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Rigaku Corporation X-Ray Diffraction Protein Crystal Screening System ScreenMachine

Description
As synchrotron beamlines have become more prevalent for research in structural biology, many home lab X-ray systems are used mainly for screening crystals in advance of synchrotron data collection. To meet the needs of this type of work flow, Rigaku has developed the ScreenMachine, a self contained unit that is optimized for safe crystal mounting and recovery, optimized for evaluating small crystals, designed for minimal maintenance, and, best of all, collects amazingly high quality data. Built around the time tested design of an inverted φ-axis, the ScreenMachine offers the best possible geometry for safe crystal mounting and recovery. Utilizing the most popular processing software in use today, researchers can quickly and efficiently evaluate the diffraction quality of a mounted sample. Having a ScreenMachine in a structural biology lab ensures that students and other researchers will have the opportunity to learn proper crystal mounting and handling techniques with the instant feedback that can only come from having an in-house X-ray source. Learning to effectively use crystallographic software is as important as learning to properly mount and handle crystals and collect proper data. As with all Rigaku’s protein crystallography systems, the HKL3000-R software suite provides instrument control, data processing, and structure solution capabilities.

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X-Ray Diffraction Protein Crystal Screening System - ScreenMachine - Rigaku Corporation
The Woodlands, TX, USA
X-Ray Diffraction Protein Crystal Screening System
ScreenMachine
X-Ray Diffraction Protein Crystal Screening System ScreenMachine
As synchrotron beamlines have become more prevalent for research in structural biology, many home lab X-ray systems are used mainly for screening crystals in advance of synchrotron data collection. To meet the needs of this type of work flow, Rigaku has developed the ScreenMachine, a self contained unit that is optimized for safe crystal mounting and recovery, optimized for evaluating small crystals, designed for minimal maintenance, and, best of all, collects amazingly high quality data. Built around the time tested design of an inverted φ-axis, the ScreenMachine offers the best possible geometry for safe crystal mounting and recovery. Utilizing the most popular processing software in use today, researchers can quickly and efficiently evaluate the diffraction quality of a mounted sample. Having a ScreenMachine in a structural biology lab ensures that students and other researchers will have the opportunity to learn proper crystal mounting and handling techniques with the instant feedback that can only come from having an in-house X-ray source. Learning to effectively use crystallographic software is as important as learning to properly mount and handle crystals and collect proper data. As with all Rigaku’s protein crystallography systems, the HKL3000-R software suite provides instrument control, data processing, and structure solution capabilities.

As synchrotron beamlines have become more prevalent for research in structural biology, many home lab X-ray systems are used mainly for screening crystals in advance of synchrotron data collection. To meet the needs of this type of work flow, Rigaku has developed the ScreenMachine, a self contained unit that is optimized for safe crystal mounting and recovery, optimized for evaluating small crystals, designed for minimal maintenance, and, best of all, collects amazingly high quality data.

Built around the time tested design of an inverted φ-axis, the ScreenMachine offers the best possible geometry for safe crystal mounting and recovery. Utilizing the most popular processing software in use today, researchers can quickly and efficiently evaluate the diffraction quality of a mounted sample.

Having a ScreenMachine in a structural biology lab ensures that students and other researchers will have the opportunity to learn proper crystal mounting and handling techniques with the instant feedback that can only come from having an in-house X-ray source. Learning to effectively use crystallographic software is as important as learning to properly mount and handle crystals and collect proper data. As with all Rigaku’s protein crystallography systems, the HKL3000-R software suite provides instrument control, data processing, and structure solution capabilities.

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Technical Specifications

  Rigaku Corporation
Product Category Diffractometers
Product Number ScreenMachine
Product Name X-Ray Diffraction Protein Crystal Screening System
Features Benchtop
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