The electrostatic potential on the surface of the average conformation of the WT and H1047R p110α.

Surface representation of Pseudomonas aeruginosa Tse1 and Tsi1 showing their electrostatic potential, interaction and conservation.

Juliane Benz (154207)
Christina Sendlmeier (154210)
Thomas R. M. Barends (154213)
Anton Meinhart (154215)

July 2012

“Open-Book view” of the Tse1/Tsi1 complex showing surface representations of Tse1 (left) and Tsi1...

Electrostatic contributions of acidic residues in the vestibule.

Adam P. Christensen (3337005)
Nurunisa Akyuz (3337008)
David P. Corey (2549380)

November 2016

A) Surface charge representation of hsTRPA1, viewed from outside the cell, and calculated ...

Electrostatic field calculations on the wild type and mutant proteins.

Paula Burdisso (663446)
Fernando Milia (663447)
Arnaldo L. Schapire (663448)
Nicolás G. Bologna (663449)
Javier F. Palatnik (167374)
Rodolfo M. Rasia (663450)

November 2014

The electrostatic field around each modeled protein and HYL1-dsRBD1 wild type was calculated usin...

Representation of electrostatic surface potentials.

Helene J. Bustad (118261)
Lars Skjaerven (78461)
Ming Ying (118264)
Øyvind Halskau (118267)
Anne Baumann (118271)
David Rodriguez-Larrea (118275)
Miguel Costas (74685)
Jarl Underhaug (118280)
Jose M. Sanchez-Ruiz (118283)
Aurora Martinez (118286)

November 2012

The electrostatic potentials are calculated on the X-ray structures of 14-3-3γ (PDB 2B05) (A, C, ...

Surface charge representation of hQPCT, single mutants and residues used as input for docking calculation.

Cristiana Castaldo (446280)
Silvia Ciambellotti (446281)
Raquel de Pablo-Latorre (446282)
Daniela Lalli (224677)
Valentina Porcari (446283)
Paola Turano (224679)

August 2013

A, Surface charge representation of hQPCT (PDB id 2AFM) where region of positive, negative...

The molecular surface model of the monomer from nsp4C (T408-Q496) WT dimer and mutant C425S.

Xiaoling Xu (17877)
Zhiyong Lou (232376)
Yanlin Ma (185802)
Xuehui Chen (371887)
Zhangsheng Yang (371888)
Xiaohang Tong (247126)
Qi Zhao (124612)
Yuanyuan Xu (163995)
Hongyu Deng (104622)
Mark Bartlam (220218)
Zihe Rao (33472)

February 2013

Electrostatic potential is mapped on the surface, with positive charged region colored in blue an...

Conformational changes in the D38N mutant.

Matteo de Rosa (832323)
Alberto Barbiroli (832324)
Sofia Giorgetti (108315)
Patrizia P. Mangione (832325)
Martino Bolognesi (104753)
Stefano Ricagno (179168)

December 2015

(A) Superposition of wt β2m (light grey, PDB ID 2YXF) on the D38N mutant (green). Close up view o...

Electrostatic surface potential map.

Poornima Gajendrarao (391607)
Navaneethakrishnan Krishnamoorthy (391608)
Heba Sh Kassem (391609)
Sarah Moharem-Elgamal (391610)
Franco Cecchi (391611)
Iacopo Olivotto (391612)
Magdi H. Yacoub (75834)

March 2013

Front view and back view of surface electrostatic potential map for the snapshots shown in <a hre...

Surface electrostatic potential in wild-type and E374K HA.

Alicia Jiménez-Alberto (436102)
Esmeralda Alvarado-Facundo (436103)
Rosa María Ribas-Aparicio (436104)
Juan A. Castelán-Vega (436105)

July 2013

A, wild-type HA; B, E374K mutant. Electrostatic potential was colored into the surface structure....

Representation of the modeled three-dimensional structure of HSP18 when docked with ATP molecule.

Sandip Kumar Nandi (713237)
Ayon Chakraborty (713238)
Alok Kumar Panda (335270)
Sougata Sinha Ray (713239)
Rajiv Kumar Kar (473120)
Anirban Bhunia (116360)
Ashis Biswas (335275)

March 2015

(A) Ribbon representation of docked complex i.e. HSP18 with ATP molecule. Key residues inv...

Electrostatic potential surfaces of a) UPF0201 proteins and selected b) L5 (PDB Code: 1IQ4 (BstL5), 1MJI (TtL5), 1JJ2 (HmaL5) and 2AWB (EcolL5) and c) non-L5 (PDB Code: 1OIA (U1ARNP), 2G0C (YxIN)) RRM homologs.

Krishnamurthy N. Rao (375590)
Stephen K. Burley (375591)
Subramanyam Swaminathan (37971)

February 2013

Color-coding denotes calculated electrostatic potential (red: <−10 kT; blue: >+10 kT) and underly...

Structures and surface electrostatic characteristics of DUF1471 proteins.

Alexander Eletsky (596116)
Karolina Michalska (596117)
Scott Houliston (468620)
Qi Zhang (28502)
Michael D. Daily (214000)
Xiaohui Xu (208997)
Hong Cui (209000)
Adelinda Yee (246838)
Alexander Lemak (246846)
Bin Wu (138543)
Maite Garcia (596118)
Meagan C. Burnet (596119)
Kristen M. Meyer (596120)
Uma K. Aryal (596121)
Octavio Sanchez (596122)
Charles Ansong (175364)
Rong Xiao (130656)
Thomas B. Acton (320384)
Joshua N. Adkins (39312)
Gaetano T. Montelione (320388)
Andrzej Joachimiak (143860)
Cheryl H. Arrowsmith (246847)
Alexei Savchenko (209003)
Thomas Szyperski (320390)
John R. Cort (596123)

July 2014

A: SrfN (dimer), B: YahO, C: SssB-I, D: SssB-III. In addition to ribb...

Active site and electrostatic potential surface charge of hNtaq1.

Mi Seul Park (651995)
Eduard Bitto (651996)
Kyung Rok Kim (651997)
Craig A. Bingman (651998)
Mitchell D. Miller (147507)
Hyun-Jung Kim (318940)
Byung Woo Han (565458)
George N. Phillips Jr (651999)

October 2014

(A) Substrate binding cleft of hNtaq1. Carbon in the substrate-mimicking peptide, catalytic triad...

Distributions of the electrostatic potential on the gp120 molecule surface.

Yan Li (23143)
Dan Yang (65758)
Jia-Ye Wang (511522)
Yuan Yao (31223)
Wei-Zhe Zhang (511523)
Lu-Jing Wang (511524)
De-Chun Cheng (511525)
Feng-Kun Yang (511526)
Feng-Min Zhang (80145)
Min Zhuang (218356)
Hong Ling (213967)

January 2014

The three-dimensional structure of HXB2 gp120 complexed with sCD4 and the CD4i-specific mAb 17b (...

Solvent-accessible surface of RpfCc protein.

Vincenzo Maione (561269)
Alessia Ruggiero (311170)
Luigi Russo (73534)
Alfonso De Simone (88362)
Paolo Vincenzo Pedone (827856)
Gaetano Malgieri (166196)
Rita Berisio (472717)
Carla Isernia (827857)

November 2015

Electrostatic surface of RpfCc (A,B), RpfBc (C,D) and RpfEc (E,F) in two different orientations r...

Surface representation of Pseudomonas aeruginosa Tse1 and Tsi1 showing their electrostatic potential, interaction and conservation.

Juliane Benz (154207)
Christina Sendlmeier (154210)
Thomas R. M. Barends (154213)
Anton Meinhart (154215)

July 2012

“Open-Book view” of the Tse1/Tsi1 complex showing surface representations of Tse1 (left) and Tsi1...

Electrostatic contributions of acidic residues in the vestibule.

Adam P. Christensen (3337005)
Nurunisa Akyuz (3337008)
David P. Corey (2549380)

November 2016

A) Surface charge representation of hsTRPA1, viewed from outside the cell, and calculated ...

Electrostatic field calculations on the wild type and mutant proteins.

Paula Burdisso (663446)
Fernando Milia (663447)
Arnaldo L. Schapire (663448)
Nicolás G. Bologna (663449)
Javier F. Palatnik (167374)
Rodolfo M. Rasia (663450)

November 2014

The electrostatic field around each modeled protein and HYL1-dsRBD1 wild type was calculated usin...

Representation of electrostatic surface potentials.

Helene J. Bustad (118261)
Lars Skjaerven (78461)
Ming Ying (118264)
Øyvind Halskau (118267)
Anne Baumann (118271)
David Rodriguez-Larrea (118275)
Miguel Costas (74685)
Jarl Underhaug (118280)
Jose M. Sanchez-Ruiz (118283)
Aurora Martinez (118286)

November 2012

The electrostatic potentials are calculated on the X-ray structures of 14-3-3γ (PDB 2B05) (A, C, ...

Surface charge representation of hQPCT, single mutants and residues used as input for docking calculation.

Cristiana Castaldo (446280)
Silvia Ciambellotti (446281)
Raquel de Pablo-Latorre (446282)
Daniela Lalli (224677)
Valentina Porcari (446283)
Paola Turano (224679)

August 2013

A, Surface charge representation of hQPCT (PDB id 2AFM) where region of positive, negative...

The molecular surface model of the monomer from nsp4C (T408-Q496) WT dimer and mutant C425S.

Xiaoling Xu (17877)
Zhiyong Lou (232376)
Yanlin Ma (185802)
Xuehui Chen (371887)
Zhangsheng Yang (371888)
Xiaohang Tong (247126)
Qi Zhao (124612)
Yuanyuan Xu (163995)
Hongyu Deng (104622)
Mark Bartlam (220218)
Zihe Rao (33472)

February 2013

Electrostatic potential is mapped on the surface, with positive charged region colored in blue an...

Conformational changes in the D38N mutant.

Matteo de Rosa (832323)
Alberto Barbiroli (832324)
Sofia Giorgetti (108315)
Patrizia P. Mangione (832325)
Martino Bolognesi (104753)
Stefano Ricagno (179168)

December 2015

(A) Superposition of wt β2m (light grey, PDB ID 2YXF) on the D38N mutant (green). Close up view o...

Electrostatic surface potential map.

Poornima Gajendrarao (391607)
Navaneethakrishnan Krishnamoorthy (391608)
Heba Sh Kassem (391609)
Sarah Moharem-Elgamal (391610)
Franco Cecchi (391611)
Iacopo Olivotto (391612)
Magdi H. Yacoub (75834)

March 2013

Front view and back view of surface electrostatic potential map for the snapshots shown in <a hre...

Surface electrostatic potential in wild-type and E374K HA.

Alicia Jiménez-Alberto (436102)
Esmeralda Alvarado-Facundo (436103)
Rosa María Ribas-Aparicio (436104)
Juan A. Castelán-Vega (436105)

July 2013

A, wild-type HA; B, E374K mutant. Electrostatic potential was colored into the surface structure....

Representation of the modeled three-dimensional structure of HSP18 when docked with ATP molecule.

Sandip Kumar Nandi (713237)
Ayon Chakraborty (713238)
Alok Kumar Panda (335270)
Sougata Sinha Ray (713239)
Rajiv Kumar Kar (473120)
Anirban Bhunia (116360)
Ashis Biswas (335275)

March 2015

(A) Ribbon representation of docked complex i.e. HSP18 with ATP molecule. Key residues inv...

Electrostatic potential surfaces of a) UPF0201 proteins and selected b) L5 (PDB Code: 1IQ4 (BstL5), 1MJI (TtL5), 1JJ2 (HmaL5) and 2AWB (EcolL5) and c) non-L5 (PDB Code: 1OIA (U1ARNP), 2G0C (YxIN)) RRM homologs.

Krishnamurthy N. Rao (375590)
Stephen K. Burley (375591)
Subramanyam Swaminathan (37971)

February 2013

Color-coding denotes calculated electrostatic potential (red: <−10 kT; blue: >+10 kT) and underly...

Structures and surface electrostatic characteristics of DUF1471 proteins.

Alexander Eletsky (596116)
Karolina Michalska (596117)
Scott Houliston (468620)
Qi Zhang (28502)
Michael D. Daily (214000)
Xiaohui Xu (208997)
Hong Cui (209000)
Adelinda Yee (246838)
Alexander Lemak (246846)
Bin Wu (138543)
Maite Garcia (596118)
Meagan C. Burnet (596119)
Kristen M. Meyer (596120)
Uma K. Aryal (596121)
Octavio Sanchez (596122)
Charles Ansong (175364)
Rong Xiao (130656)
Thomas B. Acton (320384)
Joshua N. Adkins (39312)
Gaetano T. Montelione (320388)
Andrzej Joachimiak (143860)
Cheryl H. Arrowsmith (246847)
Alexei Savchenko (209003)
Thomas Szyperski (320390)
John R. Cort (596123)

July 2014

A: SrfN (dimer), B: YahO, C: SssB-I, D: SssB-III. In addition to ribb...

Active site and electrostatic potential surface charge of hNtaq1.

Mi Seul Park (651995)
Eduard Bitto (651996)
Kyung Rok Kim (651997)
Craig A. Bingman (651998)
Mitchell D. Miller (147507)
Hyun-Jung Kim (318940)
Byung Woo Han (565458)
George N. Phillips Jr (651999)

October 2014

(A) Substrate binding cleft of hNtaq1. Carbon in the substrate-mimicking peptide, catalytic triad...

Distributions of the electrostatic potential on the gp120 molecule surface.

Yan Li (23143)
Dan Yang (65758)
Jia-Ye Wang (511522)
Yuan Yao (31223)
Wei-Zhe Zhang (511523)
Lu-Jing Wang (511524)
De-Chun Cheng (511525)
Feng-Kun Yang (511526)
Feng-Min Zhang (80145)
Min Zhuang (218356)
Hong Ling (213967)

January 2014

The three-dimensional structure of HXB2 gp120 complexed with sCD4 and the CD4i-specific mAb 17b (...

Solvent-accessible surface of RpfCc protein.

Vincenzo Maione (561269)
Alessia Ruggiero (311170)
Luigi Russo (73534)
Alfonso De Simone (88362)
Paolo Vincenzo Pedone (827856)
Gaetano Malgieri (166196)
Rita Berisio (472717)
Carla Isernia (827857)

November 2015

Electrostatic surface of RpfCc (A,B), RpfBc (C,D) and RpfEc (E,F) in two different orientations r...

Surface representation of Pseudomonas aeruginosa Tse1 and Tsi1 showing their electrostatic potential, interaction and conservation.

Juliane Benz (154207)
Christina Sendlmeier (154210)
Thomas R. M. Barends (154213)
Anton Meinhart (154215)

July 2012

“Open-Book view” of the Tse1/Tsi1 complex showing surface representations of Tse1 (left) and Tsi1...

Electrostatic contributions of acidic residues in the vestibule.

Adam P. Christensen (3337005)
Nurunisa Akyuz (3337008)
David P. Corey (2549380)

November 2016

A) Surface charge representation of hsTRPA1, viewed from outside the cell, and calculated ...

Electrostatic field calculations on the wild type and mutant proteins.

Paula Burdisso (663446)
Fernando Milia (663447)
Arnaldo L. Schapire (663448)
Nicolás G. Bologna (663449)
Javier F. Palatnik (167374)
Rodolfo M. Rasia (663450)

November 2014

The electrostatic field around each modeled protein and HYL1-dsRBD1 wild type was calculated usin...

The electrostatic potential on the surface of the average conformation of the WT and H1047R p110α.

Abstract

Extracted data

The electrostatic potential on the surface of the average conformation of the WT and H1047R p110α.

Abstract

Extracted data

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