | 阿米巴原虫抗体(克隆H30) | x100μg | Anti-Entamoeba Mab (clone EH30) |
MT-16CP14 | 钙结合蛋白单克隆抗体(克隆CP14) | x1mg | Anti-Calprotectin Mab (clone CP14) |
MT-16CP14sl | 钙结合蛋白单克隆抗体(克隆CP14) | x100μg | Anti-Calprotectin Mab (clone CP14) |
MT-16F22 | 血红蛋白单抗(克隆F22) | x1mg | Anti-Haemoglobin Mab (clone F22) |
MT-16F22sl | 血红蛋白单抗(克隆F22) | x100μg | Anti-Haemoglobin Mab (clone F22) |
MT-16LC16 | 乳铁蛋白单抗(克隆LC16) | x1mg | Anti-Lactoferrin Mab (clone LC16) |
MT-16LC16sl | 乳铁蛋白单抗(克隆LC16) | x100μg | Anti-Lactoferrin Mab (clone LC16) |
MT-16LC4 | 乳铁蛋白单抗(克隆LC4) | x1mg | Anti-Lactoferrin Mab (clone LC4) |
MT-16LC4sl | 乳铁蛋白单抗(克隆LC4) | x100μg | Anti-Lactoferrin Mab (clone LC4) |
MT-26VP6 | 轮状病毒VP6重组蛋白 | x1mg | Rotavirus VP6 recombinant protein |
MT-26VP6 | 轮状病毒VP6重组蛋白 | x100μg | Rotavirus VP6 recombinant protein |
MT-25HEX | 腺病毒HEXON重组蛋白 | x1mg | Adenovirus HEXON recombinant protein |
MT-25HEXsl | 腺病毒HEXON重组蛋白 | x100μg | Adenovirus HEXON recombinant protein |
MT-25AST | 星状病毒衣壳重组蛋白 | x1mg | Astrovirus capsid recombinant protein |
MT-25ASTsl | 星状病毒衣壳重组蛋白 | x100μg | Astrovirus capsid recombinant protein |
MT-25NGI1 | 诺如病毒GI.1重组P结构域 | x1mg | Norovirus GI.1 recombinant P domain |
MT-25NGI1sl | 诺如病毒GI.1重组P结构域 | x100μg | Norovirus GI.1 recombinant P domain |
MT-25NGI3 | 诺如病毒GI.3重组P结构域 | x1mg | Norovirus GI.3 recombinant P domain |
MT-25NGI3sl | 诺如病毒GI.3重组P结构域 | x100μg | Norovirus GI.3 recombinant P domain |
MT-25NGII10 | 诺如病毒GII.10重组P结构域 | x1mg | Norovirus GII.10 recombinant P domain |
MT-25NGII10sl | 诺如病毒GII.10重组P结构域 | x100μg | Norovirus GII.10 recombinant P domain |
MT-25NGII17 | 诺如病毒GII.17重组P结构域 | x1mg | Norovirus GII.17 recombinant P domain |
MT-25NGII17sl | 诺如病毒GII.17重组P结构域 | x100μg | Norovirus GII.17 recombinant P domain |
MT-25NGII14 | 诺如病毒GII.4重组P结构域 | x1mg | Norovirus GII.4 recombinant P domain |
MT-25NGII14sl | 诺如病毒GII.4重组P结构域 | x100μg | Norovirus GII.4 recombinant P domain |
MT-25ETV | 肠道病毒VP1重组蛋白 | x1mg | Enterovirus VP1 recombinant protein |
MT-25ETVs1 | 肠道病毒VP1重组蛋白 | x100μg | Enterovirus VP1 recombinant protein |
MT-25PCH | 幽门螺杆菌重组外膜蛋白 | x1mg | H. pylori recombinant outer membrane protein |
MT-25PCHs1 | 幽门螺杆菌重组外膜蛋白 | x100μg | H. pylori recombinant outer membrane protein |
MT-25GDH | 艰难梭菌GDH重组蛋白 | x1mg | Clostridium difficile GDH recombinant protein |
MT-25GDHsl | 艰难梭菌GDH重组蛋白 | x100μg | Clostridium difficile GDH recombinant protein |
MT-24TXA | 艰难梭菌毒素A重组蛋白(无毒性片段) | x1mg | C. difficile Toxin A recombinant protein (fragment without toxic activity) |
MT-24TXAsl | 艰难梭菌毒素A重组蛋白(无毒性片段) | x100μg | C. difficile Toxin A recombinant protein (fragment without toxic activity) |
MT-24TXB | 艰难梭菌毒素B重组蛋白(无毒性片段) | x1mg | C. difficile Toxin B recombinant protein (fragment without toxic activity) |
MT-24TXBsl | 艰难梭菌毒素B重组蛋白(无毒性片段) | x100μg | C. difficile Toxin B recombinant protein (fragment without toxic activity) |
MT-25STX | 大肠杆菌O157 VT1重组蛋白 | x1mg | E. coli O157 VT1 recombinant protein |
MT-25STXsl | 大肠杆菌O157 VT1重组蛋白 | x100μg | E. coli O157 VT1 recombinant protein |
MT-25VT2 | 大肠杆菌O157 VT2重组蛋白 | x1mg | E. coli O157 VT2 recombinant protein |
MT-25VT2sl | 大肠杆菌O157 VT2重组蛋白 | x100μg | E. coli O157 VT2 recombinant protein |
MT-25CCP | 弯曲杆菌重组外膜蛋白 | x1mg | Campylobacter coli recombinant outer membrane protein |
MT-25CCPsl | 弯曲杆菌重组外膜蛋白 | x100μg | Campylobacter coli recombinant outer membrane protein |
MT-25CEP | 空肠弯曲杆菌重组外膜蛋白 | x1mg | Campylobacter jejuni recombinant outer membrane protein |
MT-25CEPsl | 空肠弯曲杆菌重组外膜蛋白 | x100μg | Campylobacter jejuni recombinant outer membrane protein |
MT-25A1G | 贾第虫肠道滋养体重组蛋白 | x1mg | Giardia intestinalis trophozoite recombinant protein |
MT-25A1Gsl | 贾第虫肠道滋养体重组蛋白 | x100μg | Giardia intestinalis trophozoite recombinant protein |
MT-25GCP | 贾第虫肠囊菌重组蛋白 | x1mg | Giardia intestinalis cyst recombinant protein |
MT-25GCPsl | 贾第虫肠囊菌重组蛋白 | x100μg | Giardia intestinalis cyst recombinant protein |
MT-25EDP | 内阿米巴重组蛋白 | x1mg | Entamoeba dispar recombinant protein |
MT-25EDPsl | 内阿米巴重组蛋白 | x100μg | Entamoeba dispar recombinant protein |
MT-25EHP | 溶组织内阿米巴重组蛋白 | x1mg | Entamoeba histolytica recombinant protein |
MT-25EHPsl | 溶组织内阿米巴重组蛋白 | x100μg | Entamoeba histolytica recombinant protein |
MT-25HCP | 人类钙卫蛋白重组蛋白 | x1mg | Human Calprotectin recombinant protein |
MT-25HCPs1 | 人类钙卫蛋白重组蛋白 | x100μg | Human Calprotectin recombinant protein |
MT-31NGA | 诺如病毒GI.1重组VLP | x1mg | Norovirus GI.1 recombinant VLP |
MT-31NGAsl | 诺如病毒GI.1重组VLP | x100μg | Norovirus GI.1 recombinant VLP |
MT-31NPA | 诺如病毒GII.4重组VLP | x1mg | Norovirus GII.4 recombinant VLP |
MT-31NPAsl | 诺如病毒GII.4重组VLP | x100μg | Norovirus GII.4 recombinant VLP |
MT-28PECU | 灭活的幽门螺杆菌抗原(天然提取物) | x1mg | Inactivated H. pylori antigen (native extract) |
MT-28PECUsl | 灭活的幽门螺杆菌抗原(天然提取物) | x100μg | Inactivated H. pylori antigen (native extract) |
MT-28EC7U | 灭活的大肠杆菌O157抗原(天然提取物) | x1mg | Inactivated E. coli O157 antigen (native extract) |
MT-28EC7Usl | 灭活的大肠杆菌O157抗原(天然提取物) | x100μg | Inactivated E. coli O157 antigen (native extract) |
MT-28CCU | 灭活的大肠杆菌抗原(天然提取物) | x1mg | Inactivated Campylobacter coli antigen (native extract) |
MT-28CCUsl | 灭活的大肠杆菌抗原(天然提取物) | x100μg | Inactivated Campylobacter coli antigen (native extract) |
MT-28CJU | 灭活的空肠弯曲杆菌抗原(天然提取物) | x1mg | Inactivated Campylobacter jejuni antigen (native extract) |
MT-28CJUsl | 灭活的空肠弯曲杆菌抗原(天然提取物) | x100μg | Inactivated Campylobacter jejuni antigen (native extract) |
MT-28SEU | 灭活肠炎沙门氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella enteritidis antigen (native extract) |
MT-28SEUs1 | 灭活肠炎沙门氏菌抗原(天然提取物) | x100μg | Inactivated Salmonella enteritidis antigen (native extract) |
MT-28SPAU | 灭活沙门氏菌副伤寒A抗原(天然提取物) | x1mg | Inactivated Salmonella paratyphi A antigen (native extract) |
MT-28SPAUsl | 灭活沙门氏菌副伤寒A抗原(天然提取物) | x100μg | Inactivated Salmonella paratyphi A antigen (native extract) |
MT-28SPBU | 灭活沙门氏菌副伤寒B抗原(天然提取物) | x1mg | Inactivated Salmonella paratyphi B antigen (native extract) |
MT-28SPBUsl | 灭活沙门氏菌副伤寒B抗原(天然提取物) | x100μg | Inactivated Salmonella paratyphi B antigen (native extract) |
MT-28STMU | 灭活的鼠伤寒沙门氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella typhimurium antigen (native extract) |
MT-28STMUsl | 灭活的鼠伤寒沙门氏菌抗原(天然提取物) | x100μg | Inactivated Salmonella typhimurium antigen (native extract) |
MT-28STU | 灭活伤寒沙门氏菌抗原(天然提取物) | x1mg | Inactivated Salmonella typhi antigen (native extract) |
MT-28STUsl | 灭活伤寒沙门氏菌抗原(天然提取物) | x100μg | Inactivated Salmonella typhi antigen (native extract) |
MT-28LMU | 灭活的单核细胞增生李斯特菌抗原(天然提取物) | x1mg | Inactivated Listeria monocytogenes antigen (native extract) |
MT-28LMUsl | 灭活的单核细胞增生李斯特菌抗原(天然提取物) | x100μg | Inactivated Listeria monocytogenes antigen (native extract) |
MT-28YE3U | 灭活小肠结肠炎耶尔森氏菌O:3抗原(天然提取物) | x1mg | Inactivated Yersinia enterocolitica O:3 antigen (native extract) |
MT-28YE3Usl | 灭活小肠结肠炎耶尔森氏菌O:3抗原(天然提取物) | x100μg | Inactivated Yersinia enterocolitica O:3 antigen (native extract) |
MT-28YE9U | 灭活小肠结肠炎耶尔森氏菌O:9抗原(天然提取物) | x1mg | Inactivated Yersinia enterocolitica O:9 antigen (native extract) |
MT-28YE9Usl | 灭活小肠结肠炎耶尔森氏菌O:9抗原(天然提取物) | x100μg | Inactivated Yersinia enterocolitica O:9 antigen (native extract) |
MT-28SBU | 灭活的鲍氏志贺氏菌抗原(天然提取物) | x1mg | Inactivated Shigella boydii antigen (native extract) |
MT-28SBUsl | 灭活的鲍氏志贺氏菌抗原(天然提取物) | x100μg | Inactivated Shigella boydii antigen (native extract) |
MT-28SDU | 灭活的痢疾志贺氏菌抗原(天然提取物) | x1mg | Inactivated Shigella dysenteriae antigen (native extract) |
MT-28SDUsl | 灭活的痢疾志贺氏菌抗原(天然提取物) | x100μg | Inactivated Shigella dysenteriae antigen (native extract) |
MT-28SFU | 灭活的福氏志贺氏菌抗原(天然提取物) | x1mg | Inactivated Shigella flexneri antigen (native extract) |
MT-28SFUdl | 灭活的福氏志贺氏菌抗原(天然提取物) | x100μg | Inactivated Shigella flexneri antigen (native extract) |
MT-28SSU | 灭活的宋内氏志贺菌抗原(天然提取物) | x1mg | Inactivated Shigella sonnei antigen (native extract) |
MT-28SSUsl | 灭活的宋内氏志贺菌抗原(天然提取物) | x100μg | Inactivated Shigella sonnei antigen (native extract) |
MT-29KOE | 灭活小球隐孢子虫抗原(天然提取物) | x1mg | Inactivated Cryptosporidium parvum antigen (native extract) |
MT-29KOEsl | 灭活小球隐孢子虫抗原(天然提取物) | x100μg | Inactivated Cryptosporidium parvum antigen (native extract) |
MT-29HHB | 人血红蛋白蛋白质(天然提取物) | x1mg | Human Haemoglobin protein (native extract) |
MT-29HHBsl | 人血红蛋白蛋白质(天然提取物) | x100μg | Human Haemoglobin protein (native extract) |
MT-29HLF | 人乳铁蛋白蛋白质(天然提取物) | x1mg | Human Lactoferrin protein (native extract) |
MT-29HLF | 人乳铁蛋白蛋白质(天然提取物) | x100μg | Human Lactoferrin protein (native extract) |
MT-29HTF | 人转铁蛋白蛋白质(天然提取物) | x1mg | Human Transferrin protein (native extract) |
MT-29HTFsl | 人转铁蛋白蛋白质(天然提取物) | x100μg | Human Transferrin protein (native extract) |
MT-20TSS | 溶血性A链球菌抗体 | x1mg | Anti-Strep A Pab |
MT-20TSSsl | 溶血性A链球菌抗体 | x100μg | Anti-Strep A Pab |
MT-18RV3 | 呼吸道合胞病毒单抗(克隆RV3) | x1mg | Anti-RSV Mab (clone RV3) |
MT-18RV3sl | 呼吸道合胞病毒单抗(克隆RV3) | x100μg | Anti-RSV Mab (clone RV3) |
MT-18RV4 | 呼吸道合胞病毒单抗(克隆RV4) | x1mg | Anti-RSV Mab (clone RV4) |
MT-18RV4sl | 呼吸道合胞病毒单抗(克隆RV4) | x100μg | Anti-RSV Mab (clone RV4) |
MT-18A14 | 腺病毒单克隆抗体(克隆A14) | x1mg | Anti-Adenovirus Mab (clone A14) |
MT-18A14sl | 腺病毒单克隆抗体(克隆A14) | x100μg | Anti-Adenovirus Mab (clone A14) |
MT-18A15 | 腺病毒单克隆抗体(克隆A15) | x1mg | Anti-Adenovirus Mab (clone A15) |
MT-18A15Rsl | 腺病毒单克隆抗体(克隆A15) | x100μg | Anti-Adenovirus Mab (clone A15) |
MT-18Y77 | 甲型流感病毒单抗(克隆Y77) | x1mg | Anti-Influenza A Mab (clone Y77) |
MT-18Y77sl | 甲型流感病毒单抗(克隆Y77) | x100μg | Anti-Influenza A Mab (clone Y77) |
MT-18YB91 | 乙型流感病毒单抗(克隆YB91) | x1mg | Anti-Influenza B Mab (clone YB91) |
MT-18YB91sl | 乙型流感病毒单抗(克隆YB91) | x100μg | Anti-Influenza B Mab (clone YB91) |
MT-18LN14 | 嗜肺军团菌单抗(克隆LN14) | x1mg | Anti-Legionella pneumophila Mab (clone LN14) |
MT-18LN14sl | 嗜肺军团菌单抗(克隆LN14) | x100μg | Anti-Legionella pneumophila Mab (clone LN14) |
MT-18LN29 | 嗜肺军团菌单抗(克隆LN29) | x1mg | Anti-Legionella pneumophila Mab (clone LN29) |
MT-18LN29sl | 嗜肺军团菌单抗(克隆LN29) | x100μg | Anti-Legionella pneumophila Mab (clone LN29) |
MT-18SN3 | 肺炎链球菌单克隆抗体(克隆SN3) | x1mg | Anti-Streptococcus pneumoniae Mab (clone SN3) |
MT-18SN3s1 | 肺炎链球菌单克隆抗体(克隆SN3) | x100μg | Anti-Streptococcus pneumoniae Mab (clone SN3) |
MT-18SN4 | 肺炎链球菌单克隆抗体(克隆SN4) | x1mg | Anti-Streptococcus pneumoniae Mab (clone SN4) |
MT-18SN4sl | 肺炎链球菌单克隆抗体(克隆SN4) | x100μg | Anti-Streptococcus pneumoniae Mab (clone SN4) |
MT-25RSV | 呼吸道合胞病毒重组融合蛋白 | x1mg | RSV recombinant fusion protein |
MT-25RSVsl | 呼吸道合胞病毒重组融合蛋白 | x100μg | RSV recombinant fusion protein |
MT-25HEXR | 腺病毒六邻体重组蛋白 | x1mg | Adenovirus HEXON recombinant protein |
MT-25HEXRsl | 腺病毒六邻体重组蛋白 | x100μg | Adenovirus HEXON recombinant protein |
MT-25FAN | 甲型流感病毒重组核蛋白 | x1mg | Influenza A recombinant nucleoprotein |
MT-25FANsl | 甲型流感病毒重组核蛋白 | x100μg | Influenza A recombinant nucleoprotein |
MT-25FBN | 乙型流感病毒重组核蛋白 | x1mg | Influenza B recombinant nucleoprotein |
MT-25FBNsl | 乙型流感病毒重组核蛋白 | x100μg | Influenza B recombinant nucleoprotein |
MT-28SAGU | 灭活A链球菌抗原(天然提取物) | x1mg | Inactivated STREP A antigen (native extract) |
MT-28SAGUsl | 灭活A链球菌抗原(天然提取物) | x100μg | Inactivated STREP A antigen (native extract) |
MT-29RVV | 灭活呼吸道合胞病毒抗原(天然提取物) | x1mg | Inactivated RSV antigen (native extract) |
MT-29RVVsl | 灭活呼吸道合胞病毒抗原(天然提取物) | x100μg | Inactivated RSV antigen (native extract) |
MT-28LNU | 灭活的嗜肺军团菌抗原(天然提取物) | x1mg | Inactivated Legionella pneumophila antigen (native extract) |
MT-28LNUsl | 灭活的嗜肺军团菌抗原(天然提取物) | x100μg | Inactivated Legionella pneumophila antigen (native extract) |
MT-28SPNU | 灭活的肺炎链球菌抗原(天然提取物) | x1mg | Inactivated Streptococcus pneumoniae antigen (native extract) |
MT-28SPNUsl | 灭活的肺炎链球菌抗原(天然提取物) | x100μg | Inactivated Streptococcus pneumoniae antigen (native extract) |
西班牙Certest星状病毒单克隆抗体(克隆AT18)
作为对基因组454-Sanger杂交测序法的一种新的替代技术,光学图谱技术提供了一种全新的微生物基因组测序和拼接策略,虽然该技术不能直接获得基因组DNA的碱基序列,但它可以提供微生物基因组整体有序的物理框架结构。通过与新一代测序技术的结合,光学图谱技术可以提供基因组绝大多数Contig的位置和顺序信息,从而辅助基因组的Scaffold构建,在复杂微生物基因组(多重复序列)的Gap closure中已经被证明行之有效。
如在嗜线虫致病杆菌(Xenorhabdus nematophila)基因组的Gap closure过程中,由于含有多达几百个转座子序列以及7套核糖体RNA序列(16-23-5S),导致经过4个月的拼接后还剩余36个Contig无法找到Linkage关系完成拼接,借助于光学图谱技术,研究人员通过将嗜线虫致病杆菌高质量的基因组酶切物理图谱(基因组限制性内切酶酶切图谱)与基因组序列模拟酶切图谱(根据测序序列信息计算机模拟所生成基因组In silico酶切图谱)进行比较,zui终将36个Contig定位,并且通过比较图谱之间的差异还发现几处由于新一代测序技术自身缺陷(读长短、碱基插入和缺失)所造成的Contig本身拼接错误,经过纠正,在一个月内完成了嗜线虫致病杆菌基因组的Gap closure。
除了基因组序列模拟的酶切图谱,Argus?系统还可以整合其它一些序列的酶切物理图谱信息(文库克隆序列、Gap closure PCR产物以及Paired-End序列等)用于辅助微生物基因组的Gap closure工作。
技术流程:
基因组组装结果评估→DNA样品制备→DNA样品检测→DNA固定、酶切、染色→图像和数据采集→数据分析。
层次聚类法的基本思路是通过迭代分类,把相似的样本放在一层,直到样本都被归到某一层中。具体的层次聚类算法分为两种,从顶层到底层的方法和从底层到顶层的方法。
从顶层到底层的算法思想是:假设有N个待聚类的样本,对于层次聚类来说,基本步骤就是:
(1)(初始化)把每个样本归为一类,计算每两个类之间的距离,也就是样本与样本之间的相似度;
(2)寻找各个类之间zui近的两个类,把他们归为一类(这样类的总数就少了一个);
(3)重新计算新生成的这个类与各个旧类之间的相似度;
(4)重复2和3直到所有样本点都归为一类,结束。
西班牙Certest星状病毒单克隆抗体(克隆AT18)
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想了解更多的产品及服务请扫描下方二维码:
【公司名称】 广州健仑生物科技有限公司
【市场部】 杨永汉
【】
【腾讯 】 2042552662
【公司地址】 广州清华科技园创新基地番禺石楼镇创启路63号二期2幢101-103室
As a new alternative to genomic 454-Sanger hybridization sequencing, optical mapping technology provides a novel strategy for genome sequencing and splicing of microorganisms. Although this technique can not directly obtain the base sequence of genomic DNA, it can provide Microbial genome overall orderly physical framework structure. By combining with next-generation sequencing technology, optical mapping technology can provide most of the Contig's location and sequence information in the genome to aid in Scaffold construction of the genome, which has been demonstrated in the Gap closure of complex microbial genomes (multiple sequins) effective.
As in the Gap closure process of the Xenorhabdus nematophila genome, up to several hundred transposon sequences and seven sets of ribosomal RNA sequences (16-23-5S) result in a four-month After the splicing, 36 Contig could not find the Linkage relationship to finish the splicing. With the aid of optical profiling technology, the researchers compared the physical map (genome restriction endonuclease map) of GenBank accession Nos. Sequence-based mimic maps (in silico maps of genomic in silico generated from sequencing sequence information) culminated in the mapping of 36 Contigs, and by comparing the differences between the maps, several were found due to a defect in the next-generation sequencing technique (Length of reads, base insertions and deletions) caused by the Contig itself stitching errors, after correction, within a month to complete Neisseria gonorrhoeae genome Gap closure.
In addition to the restriction map of genomic sequence simulation, the Argus ™ system can also integrate other physical and electrophoretic profiles (library cloning sequence, Gap closure PCR product, and Paired-End sequence, etc.) to assist in the Gap closure of microbial genomes.
Technical process:
Assessing genome assembly results → DNA sample preparation → DNA sample detection → DNA fixation, digestion, staining → image and data collection → data analysis.
The basic idea of Hierarchical Clustering is to classify similar samples by iterative classification until the samples are all at one level. The specific hierarchical clustering algorithm is divided into two kinds, from the top to the bottom of the method and from the bottom to the top of the method.
The idea of algorithm from the top to the bottom is: Assuming there are N samples to be clustered, the basic steps for hierarchical clustering are:
(1) (initialize) classify each sample as a class and calculate the distance between every two classes, that is, the similarity between the sample and the sample;
(2) look for the two most recent classes between classes, and put them together (so that the total number of classes is one less);
(3) Recalculate the similarity between this newly generated class and each old class;
(4) Repeat 2 and 3 until all the sample points are grouped together and end.
