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George N. Phillips

April 19, 2024

George N. Phillips Jr. is a biochemist, researcher, and academic. He is the Ralph and Dorothy Looney Professor of Biochemistry and Cell Biology at Rice University,[1] where he also serves as Associate Dean for Research at the Wiess School of Natural Sciences and as a professor of chemistry. Additionally, he holds the title of professor emeritus of biochemistry at the University of Wisconsin-Madison.[2]

George N. Phillips Jr.
Occupation(s)Biochemist, researcher and academic
Academic background
EducationB.A. Biochemistry and Chemistry
Ph.D. Biochemistry
Alma materRice University
Thesis3.5 angstrom resolution structure of L-arabinose binding protein from E. coli (1977)
Academic work
InstitutionsUniversity of Wisconsin-Madison
Rice University
Websitehttps://www.phillipslab.org/

Phillips' research is primarily centered on protein structure, protein dynamics, and computational biology, with a specific emphasis on understanding the correlation between the dynamics of proteins and their biological functions.[3] He has authored book chapters, and is an editor for the Handbook of Proteins: Structure, Function and Methods Volume 2. He is the recipient of the Arnold O. Beckman Research Award, the American Heart Association's Established Investigator Award, and the Vilas Associate Award.[4]

Phillips is an Elected Fellow of the Biophysical Society, the American Crystallographic Association, and the American Association for the Advancement of Science.[5] He served as president and vice-president of the American Crystallographic Association from 2011 to 2013.[6] He also holds the position of Editor-in-Chief for Structural Dynamics with the AIP Press[7] and serves as an Associate Editor for Critical Reviews in Biochemistry and Molecular Biology.[8]

Education edit

Phillips obtained his bachelor's degree in Biochemistry and Chemistry from Rice University in 1974 and followed it with a Ph.D. in biochemistry from the same institution in 1976.[9] He also held a Robert A. Welch Predoctoral Fellowship from 1974 to 1976 and received a Postdoctoral Fellowship from the National Institutes of Health in 1977 as well as a Research Fellowship from the Medical Foundation in 1980.[10]

Career edit

Phillips started his academic career as an assistant professor at the University of Illinois Urbana-Champaign, followed by his appointment as a professor of biochemistry at Rice University in 1987.[11] In 1993, he assumed the position of Rice Scientia Lecturer, subsequently receiving the Robert A. Welch Lecturer appointment in 2001. He joined the University of Wisconsin-Madison in 2000 as a professor of Biochemistry and took on the role of professor emeritus in 2012.[12] He has been serving as a professor of chemistry, as well as the Ralph and Dorothy Looney Professor of Biochemistry and Cell Biology at Rice University.[13]

Research edit

Phillips has directed his research toward the field of computational biology, primarily exploring protein structure. In the Phillips Lab, his work has involved conducting research on the binding of oxygen and ligands to heme proteins, as well as the development of techniques for analyzing protein and nucleic acid dynamics through diffuse X-ray scattering analysis.[14]

Protein structures edit

Phillips conducted various studies on protein structures and their functional implications. He examined the structural features of type 6 streptococcal M proteins, highlighting their predominantly alpha-helical coiled-coil, which demonstrates a unique conformation in bacterial surface projections.[10] His research on the crystal structure of tropomyosin filaments proposed a model in which tropomyosin exhibited distinct conformations related to muscle contraction, suggesting a statistical mechanism for regulating muscle function.[15]

In one of his highly cited studies, Phillips, alongside Fan Yang and Larry G. Moss, described the crystal structure of recombinant wild-type green fluorescent protein, unveiling a unique structure referred to as the "ß-can." This study also delved into the protective environment for the fluorophores within the cylinder and its applications in elucidating the effects of GFP mutants.[16]

Phillips has utilized X-ray crystallography and various advanced spectroscopy techniques to provide details about the dynamic structural changes in proteins. He used X-ray crystallography to determine the structure of unstable intermediate caused by photodissociation of CO from myoglobin and provided insights into the dynamics and structural alterations involved in this protein reaction.[17] In addition, his study focused on capturing the structural evolution of the protein on a picosecond timescale used time-resolved X-ray diffraction and mid-infrared spectroscopy on a myoglobin (Mb) mutant (L29F mutant) revealing conformational changes within the protein.[18]

Heme proteins and ligand interactions edit

Phillips' research on heme proteins and ligand affinity has provided insights into engineering strategies for physiological functions. He explored the impact of His64 in sperm whale myoglobin on ligand affinity, shedding light on structural changes induced by ligand binding and mechanisms of ligand discrimination in myoglobin.[19] By measuring CO binding properties in various mutants and comparing them to mutant myoglobins, he elucidated how mutations influence CO affinity.[20] In his 1994 study, he delved into how heme proteins like myoglobin and hemoglobin differentiate between oxygen (O2) and carbon monoxide (CO) binding at the atomic level.[21] He investigated the role of nitric oxide in physiological functions by examining the kinetics of NO-induced oxidation in myoglobins and hemoglobins revealing insights into protein engineering strategies aimed at mitigating hypertensive events.[22]

Computational biology edit

Phillips' contributions to computational biology include advanced techniques for interpreting experimental data in complex chemical and biological systems. He focused on the interaction between troponin T (TnT) and tropomyosin, shedding light on the molecular mechanisms in muscle contractions.[23] Additionally, he explored protein dynamics in crystals by using the Gaussian network model (GNM) and a crystallographic model to calculate Cα atom fluctuations in 113 proteins emphasizing the improved results obtained by considering neighboring molecules in the crystal.[24] In a book chapter discussing ongoing advancements in experimental methods for complex chemical and biological systems, he highlighted the growing need for creative approaches and delved into the exploration of Normal Mode Analysis as a technique to address these challenges.[25]

Awards and honors edit

  • 1982 – Arnold O. Beckman Research Award, University of Illinois
  • 1983 – Established Investigator Award, American Heart Association
  • 2003 – Vilas Associate Award, UW-Madison[4]

Bibliography edit

Books edit

  • Handbook of Proteins: Structure, Function and Methods Volume 2 (2008) ISBN 978-0470060988

Selected articles edit

  • Quillin, M. L., Arduini, R. M., Olson, J. S., & Phillips Jr, G. N. (1993). High-resolution crystal structures of distal histidine mutants of sperm whale myoglobin. Journal of molecular biology, 234(1), 140–155.
  • Springer, B. A., Sligar, S. G., Olson, J. S., & Phillips, G. N. J. (1994). Mechanisms of ligand recognition in myoglobin. Chemical Reviews, 94(3), 699–714.
  • Eich, R. F., Li, T., Lemon, D. D., Doherty, D. H., Curry, S. R., Aitken, J. F., ... & Olson, J. S. (1996). Mechanism of NO-induced oxidation of myoglobin and hemoglobin. Biochemistry, 35(22), 6976–6983.
  • Yang, F., Moss, L. G., & Phillips Jr, G. N. (1996). The molecular structure of green fluorescent protein. Nature biotechnology, 14(10), 1246–1251.
  • Schotte, F., Lim, M., Jackson, T. A., Smirnov, A. V., Soman, J., Olson, J. S., ... & Anfinrud, P. A. (2003). Watching a protein as it functions with 150-ps time-resolved x-ray crystallography. Science, 300(5627), 1944–1947.

References edit

  1. ^ "2021 Symposium".
  2. ^ "Annual briefing New Horizons in Science" (PDF).
  3. ^ Lee, J S; Lippman, S M; Benner, S E; Lee, J J; Ro, J Y; Lukeman, J M; Morice, R C; Peters, E J; Pang, A C; Fritsche, H A (May 1, 1994). "Randomized placebo-controlled trial of isotretinoin in chemoprevention of bronchial squamous metaplasia". Journal of Clinical Oncology. 12 (5): 937–945. doi:10.1200/jco.1994.12.5.937. PMID 8164045 – via Europe PMC.
  4. ^ a b "Past Winners Vilas Associates | Research | UW–Madison".
  5. ^ "AAAS Members Elected as Fellows | American Association for the Advancement of Science (AAAS)".
  6. ^ "Portrait of George N. Phillips". Niels Bohr Library & Archives.
  7. ^ "SCIE期刊信息库". apps.lib.whu.edu.cn.
  8. ^ "高影响力国际学术期刊投稿指南". apps.lib.whu.edu.cn.
  9. ^ "BioXFEL - Members: View: George Phillips". www.bioxfel.org.
  10. ^ a b Phillips, G N; Flicker, P F; Cohen, C; Manjula, B N; Fischetti, V A (August 6, 1981). "Streptococcal M protein: alpha-helical coiled-coil structure and arrangement on the cell surface". Proceedings of the National Academy of Sciences. 78 (8): 4689–4693. Bibcode:1981PNAS...78.4689P. doi:10.1073/pnas.78.8.4689. PMC 320228. PMID 7029524.
  11. ^ "Editorial Board".
  12. ^ "Nobel Prize In Chemistry". Chemical & Engineering News.
  13. ^ "Rice Biochemist, Computer Scientist tackle protein phase problem with Machine Learning | Computer Science | Rice University". csweb.rice.edu.
  14. ^ "BioXFEL - Group: Phillips Lab". www.bioxfel.org.
  15. ^ Phillips, G. N.; Fillers, J. P.; Cohen, C. (November 5, 1986). "Tropomyosin crystal structure and muscle regulation". Journal of Molecular Biology. 192 (1): 111–127. doi:10.1016/0022-2836(86)90468-7. PMID 3820299 – via ScienceDirect.
  16. ^ Yang, Fan; Moss, Larry G.; Phillips, George N. (October 6, 1996). "The molecular structure of green fluorescent protein". Nature Biotechnology. 14 (10): 1246–1251. doi:10.1038/nbt1096-1246. hdl:1911/19233. PMID 9631087. S2CID 34713931 – via www.nature.com.
  17. ^ Schlichting, Ilme; Berendzen, Joel; Phillips, George N.; Sweet, Robert M. (October 6, 1994). "Crystal structure of photolysed carbonmonoxy-myoglobin". Nature. 371 (6500): 808–812. Bibcode:1994Natur.371..808S. doi:10.1038/371808a0. PMID 7935843. S2CID 4356594 – via www.nature.com.
  18. ^ Schotte, Friedrich; Lim, Manho; Jackson, Timothy A.; Smirnov, Aleksandr V.; Soman, Jayashree; Olson, John S.; Phillips, George N.; Wulff, Michael; Anfinrud, Philip A. (June 20, 2003). "Watching a Protein as it Functions with 150-ps Time-Resolved X-ray Crystallography". Science. 300 (5627): 1944–1947. Bibcode:2003Sci...300.1944S. doi:10.1126/science.1078797. PMID 12817148. S2CID 45620714 – via CrossRef.
  19. ^ Quillin, Michael L.; Arduini, Robert M.; Olson, John S.; Phillips, George N. (November 5, 1993). "High-Resolution Crystal Structures of Distal Histidine Mutants of Sperm Whale Myoglobin". Journal of Molecular Biology. 234 (1): 140–155. doi:10.1006/jmbi.1993.1569. PMID 8230194. S2CID 34626278 – via ScienceDirect.
  20. ^ Li, Tiansheng; Quillin, Michael L.; Phillips, George N.; Olson, John S. (February 15, 1994). "Structural Determinants of the Stretching Frequency of CO Bound to Myoglobin". Biochemistry. 33 (6): 1433–1446. doi:10.1021/bi00172a021. PMID 8312263 – via CrossRef.
  21. ^ Springer, Barry A.; Sligar, Stephen G.; Olson, John S.; Phillips, George N. Jr. (May 6, 1994). "Mechanisms of Ligand Recognition in Myoglobin". Chemical Reviews. 94 (3): 699–714. doi:10.1021/cr00027a007 – via CrossRef.
  22. ^ Eich, Raymund F.; Li, Tiansheng; Lemon, Douglas D.; Doherty, Daniel H.; Curry, Shawn R.; Aitken, Jacqueline F.; Mathews, Antony J.; Johnson, Kenneth A.; Smith, Robert D.; Phillips, George N.; Olson, John S. (January 1, 1996). "Mechanism of NO-Induced Oxidation of Myoglobin and Hemoglobin". Biochemistry. 35 (22): 6976–6983. doi:10.1021/bi960442g. PMID 8679521 – via CrossRef.
  23. ^ White, Steven P.; Cohen, Carolyn; Phillips Jr, George N. (February 6, 1987). "Structure of co-crystals of tropomyosin and troponin". Nature. 325 (6107): 826–828. Bibcode:1987Natur.325..826W. doi:10.1038/325826a0. PMID 3102969. S2CID 4327852 – via www.nature.com.
  24. ^ "Dynamics of Proteins in Crystals: Comparison of Experiment with Simple Models: Biophysical Journal".
  25. ^ Qiang Cui; Bahar, Ivet, eds. (December 12, 2005). Normal Mode Analysis: Theory and Applications to Biological and Chemical Systems. Chapman and Hall/CRC. doi:10.1201/9781420035070. ISBN 978-0-429-14622-0.

April 19, 2024
george, phillips, biochemist, researcher, academic, ralph, dorothy, looney, professor, biochemistry, cell, biology, rice, university, where, also, serves, associate, dean, research, wiess, school, natural, sciences, professor, chemistry, additionally, holds, t. George N Phillips Jr is a biochemist researcher and academic He is the Ralph and Dorothy Looney Professor of Biochemistry and Cell Biology at Rice University 1 where he also serves as Associate Dean for Research at the Wiess School of Natural Sciences and as a professor of chemistry Additionally he holds the title of professor emeritus of biochemistry at the University of Wisconsin Madison 2 George N Phillips Jr Occupation s Biochemist researcher and academicAcademic backgroundEducationB A Biochemistry and ChemistryPh D BiochemistryAlma materRice UniversityThesis3 5 angstrom resolution structure of L arabinose binding protein from E coli 1977 Academic workInstitutionsUniversity of Wisconsin MadisonRice UniversityWebsitehttps www phillipslab org Phillips research is primarily centered on protein structure protein dynamics and computational biology with a specific emphasis on understanding the correlation between the dynamics of proteins and their biological functions 3 He has authored book chapters and is an editor for the Handbook of Proteins Structure Function and Methods Volume 2 He is the recipient of the Arnold O Beckman Research Award the American Heart Association s Established Investigator Award and the Vilas Associate Award 4 Phillips is an Elected Fellow of the Biophysical Society the American Crystallographic Association and the American Association for the Advancement of Science 5 He served as president and vice president of the American Crystallographic Association from 2011 to 2013 6 He also holds the position of Editor in Chief for Structural Dynamics with the AIP Press 7 and serves as an Associate Editor for Critical Reviews in Biochemistry and Molecular Biology 8 Contents 1 Education 2 Career 3 Research 3 1 Protein structures 3 2 Heme proteins and ligand interactions 3 3 Computational biology 4 Awards and honors 5 Bibliography 5 1 Books 5 2 Selected articles 6 ReferencesEducation editPhillips obtained his bachelor s degree in Biochemistry and Chemistry from Rice University in 1974 and followed it with a Ph D in biochemistry from the same institution in 1976 9 He also held a Robert A Welch Predoctoral Fellowship from 1974 to 1976 and received a Postdoctoral Fellowship from the National Institutes of Health in 1977 as well as a Research Fellowship from the Medical Foundation in 1980 10 Career editPhillips started his academic career as an assistant professor at the University of Illinois Urbana Champaign followed by his appointment as a professor of biochemistry at Rice University in 1987 11 In 1993 he assumed the position of Rice Scientia Lecturer subsequently receiving the Robert A Welch Lecturer appointment in 2001 He joined the University of Wisconsin Madison in 2000 as a professor of Biochemistry and took on the role of professor emeritus in 2012 12 He has been serving as a professor of chemistry as well as the Ralph and Dorothy Looney Professor of Biochemistry and Cell Biology at Rice University 13 Research editPhillips has directed his research toward the field of computational biology primarily exploring protein structure In the Phillips Lab his work has involved conducting research on the binding of oxygen and ligands to heme proteins as well as the development of techniques for analyzing protein and nucleic acid dynamics through diffuse X ray scattering analysis 14 Protein structures edit Phillips conducted various studies on protein structures and their functional implications He examined the structural features of type 6 streptococcal M proteins highlighting their predominantly alpha helical coiled coil which demonstrates a unique conformation in bacterial surface projections 10 His research on the crystal structure of tropomyosin filaments proposed a model in which tropomyosin exhibited distinct conformations related to muscle contraction suggesting a statistical mechanism for regulating muscle function 15 In one of his highly cited studies Phillips alongside Fan Yang and Larry G Moss described the crystal structure of recombinant wild type green fluorescent protein unveiling a unique structure referred to as the ss can This study also delved into the protective environment for the fluorophores within the cylinder and its applications in elucidating the effects of GFP mutants 16 Phillips has utilized X ray crystallography and various advanced spectroscopy techniques to provide details about the dynamic structural changes in proteins He used X ray crystallography to determine the structure of unstable intermediate caused by photodissociation of CO from myoglobin and provided insights into the dynamics and structural alterations involved in this protein reaction 17 In addition his study focused on capturing the structural evolution of the protein on a picosecond timescale used time resolved X ray diffraction and mid infrared spectroscopy on a myoglobin Mb mutant L29F mutant revealing conformational changes within the protein 18 Heme proteins and ligand interactions edit Phillips research on heme proteins and ligand affinity has provided insights into engineering strategies for physiological functions He explored the impact of His64 in sperm whale myoglobin on ligand affinity shedding light on structural changes induced by ligand binding and mechanisms of ligand discrimination in myoglobin 19 By measuring CO binding properties in various mutants and comparing them to mutant myoglobins he elucidated how mutations influence CO affinity 20 In his 1994 study he delved into how heme proteins like myoglobin and hemoglobin differentiate between oxygen O2 and carbon monoxide CO binding at the atomic level 21 He investigated the role of nitric oxide in physiological functions by examining the kinetics of NO induced oxidation in myoglobins and hemoglobins revealing insights into protein engineering strategies aimed at mitigating hypertensive events 22 Computational biology edit Phillips contributions to computational biology include advanced techniques for interpreting experimental data in complex chemical and biological systems He focused on the interaction between troponin T TnT and tropomyosin shedding light on the molecular mechanisms in muscle contractions 23 Additionally he explored protein dynamics in crystals by using the Gaussian network model GNM and a crystallographic model to calculate Ca atom fluctuations in 113 proteins emphasizing the improved results obtained by considering neighboring molecules in the crystal 24 In a book chapter discussing ongoing advancements in experimental methods for complex chemical and biological systems he highlighted the growing need for creative approaches and delved into the exploration of Normal Mode Analysis as a technique to address these challenges 25 Awards and honors edit1982 Arnold O Beckman Research Award University of Illinois 1983 Established Investigator Award American Heart Association 2003 Vilas Associate Award UW Madison 4 Bibliography editBooks edit Handbook of Proteins Structure Function and Methods Volume 2 2008 ISBN 978 0470060988 Selected articles edit Quillin M L Arduini R M Olson J S amp Phillips Jr G N 1993 High resolution crystal structures of distal histidine mutants of sperm whale myoglobin Journal of molecular biology 234 1 140 155 Springer B A Sligar S G Olson J S amp Phillips G N J 1994 Mechanisms of ligand recognition in myoglobin Chemical Reviews 94 3 699 714 Eich R F Li T Lemon D D Doherty D H Curry S R Aitken J F amp Olson J S 1996 Mechanism of NO induced oxidation of myoglobin and hemoglobin Biochemistry 35 22 6976 6983 Yang F Moss L G amp Phillips Jr G N 1996 The molecular structure of green fluorescent protein Nature biotechnology 14 10 1246 1251 Schotte F Lim M Jackson T A Smirnov A V Soman J Olson J S amp Anfinrud P A 2003 Watching a protein as it functions with 150 ps time resolved x ray crystallography Science 300 5627 1944 1947 References edit 2021 Symposium Annual briefing New Horizons in Science PDF Lee J S Lippman S M Benner S E Lee J J Ro J Y Lukeman J M Morice R C Peters E J Pang A C Fritsche H A May 1 1994 Randomized placebo controlled trial of isotretinoin in chemoprevention of bronchial squamous metaplasia Journal of Clinical Oncology 12 5 937 945 doi 10 1200 jco 1994 12 5 937 PMID 8164045 via Europe PMC a b Past Winners Vilas Associates Research UW Madison AAAS Members Elected as Fellows American Association for the Advancement of Science AAAS Portrait of George N Phillips Niels Bohr Library amp Archives SCIE期刊信息库 apps lib whu edu cn 高影响力国际学术期刊投稿指南 apps lib whu edu cn BioXFEL Members View George Phillips www bioxfel org a b Phillips G N Flicker P F Cohen C Manjula B N Fischetti V A August 6 1981 Streptococcal M protein alpha helical coiled coil structure and arrangement on the cell surface Proceedings of the National Academy of Sciences 78 8 4689 4693 Bibcode 1981PNAS 78 4689P doi 10 1073 pnas 78 8 4689 PMC 320228 PMID 7029524 Editorial Board Nobel Prize In Chemistry Chemical amp Engineering News Rice Biochemist Computer Scientist tackle protein phase problem with Machine Learning Computer Science Rice University csweb rice edu BioXFEL Group Phillips Lab www bioxfel org Phillips G N Fillers J P Cohen C November 5 1986 Tropomyosin crystal structure and muscle regulation Journal of Molecular Biology 192 1 111 127 doi 10 1016 0022 2836 86 90468 7 PMID 3820299 via ScienceDirect Yang Fan Moss Larry G Phillips George N October 6 1996 The molecular structure of green fluorescent protein Nature Biotechnology 14 10 1246 1251 doi 10 1038 nbt1096 1246 hdl 1911 19233 PMID 9631087 S2CID 34713931 via www nature com Schlichting Ilme Berendzen Joel Phillips George N Sweet Robert M October 6 1994 Crystal structure of photolysed carbonmonoxy myoglobin Nature 371 6500 808 812 Bibcode 1994Natur 371 808S doi 10 1038 371808a0 PMID 7935843 S2CID 4356594 via www nature com Schotte Friedrich Lim Manho Jackson Timothy A Smirnov Aleksandr V Soman Jayashree Olson John S Phillips George N Wulff Michael Anfinrud Philip A June 20 2003 Watching a Protein as it Functions with 150 ps Time Resolved X ray Crystallography Science 300 5627 1944 1947 Bibcode 2003Sci 300 1944S doi 10 1126 science 1078797 PMID 12817148 S2CID 45620714 via CrossRef Quillin Michael L Arduini Robert M Olson John S Phillips George N November 5 1993 High Resolution Crystal Structures of Distal Histidine Mutants of Sperm Whale Myoglobin Journal of Molecular Biology 234 1 140 155 doi 10 1006 jmbi 1993 1569 PMID 8230194 S2CID 34626278 via ScienceDirect Li Tiansheng Quillin Michael L Phillips George N Olson John S February 15 1994 Structural Determinants of the Stretching Frequency of CO Bound to Myoglobin Biochemistry 33 6 1433 1446 doi 10 1021 bi00172a021 PMID 8312263 via CrossRef Springer Barry A Sligar Stephen G Olson John S Phillips George N Jr May 6 1994 Mechanisms of Ligand Recognition in Myoglobin Chemical Reviews 94 3 699 714 doi 10 1021 cr00027a007 via CrossRef Eich Raymund F Li Tiansheng Lemon Douglas D Doherty Daniel H Curry Shawn R Aitken Jacqueline F Mathews Antony J Johnson Kenneth A Smith Robert D Phillips George N Olson John S January 1 1996 Mechanism of NO Induced Oxidation of Myoglobin and Hemoglobin Biochemistry 35 22 6976 6983 doi 10 1021 bi960442g PMID 8679521 via CrossRef White Steven P Cohen Carolyn Phillips Jr George N February 6 1987 Structure of co crystals of tropomyosin and troponin Nature 325 6107 826 828 Bibcode 1987Natur 325 826W doi 10 1038 325826a0 PMID 3102969 S2CID 4327852 via www nature com Dynamics of Proteins in Crystals Comparison of Experiment with Simple Models Biophysical Journal Qiang Cui Bahar Ivet eds December 12 2005 Normal Mode Analysis Theory and Applications to Biological and Chemical Systems Chapman and Hall CRC doi 10 1201 9781420035070 ISBN 978 0 429 14622 0 Retrieved from https en wikipedia org w index php title George N Phillips amp oldid 1215523256, wikipedia, wiki, book, books, library,

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