Hampton GRAS 1 • GRAS 2 Screens

Hampton GRAS 1 • GRAS 2 Screens

stallization screen for proteins, including monoclonal antibodies, where Polyethylene glycol is the primary, and Salt the secondary reagent, sampling pH 4-9
GRAS 1 • GRAS 2 ScreensGRAS 1 • GRAS 2 Screens Identify GRAS based reagents that promote crystallization of biotherapeutics for bioprocess, bioformulation, and continuous flow manufacturing applications
Features

Developed at Hampton Research
Generally Recognized As Safe reagent formulation
Samples pH 4.0 – 9.0 without an added buffer
Primary crystallization reagent:

GRAS Screen 1: PEG 300, 400, MME 550, & 600
GRAS Screen 2: PEG 1,000, MME 2,000, 3,350 & 4,000
Secondary crystallization reagent:

24 unique salts
Compatible with Vapor diffusion, microbatch, free interface diffusion
Reagents soluble between 4°C and 30°C

Description
GRAS Screen™ 1 and GRAS Screen™ 2 were developed by Hampton Research for the crystallization of proteins, including monoclonal antibodies. Each of the chemicals in GRAS Screen 1 and 2 have been used under one or more of the following categories. As (1) a Generally Recognized As Safe (GRAS) substance, (2) a pharmaceutical excipient, (3) a normal physiological constituent, (4) a metabolic byproduct, and/or (5) a Everything Added to Food in the United States (EAFUS) substance.

GRAS Screen 1 samples four low molecular weight Polyethylene glycols (300, 400, MME 550, and 600) versus twenty-four salts, encompassing pH 4-9. GRAS Screen 1 is supplied in a 96 Deep Well block format and is compatible with robotic and multi-channel pipet liquid handling systems. GRAS Screen 1 is compatible with vapor diffusion, free interface diffusion, and microbatch crystallization methods. For research use only.

GRAS Screen 2 samples four medium molecular weight Polyethylene glycols (1,000, MME 2,000, 3,350, & 4,000) versus twenty-four salts, encompassing pH 4-9. GRAS Screen 2 is supplied in a 96 Deep Well block format and is compatible with robotic and multi-channel pipet liquid handling systems. GRAS Screen 2 is compatible with vapor diffusion, free interface diffusion, and microbatch crystallization methods. For research use only.

CAT NO NAME DESCRIPTION
HR2-451 GRAS Screen 1 1 ml, Deep Well block format
Price Quantity
$245.00
CAT NO NAME DESCRIPTION
HR2-452 GRAS Screen 2 1 ml, Deep Well block format
Price Quantity
$245.00

Hampton 水晶透明密封带Crystal Clear Sealing Tape

Hampton 水晶透明密封带Crystal Clear Sealing Tape

Crystal Clear Sealing Tape

3 inch, 1.88 inch, 1.88 inch with dispenser, 0.75 inch with dispenser (left to right)

Crystal Clear Sealing Tape

0.75 inch Crystal Clear Sealing Tape

Applications  应用
Sealing tape used to seal sitting drop crystallization experiments

Description

These optically clear tapes are compatible with protein crystallization reagents. The polypropylene Crystal Clear Sealing Tapes use acrylic solvent based adhesives which are compatible with aqueous crystallization reagents.

Catalog number HR3-511 is a 1.88 inch (48 mm) wide, 3 mil tape on a 43.7 yard (40 M) roll with a 1.5 inch core and is supplied with a green dispenser / cutter.Catalog number HR4-511 is a 1.88 inch wide, 3 mil tape on a 60 yard roll with a 3 inch core and no dispenser / cutter.Two strips of the HR3-511 or HR4-511 will seal a Corning, Cryschem, CrystalClear Strip, Greiner, Intelliplate, Linbro, Swissci (MRC), VDX and VDXm plate.Catalog number HR4-506 is a 3 inch wide, 3 mil tape on a 54.86 yard roll with a 3 inch core and no dispenser / cutter.One strip of the HR4-506 will seal a Corning, Cryschem M, CrystalClear Strip, Greiner, Intelliplate, Swissci (MRC) and VDXm plate.Crystal Clear Mini Sealing Tape HR4-508 is a 0.75 inch (19 mm) wide, 3 mil tape on a 650 inch (16.5 M) roll and is supplied with a clear dispenser / cutter. The tape is useful for resealing or patching wells after mounting crystals. The tape is also wide enough to seal a single row of a Cryschem S or Cryschem M plate.See chart for tape and plate compatibility.

Hampton 48孔坐滴蛋白结晶板 48-Well Crystallization Plate

Hampton 48孔坐滴蛋白结晶板 48-Well Crystallization Plate
Applications

Sitting drop crystallization
Features

One drop per reservoir
SBS format
48 well plate
9 mm standard distance between wells
Drop volume: Up to 10 µl
Reservoir volume: 50 to 200 µl
Micro-numbering alongside drop volumes
Rigid plate structure
Wide partition walls between wells improve sealing
Developed in conjunction with the MRC Laboratory of Molecular Biology in Cambridge, United Kingdom
UV compatible (UVP)
Description
MRC Maxi 48-Well Crystallization Plate for Automated Optimization

The MRC Maxi optimization plate is a breakthrough for macromolecular crystallization presented in a 48 well format. Offering easy to automate crystallization optimization with large sitting-drops, the new MRC Maxi Crystallization plate is the perfect solution. Manufactured by Swissci AG, the plate offers an SBS format while providing 48 wells. MRC Maxi is intended for large drops and is compatible both with standard robotic systems as well as manual pipetting.

The plate was developed at the MRC Laboratory of Molecular Biology (Cambridge, UK) in collaboration with Jan Löwe and Fabrice Gorrec. It is a result of many years of experience in successful robotic high-throughput crystallization and complements the original MRC crystallization plate, which is intended for smaller drop volumes and higher throughput during screening.

Drop volumes of up to 10 µl are possible. The 9 mm standard distance between wells is preserved, enabling the use of multi-channel manual pipettes and robotic liquid handlers, making MRC Maxi one of the most automation-friendly optimization plates on the market.

MRC Maxi is covered by global intellectual property and design registration as are the Swissci AG MRC 2 lens 96 well plates. Several breakthrough features of the original MRC plate have been maintained. Wells are labeled individually. Drops are raised for easy access during crystal retrieval. MRC Maxi uses the same proprietary polymer specially selected for the purpose of UV light visualization and the material used keeps through-plastic evaporation to a minimum. Well shapes are spherical but shallow.

The MRC Maxi Crystallization plate offers unique properties that make it the ideal choice for microliter-sized optimization experiments and is made from UV compatible UVP.

The advantages of the MRC Maxi Crystallization plate – in brief

Easy Crystal Retrieval
Raised wide wells make the crystal mounting especially easy.

Easy Viewing
The wells are wide conical.
Each well has a micro lens for perfect illumination.
Micro numbering readable under the microscope for each well.
The optically superior polymer (UVP) is UV transmissible.

Better Sealing
Wide partition walls between the wells give plenty of area for good sealing with tape.

Very Rigid, Automation-Friendly Plate Design
The UVP polymer reduces through-plastic evaporation to a minimum.

SBS Standard
The plates are designed to the SBS standard and are compatible with all common holders.
9 mm distance from well-to-well within columns, 18 mm distance within rows.

Unique Polymer (UVP)
Ultra-low sample binding.
No static charging.

Recommended Volumes
Volumes validated for MRC Maxi are up to 10 µl of sample drop and 200 µl of the crystallization reagent.

CAT NO NAME DESCRIPTION
HR3-179 MRC Maxi 48-Well Crystallization Plate 10 plate case
HR3-180 MRC Maxi 48-Well Crystallization Plate 40 plate case

Hampton Siliconized Glass Cover Slides

Hampton Siliconized Glass Cover Slides

ApplicationsHanging, sitting or sandwich drop crystallization
FeaturesHigh purity of glassSiliconized, hydrophobic glass surface0.22 mm & 0.96 mm glass thicknessThicker glass slides preserve temperature longer12 mm, 18 mm, & 22 mm glass diameterCircle & squareUV Compatible (>85% transmission)
12 x 0.22 mm Circle
18 x 0.22 mm Circle
22 x 0.22 mm Circle & Square

Description
Siliconized glass cover slides allow a droplet to be suspended in a position which provides near optimal conditions for vapor diffusion with the surrounding reservoir solution. These siliconized glass cover slides provide a consistent, high quality finish for crystallization experiments. The hydrophobic surface produces a drop which “stands well” and does not flatten on the glass. The siliconized surface prevents the adhesion of crystals and precipitate onto the glass surface. Use Dow Corning Vacuum Grease (HR3-510), Dow Corning 7 Release Compound (HR3-508), or immersion oil to seal cover slide to plate. Available in 12, 18 or 22 mm diameter circles and 22 mm diameter squares. Available in 0.22 mm or 0.96 mm glass thickness. The 0.96 mm thick slides are virtually unbreakable during crystallization handling.

The following slides are UV transmissable (>85%):
HR3-277 and HR3-279 – 12 mm x 0.22 mm Siliconized circle cover slides
HR3-231 and HR3-233 – 22 mm x 0.22 mm Siliconized circle cover slides
HR3-239 and HR3-241 – 18 mm x 0.22 mm Siliconized circle cover slides
HR3-215 and HR3-217 – 22 mm x 0.22 mm Siliconized square cover slides

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Plain Glass Cover Slides
ApplicationsHanging, sitting or sandwich drop crystallization
Features
0.22 mm glass thickness
12 mm glass diameter
Hydrophilic glass surface
Circle & squareDescription
Plain, non-siliconized, hydrophilic glass cover slides. Useful for hanging drop, sitting drop, and sandwich drop vapor diffusion crystallization methods. The hydrophilic surface creates a drop which is more flat than a drop on a siliconized surface. This offers enhanced imaging for very small drops. Use Dow Corning® Vacuum Grease (HR3-510), Dow Corning® 7 Release Compound (HR3-508), or immersion oil to seal cover slide to plate.

HR3-209T 12 mm Plain circle cover slides for Tecan robot 5 oz case (~2,400 slides)

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HR3-209T 12 mm Plain circle cover slides for Tecan robot 5 oz case (~2,400 slides)
PEN-VAC Kit
ApplicationsHolding and manipulating small, flat surfaces such as glass cover slides
FeaturesSelf-contained vacuumNo power neededCompactDescription
PEN-VAC is a great tool for handling small, flat surfaced objects such as plain and siliconized cover slides, as well as plastic slides. Simply depress the side button, touch the tip to the object to be lifted and release the button. PEN-VAC creates a totally self-contained vacuum that lifts up to 50 grams for up to one minute. Less than an ounce, the lightweight aluminum body fits in a pocket. No power supply needed. The kit includes one PEN-VAC with 5 3/4″ blue body, (3) angled and (3) straight probes with (2) each 1/8”, 1/4”, 3/8” diameter blue silicone vacuum cups . It is packaged in a clear plastic storage case.

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HR3-251  PEN-VAC Kit

低温泡沫杜瓦瓶 Spearlab Cryogenic Foam Dewars

低温泡沫杜瓦瓶 Spearlab Cryogenic Foam Dewars
Spearlab Cryogenic Foam Dewars
Spearlab Dewars
Spearlab Cryogenic Foam Dewars
HR4-662 Cryogenic Foam Dewar (500 ml) – Small  500ml规格
Spearlab Cryogenic Foam Dewars
HR4-675 – Spearlab Cryogenic Foam Dewar (2 liter)  2L规格
低温泡沫杜瓦瓶 Spearlab Cryogenic Foam Dewars

Applications 应用

    Cryocrystallography 蛋白结晶学

Features

  Each dewar is supplied with a lid  每个杜瓦瓶都配有盖子

  Proprietary foam construction (USPTO # 7,971,744)

  Mini (130 ml), Small (500 ml), Standard (800 ml), Large (1400 ml) and Tall (1800 ml)

   Reduced ice formation on dewar lip

  Easier to dry

   Foam construction reduces slipping

Description
Spearlab FD-130 Cryogenic Foam Dewar (130 ml) – Mini : Small, hexagonal outside, hand held foam dewar, maximum volume 175 ml. Each dewar is supplied with a matching foam lid to insulate the contents from ambient air. Dimensions of the cylindrical cavity in this vessel are 2 inches in diameter by 3.5 inches deep, so that it easily holds 130 ml and a maximum volume of 175 ml of liquid nitrogen. The HR4-676 has an overall height of approximately 4.5 inches without cover and the width is 3.5 inches at the top and 3.75 inches on the bottom (measured on the flats of the hexagon). Circular cover is approximately 0.5 inches tall x 3.5 inches diameter.

Spearlab Cryogenic Foam Dewar (500 ml) – Small: The small foam dewar shape is circular, with a protruding handle, so that it resembles a large teardrop. Each dewar is supplied with a matching foam lid to insulate the contents from ambient air. Dimensions of the cylindrical cavity in this vessel are 4.5 inches in diameter by 2.8 inches deep, so that it easily holds 500 ml of liquid nitrogen.

Spearlab FD-800 Cryogenic Foam Dewar (800 ml) – Standard: The standard foam dewar shape is circular, with a protruding handle, so that it resembles a large teardrop. Each dewar is supplied with a matching foam lid to insulate the contents from ambient air. Dimensions of the cylindrical cavity in this vessel are 5.8 inches in diameter by 2.8 inches deep, so that it easily holds 800 ml of liquid nitrogen.

Spearlab FD-1400 Cryogenic Foam Dewar (1400 ml) – Large: The large foam dewar shape is circular, with a protruding handle, so that it resembles a large teardrop. Each dewar is supplied with a matching foam lid to insulate the contents from ambient air. Dimensions of the cylindrical cavity in this vessel are 6.3 inches in diameter by 3.8 inches deep, so that it easily holds 1400 ml of liquid nitrogen. Overall height is approximately 6 inches without cover and the width is 9 inches on the short axis and 11 inches on the long axis. Cover approximately 0.5 inches tall x 9 inches diameter.

Spearlab FD-1800 Cryogenic Foam Dewar (1800 ml) – Tall: The tall foam dewar shape is a tapered octagon on the outside with a cylindrical interior. The tapered octagon features a wide, stable base. Each dewar is supplied with a matching foam lid to insulate the contents from ambient air. Dimensions of the cylindrical cavity in this vessel are 3.5 inches in diameter by 12.5 inches deep, so that it holds approximately 1,800 ml of liquid nitrogen. The outside dimensions of the tall dewar are 15.25 inches tall with a 6.25 inches wide top and a 7.75 inches wide base (measured on the flats of the octagon). The cover is 6.5 inches in diameter and 0.5 inches thick.

The patented (USPTO # 7,971,744) design of the Spearlab Cryogenic Foam Dewar makes it easy to handle and safer to use than a traditional low profile glass dewar. Also, because of its lower thermal mass, a foam vessel will cause less boil off when it is filled with liquid nitrogen. Additionally, the dewar will accumulate less frost during regular use. The end result is that less liquid nitrogen is consumed.

The dewars are made from cross-linked polyethylene foam. A density of 4 pounds per cubic foot is used for the 130 ml and 800 ml dewars. A density of 2 pounds per foot is used for the 1400 ml and 2 liter dewars. The higher density foam has significantly higher mechanical strength and stiffness. The lower density foam has slightly lower thermal conductivity. Like most lightweight insulation materials, the thermal conductivity of the foam is predominantly determined by the thermal conductivity of air, which eventually permeates the pores of the foam material.

CAT NO NAME DESCRIPTION
HR4-676 Cryogenic Foam Dewar (130 ml) – Mini each
HR4-662 Cryogenic Foam Dewar (500 ml) – Small each
HR4-673 Cryogenic Foam Dewar (800 ml) – Standard each
HR4-674 Cryogenic Foam Dewar (1400 ml) – Large each
HR4-675 Cryogenic Foam Dewar (2 liter) – Tall each

Hampton AlumaSeal™ II Sealing Film and Applicator

Hampton AlumaSeal™ II Sealing Film and Applicator

Applications

Sealing film used to reseal HT format screen kits in polypropylene blocks and plates

Features

Excellent seal
Film conforms to raised chimney wells
Easily pierceable with single or multichannel pipettors and robotic probes
Heat & cold resistant, recommended for temperatures from -80 °C to +120 °C
Certified DNase-, RNase-, and nucleic-acid-free
Less evaporation than clear films
Excellent barrier properties, virtually no reagent evaporation or drying
 Description
A 38 µm soft non-permeable aluminum foil sealing film with strong medical-grade adhesive, AlumaSeal II sealing films eliminate the need for heat-sealing devices or mats during the resealing of reagents in polypropylene deep well blocks. Each sealing film measures 82.6 x 142.9 mm and offers sufficient sealing area for 96 deep well blocks. Length between the perforations with end tabs removed is 125.4 mm. Compared to other aluminum foils, AlumaSeal II has less tendency to roll back on itself when removing the backing paper and it conforms well to the plate during application.AlumaSeal II is a soft, pierceable adhesive film designed for the convenient and rapid sealing of polypropylene deep well blocks. A multiple split backing with two end tabs allows for easy, accurate positioning and secure sealing. The use of an adhesive sealing film minimizes evaporation and helps to prevent well-to-well cross contamination in reagent blocks. AlumaSeal II films are easily pierced by pipettte tips or robotic probes or piercing tools for direct reagent recovery without significant gumming by adhesive.

AlumaSeal™ II Sealing Film and Applicator

AlumaSeal™ II Sealing Film and Applicator

CAT NO NAME DESCRIPTION
HR8-069 AlumaSeal II Sealing Film 100 pack
HR4-413 Film Sealing Paddle 5 pack

Hampton热销产品

Hampton Research是 美国最权威的蛋白结晶试剂盒提供商,产品齐全,性价比高。

在生命科学领域,上海金畔生物为业界提供了丰富的实验室和生物医药生产研发的产品。庆祝上海金畔生物正式成为Hampton的签约代理商,在这里要感谢广大客户多年来对上海金畔生物科技有限公司的支持和厚爱,我们将一如既往的为广大客户带来Hampton高品质的产品和服务,欢迎广大新老客户来电咨询。‘

美国Hampton Research公司位于加利福尼亚州,是一家专门从事蛋白质晶体研究的生产商。该公司向全球科研人员提供全面的晶体研究试剂和相关实验耗材,同时提供晶体设计和合成方面的定制服务。Hampton Research公司以其先进的生物大分子结晶技术和广泛实用的产品线,不仅为全世界晶体研究人员的工作带来了便捷,而且也受益于科研人员的回馈不断发展自己,目前已成为晶体研究领域最受信赖的品牌之一。

Hampton research主要产品:

Crystallization Screens 用于筛选和优化蛋白质/多肽/核酸结晶的一系列经验证的高精配方型溶液

Optimize Reagents 结晶级别盐类,聚合物,有机溶液或缓冲液

Crystallization Plates, Hardware & Accessories 结晶板(悬滴法和坐滴法,微量透析,微配液,自由界面扩散,凝胶以及无容器悬浮法)及其他配件

Cryocrystallography 低温晶体学耗材如 Crystalcap system,cryoloops

Goniometer Heads&Supplies 测角器头和配件

Protein Crystallization Standards 结晶级别标准蛋白

Custom Shop Crystallization Reagents 定制试剂盒和结晶溶液内的单一组分

StockOptions Kits 内含盐类,缓冲液和冷冻液的简便型试剂盒

Tools,Seeding&Resin 结晶用探针,结晶笔,seeding法结晶工具

Capillary Mounts & Supplies 毛细管,玻璃纤维, 蜡,黏合剂和密封剂

Hampton热销产品

  • StockOptions pH Buffer Kit HR2-241

    Crystallization grade buffer stocks for crystal screening, optimization, & production

    Crystal Screen Cryo HR2-122

    Primary screen with cryo for proteins, soluble peptides, nucleic acids, & water soluble small molecules

  • Natrix HR2-116

    Primary biased sparse matrix crystallization screen for nucleic acids & protein/nucleic acid complexes

  • MembFac HR2-114

    Primary sparse matrix crystallization screen for membrane proteins and samples with limited solubility

  • SaltRx HR2-136

    Primary or secondary, salt and pH matrix crystallization screen for biological macromolecules

  • Grid Screens HR2-248

    Primary or secondary, salt, polymer, organic and pH grid crystallization screen for biological macromolecules

  • PEG/Ion HR2-126

    Primary or secondary, polymer, salt and pH matrix crystallization screen for biological macromolecules

  • PCT™ Pre-Crystallization Test HR2-140

    Determine the appropriate sample concentration for crystallization screening

  • Index HR2-144

    Primary, diverse reagent system crystallization screen for proteins, complexes, peptides, nucleic acids, & water soluble small molecules

  • Crystal Screen HR2-110

    Primary screen for proteins, soluble peptides, nucleic acids, & water soluble small molecules;Sparse matrix additive screen

  • PEGRx HR2-082

    Primary and secondary, polymer and pH based crystallization screen for biological macromolecules

  • Additive Screen HR2-428

    Manipulate sample-sample & sample-solvent interactions to improve crystals or alter sample solubility

  • Detergent Screen HR2-408

    Prevent and manipulate non-specific aggregation due to hydrophobic interactions

  • CryoPro HR2-073

    Water soluble cryoprotectant reagent set designed for the cryopreservation of biological macromolecular crystals

  • StockOptions Salt HR2-245

    Crystallization grade salt reagent stock solutions for screen formulation and optimization

  • Siliconized Glass Cover Slides HR3-217

    Hanging, sitting or sandwich drop crystallization

  • Intelli-Plate 96 HR3-185

    蛋白结晶座滴板

  • CrystalCap HR4-733
  • CryoLoop HR4-623

    • CryoTong™ – Long HR5-104

      Crystal transfer under cryo temperature

    • CrystalWand™ Magnetic HR4-729

      CrystalCap Magnetic & CrystalCap Copper Magnetic handling tool

    • Vial Clamp™ – Straight HR4-670

      Vial support and manipulation

    • CrystalCap™ Holder HR4-707
    • CryoCane HR4-709

      Organized storage of CrystalCaps

Hampton CrystalEX Second Generation (Corning)

Hampton CrystalEX Second Generation (Corning)

Crystal<i>EX</i> Second Generation (Corning)

CrystalEx Plates

Applications

   Sitting drop crystallization

Features

96 well sitting drop plate
Round and conical flat bottom drop well shapes
1, 2 or 4 microliter drop wells
1, 3 or 5 drop wells per reservoir
Hydrophilicity treated or untreated
PZero or COC plate material–UV imaging compatible

Description

The second generation of Corning® 96 Well, sitting drop format plates are built to SBS specifications, making them well suited for high throughput crystallization and are fully compatible with robotic equipment. The plates are available in several different configurations with varying drop well shapes, plate materials, and number of drop wells per reagent well. The basic plate design is one reagent well flanked by one or three drop wells, with SBS standard spacing between the centers of adjacent well clusters. One may choose a plate with small (1 µl), medium (2 µl), or large (4 µl) drop well volumes. The choice of round or conical flat well shapes are available. The PZero polymer provides for zero background polarization and is non-birefringent. PZero plates are not treated. The COC polymer offers high chemical resistance. Both types of plastic feature improved transparency. The reservoir numbers are embossed on each individual well for easy identification. Drop well locations conform to SBS standards for robotic handling. The low-volume reagent well saves on reagent costs. The plates can be sealed using Crystal Clear Sealing Film (HR3-609), 3 inch wide Crystal Clear Sealing Tape (HR4-506) or ClearSeal Film™ (HR4-521).

Corning has discontinued 3557 – special pricing and limited inventory available for this item only.

CAT NO NAME DESCRIPTION
HR8-135 Corning 3556 4µl round drop well, 1 drop well, COC, untreated – 10 plate case
HR8-134 Corning 3556 4 µl  round drop well, 1 drop well, COC, untreated – 40 plate case
HR8-137 Corning 3551 4 µl conical flat drop well, 1 drop well, COC, treated – 10 plate case
HR8-136 Corning 3551 4µl conical flat drop well, 1 drop well, COC, treated – 40 plate case
HR8-139 Corning 3552 2 µl round drop well, 3 drop well, COC, untreated – 10 plate case
HR8-138 Corning 3552 2µl  round drop well, 3 drop well, COC, untreated – 40 plate case
HR8-141 Corning 3553 2 µl conical flat drop well, 3 drop well, COC, untreated – 10 plate case
HR8-140 Corning 3553 2 µl conical flat drop well, 3 drop well, COC, untreated – 40 plate case
HR8-147 Corning 3550 1µll conical flat drop well, 3 drop well, COC, untreated – 10 plate case
HR8-146 Corning 3550 1µl conical flat drop well, 3 drop well, COC, untreated – 40 plate case
HR8-160 Corning 3557 1 µl conical flat drop well, 5 drop well, PZero – 10 plate case
HR8-158 Corning 3557 1 µl conical flat dro p well, 5 drop well, PZero – 40 plate case

Hampton 蛋白结晶向导管Wizard Tube

Wizard Tube 
The Wizard™ Classic line of random sparse matrix screens is designed to increase your probability of producing crystals during the coarse screening phase when crystallizing biological macromolecules (proteins, nucleic acids, peptides, and combinations thereof).
The Wizard Classic reagents are proven to be a highly effective starting point in the screening of biological macromolecules. The Wizard Classic formulations include a large range of crystallants, buffers, and salts covering a broad range of crystallization space at pH levels from pH 4.5 to pH 10.5.Choose from Wizard Classic 1, 2, 3, or 4 non-overlapping formulations in matrix blocks or tubes.

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Wizard Cubic LCP
The tools in the Wizard Cubic LCP (lipidic cubic phase) Kit enable researchers to prepare LCP-type crystallizations by hand. Ideal for low-protein experiments: effective protein volume for a single crystallization experiment is about 80 nanoliters. Wizard Cubic LCP Kit tools work especially well when traditional methods have failed to yield crystals. Lipidic cubic phase has worked well for the crystallization of 7TM membrane proteins (proteins with seven transmembrane helices). Four out of six GPCRs (G-protein coupled receptors), an important membrane protein class, and several microbial 7TM proteins have been crystallized using the LCP approach.

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CRYO (I、II)
The Wizard Cryo™ line of random sparse matrix screens is designed for scientists who want to avoid the additional step of optimizing a cryoprotectant condition. Every Wizard Cryo formulation flash-freezes to a clear, amorphous glass in liquid nitrogen or in a cryo-stream at 100K. Crystals can be frozen directly from their growth drops, avoiding the additional step of pre-equilibration with an artificial cryo-condition that can damage the crystal. Eleven different cryocrystallants and sparing use of glycerol ensures a broad sampling of possible cryo conditions. Choose from Wizard Cryo 1 or 2 formulations in tubes or Wizard Cryo 1 and 2 together in a 96-well matrix block.

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Hampton Natrix • Natrix 2 • Natrix HT

Hampton Natrix • Natrix 2 • Natrix HT

Applications

  Primary biased sparse matrix crystallization screen for nucleic acids & protein/nucleic acid complexes  主要用于核酸和蛋白质/核酸复合物的删选

Features

Nucleic acid sparse matrix screen
Sparse matrix formulation efficiently samples salts, polyols, polymers, organics, additives & pH
pH range 5.6 – 8.5
Tube or Deep Well block format
 Description
Natrix, Natrix 2 and Natrix HT are based upon published reagent formulations for the crystallization of nucleic acids and protein-nucleic acid complexes. A variety of hammerhead ribozymes and other ribozymes, RNAs, DNAs, RNA-drug complexes, and RNA-protein complexes have been crystallized using the Natrix protocols.By using sparse matrix sampling technology, The Natrix kits allow one to quickly test wide ranges of pH, salts, and precipitants using a very small sample of nucleic acid.

Natrix screens are unique in that rather than relying solely on the traditional nucleic acid precipitant MPD, Natrix screens also utilize Polyethylene glycols (PEGs) in a variety of molecular weights (200, 400, 4,000, 8,000) as well as 2-Propanol, Polyethylene glycol monomethyl ether (PEG MME), and 1,6-Hexanediol. Many of the polymeric and low molecular weight organic precipitants are combined with various monovalent salts as precipitating agents. This combination of salts and low molecular weight organics and polyalcohols, as well as the utilization of varying chain length PEGs, has proven to be a successful combination for producing nucleic acid and protein-nucleic acid complex crystals.

Natrix contains 48 unique reagents, 10 ml each and is based on the sparse matrix formulation first described by William Scott in 1995.

Natrix 2, an extension of Natrix, contains 48 unique reagents, 10 ml each. Natrix 2 is a biased sparse matrix screen based on extracting patterns from crystallization data as well as reagent formulations first described by Berger et al in 1996.

Natrix HT contains 1 ml of each reagent from Natrix and Natrix 2 in a single Deep Well block format.

Ready-to-use reagents are sterile filtered and formulated with ultra-pure Type 1 water, using the highest purity salts, polymers, organics and buffers. Individual reagents are available through the Hampton Research Custom Shop.

Natrix • Natrix 2 • Natrix HT
Natrix • Natrix 2 • Natrix HT
View Full Size
Natrix • Natrix 2 • Natrix HT

 

CAT NO NAME DESCRIPTION
HR2-116 Natrix 10 ml, tube format
HR2-117 Natrix 2 10 ml, tube format
HR2-131 Natrix HT 1 ml, Deep Well block format