Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program

W. N. Nicholson; C. J. Gilmore

doi:10.1107/s0108767396096341

Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program

W. N. Nicholson, C. J. Gilmore

Research output: Contribution to journal › Article › peer-review

Abstract

We have already reported our expelience with applying the maximum entropy-likelihood method to phasing the two-dimensional projection data for cholera toxin (Gilmore & Nicholson ( 1995). Transactions American Crystallographic Association, 31 In press.). We have been working with a 2-d dat31 set for which 56 unique image phases are available at 8.8A resolution, and for which a further 1417 diffraction intensities extend to 4A.

Original language	English
Pages (from-to)	C68
Number of pages	1
Journal	Acta Crystallographica Section A: Foundations and Advances
Volume	52
Issue number	Suppl.
DOIs	https://doi.org/10.1107/s0108767396096341
Publication status	Published - 8 Aug 1996

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10.1107/s0108767396096341

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title = "Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program",

abstract = "We have already reported our expelience with applying the maximum entropy-likelihood method to phasing the two-dimensional projection data for cholera toxin (Gilmore & Nicholson ( 1995). Transactions American Crystallographic Association, 31 In press.). We have been working with a 2-d dat31 set for which 56 unique image phases are available at 8.8A resolution, and for which a further 1417 diffraction intensities extend to 4A. ",

author = "Nicholson, {W. N.} and Gilmore, {C. J.}",

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Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program. / Nicholson, W. N.; Gilmore, C. J.
In: Acta Crystallographica Section A: Foundations and Advances, Vol. 52, No. Suppl., 08.08.1996, p. C68.

Research output: Contribution to journal › Article › peer-review

TY - JOUR

T1 - Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program

AU - Nicholson, W. N.

AU - Gilmore, C. J.

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N2 - We have already reported our expelience with applying the maximum entropy-likelihood method to phasing the two-dimensional projection data for cholera toxin (Gilmore & Nicholson ( 1995). Transactions American Crystallographic Association, 31 In press.). We have been working with a 2-d dat31 set for which 56 unique image phases are available at 8.8A resolution, and for which a further 1417 diffraction intensities extend to 4A.

AB - We have already reported our expelience with applying the maximum entropy-likelihood method to phasing the two-dimensional projection data for cholera toxin (Gilmore & Nicholson ( 1995). Transactions American Crystallographic Association, 31 In press.). We have been working with a 2-d dat31 set for which 56 unique image phases are available at 8.8A resolution, and for which a further 1417 diffraction intensities extend to 4A.

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DO - 10.1107/s0108767396096341

M3 - Article

SN - 2053-2733

VL - 52

SP - C68

JO - Acta Crystallographica Section A: Foundations and Advances

JF - Acta Crystallographica Section A: Foundations and Advances

IS - Suppl.

ER -

Phasing the cholera toxin electron-diffraction data using the maximum entropy likelihood method with non-crystallographic symmetry imposed in the MICE computer program

Abstract

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