![SMOBIO/[QP3320] Q-PAGE™ Bis-Tris Precast Gel (Midi, 15 wells, 12%), 10 gels/Midi, 15 wells, 12%), 10 gels</span>
</li>
</ol>
</div>
<div class=col-sm-3 mb8>
<form method=get action=/s](images/SMOBIO/image.png)
Description
Q-PAGE™ Bis-Tris Precast Gel is a high-performance and easy to use precast polyacrylamide gel for electrophoresis in Bis-Tris buffer system (MOPS or MES). The optimized gel formula allows Q-PAGE™ Bis-Tris Precast Gel to show improved resolution, accurate results, and an extended shelf-life over conventional Tris-Glycine gels.
Q-PAGE™ Bis-Tris Precast Gels are available in gradient (4 to 12%) and fixed (8% and 12%) concentrations of polyacrylamide in 12-and 15-well formats. Two available cassette sizes, Mini (10 x 8.3 cm) and Midi (10 x 10 cm), are compatible with most popular protein electrophoresis systems. Q-PAGE™ Mini (QP2XXX) Gels are suitable for Bio-Rad® and other systems. Q-PAGE™ Midi (QP3XXX) Gels are suitable for Invitrogen® XCell SureLock® Mini-Cell, Invitrogen® Mini Gel Tank, Hoefer SE260, and other systems.
Key Features
User-friendly gel cassette:
Numbered and framed wells for sample loading
With cassette opener for easy use
Enhanced gel performance:
Enhanced band sharpness
Better resolution of small proteins
Stable for shipping at ambient temperature
Easy compatibility:
Available as homogeneous and adjusted gradient gels for a wide range of protein separation.
Compatible with most popular protein electrophoresis systems
Storage and stability
Store Q-PAGE™ Precast Gels at 4°C for periods up to 12 months.
Do not freeze Q-PAGE™ Precast Gels Remove tape and comb before electrophoresis.
Technical
Clear and sharp bands, high resolution
Q-PAGE™ Bis-Tris Precast Gel shows high resolution of protein separation.
QP3320 Specifications
Gel | Bis-Tris | |
Buffer systems | MOPS and MES | |
Features | Clear and sharp bands, high resolution | |
Cassette size | Midi Gel (10 X 10 cm) | |
Gel dimensions | 8.1 x 8.1 x 0.1 cm (W x L x thickness) cm | |
Electrophoresis system | Mini Gel Tank XCell SureLock, Hoefer SE260 | |
Well format & Capacity | 15 wells, 28 μl/well | |
Gel percentage | 12 % | |
Accessory tray | Production description Tip card Gel remover Cassette opener | |
Manual
Manual_Q-PAGE™ Bis-Tris Precast Gel, Midi
SDS
SDS_Q-PAGE™ Precast Gel
Migration pattern
Setting Up and Running Q-PAGE™ Midi Precast Gel
Removing Q-PAGE from cassette
Setting up gel/membrane sandwich for Western transfer
Recommendations/Tips for Gel Running
1. Remove comb and tape before adaption. 2. Use fresh 1X running buffer for the inner cathode chamber. 3. Do not use Tris-Glycine running buffer for Q-PAGE™ Bis-Tris Precast Gels. 4. Rinse the wells before sample loading.
Sample Preparation for SDS-PAGE
1. Mix protein sample with 2X sample buffer.
2. Heat the diluted samples at 95°C for 5 min or at 70°C for 10 min.
3. Cool the diluted samples to 4°C and spin down the water condensed on tube surface. (If there is high viscosity part at bottom of tube, transfer supernatant to a new tube.)
Prepare Q-PAGE™ for Sample Loading
1.Open the blister tray of Q-PAGE™ Precast Gel.
2.Briefly rinse the gel cassette with ddH2O.
3.Remove tape and comb; avoid squeezing the gel.
4.Adapt Q-PAGE™ to electrophoresis system; instruction is provided below. (Invitrogen® Mini Gel Tank is recommended.)
5.Use a pipette to gently wash the wells with running buffer to remove residual storage buffer.
6.Fill the wells with running buffer prior to sample loading.
7.Load samples and pre-stained protein marker into numbered wells.
8.Fill both inner and outer chambers with running buffer to the highest level. Ensure gel wells are completely covered.
Power Setting for Running Q-PAGE™
Optimize the voltage and running time if needed.
| 130 V | 180 V | 230 V*2 |
Running Time*1 | 60-75 mins | 35-50 mins | 25-40 mins |
Expected Current Initial (per gel) Final (per gel) |
70-80 mA 20-30 mA |
90-100 mA 35-45 mA |
130-140 mA 60-70 mA |
Expected temperature | 25-30°C | 25-35 °C | 35-45°C |
*1 Set voltage higher than 100 V is recommended.
*2 For higher voltage conditions, please use fresh running buffer for inner and outer chambers.
*3 Running time varies depending on gel percentage, running buffer, temperature, and power supply.
Remove Q-PAGE™ Midi Gel from Cassette
Open cassette immediately after electrophoresis. Avoid gel drying.
1.Insert the cassette opener into corners of cassette.
2.Sequentially pry the opener to separate the two plates.
3.Gently pull up notched plate and let gel stay on the front plate.
4.Use cassette opener to push through the slot in the cassette.
5.Carefully detach the gel from the bottom of gel
- Avoid diagonally peeling the gel from the corner.
- If necessary, cut well separators with gel remover
6.Gently remove the gel for further staining or Western blotting.
Gel Staining
Proteins separated using Q-PAGE™ Precast Gels can be further stained with most popular staining reagents, such as Coomassie dyes (R-250 or G-250), Silver-stain solution,
and FluoroStain™ Protein Fluorescent Staining Dye. (Cat. No. PS1000)
Transferring Protein from Q-PAGE™ to Blotting Membrane
1. After protein separation using Q-PAGE™, gently detach QPAGE™ from cassette and then equilibrate the gel in transfer buffer.
2. Pre-soak blotting membrane and filter papers in transfer buffer.
*Activate PVDF membrane in methanol before soaking in transfer buffer.
**Prepare 6 filter papers for one gel/membrane sandwich.
3. Assemble transfer sandwich by orientating cathode, sponge, filter papers, gel, membrane, filter papers, sponge, and anode. The protein goes to the direction of cathode to anode.
4. Carefully move roller over the gel/membrane to remove air bubbles and excess buffer until complete contact is established.
5. Insert transfer cassette into transfer module. Notice that black side of cassette should be next to black side of module.
6. Fill transfer tank with pre-cooled transfer buffer to the highest water level.
7. Set constant voltage at 100 V. Transfer for 90 minutes at low temperature condition. Pre-stained protein marker should be visible on the membrane after transfer is completed.
Transfer of proteins to the membrane can be checked using Ponceau S staining before blocking step.
Supplemental Information for Using Q-PAGE™ Precast Gel
Adapting Q-PAGE™ Midi Precast Gels to Invitrogen Mini Gel Tank Electrophoresis System
1. Place the Q-PAGE Midi Precast Gels with notched plate facing toward yourself. No extra adapter is needed.
2. Seat the gels on the bottom of Mini Gel Tank and close the cassette clamp.
3. Fill chambers with running buffer to the level of the fill line. Ensure gel wells are completely covered.
Adapting Q-PAGE™ Midi Precast Gels to other electrophoresis system, please follow the manufacturer’s instruction.
Buffer recipes
2X sample buffer with reducing agent
62.5 mM Tris-HCl pH 6.8, 2% SDS, 25% (v/v) glycerol, 0.01% bromophenol blue, 5% β-mercaptoethanol or 100 mM DTT (added fresh)
10X MOPS running buffer
60.6 g Tris base, 104.6 g MOPS, 10.0 g SDS, 3.0 g EDTA. Bring up the volume to 1 L with ddH2O.
10X MES running buffer
60.6 g Tris base, 97.6 g MES, 10.0 g SDS, 3.0 g EDTA. Bring up the volume to 1 L with ddH2O.
1X running buffer
Dilute 100 ml 10X running buffer with 900 ml ddH2O.
10X transfer buffer
30.0 g Tris base, 144.0 g Glycine. Bring up the volume to 1 L with ddH2O.
1X transfer buffer
*Cool 1X transfer buffer to 4°C before using.
Dilute 100 ml 10X transfer buffer with 200 ml methanol and 700 ml ddH2O.
**Add SDS to 0.1% to promote transfer of high molecular weight proteins.
| ||||||||||||||||||||||||||||||||||||||||||||||||||||||
Q-PAGE™ Precast Gel
Gel Type | Bis-Tris | TGN (Tris-Glycine-Novel) | ||||||
Buffer systems | MOPS and MES | Tris-Glycine (Laemmli) | ||||||
Features | Clear and sharp bands, high resolution | Quick running, clear bands | ||||||
Cassette size | Mini Gel(10 x 8.3 cm) | Midi Gel(10 X 10 cm) | Mini Gel(10 x 8.3 cm) | Midi Gel(10 X 10 cm) | ||||
Electrophoresis system | Bio-Rad systems | Mini Gel Tank Xcell SureLock, Hoefer SE260 | Bio-Rad systems | Mini Gel Tank Xcell SureLock, Hoefer SE260 | ||||
Well format & Capacity | 12 wells, 25 μl/well | 15 wells, 22 μl/well | 12 wells, 40 μl/well | 15 wells, 28 μl/well | 12 wells, 25 μl/well | 15 wells, 22 μl/well | 12 wells, 40 μl/well | 15 wells, 28 μl/well |
Gel percentage/ Cat. No. | 8% | 8% | 8% | 8% | 10% | 10% | 10% | 10% |
QP2110 | QP2120 | QP3110 | QP3120 | QP4210 | QP4220 | QP5210 | QP5220 | |
12% | 12% | 12% | 12% | 4-15% | 4-15% | 4-15% | 4-15% | |
QP2310 | QP2320 | QP3310 | QP3320 | QP4510 | QP4520 | QP5510 | QP5520 | |
4-12% | 4-12% | 4-12% | 4-12% |
|
|
|
| |
QP2510 | QP2520 | QP3510 | QP3520 |
|
|
|
| |
ExcelBand™ Protein Markers
Ready-to-use— premixed with a loading buffer for direct loading, no need to boil
Broad range— 310 kDa to 5 kDa
Pre-stained bands — for monitoring protein separation during electrophoresis and Western blotting transferring efficiency on membrane
Enhanced bands— for quick reference
YesBlot™ Western Marker I
Ready-to-use — no need of mixing or heating before sample loading
Direct visualization — 10 IgG-binding proteins for direct visualization on Western blots
Pre-stained bands — 4 pre-stained proteins for monitoring protein separation during electrophoresis and Western blotting transferring efficiency on membrane
Wide range — 10 clear bands from 15 to 200 kDa for size estimation
Quick reference — two enhanced bands (30 and 80 kDa)
FluoroStain™ Protein Fluorescent Staining Dye
Compatible to MASS analysis — compatible to the analysis of mass spectra, such as LC-MS/MS, MALDI-TOF, and etc.
High sensitivity — detection level achieve ~3 ng, similar to silver staining
Substitution of the Coomassie Blue protein staining method
ebiomall.com
>
>
>
>
>
>
>
>
>
>
>
>
考马斯亮兰染液也可以重复用。新配的染液10分钟即可,重复3次后要染30分钟。
一抗二抗可以重复利用,但是注意要在5%milk中加入0.2% sodium azide ,并且用完以后放入4度保存,我的经验重复使用4-5次是肯定没有问题的.如果保存不当,就会污染微生物,只能丢弃.
之前是担心所需组织量不够(要求是200-300mg,我的组织只有20mg左右)才跑不出来,后来换用大鼠心脏测试,组织量绝对够。。。而且在跑western之前进行了说明书上的蛋白浓缩步骤,可是在加loADIngbuffer之后,蛋白沉淀怎么都溶解不掉~说明书也注明了如果有沉淀可以取上清继续上样,可是每次上样感觉样品往上浮,只有部分样品往孔里沉,而且跑出来什么都没有,连内参都没有。用的是β-actin的内参。。
western之前浓缩步骤如下:
1、取所得提取物,每100ul膜蛋白加入约300ul的溶解buffer和约100ul三氯乙酸(TCA)试剂,混匀后置冰上20-30min后,13000rpm,离心15min,尽可能去除上清。
2、沉淀加入1ml丙酮,室温静置10min后,13000rpm离心15min。
3、弃上清,沉淀真空旋干或置冰上干燥10min(敞开离心管盖),按适当体积比加入loadingbuffer(使用前没100ulloadingbuffer加入2-5ulβ-巯基乙醇)溶解,彻底分散(枪头反复吹吸或剧烈涡旋),煮沸5min。【注:加入loadingbuffer后如有部分难容物,可取上清继续上样。】
1、如果是提取的总蛋白,然后做WB,用β-actin或者GAPDH做内参肯定是没有问题的,这是公认的东西。
2、如果用膜蛋白提取试剂盒提取蛋白,再用β-actin作为内参似乎不妥,因为理论上来讲β-actin在膜上是不表达的。WB能做出β-actin来是因为膜蛋白提取时把胞质蛋白也提出来了。然而,如果我们试验目的是用药物处理细胞,比较处理前后某种膜蛋白的表达情况,此时用膜蛋白提取试剂盒提取膜蛋白后再用β-actin做内参似乎就不妥了,因为你根本不知道药物处理前后混杂了多少的胞质蛋白进来。如果没有胞质蛋白混进去的话,β-actin就是检测不到的。
原理简介:
本试剂盒采用改进SDS-碱裂解法裂解细胞,离心吸附柱内的硅基质膜在高盐,低pH值状态下选择性地结合溶液中的质粒DNA,再通过去蛋白液和漂洗液将杂质和其它细菌成分去除,最后低盐,高pH值的洗脱缓冲液将纯净质粒DNA从硅基质膜上洗脱。
注意事项:
◆ 第一次使用时,将试剂盒所带全部的RNase A加入溶液P1后(终浓度100ug/ml)置于4℃保存。如果溶液P1中RNase A失活,提取的质粒可能会有混杂有微量RNA残留, 这时可在溶液P1中补加RNase A即可。
◆ 第一次使用前请先在15ml漂洗液WB中加入45ml无水乙醇,加入后请及时在方框打钩标记已加入乙醇,以免多次加入!
◆ 温度低时溶液P2中SDS可能会出现浑浊或者析出沉淀,可在37℃水浴加热几分钟,即可恢复澄清,不要剧烈摇晃,以免形成过量的泡沫。
◆ 避免试剂长时间暴露于空气中产生挥发、氧化、pH值变化,各溶液使用后应及时盖紧盖子。
试剂盒特点:
◆ 产量高---一次提取高达30ug以上的质粒。
◆ 纯度高---OD260/OD280一般为1.80~1.85本试剂盒提取的质粒纯度好,能充分保证测序所需要的读长(用于ABI3730测序一般可达1000bp有效读长)。
◆ 快速,方便,不需要使用有毒的苯酚,氯仿等试剂,也不需要乙醇沉淀。
提示
BIOTEKE的质粒提取试剂盒既适用于革兰氏阴性菌中质粒的提取,同时也可从革兰氏阳性菌中提取质粒。由于革兰氏阳性菌外被一层较厚的细胞壁,会严重阻碍细菌细胞的裂解,因此必须在裂解细胞前破除,方法如下:
收集适量的菌体,加入250ul溶液P2,充分悬浮菌液,加入溶菌酶使其终浓度在10-20mg/ml左右在37℃处理30分钟左右。加入溶菌酶的浓度和处理的时间可根据不同的菌主和具体实验条件进行调整。
取名尿素。尿素含氮46%,是固体氮肥中含氮量最高的。尿素在酸、碱、酶作用下(酸、碱需加热)能水解生成氨和二氧化碳。希望我能帮助你解疑释惑。
转膜后就要区分与胶接触的一面与另一面了。话说楼主好奇的话可以跑蛋白的试试看哈。比如目的蛋白的胶用光滑面贴着胶,内参蛋白用粗糙面贴着胶一起转膜试试转膜结果看看呢。
