Solvent-accessible surface of RpfCc protein.

FIG. 7.

Vahed Mohammad
Ahmadian Gholamreza
Ameri Niyoosha
Vahed Majid

August 2018

The electrostatic surface display of protein-protein and protein-aptamer interactions. The negative ...

Molecular surface along the 3-fold channel of Mtb BfrB.

Garima Khare (212371)
Vibha Gupta (44479)
Prachi Nangpal (353421)
Rakesh K. Gupta (255910)
Nicholas K. Sauter (353422)
Anil K. Tyagi (21905)

February 2013

The surface is colored according to the values of electrostatic potential positioned as viewed fr...

Surface properties of NHLRC2 (9–572).

Ekaterina Biterova (5680067)
Alexander Ignatyev (5680070)
Johanna Uusimaa (5680073)
Reetta Hinttala (5680076)
Lloyd W. Ruddock (510850)

August 2018

The view is equivalent to that in Fig 1B. (A) Hydrophobic residues are colored in purple. (B) Electr...

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, ...

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

Paraskevi Gkeka (650340)
Thomas Evangelidis (222874)
Maria Pavlaki (650341)
Vasiliki Lazani (650342)
Savvas Christoforidis (49)
Bogos Agianian (261281)
Zoe Cournia (650343)

October 2014

The images depict membrane interaction areas of the WT (A) and H1047R mutant (B) first cluster re...

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...

Molecular surface charge distribution of EhCoactosin and homologous proteins.

Nitesh Kumar (628710)
Somlata (628711)
Mohit Mazumder (172623)
Priyanka Dutta (628712)
Sankar Maiti (628713)
Samudrala Gourinath (31302)

September 2014

The figure was prepared with Pymol. Negatively charged (red, Pymol scale of −3), positively charg...

Electrostatic parameters of RIP2CARD and NOD1 CARD.

Sergey A. Goncharuk (4915294)
Lilya E. Artemieva (5883977)
Valentin M. Tabakmakher (5883980)
Alexander S. Arseniev (1505995)
Konstantin S. Mineev (1505992)

October 2018

The maps of electrostatic potential distribution on the Van-der-Waals surface of NOD1 CARD (on top) ...

Surface properties of the TBCC N-terminal domain.

Mª Flor Garcia-Mayoral (341726)
Raquel Castaño (341727)
Monica L. Fanarraga (341728)
Juan Carlos Zabala (144747)
Manuel Rico (341729)
Marta Bruix (101923)

February 2013

A) The electrostatic surface is represented for four views corresponding to 90° rotations. The di...

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...

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...

Molecular surface calculated as propensities of the different portions of the molecules to interact according to the specific surface properties.

Manuela Grimaldi (680669)
Ilaria Stillitano (3442919)
Giuseppina Amodio (511911)
Angelo Santoro (5778239)
Michela Buonocore (5778242)
Ornella Moltedo (2176922)
Paolo Remondelli (511912)
Anna Maria D’Ursi (654019)

September 2018

Molecular surfaces of Trp residues are coloured in green-white: they account for the propensity of t...

Time-evolution of the electrostatic profile for Ec-PME.

Davide Mercadante (519877)
Laurence D. Melton (519878)
Geoffrey B. Jameson (497033)
Martin A. K. Williams (519879)

February 2014

The Ec-PME surface is colored by the calculated electrostatic potential of the protein in ...

Surface representation of the Ss-QAPRTase active site (stereo view).

Hyung-Seop Youn (406187)
Mun-Kyoung Kim (406188)
Gil Bu Kang (406189)
Tae Gyun Kim (169248)
Jung-Gyu Lee (406190)
Jun Yop An (406191)
Kyoung Ryoung Park (406192)
Youngjin Lee (406193)
Jung Youn Kang (406194)
Hye-Eun Song (406195)
Inju Park (23253)
Chunghee Cho (23258)
Shin-Ichi Fukuoka (406196)
Soo Hyun Eom (286340)

April 2013

The surface of the protein is colored based on the electrostatic potential. NAMN (orange) and res...

Molecular surface representation of the PHD domain shown from two points of view.

Alexander Lemak (246846)
Adelinda Yee (246838)
Hong Wu (105254)
Damian Yap (468619)
Hong Zeng (24161)
Ludmila Dombrovski (217044)
Scott Houliston (468620)
Samuel Aparicio (84801)
Cheryl H. Arrowsmith (246847)

October 2013

The surface is colored according to electrostatic potential (red for negative charges and blue fo...

FIG. 7.

Vahed Mohammad
Ahmadian Gholamreza
Ameri Niyoosha
Vahed Majid

August 2018

The electrostatic surface display of protein-protein and protein-aptamer interactions. The negative ...

Molecular surface along the 3-fold channel of Mtb BfrB.

Garima Khare (212371)
Vibha Gupta (44479)
Prachi Nangpal (353421)
Rakesh K. Gupta (255910)
Nicholas K. Sauter (353422)
Anil K. Tyagi (21905)

February 2013

The surface is colored according to the values of electrostatic potential positioned as viewed fr...

Surface properties of NHLRC2 (9–572).

Ekaterina Biterova (5680067)
Alexander Ignatyev (5680070)
Johanna Uusimaa (5680073)
Reetta Hinttala (5680076)
Lloyd W. Ruddock (510850)

August 2018

The view is equivalent to that in Fig 1B. (A) Hydrophobic residues are colored in purple. (B) Electr...

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, ...

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

Paraskevi Gkeka (650340)
Thomas Evangelidis (222874)
Maria Pavlaki (650341)
Vasiliki Lazani (650342)
Savvas Christoforidis (49)
Bogos Agianian (261281)
Zoe Cournia (650343)

October 2014

The images depict membrane interaction areas of the WT (A) and H1047R mutant (B) first cluster re...

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...

Molecular surface charge distribution of EhCoactosin and homologous proteins.

Nitesh Kumar (628710)
Somlata (628711)
Mohit Mazumder (172623)
Priyanka Dutta (628712)
Sankar Maiti (628713)
Samudrala Gourinath (31302)

September 2014

The figure was prepared with Pymol. Negatively charged (red, Pymol scale of −3), positively charg...

Electrostatic parameters of RIP2CARD and NOD1 CARD.

Sergey A. Goncharuk (4915294)
Lilya E. Artemieva (5883977)
Valentin M. Tabakmakher (5883980)
Alexander S. Arseniev (1505995)
Konstantin S. Mineev (1505992)

October 2018

The maps of electrostatic potential distribution on the Van-der-Waals surface of NOD1 CARD (on top) ...

Surface properties of the TBCC N-terminal domain.

Mª Flor Garcia-Mayoral (341726)
Raquel Castaño (341727)
Monica L. Fanarraga (341728)
Juan Carlos Zabala (144747)
Manuel Rico (341729)
Marta Bruix (101923)

February 2013

A) The electrostatic surface is represented for four views corresponding to 90° rotations. The di...

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...

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...

Molecular surface calculated as propensities of the different portions of the molecules to interact according to the specific surface properties.

Manuela Grimaldi (680669)
Ilaria Stillitano (3442919)
Giuseppina Amodio (511911)
Angelo Santoro (5778239)
Michela Buonocore (5778242)
Ornella Moltedo (2176922)
Paolo Remondelli (511912)
Anna Maria D’Ursi (654019)

September 2018

Molecular surfaces of Trp residues are coloured in green-white: they account for the propensity of t...

Time-evolution of the electrostatic profile for Ec-PME.

Davide Mercadante (519877)
Laurence D. Melton (519878)
Geoffrey B. Jameson (497033)
Martin A. K. Williams (519879)

February 2014

The Ec-PME surface is colored by the calculated electrostatic potential of the protein in ...

Surface representation of the Ss-QAPRTase active site (stereo view).

Hyung-Seop Youn (406187)
Mun-Kyoung Kim (406188)
Gil Bu Kang (406189)
Tae Gyun Kim (169248)
Jung-Gyu Lee (406190)
Jun Yop An (406191)
Kyoung Ryoung Park (406192)
Youngjin Lee (406193)
Jung Youn Kang (406194)
Hye-Eun Song (406195)
Inju Park (23253)
Chunghee Cho (23258)
Shin-Ichi Fukuoka (406196)
Soo Hyun Eom (286340)

April 2013

The surface of the protein is colored based on the electrostatic potential. NAMN (orange) and res...

Molecular surface representation of the PHD domain shown from two points of view.

Alexander Lemak (246846)
Adelinda Yee (246838)
Hong Wu (105254)
Damian Yap (468619)
Hong Zeng (24161)
Ludmila Dombrovski (217044)
Scott Houliston (468620)
Samuel Aparicio (84801)
Cheryl H. Arrowsmith (246847)

October 2013

The surface is colored according to electrostatic potential (red for negative charges and blue fo...

FIG. 7.

Vahed Mohammad
Ahmadian Gholamreza
Ameri Niyoosha
Vahed Majid

August 2018

The electrostatic surface display of protein-protein and protein-aptamer interactions. The negative ...

Molecular surface along the 3-fold channel of Mtb BfrB.

Garima Khare (212371)
Vibha Gupta (44479)
Prachi Nangpal (353421)
Rakesh K. Gupta (255910)
Nicholas K. Sauter (353422)
Anil K. Tyagi (21905)

February 2013

The surface is colored according to the values of electrostatic potential positioned as viewed fr...

Surface properties of NHLRC2 (9–572).

Ekaterina Biterova (5680067)
Alexander Ignatyev (5680070)
Johanna Uusimaa (5680073)
Reetta Hinttala (5680076)
Lloyd W. Ruddock (510850)

August 2018

The view is equivalent to that in Fig 1B. (A) Hydrophobic residues are colored in purple. (B) Electr...

Solvent-accessible surface of RpfCc protein.

Abstract

Extracted data

Solvent-accessible surface of RpfCc protein.

Abstract

Extracted data

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