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商品详细NEB/NEBNext UltraShear™/24 reactions/M7634S

NEB/NEBNext UltraShear™/24 reactions/M7634S

商品编号： M7634S

品牌： New England Biolabs

市场价： ¥0.00

美元价： 0.00

产地：美国(厂家直采)

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产品分类：其他

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联系Q Q： 3392242852

电话号码： 4000-520-616

电子邮箱： info@ebiomall.com

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商品介绍

View or download extensive performance data in ourData Supplement.

Enzymatic methods for DNA fragmentation in NGS workflows enable streamlined protocols, improved performance and scalability. However, specialized fragmentation reagents are required for samples for methylation analysis, to ensure that methylation marks are not removed, and for FFPE DNA. NEBNext UltraShear is a novel enzyme mix designed for fragmentation of these sample types that has a fast workflow and improves library preparation and sequencing metrics for DNA methylation studies and FFPE DNA.NEBNext UltraShear is compatible with NEBNext Enzymatic Methyl-seq (EM-seq) (NEB #E7120).NEBNext UltraShear in FFPE DNA sequencing workflows:

Improved usable reads
Lower artificial mutation frequency

NEBNext UltraShear for methylated DNA sequencing e.g., EM-seq

Higher library yields
Improved sequencing metrics
Improved CpG Coverage

Note that for high quality genomic DNA library prep with enzymatic fragmentation, we recommend NEBNext Ultra II FS DNA Library Prep for Illumina (NEB #E7805, #E6177).

Graph of Yields — 200 ng, 50 ng and 10 ng of NA12878 DNA spiked with control DNA (CpG methylated pUC19 DNA and unmethylated lambda DNA) were fragmented by either NEBNext UltraShear (20 minutes at 37°C) or Covaris^® ME220 (350 bp protocol) followed by EM-seq library preparation. Library yields were quantified using Agilent^® TapeStation^® with the High Sensitivity D1000 ScreenTape^®. EM-seq libraries fragmented by NEBNext UltraShear have higher yields than Covaris for the same number of PCR cycles for each input (200 ng = 4 cycles; 50 ng = 6 cycles; 10ng=8 cycles).

Grid showing improvement — 200 ng, 50 ng and 10 ng of NA12878 DNA spiked with control DNA (CpG methylated pUC19 DNA and unmethylated lambda DNA) was fragmented by either NEBNext UltraShear (20 minutes at 37°C) or Covaris ME220 (350 bp protocol) followed by EM-seq library preparation. Technical replicates were generated for each input amount. All libraries were sequenced on the same flowcell of an Illumina^® NovaSeq^® 6000 (2 x 100 bases). 725 million reads were sampled (seqtk) from each library for methylation analysis. Reads were adapter trimmed (fastp), aligned to the GRCh38 reference (bwa-meth), and duplicate marked (Picard MarkDuplicates) before calling methylation using MethylDackel. NEBNext UltraShear and Covaris fragmentation used ahead of the EM-seq workflow yielded a similar number of CpGs (~54 million) at minimum 1X coverage. At minimum 10X coverage, more CpGs are identified when NEBNext UltraShear is used, due to improved library diversity and coverage evenness.

Graph comparing usable reads — FFPE DNA was fragmented using NEBNext UltraShear (15 minutes at 37°C), Covaris ME220, Kapa EvoPlus® Kit, Kapa HyperPlus^® Kit, Agilent SureSelect^® Enzymatic Fragmentation Kit, NEBNext dsDNA Fragmentase^® or NEBNext Ultra II FS. All samples were fragmented according to the respective protocols. Fragmentation with NEBNext dsDNA Fragmentase, Kapa kits and the Agilent kit was followed by a bead cleanup and library construction using the NEBNext Ultra II DNA library Prep Kit for Illumina. NEBNext UltraShear and Covaris-sheared samples were followed directly by use of the NEBNext Ultra II DNA Library Prep Kit for Illumina, and NEBNext Ultra II FS samples followed the recommended protocol for library prep. Each library was sequenced using the Illumina NextSeq^® 500. 2 million (2 x 76 base) reads were used for this analysis. Reads were aligned to GRCh38 with Bowtie2 and analyzed using samtools flagstats and Picard CollectAlighmentSummaryMetrics. Percent of usable reads (mappable, proper pairs, and non-duplicates reads) were measured for each library and usable reads were averaged for technical replicates (bars represent error between two technical replicates) for all fragmentation methods. FFPE DNA libraries fragmented with NEBNext UltraShear had the highest percent of usable reads and had similar percent usable reads as high-quality DNA libraries (high-quality DNA had a comparable percent of usable reads across all fragmentation methods ≥ 96%; data not shown).

Graphs with mutation data — FFPE DNA was fragmented using NEBNext UltraShear (15 minutes at 37°C), Covaris ME220, Kapa EvoPlus Kit, Kapa HyperPlus Kit, Agilent SureSelect Enzymatic Fragmentation Kit, NEBNext dsDNA Fragmentase or NEBNext Ultra II FS. All samples were fragmented according to the recommended protocols. Fragmentation with NEBNext dsDNA Fragmentase, Kapa^® kits and the Agilent kit was followed by a bead cleanup and NEBNext Ultra II DNA library Prep Kit for Illumina. NEBNext UltraShear and Covaris-sheared samples were followed directly by use of the NEBNext Ultra II DNA Library Prep Kit for Illumina, and NEBNext Ultra II FS samples followed the recommended protocol for library prep. Each library was sequenced using the Illumina NextSeq 500. 2 million (2 x 76 base) reads were used for this analysis. Reads were aligned to GRCh38 with Bowtie2. Artificial C to T mutations were calculated with Tasmanian tool for read 1 and 2 and averaged for technical replicates (bars represent error between two technical replicates). The libraries fragmented with NEBNext UltraShear resulted in the lowest C to T artificial mutation frequency compared to other fragmentation methods for FFPE DNA both reads (R1= Read 1 and R2= Read 2).

Chart of time dependent fragmentation — 50 ng human DNA (NA12878) was fragmented for 5–45 minutes at 37°C followed by 15 minutes at 65°C. Fragmentation occurs during the 37°C incubation step of NEBNext UltraShear. The average fragmentation size and pattern (High Sensitivity D5000 ScreenTape on Agilent TapeStation) is based on fragmentation time.

This product is related to the following categories:: FFPE DNA,; DNA Fragmentation & RNA Fragmentation,; Next Generation Sequencing Library Preparation

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New England Biolabs（NEB）公司 NEB公司——三十多年的卓越品质NEB公司成立于二十世纪七十年代中期，拥有众多经验丰富的科学家，是生产生命科学试剂的领导者。目前，NEB为基因组研究提供最齐全的重组酶和天然酶，并且公司业务范围已延伸至蛋白质组学和药品开发领域。回顾三十余年来的历程，NEB公司作为先驱公司之一，为促进生物科技工业的发展做出了巨大的贡献。NEB美国总部乔迁新址后拥有最尖端的设备，有一座现代化的发酵中心及设备齐全的实验室，这些实验室主要用于产品生产、质量监控、产品开发和基础科研之用。作为首批以商业规模生产限制性内切酶的公司之一，NEB一直专注于内切酶的研究，并保持业内领先水平。NEB公司一贯坚持以科学为本的原则，公司生产的试剂因其高质量、高性价比享誉世界。重组酶NEB公司对酶的生产与其基础科研不能分开，通过对限制/修饰系统的克隆和过量表达方面的研究，使我们能够大大降低成本，改善产品质量。NEB已经成功克隆了180多种内切酶，其中大多是完全克隆，少数是部分克隆。目前，NEB可供应240多种内切酶，其中180多种可以重组酶形式提供，同时还有大量的应用途广泛的重组聚合酶和重组修饰酶。质量与客户服务NEB公司凭借着严格的质检程序、深入的基础科研以及不断开发的研发项目，承诺为全球科技人员提供高纯度的科研产品。直接与NEB总部联系或与NEB的国际网点联系，即可体验到NEB的个性化客户服务。公司内负责生产以及负责进行质量监控的科学家（产品负责人）也就是技术支持人员。他们为客户解答有关限制核酸内切酶、甲基化酶、以及其他DNA修饰酶、蛋白质修饰酶方面的问题。同时，公司的有机合成部门可提供linkers、引物、adaptors、探针以及寡核苷酸合成等方面的信息。研究人员也可为客户提供技术支持服务，这些研究人员在DNA测序、甲基化、克隆、过量表达、发酵、蛋白质纯化以及蛋白质分析方面都有很深造诣。基础科研NEB在分子生物学和寄生虫学方面的基础研究由公司内部的资深科学家负责。这些科学家在他们各自的领域都卓有成绩，经常在业内著名杂志上发表文献，指导博士后工作、为大学生提供暑期实习机会，而且经常受邀去当地学校进行演讲。NEB鼓励公司与外界合作，每周学术探讨会为其他科学家们提供了交流和展示的平台。环保政策NEB公司在资助科研项目时最基本原则之一就是：一切工作都应符合保护生态环境。公司产品生产、分析以及运输过程既要满足产品的稳定性，也要符合我们的环保政策。20年来，NEB公司最引人注目的一项环保政策是：回收运输泡沫盒，虽然这项工作首创于美国，但是，目前加拿大、德国以及英国的分公司也同样实施了。公司还在内部开展多方位的回收工作，经常用再生纸张印刷市场宣传资料。这些小细节不会影响产品质量，但是对环境的保护却是显而易见。公司职责除环保政策外，通过基金会，NEB还竭力为改善当地社区及全人类尽微薄之力。NEB基金会创立于1982年，属私人性质，其宗旨是支持发展中国家的环保、教育、健康及艺术事业。此外，NEB捐款委员会也经常向当地社区进行捐款活动。

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