足球资讯网

COVID-19 呼应——咱们努力于在这场大风行病时代为迷信界供给撑持。领会更多

合用于微孔读板机(酶标仪)的微量处置打算

SpectraDrop™ 超微量微孔板供给合用于低体积测定的高通量处置打算。立异的设想特色可延长样品制备时候,进步低至 2μL 的 DNA、RNA 和卵白样品的尝试室检测效力,并兼容吸光度和荧光强度两种检测功效。微孔板情势确保同一且可反复的阐发,并可与 Molecular Devices StakMax® 微孔板堆板机无缝集成,以完成更壮大的钻研才能。

  • 切确度

    精准点样

    特氟龙涂层的载玻片可确保滴定地位的切确性,同时随附的正面带距离的盖玻片可有用节制光程和蒸发,使之成为具备分歧性和反复性的数据阐发东西。

  • 易于利用

    易于洁净

    双玻片设想可简化洁净进程。您能够停止疾速擦拭、高压灭菌、超声处置或轻松改换每块玻片,而无需担忧任何校准步骤。

  • 通量

    高通量

    因为多达 64 个样品地位且与 Molecular Devices公司StakMax 微孔板堆板机兼容,此刻您可获得一款在低样品体积下供给最高通量的丈量体系。

SpectraDrop 超微量微孔板,合用于 DNA、RNA 和卵白定量

SpectraDrop 超微量检测板

特色

  • 繁复文雅

    SpectraDrop 微孔板包罗一个特别设想的适配器和合用于多样品同一检测的一对玻片。如许的繁复性利用户可自行组合玻片,很是合适多用户尝试室。

  • 怪异设想

    此微孔板的怪异设想包罗特别设想的适配器、特氟龙涂层的载玻片,和防蒸发带距离的盖玻片。可与 8 和/或 16 通道移液器兼容。

  • 轻松移取玻片

    微孔板两侧设有凹槽,可轻松移取玻片,且严酷节制的玻片滑动偏差规模即便无涂片经历的利用者也不会犯错。

  • 方便性

    该款微孔板有两种样品孔数目设置装备摆设(每块板 24 个孔或每块板 64 个孔)、两种加样量挑选(2 或 4μL),利用户可挑选合适其须要的抱负设置装备摆设。

SpectraDrop 超微量微孔板的手艺参数和可选设置装备摆设

 

* 以下仪器指定的 dsDNA 活络度:

  • SpectraMax® 190 微孔读板机(酶标仪)
  • SpectraMax® Plus 384 微孔读板机(酶标仪)
  • SpectraMax® i3 多功效微孔读板机(酶标仪)
  • SpectraMax® M 系列多功效微孔读板机(酶标仪)
  • SpectraMax® Paradigm® 卡盒式多功效酶标仪(读板机)
  • FlexStation® 3 多功效酶标仪(读板机)
  • SpectraMax® ABS 吸光度读板机
  • SpectraMax® ABS Plus 吸光度读板机
  • Gemini™ XPS 微孔板读板机
  • Gemini™ EM 微孔板读板机

SpectraDrop 超微量微孔板的相干资本

报告内容
视频和收集钻研会
SpectraDrop 超微量微孔板,合用于 DNA、RNA 和卵白定量

SpectraDrop 超微量检测板

  • Number of Citations*: 71

    Latest Citations: For a complete list, please .

    *Source:

  • Citation
    Dated: Jan 12, 2021
    Publication Name: Journal of Immunological Methods

    Monoclonal antibodies (mAbs) are major reagents for research and clinical diagnosis. For their inherently high specificities to intended antigen targets and thus low toxicity in general, they are pursued as one of the major classes of new drugs. Yet binding properties of most monoclonal antibodies are not well characterized in terms of affinity… View more

    Monoclonal antibodies (mAbs) are major reagents for research and clinical diagnosis. For their inherently high specificities to intended antigen targets and thus low toxicity in general, they are pursued as one of the major classes of new drugs. Yet binding properties of most monoclonal antibodies are not well characterized in terms of affinity constants and how they vary with presentations and/or conformational isomers of antigens, buffer compositions, and temperature.

    Contributors: J.P.Landry, Yaohuang Ke, Guo-Liang Yu, X.D.Zhu  

  • Citation
    Dated: Jul 25, 2017
    Publication Name: Lisa Chakrabarti, University of Nottingham, UNITED KINGDOM

    The demand for nucleic acid and protein derivatives from formalin-fixed paraffin-embedded (FFPE) tissue has greatly increased due to advances in extraction and purification methods, making these derivatives available for numerous genomic and proteomic platforms. Previously, DNA, RNA, microRNA (miRNA), or protein derived from FFPE tissue blocks… View more

    The demand for nucleic acid and protein derivatives from formalin-fixed paraffin-embedded (FFPE) tissue has greatly increased due to advances in extraction and purification methods, making these derivatives available for numerous genomic and proteomic platforms. Previously, DNA, RNA, microRNA (miRNA), or protein derived from FFPE tissue blocks were considered “unfit” for such platforms, as the process of tissue immobilization by FFPE resulted in cross-linked, fragmented, and chemically modified macromolecules. We conducted a systematic examination of nucleic acids and proteins co-extracted from 118 FFPE blocks sampled from the AIDS and Cancer Specimen Resource (ACSR) at The George Washington University after stratification by storage duration and the three most common tumor tissue types at the ACSR (adenocarcinoma, squamous cell carcinoma, and papillary carcinoma).

    Contributors: Anna Yakovleva, Jordan L. Plieskatt, Sarah Jensen, Razan Humeida, Jonathan Lang, Guangzhao Li, Paige Bracci, Sylvia Silver, Jeffrey Michael Bethony  

  • Citation
    Dated: Sep 10, 2015
    Publication Name: University of Massachusetts

    A microplate for making optical measurements is described. The microplate uses two optical flats, which for example can be quartz glass, and a spacer having a plurality of holes defined in the spacer. In use a first optical flat is assembled with the spacer and liquid samples of materials of interest are deposited in one or more of the plurality… View more

    A microplate for making optical measurements is described. The microplate uses two optical flats, which for example can be quartz glass, and a spacer having a plurality of holes defined in the spacer. In use a first optical flat is assembled with the spacer and liquid samples of materials of interest are deposited in one or more of the plurality of holes in the spacer. The volume of each liquid sample is controlled to be sufficient to form a meniscus between the first optical flat and a second optical flat placed over the spacer. The liquid samples do not touch the walls of the holes defined in the spacer. The samples can be examined from either side of the assembled microplate. The microplate can be operated in a horizontal or a vertical orientation. The microplate is easily disassembled, cleaned and made ready for reuse.

    Contributors: Osman Bilsel, Sagar V. Kathuria, C. Robert Matthews  

SpectraDrop™ 超微量检测板

产物称号

产物申明

货号

SpectraDrop 24 孔通量套装 包罗一个微孔板适配器, 两块 24 孔低体积载玻片, 及两种各一块盖玻片(2µL 和 4µL) 0200-6262
SpectraDrop 高通量挑选 (HTS) 套装 包罗一个微孔板适配器, 五块 24 孔低体积载玻片, 五块 64 孔低体积载玻片, 及两种各五块盖玻片(2µL 和 4µL) 0200-6267
SpectraDrop 微量底片, 24 孔载玻片 三块低体积 24 孔载玻片 0200-6263
SpectraDrop 微量底片, 64 孔载玻片 三块低体积 64 孔载玻片 0200-6264
SpectraDrop 微量底片, 2µL 盖玻片 三块 2 μL 盖玻片(0.5 mm 途径长度) 0200-6265
SpectraDrop 微量底片, 4µL 盖玻片 三块 4 μL 盖玻片(1.0 mm 途径长度) 0200-6266