标签归档:Hampton 蛋白质结晶
Hampton蛋白结晶工具及仪器
Hampton蛋白结晶工具及仪器
CryoTong™ – Long
ApplicationsCrystal transfer under cryo temperature
FeaturesArtery clamp style closure30 seconds of cryo temperature180 mm length
Description
The CryoTong is a tool used to manually transfer a crystal mounted on a CrystalCap™ from liquid nitrogen to a magnetic base in a goniometer head positioned in a cryogenic stream, and then back to liquid nitrogen. The one-piece, compact CryoTong is available in two lengths. The long CryoTong is approximately 180 mm in overall length. The artery clamp style maintains the CryoTong in the closed position until the clamp is squeezed, which opens the opposing heads. The heads are non-magnetic stainless steel. The handle is magnetic stainless steel. The inside of the head is machined to closely surround the CrystalCap with loop and crystal in place. A small retaining lip is machined into the lower portion of the head to prevent the CrystalCap from slipping out of the CryoTong when the tool is in the closed position. The CryoTong can maintain the temperature of the crystal at -160°C for up to 30 seconds during room temperature crystal transfers. Choose the proper CryoTong size based upon the pin length required by the configuration of the x-ray data collection hardware used. The 18 mm CryoTong (HR5-112) is to be used with the CrystalCap HT and any other CrystalCap configured for 18 mm.HR5-114 Long CryoTong 18 mm, 180° features the head in alignment with the handle of the CryoTong.
Vial Clamp™ – Straight
ApplicationsVial support and manipulation
FeaturesStraight end tipHemostat style closureDescription
The Vial Clamp™ – Straight is a chrome plated, hemostat style tool. It has a tip shaped to hold the storage vial of all the CrystalCap Systems™ straight when the clamp is closed. The clamp can be locked using the hemostat style closure. This clamp makes it easy to dip the storage vial into liquid nitrogen for crystal storage. The complete length of the clamp is straight, with an overall length of 195 mm. When the vial is placed in the clamp, the length of it is positioned perpendicular, 90° to the length of the clamp.
ApplicationsVial support and manipulation
FeaturesStraight end tipHemostat style closureDescription
The Vial Clamp™ – Straight is a chrome plated, hemostat style tool. It has a tip shaped to hold the storage vial of all the CrystalCap Systems™ straight when the clamp is closed. The clamp can be locked using the hemostat style closure. This clamp makes it easy to dip the storage vial into liquid nitrogen for crystal storage. The complete length of the clamp is straight, with an overall length of 195 mm. When the vial is placed in the clamp, the length of it is positioned perpendicular, 90° to the length of the clamp.
CrystalWand™ Magnetic
ApplicationsCrystalCap Magnetic & CrystalCap Copper Magnetic handling toolDescription
The CrystalWand Magnetic is designed to be used exclusively with the CrystalCap Magnetic, CrystalCap Copper Magnetic, and CrystalCap HT systems during transfer of the caps from the vial to the goniometer head and from the goniometer to the vial. The 6 1/2” (165 mm) long chrome plated steel wand features a plastic housing enclosing a spring tensioned plunger that when depressed, moves a non-magnetic steel platform away from the magnet housed in the end of the wand. This causes the steel CrystalCap to detach from the wand and be placed readily into the vial or the CryoTong™. When the platform is retracted, the wand securely holds the steel CrystalCap Magnetic. The CrystalWand Magnetic 45° (McMiken Tool) offers the same functionality but is bent at a 45° angle at approximately 2.5 cm from the magnet end.HR4-729 CrystalWand Magnetic, StraightHR4-315 CrystalWand Magnetic, 45° (McMiken Tool)
ApplicationsCrystalCap Magnetic & CrystalCap Copper Magnetic handling toolDescription
The CrystalWand Magnetic is designed to be used exclusively with the CrystalCap Magnetic, CrystalCap Copper Magnetic, and CrystalCap HT systems during transfer of the caps from the vial to the goniometer head and from the goniometer to the vial. The 6 1/2” (165 mm) long chrome plated steel wand features a plastic housing enclosing a spring tensioned plunger that when depressed, moves a non-magnetic steel platform away from the magnet housed in the end of the wand. This causes the steel CrystalCap to detach from the wand and be placed readily into the vial or the CryoTong™. When the platform is retracted, the wand securely holds the steel CrystalCap Magnetic. The CrystalWand Magnetic 45° (McMiken Tool) offers the same functionality but is bent at a 45° angle at approximately 2.5 cm from the magnet end.HR4-729 CrystalWand Magnetic, StraightHR4-315 CrystalWand Magnetic, 45° (McMiken Tool)
Vial Clamp™ – Curved
ApplicationsVial support & manipulation
FeaturesCurved end tipHemostat style closureDescription
The Vial Clamp – Curved is a chrome plated, hemostat style tool. It has a tip shaped to hold the storage vial of all the CrystalCap Systems at an angle when the clamp is closed. The clamp can be locked using the hemostat style closure. The end of the clamp, where the vial is held, is curved at either a 45°/135° or 110°/ 70° angle. When the vial is placed in the clamp, the length of it is positioned to the clamp at either of those same angles. The overall length of each clamp is the same, 195 mm.HR4-671 Vial Clamp – Curved 45°/135°HR4-672 Vial Clamp – Curved 110°/70°
ApplicationsVial support & manipulation
FeaturesCurved end tipHemostat style closureDescription
The Vial Clamp – Curved is a chrome plated, hemostat style tool. It has a tip shaped to hold the storage vial of all the CrystalCap Systems at an angle when the clamp is closed. The clamp can be locked using the hemostat style closure. The end of the clamp, where the vial is held, is curved at either a 45°/135° or 110°/ 70° angle. When the vial is placed in the clamp, the length of it is positioned to the clamp at either of those same angles. The overall length of each clamp is the same, 195 mm.HR4-671 Vial Clamp – Curved 45°/135°HR4-672 Vial Clamp – Curved 110°/70°
CrystalCap™ Holder
pplicationsCrystalCap support inside stainless steel dewars
FeaturesAdjustable heightSupports up to 8 CrystalCaps15 ml vial position for liquid propane500 and 1,000 ml versionsDescription
CrystalCap Holders are convenient stands for holding all CrystalCap™ systems in liquid nitrogen dewars during crystal cryogenic procedures. Available in two sizes. Both holders feature spring-clips to secure the CrystalCap Vials in the holder. Both stands have 3 inches of adjustable Z (height) which allows one to raise or lower the CrystalCaps to the appropriate height, depending upon the liquid nitrogen level in the dewar. Each holder is supplied with a socket driver for height adjustment.500 ml version holds five CrystalCaps, two 15 ml vials (for liquid propane procedures) and fits into the 500 ml dewar. 1,000 ml version holds eight CrystalCaps, two 15 ml vials (for liquid propane procedures) and fits into the 1,000 ml dewar.HR4-707 CrystalCap Holder – 500 ml
HR4-706 Replacement Height Adjustment Tool
pplicationsCrystalCap support inside stainless steel dewars
FeaturesAdjustable heightSupports up to 8 CrystalCaps15 ml vial position for liquid propane500 and 1,000 ml versionsDescription
CrystalCap Holders are convenient stands for holding all CrystalCap™ systems in liquid nitrogen dewars during crystal cryogenic procedures. Available in two sizes. Both holders feature spring-clips to secure the CrystalCap Vials in the holder. Both stands have 3 inches of adjustable Z (height) which allows one to raise or lower the CrystalCaps to the appropriate height, depending upon the liquid nitrogen level in the dewar. Each holder is supplied with a socket driver for height adjustment.500 ml version holds five CrystalCaps, two 15 ml vials (for liquid propane procedures) and fits into the 500 ml dewar. 1,000 ml version holds eight CrystalCaps, two 15 ml vials (for liquid propane procedures) and fits into the 1,000 ml dewar.HR4-707 CrystalCap Holder – 500 ml
HR4-706 Replacement Height Adjustment Tool
Hampton蛋白结晶小瓶和结晶柱底座CrystalCap™
Hampton蛋白结晶小瓶和结晶柱底座CrystalCap™
Applications
 |
Cryocrystallography 低温结晶学 |
Features
|
SSRL style sample mount for cryocrystallography | |
|
CrystalCap attaches magnetically to CrystalCap Vial and Magnetic Goniometer Base | |
|
Conical shape with ledge compatible with SSRL style grippers, auto mounters and sample handlers |
Description
The CrystalCap is a magnetic sample mount (also known as a cap, pin or goniometer base) designed for cryocrystallography systems that accept SSRL style sample mounts. The CrystalCap attaches to a magnetic CrystalCap Vial and Magnetic Goniometer Base. The tip of the CrystalCap accepts a Mounted CryoLoop™ or MicroTube™ fitted with a CryoLoop™.
The CrystalCap Vial is a 1.8 ml cryo vial featuring two small vents. 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 HR4-904 CrystalCap Vial does not have a magnet on the bottom of the vial.
The conical shape with ledge is compatible with SSRL style grippers, auto mounters and sample handlers.
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
• Cornell High Energy, Synchrotron Source, Ithaca, New York CHESS A1, CHESS F1
• Canadian Light Source, Saskatchewan, Canada, CLS 08ID-1, CLS 08B1-1
• National Synchrotron Light Source, Upton, New York NSLS X4C
• Stanford Synchrotron Radiation Laboratory, Menlo Park, California SSRL BL7-1, SSRL BL9-1, SSRL BL9-2, SSRL BL11-1, SSRL BL12-2, SSRL BL14-1
Asia & Australia
• Shanghai Synchrotron Radiation Facility, Shanghai, China SSRF BL17U1
• National Synchrotron Radiation Research Center, Taiwan NSRRC BL13B1, NSRRC BL13C1
• Pohang Accelerator Laboratory, Pohang, South Korea PAL 2D, PAL 5C, PAL 7A
• Photon Factory, Tsukuba, Japan PF BL-5A, PF BL-17A, PF AR-NW12A
• 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
CrystalCap & Vial
CrystalCap
Hampton蛋白结晶小瓶和结晶柱底座 CrystalCap™
| CAT NO | NAME | DESCRIPTION |
| HR4-733 | CrystalCap | with Vial – 60 pack |
| HR4-902 | CrystalCap | without Vial – 60 pack |
| HR4-904 | CrystalCap Vial | Vial only – 30 pack |
Hampton蛋白结晶柱 CrystalCap™ SPINE HT
Hampton CrystalCap™ SPINE HT
Applications
|
Cryocrystallography 低温结晶学 |
Features
|
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 |
Description
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.
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
Europe
• 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,
ID30A-3/MASSIF-3, ESRF ID23-1, ESRF ID23-2, ESRF ID29
• 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
• SOLEIL, Saint-Aubin, France SOLEIL PROXIMA1, SOLEIL PROXIMA2
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
| CAT NO | NAME | DESCRIPTION |
| 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晶体删选试剂盒
Hampton晶体删选试剂
1.Screens 晶体删选试剂盒
| 产品名称 | 货号 | 用途备注 |
| Index Kit | HR2-144 | 用于生物大分子结晶 |
| CrystalScreen Kit | HR2-110 | 用于蛋白质,核酸水溶性小分子结晶 |
| Crystal Screen 2 Kit | HR2-112 | |
| Pegrx 1 | HR2-082 | 用于生物大分子结晶 |
| Pegrx 2 | HR2-084 | 用于生物大分子结晶 |
| Peg/Ion Screen Kit | HR2-126 | 用于生物大分子结晶 |
| Peg/Ion 2 Screen™ | HR2-098 | 用于生物大分子结晶 |
| Saltrx Kit | HR2-108 | 用于生物大分子结晶 |
| Membfac Kit | HR2-114 | 用于膜蛋白和溶解度有限的样品结晶 |
| Crystal Screen Lite | HR2-128 | 用于蛋白质,缩氨酸,核酸的结晶 |
| Natrix Kit | HR2-116 | 用于核酸和蛋白核酸复合物的结晶 |
| Crystal Screen Cyro Kit | HR2-122 | 用于蛋白质,可溶性缩氨酸,核酸和水溶性小分子的初次低温结晶 |
| Nucleic Acid Mini Screen Kit | HR2-118 | 用于核酸片段的结晶 |
| Low Ionic Strength Screen | HR2-120 | 用于完整单抗,单抗片段以及在低离子浓度下溶解度较低的样品结晶 |
| Silver Bullet & Silver Bullet Bio | HR2-078 | 用于生物大分子的初次和二次结晶 |
| HR2-080 | ||
| Peg/Tacsimate Ph5.8 Crystallization Reagent | HR2-090 | |
| Peg/Tacsimate Ph 6.8 Crystallization Reagent | HR2-092 | |
| Peg/Tacsimate Ph 7.8 Crystallization Reagent | HR2-094 | |
| Additive Screen™ | HR2-428 | 利用样品间和样品溶剂间相互作用来优化晶体生长和改变样品溶解度 |
| 产品名称 | 货号 | 用途备注 |
| Detergent Screen 1 | HR2-410 | 改善疏水作用引起的非特异性聚集 |
| Detergent Screen 2 | HR2-411 | |
| Detergent Screen 3 | HR2-412 | |
| Detergent Screen | HR2-408 | |
| Heavy Atom Screen Pt | HR2-442 | Heavy Atoms For Multiple Isomorphous Replacement |
| Heavy Atom Screen Au | HR2-444 | |
| Heavy Atom Screen Hg | HR2-446 | |
| Heavy Atom Screen M1 | HR2-448 | |
| Heavy Atom Screen M2 | HR2-450 | |
| I3c Phasing Kit | HR3-133 |
2.Custom Shop Crystallization Reagents 结晶试剂盒中单独的试剂
- Optimize™ Reagents晶体生长条件优化试剂
⑴ Optimize™ – Polymers聚合体
⑵ Optimize™- Organics (Volatile) 挥发性有机物
⑶ Optimize™- Organics (Non-Volatile)非挥发性的有机物
⑷ Optimize™- Salts 盐类
⑸ Optimize™- Buffers缓冲液
⑹ Optimize™- Solubilizing Agents (NDSB) 溶解试剂NDSB
⑺ Optimize™ – Reducing Agent还原剂-TCEP氢氯化物
⑻ Optimize™ – Cryoprotectants
⑼ Optimize™ – Oils用于结晶的油类
⑽ Optimize™ – Silica Hydrogel硅胶
⑾ Optimize™ – LM Agarose低熔点琼脂糖
5.Crystallization Plates, Hardware & Accessories结晶耗材
⑴ 24 Well Crystallization Plates 24孔晶体板-分悬滴和坐滴两种
⑵ 48 Well Crystallization Plates 48孔晶体板
⑶ 72 Well Crystallization Plates72孔晶体板
⑷ 96 Well Crystallization Plates 96孔晶体板等
Hampton 0.1毫米50号玻璃毛细管
Hampton 0.1毫米50号玻璃毛细管
货号:HR6-104
包装:25 pack
- 英文名:0.1 mm Glass Number 50 Capillary
- 品牌:Hampton
Hampton代理–金畔生物
硼硅玻璃50号毛细管壁厚0.01毫米,全长80毫米+ / – 5毫米。提供外径从0.1毫米到2毫米的毛细管,用于X射线数据收集,晶体密度测量和晶体生长实验。毛细管可以用蜡,环氧树脂等密封材料封闭,防止水分和气体。
应用
X射线数据采集
液-液扩散结晶
凝胶针状结晶
特征
50号硼硅玻璃
壁厚 10微米
描述
硼硅玻璃50号毛细管一端呈漏斗形,另一端封闭,壁厚0.01毫米,全长80毫米+/-5毫米,外径从0.1毫米到2毫米。可嵌入,盛放,储存小分子和生物大分子晶体用于X射线数据收集,晶体密度测量和晶体生长实验。毛细管可以用蜡,环氧树脂和其它密封材料密封,防止水分和气体。
请参照“线性吸收系数µcm-1表“,以决定适合的玻璃/石英玻璃毛细管。本表展示的是X射线数据收集时的辐射吸收量。
0.1mm至2.0mm毛细管开口端的基础尺寸为:3.0+/-0.15mm外径 x 0.13+/-0.10 mm壁厚,直径为在毛细管封闭端40毫米处的测量值。
|
货号 |
产品说明 |
公差 |
|
HR6-104 |
Size: 0.1 mm – 25 pack |
0.1 mm -0.075 / +0.075 mm |
|
HR6-106 |
Size: 0.2 mm – 25 pack |
0.2 mm -0.050 / +0.050 mm |
|
HR6-108 |
Size: 0.3 mm – 25 pack |
0.3 mm -0.050 / +0.100 mm |
|
HR6-110 |
Size: 0.4 mm – 25 pack |
0.4 mm -0.100 / +0.100 mm |
|
HR6-112 |
Size: 0.5 mm – 25 pack |
0.5 mm -0.100 / +0.100 mm |
|
HR6-114 |
Size: 0.6 mm – 25 pack |
0.6 mm -0.100 / +0.100 mm |
|
HR6-116 |
Size: 0.7 mm – 25 pack |
0.7 mm -0.150 / +0.150 mm |
|
HR6-118 |
Size: 0.8 mm – 25 pack |
0.8 mm -0.150 / +0.150 mm |
|
HR6-120 |
Size: 0.9 mm – 25 pack |
0.9 mm -0.150 / +0.150 mm |
|
HR6-122 |
Size: 1.0 mm – 25 pack |
1.0 mm -0.150 / +0.250 mm |
|
HR6-124 |
Size: 1.5 mm – 25 pack |
1.5 mm -0.250 / +0.250 mm |
|
HR6-126 |
Size: 2.0 mm – 25 pack |
2.0 mm -0.250 / +0.250 mm |
Hampton50号毛细管Glass Number 50 Capillaries
Hampton50号毛细管Glass Number 50 Capillaries
Glass Number 50 Capillaries
应用:
X-ray data collection
Liquid-liquid diffusion crystallization
Gel acupuncture crystallization
Features
Glass Number 50 (borosilicate)
Thin walled – 10 micron
上海金畔生物作为Hampton蛋白结晶产品的代理商,竭诚为您服务,欢迎新老客户咨询。
Description 描述
Glass Number 50 (borosilicate glass) capillaries that are extremely thin walled (approximately 10 micron wall thickness). The length of the capillary has a well defined diameter, with one end having a funnel shape and the other end closed. Glass capillaries have a wall thickness of 0.01 mm and an overall length of 80 mm +/- 5 mm. Glass capillaries are available in a wide range of outside diameters from 0.1 mm to 2.0 mm. They are designed to mount, hold, and store small molecule and biological macromolecular crystals for x-ray data collection. Capillaries can also be used for crystal density measurements and crystal growth experiments. The capillaries can be sealed tightly against moisture and gases using wax, epoxy, or other sealing materials.
In determining what glass or quartz capillary is right for you, please refer to the “Linear Absorption Coefficient µ cm-1” table. This table indicates the amount of radiation that is absorbed by the capillary during x-ray data collection.
For 0.1 mm to 2.0 mm capillaries the open end capillary tube base size is 3.0 +/- 0.15 mm OD x 0.13 +/- 0.10 mm Wall thickness.
The Diameter is measured 40 mm from the closed end. The tolerances are as follows
0.1 mm -0.075 / +0.075 mm
0.2 mm -0.050 / +0.050 mm
0.3 mm -0.050 / +0.100 mm
0.4 mm -0.100 / +0.100 mm
0.5 mm -0.100 / +0.100 mm
0.6 mm -0.100 / +0.100 mm
0.7 mm -0.150 / +0.150 mm
0.8 mm -0.150 / +0.150 mm
0.9 mm -0.150 / +0.150 mm
1.0 mm -0.150 / +0.250 mm
1.5 mm -0.250 / +0.250 mm
2.0 mm -0.250 / +0.250 mm
Capillaries have only been tested at atmospheric pressure (760 mmHg (torr), 29.92 inHg, 14.696 psi). Use at other pressures has not been tested.
Sigma代理 Abcam代理 CST代理 Santa Cruz代理 Biolegend代理 ebioscience代理 Invitrogen代理 millipore代理 BD流式抗体代理 GeneTe x抗体代理 Novus抗体代理 R&D代理 Biovison代理 Jackson代理 MBL抗体代理 ProSpec抗体代理 Bethyl抗体代理 Antibody Revolution抗体代理 Torrey Pines Biolabs代理 Amresco代理 MPbio代理 Laysan bio代理 NANOCS代理 Avanti代理 wako代理 lumiprobe代理(活性荧光染料) NEB酶代理 Roche酶代理 Toyobo酶代理 USP代理 EP代理 Dr代理 TRC代理 TCI代理 Reagecon代理 Megazyme代理 Hampton代理(蛋白结晶) whatman代理(滤膜滤纸) GE代理(蛋白纯化) Corning康宁代理 Axygen代理 Falcon代理 NISSUI日水代理 Himedia代理 OXOID代理 BD培养基代理 Ludger代理(糖蛋白分析产品) Eppendorf代理 Labnet代理 标准品代理 抗体代理 酶试剂代理 培养基代理 耗材代理 Elisa试剂盒代理 。
低温泡沫杜瓦瓶 Spearlab Cryogenic Foam Dewars
低温泡沫杜瓦瓶 Spearlab Cryogenic Foam Dewars
Spearlab Dewars
HR4-662 Cryogenic Foam Dewar (500 ml) – Small 500ml规格
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 膜蛋白结晶试剂 MembFac • Crystal Screen Lite • MembFac HT
Hampton MembFac • Crystal Screen Lite • MembFac HT
Applications
Primary sparse matrix crystallization screen for membrane proteins and samples with limited solubility 膜蛋白和样品溶解度有限样品
Features
Membrane protein sparse matrix screens
Sparse matrix formula efficiently samples salts, polymers, organics and pH
pH range 4.6 – 8.5
Formulated for use with detergents
Tube or Deep Well block format
Crystal Screen Lite features a lower ionic strength than the original Crystal Screen
Description
MembFac is a highly effective sparse matrix screen specifically designed as a preliminary screen for the crystallization of membrane proteins. MembFac is based upon the highly effective biased sparse matrix methodology. The MembFac screen matrix is optimized for the crystallization of membrane proteins.
MembFac contains 48 unique reagent formulations. With this set of 48 conditions, numerous chemicals and chemical combinations are utilized, allowing one to evaluate a large variety of potential crystallization conditions. MembFac covers a broad pH range between 4 and 9.
The Rationale
The basic rationale of MembFac is to perform a sparse matrix screen while changing the detergent dimension because detergents play an important factor in the crystallization of membrane proteins. A MembFac screen is to be completed for each detergent. Detergent screens are available separately.
The Method
The membrane protein of interest is first isolated in the detergent which gives the highest stability and activity. The protein concentration should be approximately 10 to 20 mg/ml and the detergent concentration should be only slightly above the CMC. The sample is then set against MembFac, using all 48 solutions plus the screening detergent(s) of choice. The screening detergent concentration should be approximately one to three times the CMC. Hence, for each detergent screened, one would utilize approximately 1 to 2 mg of sample.
The MembFac protocol was used to crystallize membrane proteins including SQR, fumerate: quinone oxireductase, LHII, and LHCII.
Crystal Screen Lite is a sparse matrix of trial crystallization reagent conditions based upon the Crystal Screen™.3 The primary screen variables are salt, pH, and precipitant (salts, polymers, volatile organics, and non-volatile organics).2Crystal Screen Lite differs from the original Crystal Screen kit in that the primary precipitant reagents are one-half the concentration of that used in the original Crystal Screen formulation. The secondary salts, ions, and buffers remain at the original Crystal Screen concentration. Reducing the primary concentration of the primary precipitant results in a screen which is “more gentle” on the sample and typically produces much less precipitate conditions than the original Crystal Screen.
MembFac contains 48 unique reagents, 10 ml each.
MembFac HT contains 1 ml each of all 48 reagents from MembFac and reagents 1-48 from Crystal Screen Lite 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.
| CAT NO | NAME | DESCRIPTION |
| HR2-114 | MembFac | 10 ml, tube format |
| HR2-128 | Crystal Screen Lite | 10 ml, tube format |
| HR2-137 | MembFac HT | 1 ml, Deep Well block format |
Hampton结晶用缓冲盐试剂盒– SaltRx
Hampton结晶用缓冲盐试剂盒– SaltRx
SaltRx 1 • SaltRx 2 • SaltRx HT
Applications
Primary or secondary, salt and pH matrix crystallization screen for biological macromolecules
Features
| Salt versus pH matrix crystallization screen |
| Samples pH 4 to 9 |
| 22 unique salts versus salt concentration and pH |
| Compatible with microbatch, vapor diffusion, liquid & gel diffusion methods |
| Tube or Deep Well block format |
| Preformulated, ready to screen |
| Developed at Hampton Research |
| All salts and buffers in screen readily available as Optimize™ reagents for reproducing and optimizing crystals |
| Individual reagents available through the Hampton Research Custom Shop |
Description
SaltRx was developed by Hampton Research as a primary and secondary, salt and pH based crystallization screen for biological macromolecules. Salt is the only primary crystallization reagent (precipitant) utilized. Based on a design of 96 conditions, the screen evaluates a broad portfolio of crystallization salts of varying concentration and pH. The selection, concentration, and pH of the salts were determined by data mining the BMCD1 and other crystallization databases, crystallization reports in the literature, and internal crystallization trials performed at Hampton Research. Based on this analysis, up to 35% of protein crystallizations involve salt as the primary crystallization reagent. SaltRx can be used as a primary crystallization screen when salt, ionic strength and pH are desired or suspected as appropriate crystallization variables. It is also useful as a secondary screen when salt only reagents/conditions from screens such as Index™, Crystal Screen™, and Grid Screen™ produce crystals and when further screening for additional salt conditions or optimization is desired. Since this screen does not contain volatile organics, it is compatible with microbatch, vapor diffusion, liquid and gel diffusion crystallization methods. SaltRx may also be used for dialysis crystallization in conjunction with Dialysis Buttons™.The original SaltRx kit (HR2-108) contained 96 unique reagents, 10 ml each. This kit has been discontinued and converted into two 48 reagent based kits, SaltRx 1 and SaltRx 2, available separately, which when used together are identical to the original SaltRx.SaltRx 1 contains 48 unique reagents, 10 ml each. SaltRx 1 contains reagents 1-48 of the original SaltRx 96 reagent kit.Salt Rx 2 contains 48 unique reagents, 10 ml each. SaltRx 2 contains reagent 49-96 of the original SaltRx 96 reagent kit.SaltRx HT contains the 96 SaltRx 1 and SaltRx 2 reagents 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.
SaltRx was developed by Hampton Research as a primary and secondary, salt and pH based crystallization screen for biological macromolecules. Salt is the only primary crystallization reagent (precipitant) utilized. Based on a design of 96 conditions, the screen evaluates a broad portfolio of crystallization salts of varying concentration and pH. The selection, concentration, and pH of the salts were determined by data mining the BMCD1 and other crystallization databases, crystallization reports in the literature, and internal crystallization trials performed at Hampton Research. Based on this analysis, up to 35% of protein crystallizations involve salt as the primary crystallization reagent. SaltRx can be used as a primary crystallization screen when salt, ionic strength and pH are desired or suspected as appropriate crystallization variables. It is also useful as a secondary screen when salt only reagents/conditions from screens such as Index™, Crystal Screen™, and Grid Screen™ produce crystals and when further screening for additional salt conditions or optimization is desired. Since this screen does not contain volatile organics, it is compatible with microbatch, vapor diffusion, liquid and gel diffusion crystallization methods. SaltRx may also be used for dialysis crystallization in conjunction with Dialysis Buttons™.The original SaltRx kit (HR2-108) contained 96 unique reagents, 10 ml each. This kit has been discontinued and converted into two 48 reagent based kits, SaltRx 1 and SaltRx 2, available separately, which when used together are identical to the original SaltRx.SaltRx 1 contains 48 unique reagents, 10 ml each. SaltRx 1 contains reagents 1-48 of the original SaltRx 96 reagent kit.Salt Rx 2 contains 48 unique reagents, 10 ml each. SaltRx 2 contains reagent 49-96 of the original SaltRx 96 reagent kit.SaltRx HT contains the 96 SaltRx 1 and SaltRx 2 reagents 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.
Measured pH range of kit is 4.1 to 9.0 at 25°C
Average measured pH of kit is 6.9 at 25°C
Median measured pH of kit is 7.3 at 25°C
Mode measured pH of kit is 7.4 at 25°C
| CAT NO | NAME | DESCRIPTION |
| HR2-136 | SaltRx HT | 1 ml, Deep Well block format |
| HR2-107 | SaltRx 1 | 10 ml, tube format |
| HR2-109 | SaltRx 2 | 10 ml, tube format |