Hampton 蛋白结晶优化试剂 Optimization Screens

Hampton 蛋白结晶优化试剂 Optimization Screens

1、Solubility & Stability Screen  蛋白特异性试剂优化溶解性和稳定性

Protein specific agents for optimization of solubility & stability  

2、Solubility & Stability Screen 2   离子缓冲液

Buffer, pH & ionic strength screen for optimization of solubility & stability

3、Slice pH    PH缓冲液

pH & buffer screen for optimization of crystals or sample solubility & stability

4、Additive Screen  96孔板添加剂试剂盒

96 compound screen for optimization of crystal size & quality

5、Silver Bullets • Silver Bullets Bio

Small molecule additive screen for optimization of crystal size & quality

6、Detergent Screen

Detergent screen for optimization of crystals or sample solubility & stability

7、Ionic Liquid Screen

Ionic liquid additive screen for optimization of crystal size & quality

8、StockOptions Buffer Kits

Titrated buffer sets for optimization of crystals or sample solubility & stability

9、StockOptions Polymer

n of crystal size & quality

10、StockOptions Salt

Salt reagent kit for optimization of crystal size & qualit

11、Polymer reagent kit for optimizatioy


In situ proteolysis kit protein for crystallization screening & optimization

12、Reductive Alkylation

Reductive alkylation kit for crystallization screening & optimization

13、Silica Hydrogel Kit

pH neutral silica hydrogel matrix crystallization

14、Low Melting Agarose

Agarose gel matrix crystallization


Water soluble cryoprotectant reagent set

16、Heavy Atom Screens

Heavy atom kits for multiple isomorphous replacement

17、I3C Phasing Kit

Produce heavy atom derivative of biological macromolecules for phasing

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

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

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.

HR2-451 GRAS Screen 1 1 ml, Deep Well block format
Price Quantity
HR2-452 GRAS Screen 2 1 ml, Deep Well block format
Price Quantity

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


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

Sitting drop crystallization

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)
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.

HR3-179 MRC Maxi 48-Well Crystallization Plate 10 plate case
HR3-180 MRC Maxi 48-Well Crystallization Plate 40 plate case

Hampton蛋白结晶柱 CrystalCap™ SPINE HT

Hampton CrystalCap™ SPINE HT


Cryocrystallography   低温结晶学


SPINE style sample mount for cryocrystallography
CrystalCap SPINE HT attaches magnetically to CrystalCap Vial and Magnetic Goniometer Base     CrystalCap SPINE HT磁性地附着到CrystalCap小瓶和磁测角仪底座
Hollowed out design compatible with SPINE style grippers, auto mounters and sample handlers
2D alphanumeric coding for sample tracking & management
Bar coded, color coded, alphanumeric, magnetic cap
Color coded CryoLoop size
The CrystalCap SPINE HT is a magnetic sample mount (also known as a cap, pin or goniometer base) designed for cryocrystallography systems that accept SPINE style caps. The CrystalCap SPINE HT attaches to a magnetic CrystalCap SPINE Vial and magnetic goniometer base. The tip of the CrystalCap SPINE HT accepts a Mounted CryoLoop™ or MicroTube™ fitted with a CryoLoop™.The CrystalCap SPINE Vial is a 1.8 ml cryo vial featuring two small vents and is compatible with the CrystalCap SPINE HT. A ring magnet is molded into the open end of the vial so that when the cap is positioned in the vial, the ring magnet holds the cap on the vial during cryogenic storage. The CrystalCap SPINE Vial features chamfered edges for enhanced cap positioning as well as a magnetic alloy bottom for stability. The HR8-114 CrystalCap SPINE Vial does have a magnet on the bottom of the vial.The hollowed out design of the CrystalCap SPINE HT is compatible with SPINE style grippers, auto mounters and sample handlers.The CrystalCap SPINE HT features a two dimensional (2D) alphanumeric 16 x 16 data matrix code on the underside of the cap. Each cap is also color coded for CryoLoop size.

CrystalCap SPINE without 2D code/printing (HR8-094) is the CrystalCap SPINE HT cap only, without 2D code, without color code, without white white background on bottom of cap and no alphanumeric side labeling; cap only, without Mounted CryoLoop.

Note: Caps with Mounted CryoLoops are sold without vials. Vials available separately.

Color Coded Cap…………CryoLoop Size
Red…………………………….0.025-0.05 mm
Green…………………………….0.05-0.1 mm
Yellow……………………………..0.1-0.2 mm
Blue………………………………..0.2-0.3 mm
Blue/Red………………………….0.3-0.4 mm
Green/Red………………………..0.4-0.5 mm
Yellow/Red………………………..0.5-0.7 mm
Yellow/Green……………………..0.7-1.0 mm

Compatible with the following Synchrotron Radiation Beamlines

North & South America
• The Advanced Light Source, Berkeley, California ALS 4.2.2, ALS 11.3.1, ALS 12.2.2, ALS 12.3.2
• The Advanced Photon Source, Argonne, Illinois APS 14-BM-C BioCARS, APS 14-ID-B BioCARS, APS 21-ID-D LS-CAT, APS 21-ID-E LS-CAT, APS 21-ID-F LS-CAT, APS 21-ID-G LS-CAT, APS 23-ID-B GA/CA, APS 23-ID-D GA/CA, APS 24-ID-E NE-CAT, APS 31-ID LR-CAT
• Center for Advanced Microstructures and Devices, Baton Rouge, Louisiana CAMD GCPCC
• Cornell High Energy, Synchrotron Source, Ithaca, New York CHESS A1, CHESS F1
• The Brazilian Synchrotron Light Laboratory, Sao Paulo, Brazil LNLS D03B-MX1, LNLS W01B-MX2
• National Synchrotron Light Source, Upton, New York NSLS X3B, NSLS X4A, NSLS X4C, NSLS X6A, NSLS X12B, NSLS X12C, NSLS X25, NSLS X26C, NSLS X29

• Cerdanyola del Vallés, Spain ALBA XALOC
• Berlin Electron Storage Ring Company for Synchrotron Radiation, Berlin, Germany BESSY 14.1, BESSY 14.2, BESSY 14.3
• Diamond Light Source, Didcot, Oxfordshire, England DIAMOND I02, DIAMOND I03, DIAMOND I04, DIAMOND I04.1, DIAMOND I24
• Elettra Sincrotrone Trieste, Trieste, Italy ELETTRA 5.2R
• European Molecular Biology Laboratory, Hamburg, Germany EMBL/DESY P13, EMBL/DESY P14
• European Synchrotron Radiation Facility, Grenoble, France ESRF BM14, ESRF BM30A, ID30A-1/MASSIF-1,
• Max-Lab, Lund University, Sweden MAX II I911-2, MAX II I911-3
• Swiss Light Source at Paul Scherer Institut, Switzerland SLS X06DA-PXIII, SLS X06SA-PXI, SLS X10SA-PXII

Asia & Australia
• Shanghai Synchrotron Radiation Facility, Shanghai, China SSRF BL17U1
• Beijing Synchrotron Radiation Facility, Beijing, China BSRF 1W2B, BSRF 3W1A
• Super Photon ring-8 GeV, Japan SPRING-8 BL12B2, SPRING-8 BL24XU, SPRING-8 BL26B1, SPRING-8 BL26B2, SPRING-8 BL32B2, SPRING-8 BL32XU, SPRING-8 BL38B1, SPRING-8 BL41XU, SPRING-8 BL44B2, SPRING-8 BL44XU

CrystalCap™ SPINE HT

CrystalCap SPINE HT

CrystalCap™ SPINE HT

CrystalCap SPINE HT

CrystalCap™ SPINE HT

CrystalCap SPINE HT

HR8-118 CrystalCap SPINE HT 0.025-0.05 mm CryoLoop, without Vial – 30 pack
HR8-120 CrystalCap SPINE HT 0.05-0.1 mm CryoLoop, without Vial – 30 pack
HR8-122 CrystalCap SPINE HT 0.1-0.2 mm CryoLoop, without Vial – 30 pack
HR8-124 CrystalCap SPINE HT 0.2-0.3 mm CryoLoop, without Vial – 30 pack
HR8-126 CrystalCap SPINE HT 0.3-0.4 mm CryoLoop, without Vial – 30 pack
HR8-128 CrystalCap SPINE HT 0.4-0.5 mm CryoLoop, without Vial – 30 pack
HR8-130 CrystalCap SPINE HT 0.5-0.7mm CryoLoop, without Vial – 30 pack
HR8-132 CrystalCap SPINE HT 0.7-1.0 mm CryoLoop, without Vial – 30 pack
HR8-112 CrystalCap SPINE HT Cap only – 30 pack
HR8-116 CrystalCap SPINE HT Cap/Vial Cap/Vial only – 30 pack
HR8-094 CrystalCap SPINE without 2D code/printing Cap only – 30 pack
HR8-114 CrystalCap SPINE Vial Vial only – 30 pack

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

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


Plain Glass Cover Slides
ApplicationsHanging, sitting or sandwich drop crystallization
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)


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

HR3-251  PEN-VAC Kit

Hampton AlumaSeal™ II Sealing Film and Applicator

Hampton AlumaSeal™ II Sealing Film and Applicator


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


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
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

HR8-069 AlumaSeal II Sealing Film 100 pack
HR4-413 Film Sealing Paddle 5 pack



产品编号 中文品名 英文品名
HR4-126 11 刀片替换装 Replacement #11 Blade
HR4-904 CrystalCap Magnetic Vial CrystalCap™, Vial only
HR4-729 CrystalWand Magnetic, Straight CrystalWand™ Magnetic, Straigh
HR4-837 Micro-Tools II Set Micro-Tools II™ Set
HR4-811 Micro-Tools Set Micro-Tools™ Set
HR3-172 VDX 24孔板,带密封剂 VDX™ Plate, with sealant
HR4-902 带磁力底座 CrystalCap™, without Vial
HR4-733 带磁力底座 CrystalCap™, with Vial
HR4-745 带铜管磁力底座 CrystalCap™ Copper 18 mm, with
HR4-708 冻存套 CryoSleeve™
HR3-217 硅化方形盖玻片22mmx0.22mm 22 mm x 0.22 mm Siliconized Sq
HR4-671 夹钳-弯 Vial Clamp™ – Curved, 45°/135°
HR4-670 夹钳-直 Vial Clamp™ – Straight
HR4-316 Super Glue
HR4-506 胶带 3 inch wide x 55 yard Crystal
HR3-083 结晶板 2孔 MRC 2 Well Crystallization Pla
HR3-125 结晶板 3孔 3 Well Crystallization Plate (
HR4-217 晶体探针 Crystal Probe
HR4-662 泡沫保温瓶 Spearlab Cryogenic Foam Dewar
HR4-673 泡沫保温瓶 Spearlab Cryogenic Foam Dewar
HR4-674 泡沫保温瓶 Spearlab Cryogenic Foam Dewar
HR4-675 泡沫保温瓶 Spearlab Cryogenic Foam Dewar
HR1-008 液氮罐 CX100 (含运输箱) CX100 Cryo-Express Dry Shipper
HR2-912-37   Crystal Screen 2™ #37
HR2-501   50% v/v Jeffamine® M-600® pH 7
HR2-509   1.0 M BICINE
HR2-517   100% Polyethylene glycol 300
HR2-523   50% w/v Polyethylene glycol 1,
HR2-525   50% w/v Polyethylene glycol 1,
HR2-529   50% w/v Polyethylene glycol 4,
HR2-533   50% w/v Polyethylene glycol 6,
HR2-537   1.0 M Magnesium formate dihydr
HR2-541   3.5 M Ammonium sulfate
HR2-545   2.0 M Lithium sulfate monohydr
HR2-547   7.0 M Sodium formate
HR2-549   1.6 M Sodium citrate tribasic
HR2-551   4.0 M Sodium phosphate monobas
HR2-557   2.0 M Calcium chloride dihydra
HR2-563   1.0 M Zinc acetate dihydrate
HR2-102   StockOptions™ Hepes
HR2-103   StockOptions™ Bis-Tris Propane
HR2-104   StockOptions™ Citric Acid
HR2-106   StockOptions™ Bis-Tris
HR2-107   SaltRx™ 1
HR2-109   SaltRx™ 2
HR2-110   Crystal Screen™
HR2-112   Crystal Screen 2™
HR2-114   MembFac™
HR2-116   Natrix™
HR2-117   Natrix™ 2
HR2-118   Nucleic Acid Mini Screen™
HR2-126   PEG/Ion Screen™
HR2-235   StockOptions™ Sodium Citrate
HR2-237   StockOptions™ Tris Hydrochlori
HR2-239   StockOptions™ Sodium Cacodylat
HR2-241   StockOptions™ pH
HR2-245   StockOptions™ Salt
HR2-249   StockOptions™ Succinic Acid
HR2-320   Seed Bead™
HR2-406   Detergent Screen HT™
HR2-428   Additive Screen™
HR2-434   Reductive Alylation Kit
HR2-442   Heavy Atom Screen™ Pt
HR2-444   Heavy Atom Screen™ Au
HR2-446   Heavy Atom Screen™ Hg
HR2-448   Heavy Atom Screen M1™
HR2-450   Heavy Atom Screen M2™
HR2-082   PEGRx™ 1
HR2-084   PEGRx™ 2
HR2-096   Silver Bullets™
HR2-098   PEG/Ion 2 Screen™
HR4-315   CrystalWand™ Magnetic, 45° McM
HR4-350   Large Applicator (200 & 350 µl
HR4-625   Mounted CryoLoop™ – 20 micron,
HR4-637   CryoTong™ 18 mm (standard 110
HR4-709   CryoCane™ 5 Vial Holder
HR4-711   CryoCane™ 6 Vial Holder
HR2-211   Grid Screen™ Ammonium Sulfate
HR2-213   Grid Screen™ PEG 6000
HR2-227   StockOptions™ Polymer
HR2-233   StockOptions™ Sodium Acetate
HR4-931   CryoLoop™ – 20 micron, 0.2 – 0
HR4-945   Mounted CryoLoop™ – 20 micron,
HR4-947   Mounted CryoLoop™ – 20 micron,
HR4-953   Mounted CryoLoop™ Sampler – 20
HR4-955   Mounted CryoLoop™ – 20 micron,
HR4-957   Mounted CryoLoop™ – 20 micron,
HR4-959   Mounted CryoLoop™ – 20 micron,
HR4-961   Mounted CryoLoop™ – 20 micron,
HR4-963   Mounted CryoLoop™ – 20 micron,
HR4-970   Mounted CryoLoop™ – 20 micron,
HR4-971   Mounted CryoLoop™ – 20 micron,
HR4-989   CryoLoop™ – 10 micron, 0.3 – 0
HR2-128   Crystal Screen Lite™
HR2-138   Additive Screen HT™
HR2-140   PCT™ – Pre-Crystallization T
HR4-313   Mounted CryoLoop™ – 20 micron,
HR2-601   100% Polyethylene glycol 200
HR2-607   50% w/v Polyethylene glycol 10
HR2-609   30% w/v Polyethylene glycol 20
HR2-611   100% Polyethylene glycol monom
HR2-613   50% w/v Polyethylene glycol mo
HR2-615   50% w/v Polyethylene glycol mo
HR2-625   6.0 M 1,6-Hexanediol
HR2-637   5.0 M Sodium chloride
HR2-723   1.0 M BICINE pH 9.0
HR2-755   100% Tacsimate™ pH 7.0
HR2-761   3.0 M DL-Malic acid pH 7.0
HR2-801   TCEP hydrochloride
HR2-821   2.0 M Magnesium sulfate heptah
HR2-829   100% Tacsimate™ pH 8.0
HR2-857   4.0 M TMAO
HR2-859   100% Polyethylene glycol 600
HR2-910-08   Crystal Screen™ #08
HR2-144   Index™
HR4-993   Mounted CryoLoop™ Sampler – 10
HR4-995   Mounted CryoLoop™ – 10 micron,
HR4-999   Mounted CryoLoop™ – 10 micron,
HR6-146   1.0 mm Quartz Capillary
HR8-034   Cryo Puck Carrier
HR8-035   Porcupine Push Tool
HR8-036   Puck Wand
HR8-037   Cryo Puck Base Removal Platfor
HR8-038   Angled Cryo Puck Tong
HR8-039   Cryo Puck Dewar Loading Tool
HR8-114   CrystalCap HT™, Vial only
HR8-133   Seeding Tool
HR8-173   CrystalCap™ Copper HT, 0.025 -
HR8-174   CrystalCap™ Copper HT, 0.05 -
HR8-175   CrystalCap™ Copper HT, 0.1 – 0
HR8-176   CrystalCap™ Copper HT, 0.2 – 0
HR2-575   1.0 M Sodium cacodylate trihyd
HR2-581   1.0 M Hydrochloric acid

Hampton Optimize Reagents

Hampton Optimize Reagents

1、Optimize – Polymers

Crystallization grade polymers for formulating screens or optimization

2、Optimize – Organics (Volatile)

Crystallization grade organics (volatile) for formulating screens or optimization

3、Optimize – Organics (Non-Volatile)

Crystallization grade organics (non-volatile) for formulating screens or optimization

4、Optimize – Salts

Crystallization grade salts for formulating screens or optimization

5、Optimize – Buffers

Crystallization grade buffers for formulating screens or optimization

6、Optimize – Solubilizing Agents (NDSB)

Crystallization grade non detergent sulfobetaines

7、Optimize – Reducing Agent

TCEP Hydrochloride

8、Optimize – Monoolein

LCP – Lipidic Cubic Phase

9、Optimize – Cryoprotectants

For cryoprotection of crystals

10、Optimize – Oils for Crystallization

Microbatch crystallization & oil layering

11、Optimize – Izit Crystal Dye

Izit™ color dye to differentiate protein crystals from salt crystals

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.


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.


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.