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蛋白含量(SP)试剂盒(BCA法)

货号:G0420F
规格:96样
价格:210
说明书:点击下载
提示:官网说明书如与试剂盒内纸质版有出入,请以纸质版为准!

  • 产品简介
  • 已发文章
  • 产品问答

一、产品简介:

BCA蛋白含量试剂盒提供一种简单,快速,耐去污剂(最多5%)的检测蛋白质浓度的方法。由于蛋白质能将Cu2+还原成Cu+;BCA可与Cu+结合生成紫蓝色复合物,在562nm处有最大光吸光值,颜色的深浅与蛋白含量成正比,因此可根据吸光值测定蛋白质浓度。


二、所需的仪器和用品:

可见分光光度计、1mL玻璃比色皿(光径1cm)、台式离心机、恒温水浴锅、移液器。



1.《Evaluating physiological changes of grass and semishrub species with seasonality for understanding the process of shrub encroachment in semiarid grasslands》.2021.《Functional Plant Biology》.IF=3.1

2.《Transcriptome and Co-expression Network Analyses Reveal Differential Gene Expression and Pathways in Response to Severe Drought Stress in Peanut (Arachis hypogaea L.)》.2021.《Frontiers in Genetics》.IF=4.6

3.《Resveratrol improves the iron defciency adaptation of Malus baccata seedlings by regulating iron absorption》.2021.《BMC Plant Biol》.IF=4.2

4.《Effects of root characteristics on panicle formation in japonica rice under low temperature water stress at the reproductive stage》.2021.《Field Crops Research》.IF=5.224

5.Daizong Cui.2020.The cytotoxicity of endogenous CdS and Cd2+ ions during CdS NPs biosynthesis.IF=9.038

6.Jiemeng Tao.2022.Metagenomic insight into the microbial degradation of organic compounds in fermented plant leaves.IF=8.431

7.Pengbai Li.2022.Geminivirus C4 proteins inhibit GA signaling via prevention of NbGAI degradation, to promote viral infection and symptom development in N. benthamiana.IF=6.823

8.Zaid Khan.2022.How Biochar Affects Nitrogen Assimilation and Dynamics by Interacting Soil and Plant Enzymatic Activities: Quantitative Assessment of 2 Years Potted Study in a Rapeseed-Soil System..IF=.6.627

9.Ci-mei Wang.2022.Physiological and transcription analyses reveal regulatory pathways of 6-benzylaminopurine delaying leaf senescence and maintaining quality in postharvest Chinese flowering cabbage.IF=6.475

10.Tingting Li.2021.Resveratrol Alleviates the KCl Salinity Stress of Malus hupehensis Rhed.IF=5.754

11.Ali Raza.2022.Mechanistic Insights Into Trehalose-Mediated Cold Stress Tolerance in Rapeseed ( Brassica napus L.) Seedlings.IF=5.754

12.Raza  Ali.2021.Integrated Analysis of Metabolome and Transcriptome Reveals Insights for Cold Tolerance in Rapeseed (Brassica napus L.).IF=5.754

13.Yan Jia.2021.Effects of root characteristics on panicle formation in japonica rice under low temperature water stress at the reproductive stage.IF=5.224

14.Sun, Zhijuan.2022.Brassinolide alleviates Fe deficiency-induced stress by regulating the Fe absorption mechanism in Malus hupehensis Rehd.IF=4.964

15.Zaid Khan.2021.Compensation of high nitrogen toxicity and nitrogen deficiency with biochar amendment through enhancement of soil fertility and nitrogen use efficiency promoted rice growth and yield.IF=4.745

16.Zhao  Nannan.2021.Transcriptome and Co-expression Network Analyses Reveal Differential Gene Expression and Pathways in Response to Severe Drought Stress in Peanut (Arachis hypogaea L.).IF=4.599

17.Zheng Wang.2022.Comparing Efficacy of Different Biostimulants for Hydroponically Grown Lettuce (Lactuca sativa L.).IF=3.949

18.Xiaodong Zheng.2020.Exogenous Strigolactones alleviate KCl stress by regulating photosynthesis, ROS migration and ion transport in Malus hupehensis Rehd.IF=3.72

19.Changchang Shao.2022.Physiological and Biochemical Dynamics of Pinus massoniana Lamb. Seedlings under Extreme Drought Stress and during Recovery.IF=3.282

20.Fei Ren.2021.Bacterial and fungal communities of traditional fermented Chinese soybean paste (Doujiang) and their properties.IF=2.863

21.Liu Yang.2020.Evaluating physiological changes of grass and semishrub species with seasonality for understanding the process of shrub encroachment in semiarid grasslands.IF=2.617

22.Zuoliang Sun.2022.Use of hemicellulose-derived xylose for environmentally sustainable starch production by mixotrophic duckweed.IF=6.813

23.Huiyuan Situ.2022.Effects of cold atmospheric plasma on endogenous enzyme activity and muscle protein oxidation in Trachinotus ovatus.IF=9.231

24.Xiao Yang.2022.Pre-harvest Nitrogen Limitation and Continuous Lighting Improve the Quality and Flavor of Lettuce (Lactuca sativa L.) under Hydroponic Conditions in Greenhouse.IF=5.895

25.Chongxi Liu.2023.Integrated Physiological, Transcriptomic, and Metabolomic Analysis Reveals the Mechanism of Guvermectin Promoting Seed Germination in Direct-Seeded Rice under Chilling Stress.IF=5.895

26.Ren Fei.2023.Core microbes closely related with the nutrients and flavor of sweet fermented oats (whole grain food) from China.IF=4.1

27.Qikang Wang.Differences in seed characteristics, germination and seedling growth of Suaeda salsa grown in intertidal zone and on saline inland.Frontiers in Plant Science.IF=5.6

28.Luo Zhenhua.Physiological and transcriptomic analysis reveals the potential mechanism of Morinda officinalis How in response to freezing stress.bmc plant biology.IF=5.3


1、问:官网上试剂盒规格标注的“24样”、“48样”、“96样”是什么意思呢?

     答:“24样”、“48样”、“96样”是试剂盒规格,我们定义了试剂盒可以测多少样,对于试剂盒需要的试剂量都给足的。

          “24样”、“48样”、“96样”规格的试剂盒,可以检测24个样、48个样、96个样;即分别得到24个、48个、96个数据。


2、问:官网上试剂盒检测方法中"可见分光法/紫外分光法"与“微板法”是什么区别?

     答:分光法:指使用紫外可见分光光度计检测,若无紫外可见光分光度计,订购时务必咨询公司技术。公司分光法试剂盒采用的比色皿规格是:光径:1cm,容积:1mL, 狭缝宽3mm;

           微板法:指使用全波段连续酶标仪检测;若无全波段酶标仪,订购指标时务必咨询公司技术, 本公司微板法试剂盒内送96孔普通酶标板,客户无需另外购买耗材。


3、问:分光法试剂盒与微板法试剂盒是否能通用?

     答:公司针对用户实验室具备的实验仪器条件,做了两个体系的试剂盒。两种体系试剂盒检测指标的原理一样,结果可以通用,但是不同体系的试剂盒不可以相互混匀!