L-苹果酸检测试剂盒 L-Malic Acid Assay Kit (Manual Format) 货号:K-LMAL-58A Megazyme试剂盒

L-苹果酸检测试剂盒

英文名:L-Malic Acid Assay Kit (Manual Format)

货号:K-LMAL-58A

规格:58 assays per kit

市场价: 2000

L-Malic Acid (Regular) Assay Kit, for the specific assay of L-malic acid (L-malate) in beverages and food products.

Manual format UV-method for the determination of L-Malic Acid in foodstuffs, beverages and other materials

Principle:
(L-malate dehydrogenase)
(1) L-Malic acid + NAD+ ↔ oxaloacetate + NADH + H+

(glutamate-oxaloacetate transaminase)
(2) Oxaloacetate + L-glutamate → L-aspartate + 2-oxoglutarate

Kit size: (K-LMALR)
58 assays (manual) / 580 (microplate) or
(K-LMALL)
116 assays (manual) / 1160 (microplate)
Method: Spectrophotometric at 340 nm
Reaction time: ~ 3 min
Detection limit: 0.25 mg/L
Application examples:
Wine, beer, fruit juices, soft drinks, candies, fruit and vegetables,
bread, cosmetics, pharmaceuticals and other materials (e.g. biological
cultures, samples, etc.)
Method recognition:
Methods based on this principle have been accepted by AOAC, EEC,
EN, NF, NEN, DIN, GOST, OIV, IFU, AIJN and MEBAK

Advantages

  • PVP incorporated to prevent tannin inhibition
  • Both enzymes supplied as stable suspensions
  • Very competitive price (cost per test)
  • All reagents stable for > 2 years after preparation
  • Very rapid reaction (~ 3 min)
  • Mega-Calc™ software tool is available from our website for hassle-free raw data processing
  • Standard included
  • Extended cofactors stability
  • Suitable for manual and microplate format

Q1. What is the difference between K-LMAL-58A / 116A, K-LMALAF, K-LMALMQ and K-LMALQR?

Megazyme produces 4 L-malic acid test kits:
K-LMAL-58A / 116A: UV method, automated format for use with auto-analysers.
K-LMALAF: UV method, manual format for use with spectrophotometers.
K-LMALMQ: Colourimetric method, manual format for use with hand held colorimeter.
K-LMALQR: UV method, liquid ready reagents automated format for use with auto-analysers.

Q2. Should the pH of the sample be adjusted even for samples in acidic media?

The pH of the assay solution after the sample is added should be the same as that of the assay buffer that is supplied with the kit.
Low sample volumes (e.g. 0.1 mL) are not likely to affect the pH of the assay solution and therefore may not require pH adjustment.
Samples above 0.1 mL are more likely to affect the pH of the assay solution and therefore the pH of these samples should be adjusted as described in the data booklet, prior to addition to the assay.

Q3. Sometimes a negative absorbance change is obtained for the blank samples, is this normal? Should the real value (negative absorbance change) or “0” be used in the calculation of results?

Sometimes the addition of the last assay component can cause a small negative absorbance change in the blank samples due to a dilution effect and in such cases it is recommended that the real absorbance values be used in the calculation of results.

Q4. There is an issue with the performance of the kit; the results are not as expected.

If you suspect that the Megazyme test kit is not performing as expected such that expected results are not obtained please do the following:

  1. Ensure that you have tested the standard sample that is supplied with the Megazyme test kit.
  2. Send the results of the kit standard, blank samples and the results obtained for your sample, in the relevant MegaCalc spreadsheet (if available) to Megazyme (cs@megazyme.com). Where available the relevant MegaCalc spreadsheet can be downloaded from where the product appears on the Megazyme website.
  3. State the kit lot number being used (this is found on the outside of the kit box).
  4. State which assay format was used (refer to the relevant page in the kit booklet if necessary).
  5. State exact details of any modifications to the standard procedure that is provided by Megazyme.
  6. State the sample type and describe the sample preparation steps if applicable.

Q5. Which L-Malic Acid Kit is recommended for a 96-well microplate format?

Auto-analysers use ~ 0.315 mL reaction volumes and pathlengths between 4-8 mm which is similar to a standard 96-well microplate where a 0.315 mL reaction volume would give a pathlength of ~ 6-7 mm.  Therefore, K-LMALAF can be used directly in a 96-well microplate format with minimal assay optimisation.
If preferred, K-LMAL-58A / 116A may also be easily converted for use in a 96-well microplate format.  Basically, the assay volumes for the cuvette format must be reduced approximately 10-fold for use in a 96-well microplate.  However, some assay optimisation may be required (e.g. increased enzyme concentration etc.) and unlike the cuvette which has a set pathlength of 1 cm, the pathlength in the microplate is dependent upon the volume of liquid in the well.
Therefore to enable the calculation of the amount of analyte in the samples from tests performed in the microplate format one of the following must be done:

  1. The easiest method is to use a microplate reader that has a pathlength conversion capability (i.e. the microplate reader can detect the pathlength of each well and convert the individual readings to a 1 cm pathlength).  This will allow values to be calculated using the MegaCalc calculation software which can be found where the product is located on the Megazyme website.
  2. Perform a standard curve of the analyte on each microplate that contains test samples and calculate the result of the test samples from the calibration curve (concentration of analyte versus absorbance).
  3. Perform a standard curve of the analyte in both the cuvette format (i.e. with a 1 cm pathlength) and the 96-well microplate format and use these results to obtain a mean conversion factor between the cuvette values and the microplate values.

L-Malic Acid Kit Recommendation For Microplate Format:
Either K-LMAL-58A / 116A or K-LMALAF is recommended for use in a 96-well microplate format and the main advantages / disadvantages are described below:
K-LMAL-58A / 116A:
The assay volumes of this kit should be reduced by 10-fold for use in a 96-well microplate format (some assay optimisation may be required, e.g. increased enzyme concentration etc.).
The calculation of results is achieved as outlined above in either of points 1, 2 or 3.
The main advantage here is that if this kit is used with a microplate reader that has a pathlength conversion capability, or if results are converted as outlined above in point 3, then this enables easy calculation of results using the K-LMAL-58A / 116A MegaCalc application (available on the Megazyme website where the product is located).
K-LMALAF:
This kit is designed for use in an auto-analyser and therefore can be used without any modification to assay volumes directly in a 96-well microplate format. 
This kit has less reagent additions than K-LMAL-58A / 116A.
K-LMALAF does not have a MegaCalc application available to enable easy results calculation which therefore must be achieved as outlined above in either of points 2 or 3.

Q6. Do samples require any specific sample preparation prior to testing with the kits?

The sample preparation is sample dependent, some samples may be tested directly in the assay or after appropriate dilution, however, some samples may require further sample preparation prior to testing.  The following are example of sample preparation methods:
(a) Liquid samples: clear, slightly coloured and approximately neutral, liquid samples can be used directly in the assay.
(b) Acidic samples: if > 0.1 mL of an acidic sample is to be used undiluted (such as wine or fruit juice), the pH of the solution should be increased to approx. 9.0 using 2 M NaOH, and the solution incubated at room temperature for 30 min.
(c) Carbon dioxide: samples containing significant quantities of carbon dioxide, such as beer, should be degassed by increasing the pH to approx. 9.0 with 2 M NaOH and gentle stirring, or by stirring with a glass rod.
(d) Coloured samples: an additional sample blank, i.e. sample with no L-MDH, may be necessary in the case of coloured samples.
(e) Strongly coloured samples: if used undiluted, strongly coloured samples should be treated by the addition of 0.2 g of PVPP/10 mL of sample.  Shake the tube vigorously for 5 min and then filter through Whatman No. 1 filter paper.
(f) Solid samples: homogenise or crush solid samples in distilled water and filter if necessary.
(g) Samples containing fat: extract such samples with hot water at a temperature above the melting point of the fat, e.g. in a 100 mL volumetric flask.  Adjust to room temperature and fill the volumetric flask to the mark with distilled water.  Store on ice or in a refrigerator for 15-30 min and then filter.  Discard the first few mL of filtrate, and use the clear supernatant (which may be slightly opalescent) for assay. Alternatively, clarify with Carrez reagents.
(h) Samples containing protein: deproteinise samples containing protein by adding an equal volume of ice-cold 1 M perchloric acid with mixing.  Centrifuge at 1,500 g for 10 min and neutralise the supernatant with 1 M KOH.  Alternatively use Carrez reagents.

Q7. Can you explain, step by step, how to follow the method and perform the kit assay?

For users who are not familiar with how to use the Megazyme tests kits then it is recommended that they follow this example, e.g. D-Fructose/D-Glucose Assay kit K-FRUGL (http://secure.megazyme.com/D-Fructose-D-Glucose-Assay-Kit):

1. The kit components are listed on pages 2-3 of the kit booklet.
2. Prepare the kit reagents as described on page 3.
3. For separate measurements of glucose and fructose follow procedure A on page 4.
4. Pipette the volumes listed for water, sample, solution 1 and solution 2 into 3 mL, 1 cm pathlength cuvettes. Duplicate sample assays and duplicate blanks are recommended. Mix the contents of each cuvette by inversion (seal the cuvette using parafilm or a plastic cuvette cap – do not use a finger) then after ~3 min record the first absorbance reading of each cuvette at 340 nm (this is reading A1).
5. Then add suspension 3 and mix the contents of each cuvette by inversion. Incubate for 5 minutes then record the absorbance reading of each cuvette at 340 nm (this is reading A2). NB. It is essential that the reaction is compete. To assess this, record the absorbances at ~ 2 minute intervals and until the absorbance plateaus. A stable absorbance indicates that the reaction is complete. If the absorbance continues to increase then continue to record absorbances until it plateaus and only then record absorbance reading A2.
6. Then add suspension 4 and mix the contents of each cuvette by inversion. Incubate for 5 minutes then take absorbance reading of each cuvette at 340 nm (this is reading A3). NB. As above, assess that the reaction has completed by take subsequent readings at ~2 min intervals.
7. For simple, automated results analysis, input the absorbance readings (A1, A2, A3) for samples and blanks into the 
K-FRUGL MegaCalc.

To ensure that the assay is working, and being performed correctly it is recommend that the test is performed using the standard sample that is provided with the kit and to obtain the expected values before proceeding to test real samples.
It is recommend that new users also watch 
this video which highlights how to perform the assays.
Many of the other Megazyme test kits follow a similar format.

Q8. The pH of my sample is low (pH ~ 3.0), do I need to adjust this before I use the sample in the kit assay?

The final pH of the kit assay after the sample is added should not change from what it should be (as stated in the kit for the assay buffer). If it does change then the sample will require pH adjustment. In most cases the sample volume being used is low relative to the final assay volume and in this case the pH of the kit assay is unlikely to be affected.

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Megazyme L-苹果酸(手动)检测试剂盒操作视频(K-LMAL)

Megazyme 溶解淀粉 操作视频

Megazyme 试剂盒样品前处理准备操作视频

Anti Iba1, Rabbit (for Immunocytochemistry) 小胶质细胞/巨噬细胞特异性蛋白抗体(免疫组化) 品牌:Wako


品牌:Wako
CAS No.:
储存条件:-20℃
纯度:0.5mg/ml
产品编号

(生产商编号)

等级 规格 运输包装 零售价(RMB) 库存情况 参考值

019-19741

for Immunochemistry 50 μg 4,490.00


* 干冰运输、大包装及大批量的产品需酌情添加运输费用


* 零售价、促销产品折扣、运输费用、库存情况、产品及包装规格可能因各种原因有所变动,恕不另行通知,确切详情请联系上海金畔生物科技有限公司。

产品描述相关资料下载相关产品浏览记录

鉴定小胶质细胞的标记物。众多文献引用。产品质量稳定。小胶质细胞属于神经免疫细胞,在当前神经生物学研究的热点。包括从事眼科研究,神经退行性疾病的客户会用到该产品。

文献报道可用于石蜡切片和冰冻切片的免疫组化(IHC)实验。

样品前处理:1/本产品请在冰上解冻。2/溶解后,请根据用途需要来稀释抗体。保存的时候使用2xTBS溶液稀释。实验中请使用封闭液。

Precut PEEK Capillary Tubes 0.508mm 品牌:Sugiyama


Precut PEEK Capillary Tubes 0.508mm

品牌:Sugiyama
CAS No.:
储存条件:室温
纯度:
产品编号

(生产商编号)

等级 规格 运输包装 零售价(RMB) 库存情况 参考值

309-22401

10 m 咨询


* 干冰运输、大包装及大批量的产品需酌情添加运输费用


* 零售价、促销产品折扣、运输费用、库存情况、产品及包装规格可能因各种原因有所变动,恕不另行通知,确切详情请联系上海金畔生物科技有限公司。

胸苷酸激酶[原核生物] Thymidylate kinase (prokaryote) Thymidylate Kinase (prokaryote) 货号:E-TMPK Megazyme试剂盒

胸苷酸激酶[原核生物] Thymidylate kinase (prokaryote)

英文名:Thymidylate Kinase (prokaryote)

货号:E-TMPK

规格:150 Units

市场价: 3300

High purity recombinant Thymidylate kinase (prokaryote) for use in research, biochemical enzyme assays and 
in vitro 
diagnostic analysis.

EC 2.7.4.9

Recombinant from a prokaryote. 
In 3.2 M ammonium sulphate.

Specific activity: 3.8 U/mg (25oC, pH 7.6).

Stable at 4oC for > 2 years.

暂无问题解答

暂无视频

MfeI-HF(星选酶)–NEB酶试剂

产品资料 – 限制性内切酶 – 高保真限制性内切酶

MfeI-HF(星选酶)                              收藏

MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂

货 号
规 格
价 格
北京库存
上海库存
广州库存
成都库存

#R3589L
2,500 units
3,509.00元

#R3589S
500 units
799.00元

#R3589V
250 units
419.00元

Download:       

识别位点

MfeI-HF(星选酶)--NEB酶试剂

  • isoschizomers     |
  • compatible ends     | 
  • single letter code

在不同反应缓冲液的活性

NEBuffer 1.1: 75%
NEBuffer 2.1: 25%
NEBuffer 3.1: <10%
CutSmart Buffer: 100%

特性

CutSmart、重组酶、基因工程改造酶、省时酶、高保真酶。

反应条件

CutSmart 缓冲液,37℃。

浓度

20,000 units/ml。

甲基化敏感性

dam、dcm 和哺乳动物 CpG 甲基化均不敏感。

iP-TEC premium box-V19 set ( box,t heat storage-24 6pcs) iP-TEC精装版保温运输箱 V19 套装(箱子,24-蓄热板6块) 品牌:Sanplatec


iP-TEC premium box-V19 set ( box,t heat storage-24 6pcs)

iP-TEC精装版保温运输箱 V19 套装(箱子,24-蓄热板6块)

品牌:Sanplatec
CAS No.:
储存条件:室温
纯度:
产品编号

(生产商编号)

等级 规格 运输包装 零售价(RMB) 库存情况 参考值

WEB28484

1 set 咨询


* 干冰运输、大包装及大批量的产品需酌情添加运输费用


* 零售价、促销产品折扣、运输费用、库存情况、产品及包装规格可能因各种原因有所变动,恕不另行通知,确切详情请联系上海金畔生物科技有限公司。

Caspase-2 (C2) 小鼠单克隆抗体 Caspase-2 (C2) Mouse mAb

Caspase-2 (C2) 小鼠单克隆抗体

Caspase-2 (C2) Mouse mAb

详细描述:
caspase-2 (C2) Mouse mAb 鼠单抗能够检测内源的前体caspase-2以及它的14kDa 和12 kDa的酶切片段。该单克隆抗体是采用合成的人源caspase-2蛋白C末端相应的肽段免疫动物而制备的。Caspase-2 (C2) Mouse mAb detects endogenous levels of procaspase-2 as well as its 14 and 12 kDa cleaved fragments.Monoclonal antibody is produced by immunizing animals with a synthetic peptide corresponding to the carboxy-terminal portion of human caspase-2.

应用范围:W; 反应种属:Human; 灵敏度:Endogenous; MW (kDa):12, 14, 48; Isotype:Mouse IgG1; 标记:无标记。

货号 产品名称 品牌 购买
货号 名称 单位 购买
2224T Caspase-2 (C2) 小鼠单克隆抗体 20 µl 咨询客服
2224S Caspase-2 (C2) 小鼠单克隆抗体 100µl 咨询客服

Sce PUS1–NEB酶试剂

产品资料 – RNA 试剂 – RNA 连接酶和修饰酶

Sce PUS1                              收藏

货 号
规 格
价 格
北京库存
上海库存
广州库存
成都库存

#M0526S
5,000 pmol
899.00元

Download:       

  • isoschizomers     |
  • compatible ends     | 
  • single letter code

特性

 Ÿ   Sce PUS1 用于在体外将单链 RNA 中尿嘧啶转化为假尿嘧啶

Ÿ   Sce PUS1 是一款独立的酶,不需要 RNA 向导或辅助因子即可修饰 RNA

Ÿ   使用 Sce PUS1 对特定序列进行假尿苷修饰可以替代通过 RNA 聚合酶随机掺入修饰核苷酸的方法

产品说明

 该酶是创新酶(Enzyme for Innovation, EFI)。创新酶工程由 NEB 发起,旨在为科研界提供独一无二的酶,从而为新的创新应用的发现创造条件。这些酶均具有独特的功能和特性。

Sce 假尿嘧啶合成酶 ISce PUS1)可将单链 RNA 中尿嘧啶转化为假尿嘧啶,对单链 RNA 中尿嘧啶的转化率高于双链 RNA。最佳底物为≥15 nt无特殊结构的 RNA

Sce PUS1--NEB酶试剂

细胞膜荧光探针DiA 货号22030-AAT Bioquest荧光染料

上海金畔生物科技有限公司代理AAT Bioquest荧光染料全线产品,欢迎访问AAT Bioquest荧光染料官网了解更多信息。

细胞膜荧光探针DiA

细胞膜荧光探针DiA

细胞膜荧光探针DiA     货号22030 货号 22030 存储条件 在零下15度以下保存, 避免光照
规格 25 mg 价格 984
Ex (nm) 492 Em (nm) 613
分子量 787.04 溶剂 DMSO
产品详细介绍

简要概述

DiA是一种亲脂性荧光染色剂,用于标记膜和其他疏水结构。它具有环境敏感的荧光,尽管在水中呈弱荧光,但与膜或亲油生物分子(如蛋白质)结合时,荧光会大大增强。一旦应用于细胞,这种染料在细胞质膜内横向扩散,从而在最佳浓度下对整个细胞进行均匀染色。金畔生物是AAT Bioquest 的中国代理商,为您提供最优质的细胞膜荧光探针DiA。

点击查看光谱

产品说明书

样品分析方案

概述

用测试化合物(200μL/样品)制备细胞

添加膜联蛋白V缀合物测定溶液

室温孵育30-60分钟

用流式细胞仪或荧光显微镜分析

 

操作步骤

1.用膜联蛋白V缀合物制备和孵育细胞:

1.1制备膜联蛋白V结合测定缓冲液:10mM HEPES,140mM NaCl和2.5mM CaCl 2,pH 7.4。

1.2用测试化合物处理细胞一段所需的时间(用星形孢菌素处理的Jurkat细胞4-6小时)以诱导细胞凋亡。

1.3离心细胞,得到1-5×105个细胞/管。

1.4将细胞重悬于200μL膜联蛋白V结合测定缓冲液中(来自步骤1.1)。

1.5在细胞中加入2μL膜联蛋白V结合物。

可选:在细胞内加入死细胞染色剂如碘化丙锭,用于坏死细胞。

1.6在室温下孵育30至60分钟,避光。

1.7在用流式细胞仪或荧光显微镜分析细胞之前,加入300μL膜联蛋白V结合测定缓冲液(来自步骤1.1)以增加体积(参见下面的步骤1.8)。

1.8使用流式细胞仪或荧光显微镜监测荧光强度(参见下面的步骤2或3)。

 

2.使用流式细胞仪分析:

通过使用具有适当过滤器的流式细胞仪来量化膜联蛋白V缀合物。

注意:粘附细胞上的膜联蛋白V结合流式细胞术分析未经常检测,因为在细胞分离或收获期间可能发生特定的膜损伤。 然而,Casiola-Rosen等人先前报道了利用膜联蛋白V对贴壁细胞类型进行流式细胞术的方法。 和van Engelend等人(见参考文献1和2)。

 

3.使用荧光显微镜分析:

3.1移取步骤1.6的细胞悬液,用膜联蛋白V结合测定缓冲液(来自步骤1.1)冲洗1-2次,然后用膜联蛋白V结合测定缓冲液(来自步骤1.1)重悬细胞。 将细胞添加到盖有玻璃盖玻片的载玻片上。

注意:对于粘附细胞,建议直接在盖玻片上生长细胞。 与膜联蛋白V缀合物孵育(步骤1.6)后,用膜联蛋白V结合测定缓冲液(来自步骤1.1)冲洗1-2次,并将膜联蛋白V结合测定缓冲液(来自步骤1.1)加回到盖玻片中。 在玻璃载玻片上翻转盖玻片并观察细胞。 在与膜联蛋白V缀合物孵育后,细胞也可以在2%甲醛中固定,并在显微镜下观察。

3.2在荧光显微镜下用适当的滤光片分析膜联蛋白V缀合物的凋亡细胞。

 

参考文献

Cyclic RGD peptide-modified liposomal drug delivery system for targeted oral apatinib administration: enhanced cellular uptake and improved therapeutic effects
Authors: Zhiwang Song, Yun Lin, Chan Feng Xia Zhang, Yonglin Lu, Yong Gao, Chunyan Dong
Journal: International Journal of Nanomedicine (2017): 1941

In vivo imaging system for explants analysis—A new approach for assessment of cell transplantation effects in large animal models
Authors: Weronika Zarychta-Wisniewska, Anna Burdzinska, Radoslaw Zagozdzon, Bartosz Dybowski, Marta Butrym, Zdzislaw Gajewski, Leszek Paczek
Journal: PloS one (2017): e0184588

Influence of Particle Geometry on Gastrointestinal Transit and Absorption following Oral Administration
Authors: Dong Li, Jie Zhuang, Haisheng He, Sifan Jiang, Amrita Banerjee, Yi Lu, Wei Wu, Samir Mitragotri, Li Gan, Jianping Qi
Journal: ACS Applied Materials & Interfaces (2017)

Mesenchymal stem cells increase skin graft survival time and up-regulate PD-L1 expression in splenocytes of mice
Authors: Ali Moravej, Bita Geramizadeh, Negar Azarpira, Amir-Hasan Zarnani, Ramin Yaghobi, Mehdi Kalani, Maryam Khosravi, Amin Kouhpayeh, Mohammad-Hossein Karimi
Journal: Immunology Letters (2017)

Novel approach for the detection of intraperitoneal micrometastasis using an ovarian cancer mouse model
Authors: Ayesha B Alvero, Dongin Kim, Eydis Lima, Natalia J Sumi, Jung Seok Lee, Carlos Cardenas, Mary Pitruzzello, Dan-Arin Silasi, Natalia Buza, Tarek Fahmy
Journal: Scientific Reports (2017)

On-Demand Drug Releasing from Dual Targeting Small Nanoparticles Triggered by High Intensity Focused Ultrasound Enhanced Glioblastoma Targeting Therapy
Authors: Zimiao Luo, Kai Jin, Qiang Pang, shun shen, Zhiqiang Yan, Ting Jiang, Xiaoyan Zhu, Lei Yu, Zhiqing Pang, Xinguo Jiang
Journal: ACS Applied Materials & Interfaces (2017)

Overexpression of c-Met in bone marrow mesenchymal stem cells improves their effectiveness in homing and repair of acute liver failure
Authors: Kun Wang, Yuwen Li, Tiantian Zhu, Yongting Zhang, Wenting Li, Wenyu Lin, Jun Li, Chuanlong Zhu
Journal: Stem Cell Research & Therapy (2017): 162

The accelerated blood clearance phenomenon of PEGylated nanoemulsion upon cross administration with nanoemulsions modified with polyglycerin
Authors: Yuqing Su, Lirong Wang, Kaifan Liang, Mengyang Liu, Xinrong Liu, Yanzhi Song, Yihui Deng
Journal: Asian Journal of Pharmaceutical Sciences (2017)

A dual brain-targeting curcumin-loaded polymersomes ameliorated cognitive dysfunction in intrahippocampal amyloid-β1–42-injected mice
Authors: Tingting Jia, Zhiguo Sun, Ying Lu, Jie Gao, Hao Zou, Fangyuan Xie, Guoqing Zhang, Hao Xu, Duxin Sun, Yuan Yu
Journal: International Journal of Nanomedicine (2016): 3765

Annonaceous acetogenins nanosuspensions stabilized by PCL-PEG block polymer: significantly improved antitumor efficacy
Authors: Jingyi Hong, Yanhong Li, Yijing Li, Yao Xiao, Haixue Kuang, Xiangtao Wang
Journal: International Journal of Nanomedicine (2016): 3239

说明书
细胞膜荧光探针DiA .pdf

L-苹果酸[AF]检测试剂盒 L-Malic Acid Assay Kit (Analyser Format) 货号:K-LMALAF Megazyme试剂盒

L-苹果酸[AF]检测试剂盒

英文名:L-Malic Acid Assay Kit (Analyser Format)

货号:K-LMALAF

规格:245.5 mL of prepared reagent (e.g. 1 assay

市场价: 3500

The L-Malic Acid (Analyser Format) test kit is an analyser format for the specific measurement and analysis of L-malic acid (L-malate) in beverages and food products. On calibration, the prepared reagent is linear to > 80 micrograms of L-malic acid per mL of assay solution.

Extended cofactors stability. Dissolved cofactors stable for > 1 year at 4oC.

Analyser format UV-method for the determination of L-Malic Acid
in foodstuffs, beverages and other materials

Principle:
(L-malate dehydrogenase)
(1) L-Malic acid + NAD+ ↔ oxaloacetate + NADH + H+

(glutamate-oxaloacetate transaminase)
(2) Oxaloacetate + L-glutamate → L-aspartate + 2-oxoglutarate

Kit size: 245.5 mL of prepared reagent (R1 + R2)
Method: Spectrophotometric at 340 nm
Reaction time: ~ 3 min
Detection limit: 20 mg/L (recommended assay)
Application examples:
Wine, beer, fruit juices, soft drinks, candies, fruit and vegetables,
bread, cosmetics, pharmaceuticals and other materials (e.g. biological
cultures, samples, etc.)
Method recognition:
Methods based on this principle have been accepted by AOAC, EEC,
EN, NF, NEN, DIN, GOST, OIV, IFU, AIJN and MEBAK

Advantages

  • PVP incorporated to prevent tannin inhibition
  • Very stable reagent when prepared for auto-analyser applications
  • Linear calibration (R2 ~ 0.9994) up to 80 μg/mL of L-malic acid in final reaction solution
  • Validated by the University of Wine, Suze la Rousse, France
  • Very competitive price (cost per mL of reagent)
  • Both enzymes supplied as stable suspensions
  • Very rapid reaction (~ 3 min)

Q1. What is the difference between K-LMAL-58A / 116A, K-LMALAF, K-LMALMQ and K-LMALQR?

Megazyme produces 4 L-malic acid test kits:
K-LMAL-58A / 116A: UV method, automated format for use with auto-analysers.
K-LMALAF: UV method, manual format for use with spectrophotometers.
K-LMALMQ: Colourimetric method, manual format for use with hand held colorimeter.
K-LMALQR: UV method, liquid ready reagents automated format for use with auto-analysers.

Q2. Should the pH of the sample be adjusted even for samples in acidic media?

The pH of the assay solution after the sample is added should be the same as that of the assay buffer that is supplied with the kit.
Low sample volumes (e.g. 0.1 mL) are not likely to affect the pH of the assay solution and therefore may not require pH adjustment.
Samples above 0.1 mL are more likely to affect the pH of the assay solution and therefore the pH of these samples should be adjusted as described in the data booklet, prior to addition to the assay.

Q3. Sometimes a negative absorbance change is obtained for the blank samples, is this normal? Should the real value (negative absorbance change) or “0” be used in the calculation of results?

Sometimes the addition of the last assay component can cause a small negative absorbance change in the blank samples due to a dilution effect and in such cases it is recommended that the real absorbance values be used in the calculation of results.

Q4. There is an issue with the performance of the kit; the results are not as expected.

If you suspect that the Megazyme test kit is not performing as expected such that expected results are not obtained please do the following:

  1. Ensure that you have tested the standard sample that is supplied with the Megazyme test kit.
  2. Send the results of the kit standard, blank samples and the results obtained for your sample, in the relevant MegaCalc spreadsheet (if available) to Megazyme (cs@megazyme.com). Where available the relevant MegaCalc spreadsheet can be downloaded from where the product appears on the Megazyme website.
  3. State the kit lot number being used (this is found on the outside of the kit box).
  4. State which assay format was used (refer to the relevant page in the kit booklet if necessary).
  5. State exact details of any modifications to the standard procedure that is provided by Megazyme.
  6. State the sample type and describe the sample preparation steps if applicable.

Q5. Do samples require any specific sample preparation prior to testing with the kits?

The sample preparation is sample dependent, some samples may be tested directly in the assay or after appropriate dilution, however, some samples may require further sample preparation prior to testing.  The following are examples of sample preparation methods:
(a) Liquid samples: clear, slightly coloured and approximately neutral, liquid samples can be used directly in the assay.
(b) Acidic samples: if > 0.1 mL of an acidic sample is to be used undiluted (such as wine or fruit juice), the pH of the solution should be increased to approx. 9.0 using 2 M NaOH, and the solution incubated at room temperature for 30 min.
(c) Carbon dioxide: samples containing significant quantities of carbon dioxide, such as beer, should be degassed by increasing the pH to approx. 9.0 with 2 M NaOH and gentle stirring, or by stirring with a glass rod.
(d) Coloured samples: an additional sample blank, i.e. sample with no L-MDH, may be necessary in the case of coloured samples.
(e) Strongly coloured samples: if used undiluted, strongly coloured samples should be treated by the addition of 0.2 g of PVPP/10 mL of sample.  Shake the tube vigorously for 5 min and then filter through Whatman No. 1 filter paper.
(f) Solid samples: homogenise or crush solid samples in distilled water and filter if necessary.
(g) Samples containing fat: extract such samples with hot water at a temperature above the melting point of the fat, e.g. in a 100 mL volumetric flask.  Adjust to room temperature and fill the volumetric flask to the mark with distilled water.  Store on ice or in a refrigerator for 15-30 min and then filter.  Discard the first few mL of filtrate, and use the clear supernatant (which may be slightly opalescent) for assay. Alternatively, clarify with Carrez reagents.
(h) Samples containing protein: deproteinise samples containing protein by adding an equal volume of ice-cold 1 M perchloric acid with mixing.  Centrifuge at 1,500 g for 10 min and neutralise the supernatant with 1 M KOH. Alternatively use Carrez reagents.

Q6. Which L-Malic Acid Kit is recommended for a 96-well microplate format?

Auto-analysers use ~ 0.315 mL reaction volumes and pathlengths between 4-8 mm which is similar to a standard 96-well microplate where a 0.315 mL reaction volume would give a pathlength of ~ 6-7 mm.  Therefore, K-LMALAF can be used directly in a 96-well microplate format with minimal assay optimisation.
If preferred, K-LMAL-58A / 116A may also be easily converted for use in a 96-well microplate format.  Basically, the assay volumes for the cuvette format must be reduced approximately 10-fold for use in a 96-well microplate.  However, some assay optimisation may be required (e.g. increased enzyme concentration etc.) and unlike the cuvette which has a set pathlength of 1 cm, the pathlength in the microplate is dependent upon the volume of liquid in the well.
Therefore to enable the calculation of the amount of analyte in the samples from tests performed in the microplate format one of the following must be done:

  1. The easiest method is to use a microplate reader that has a pathlength conversion capability (i.e. the microplate reader can detect the pathlength of each well and convert the individual readings to a 1 cm pathlength).  This will allow values to be calculated using the MegaCalc calculation software which can be found where the product is located on the Megazyme website.
  2. Perform a standard curve of the analyte on each microplate that contains test samples and calculate the result of the test samples from the calibration curve (concentration of analyte versus absorbance).
  3. Perform a standard curve of the analyte in both the cuvette format (i.e. with a 1 cm pathlength) and the 96-well microplate format and use these results to obtain a mean conversion factor between the cuvette values and the microplate values.

L-Malic Acid Kit Recommendation For Microplate Format:
Either K-LMAL-58A / 116A or K-LMALAF is recommended for use in a 96-well microplate format and the main advantages / disadvantages are described below:
K-LMAL-58A / 116A:
The assay volumes of this kit should be reduced by 10-fold for use in a 96-well microplate format (some assay optimisation may be required, e.g. increased enzyme concentration etc.).
The calculation of results is achieved as outlined above in either of points 1, 2 or 3.
The main advantage here is that if this kit is used with a microplate reader that has a pathlength conversion capability or if results are converted as outlined above in point 3 then this enables easy calculation of results using the K-LMAL-58A / 116A MegaCalc application (available on the Megazyme website where the product is located).
K-LMALAF:
This kit is designed for use in an auto-analyser and therefore can be used without any modification to assay volumes directly in a 96-well microplate format.  This kit has less reagent additions than K-LMAL-58A / 116A. 
K-LMALAF does not have a MegaCalc application available to enable easy results calculation which therefore must be achieved as outlined above in either of points 2 or 3.

Q7. Can you explain, step by step, how to follow the method and perform the kit assay?

For users who are not familiar with how to use the Megazyme tests kits then it is recommended that they follow this example, e.g. D-Fructose/D-Glucose Assay kit K-FRUGL (http://secure.megazyme.com/D-Fructose-D-Glucose-Assay-Kit):

1. The kit components are listed on pages 2-3 of the kit booklet.
2. Prepare the kit reagents as described on page 3.
3. For separate measurements of glucose and fructose follow procedure A on page 4.
4. Pipette the volumes listed for water, sample, solution 1 and solution 2 into 3 mL, 1 cm pathlength cuvettes. Duplicate sample assays and duplicate blanks are recommended. Mix the contents of each cuvette by inversion (seal the cuvette using parafilm or a plastic cuvette cap – do not use a finger) then after ~3 min record the first absorbance reading of each cuvette at 340 nm (this is reading A1).
5. Then add suspension 3 and mix the contents of each cuvette by inversion. Incubate for 5 minutes then record the absorbance reading of each cuvette at 340 nm (this is reading A2). NB. It is essential that the reaction is compete. To assess this, record the absorbances at ~ 2 minute intervals and until the absorbance plateaus. A stable absorbance indicates that the reaction is complete. If the absorbance continues to increase then continue to record absorbances until it plateaus and only then record absorbance reading A2.
6. Then add suspension 4 and mix the contents of each cuvette by inversion. Incubate for 5 minutes then take absorbance reading of each cuvette at 340 nm (this is reading A3). NB. As above, assess that the reaction has completed by take subsequent readings at ~2 min intervals.
7. For simple, automated results analysis, input the absorbance readings (A1, A2, A3) for samples and blanks into the 
K-FRUGL MegaCalc.

To ensure that the assay is working, and being performed correctly it is recommend that the test is performed using the standard sample that is provided with the kit and to obtain the expected values before proceeding to test real samples.
It is recommend that new users also watch 
this video which highlights how to perform the assays.
Many of the other Megazyme test kits follow a similar format.

Q8. The pH of my sample is low (pH ~ 3.0), do I need to adjust this before I use the sample in the kit assay?

The final pH of the kit assay after the sample is added should not change from what it should be (as stated in the kit for the assay buffer). If it does change then the sample will require pH adjustment. In most cases the sample volume being used is low relative to the final assay volume and in this case the pH of the kit assay is unlikely to be affected.

Q9. How can I work out how much sample to extract and what dilution of my sample should be used in the kit assay?

Where the amount of analyte in a liquid sample is unknown, it is recommended that a range of sample dilutions are prepared with the aim of obtaining an absorbance change in the assay that is within the linear range.
Where solid samples are analysed, the weight of sample per volume of water used for sample extraction/preparation can be altered to suit, as can the dilution of the extracted sample prior to the addition of the assay, as per liquid samples.

CHIRALPAK ID-3 Conventional Analytical Column (4.6mmx250mmx3um) 品牌:Daicel


CHIRALPAK ID-3 Conventional Analytical Column (4.6mmx250mmx3um)

品牌:Daicel
CAS No.:
储存条件:室温
纯度:
产品编号

(生产商编号)

等级 规格 运输包装 零售价(RMB) 库存情况 参考值

309-97111

1 column 咨询


* 干冰运输、大包装及大批量的产品需酌情添加运输费用


* 零售价、促销产品折扣、运输费用、库存情况、产品及包装规格可能因各种原因有所变动,恕不另行通知,确切详情请联系上海金畔生物科技有限公司。

车前草多糖解聚酶检测片剂 Psyllazyme – 200 Tablets 货号:T-PSYL-200T Megazyme试剂盒

车前草多糖解聚酶检测片剂

英文名:Psyllazyme – 200 Tablets

货号:T-PSYL-200T

规格:200 Tablets

市场价: 3900

High purity dyed and crosslinked Psyllazyme tablets for the measurement of enzyme activity, for research, biochemical enzyme assays and in vitro diagnostic analysis.

For the assay of enzymes causing endo-depolymerisation of psyllium polysaccharide.Containing AZCL-psyllium polysaccharide.

PDF Download

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SunShell C30 2.6μm 2.1mmIDx150mm SunShell C30色谱柱 2.6μm 2.1mmIDx150mm 品牌:Chromanik


SunShell C30 2.6μm 2.1mmIDx150mm

SunShell C30色谱柱 2.6μm 2.1mmIDx150mm

品牌:Chromanik
CAS No.:
储存条件:室温
纯度:
产品编号

(生产商编号)

等级 规格 运输包装 零售价(RMB) 库存情况 参考值

384-10521

1支 咨询


* 干冰运输、大包装及大批量的产品需酌情添加运输费用


* 零售价、促销产品折扣、运输费用、库存情况、产品及包装规格可能因各种原因有所变动,恕不另行通知,确切详情请联系上海金畔生物科技有限公司。

Caspase-1 抗体 Caspase-1 Antibody

Caspase-1 抗体

Caspase-1 Antibody

详细描述:
Caspase-1 Antibody能够检测内源性水平pro-caspase-1和caspase-1 p20亚基。我们期望该抗体能够检测α、β、γ和δ亚型。该多克隆抗体是采用合成的人caspase-1蛋白p20亚基相对应的肽段免疫动物而制备的。抗体由protein A和肽亲和层析技术纯化。Caspase-1 Antibody detects endogenous levels of pro-caspase-1 and the caspase-1 p20 subunit. The antibody is expected to detect alpha, beta, gamma and delta isoforms.Polyclonal antibodies are produced by immunizing animals with a synthetic peptide corresponding to residues within the p20 subunit of human caspase-1. Antibodies are purified by protein A and peptide affinity chromatography.

应用范围:W IHC-P; 反应种属:Human; 灵敏度:Endogenous ; MW (kDa):20 p20. 30 to 45 beta, delta, gamma. 50 alpha.; Isotype:Rabbit; 标记:无标记。

货号 产品名称 品牌 购买
货号 名称 单位 购买
2225T Caspase-1 抗体 20 µl 咨询客服
2225S Caspase-1 抗体 100µl 咨询客服

海藻糖酶[原核生物] Trehalase (prokaryote) 货号:E-TREH Megazyme试剂盒

海藻糖酶[原核生物]

英文名:Trehalase (prokaryote)

货号:E-TREH

规格:8400 Units

市场价: 2100

High purity Trehalase (prokaryote) for use in research, biochemical enzyme assays and in vitro diagnostic analysis.

EC 3.2.1.28 
CAZy Family: GH37

From prokaryote. Electrophoretically homogeneous. Ammonium sulphate suspension.

Specific activity: ~ 300 U/mg (40oC, pH 5.5). 

Store at 4oC. 
Stable for > 4 years at 4oC.

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MfeI-HF(星选酶)–NEB酶试剂

产品资料 – 限制性内切酶 – 限制性内切酶

MfeI-HF(星选酶)                              收藏

MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂 MfeI-HF(星选酶)--NEB酶试剂

货 号
规 格
价 格
北京库存
上海库存
广州库存
成都库存

#R3589L
2,500 units
3,509.00元

#R3589S
500 units
799.00元

#R3589V
250 units
419.00元

Download:       

识别位点

MfeI-HF(星选酶)--NEB酶试剂

  • isoschizomers     |
  • compatible ends     | 
  • single letter code

在不同反应缓冲液的活性

NEBuffer 1.1: 75%
NEBuffer 2.1: 25%
NEBuffer 3.1: <10%
CutSmart Buffer: 100%

特性

CutSmart、重组酶、基因工程改造酶、省时酶、高保真酶。

反应条件

CutSmart 缓冲液,37℃。

浓度

20,000 units/ml。

甲基化敏感性

dam、dcm 和哺乳动物 CpG 甲基化均不敏感。

NudC 焦磷酸酶–NEB酶试剂

产品资料 – RNA 试剂 – RNA 连接酶和修饰酶

NudC 焦磷酸酶                              收藏

NudC 焦磷酸酶--NEB酶试剂 NudC 焦磷酸酶--NEB酶试剂 NudC 焦磷酸酶--NEB酶试剂 NudC 焦磷酸酶--NEB酶试剂 NudC 焦磷酸酶--NEB酶试剂

货 号
规 格
价 格
北京库存
上海库存
广州库存
成都库存

#M0607S
250 pmol
859.00元

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  • isoschizomers     |
  • compatible ends     | 
  • single letter code

特性

·对含 ADP 的、非经典启动核苷酸,如 NAD+ 和 NADH 进行脱帽,生成可连接的 5′ 末端为单磷酸的基团
·水解 NADH 生成 AMP 和还原型烟酰胺单磷酸核苷(NMNH);水解 NAD+ 产生 AMP和烟酰胺单磷酸核苷(NMN+
·水解二磷酸二核苷酸和含有 ADP 基团的代谢辅助因子,如 AppA、FAD、辅酶 A 等
·当 NAD+ 是 RNA 的 5’ 启动核苷酸时,可用于 NAD+ 脱帽或去除 NAD
·适用于基于连接方法的研究,如 5’ RACE 和 RNA 测序,以检测和鉴定含有非经典启动核苷酸的RNA
 
该酶是一种创新酶(EFI,Enzyme for Innovation)。EFI 是由 NEB 发起的一个项目,旨在为科学界提供独特的酶,以期发现新应用。这类酶既有趣又特别。

概述

 NudC 是 NUDIX 焦磷酸酶家族中的一员,可高效水解带 NAD+ 帽 和 NADH 帽的 RNA,生成连接可用的带 5′ 单磷酸末端的 RNA(NAD+ 脱帽或去除 NAD)(1)。研究表明:nudC 基因的缺失增加了大肠杆菌中 NAD+ 帽化 RNA 的比例(2)

 
该酶还能以不同的效率水解含 ADP 基团的小分子,如 NADH、NAD+、AppA、ADP-核糖、ADP-葡萄糖和代谢辅助因子,如 FAD、辅酶 A 和乙酰辅酶 A(3 和未发表结果)。由于其对各种二核苷酸和代谢辅因子的活性,该酶有望通过对帽的焦磷酸化水解作用和核苷酸产物的分析,来识别带有非经典帽结构的 RNA,或使用基于 5′ 连接的方法(如 RNA 测序或 5′ RACE(4))来识别带有 5′ 单磷酸末端的 RNA。
NudC 焦磷酸酶--NEB酶试剂
随酶提供的试剂
NEBuffer™ 3.1
100 mM DTT
 
浓度
10 µM
 
单位定义
在 1X NEBuffer 3.1 和 5 mM DTT 的反应条件中,加入 1 µM NudC,37℃ 温育 30 分钟,能将 200 µM 或更多 NAD+ 水解成 NMN+ 和 AMP。
 
反应条件
1X NEBuffer™ 3.1,补加 5 mM DTT,37℃ 温育。

热失活
65℃ 加热 10 分钟。
 
储存温度
-20℃
 
质保声明 
NudC 焦磷酸酶经过严格的质控检测,确保该产品具有最高的活性和纯度。详情请登陆www.neb.com 或 www.neb-china.com。
 
参考文献

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