EMD-7614
Rabbit muscle aldolase at 2.8 A resolution (17sep21j 1st 500 img, 62k particles)
EMD-7614
Single-particle2.8 Å
Deposition: 23/03/2018Map released: 23/01/2019
Last modified: 23/01/2019
Sample Organism:
Oryctolagus cuniculus
Sample: Rabbit muscle aldolase at 2.8 A resolution (17sep21j 1st 500 img, 62 k particles)
Raw data: EMPIAR-10182
Deposition Authors: Kim LK, Rice WJ, Eng ET, Kopylov M, Cheng A, Raczkowski AM, Jordan KD, Bobe D, Potter CS, Carragher B
Sample: Rabbit muscle aldolase at 2.8 A resolution (17sep21j 1st 500 img, 62 k particles)
Raw data: EMPIAR-10182
Deposition Authors: Kim LK, Rice WJ, Eng ET, Kopylov M, Cheng A, Raczkowski AM, Jordan KD, Bobe D, Potter CS, Carragher B
Benchmarking cryo-EM Single Particle Analysis Workflow.
Kim LY,
Rice WJ 
,
Eng ET ,
Kopylov M ,
Cheng A,
Raczkowski AM ,
Jordan KD,
Bobe D,
Potter CS,
Carragher B
(2018) Front Mol Biosci , 5 , 50 - 50
,
Eng ET ,
Kopylov M ,
Cheng A,
Raczkowski AM ,
Jordan KD,
Bobe D,
Potter CS,
Carragher B
(2018) Front Mol Biosci , 5 , 50 - 50
Abstract:
Cryo electron microscopy facilities running multiple instruments and serving users with varying skill levels need a robust and reliable method for benchmarking both the hardware and software components of their single particle analysis workflow. The workflow is complex, with many bottlenecks existing at the specimen preparation, data collection and image analysis steps; the samples and grid preparation can be of unpredictable quality, there are many different protocols for microscope and camera settings, and there is a myriad of software programs for analysis that can depend on dozens of settings chosen by the user. For this reason, we believe it is important to benchmark the entire workflow, using a standard sample and standard operating procedures, on a regular basis. This provides confidence that all aspects of the pipeline are capable of producing maps to high resolution. Here we describe benchmarking procedures using a test sample, rabbit muscle aldolase.
Cryo electron microscopy facilities running multiple instruments and serving users with varying skill levels need a robust and reliable method for benchmarking both the hardware and software components of their single particle analysis workflow. The workflow is complex, with many bottlenecks existing at the specimen preparation, data collection and image analysis steps; the samples and grid preparation can be of unpredictable quality, there are many different protocols for microscope and camera settings, and there is a myriad of software programs for analysis that can depend on dozens of settings chosen by the user. For this reason, we believe it is important to benchmark the entire workflow, using a standard sample and standard operating procedures, on a regular basis. This provides confidence that all aspects of the pipeline are capable of producing maps to high resolution. Here we describe benchmarking procedures using a test sample, rabbit muscle aldolase.