William Astbury
William Astbury | |
---|---|
Born |
William Thomas Astbury 25 February 1898 Longton, Staffordshire, England |
Died |
4 June 1961 63) Leeds, England | (aged
Citizenship | British |
Fields | Physics, Molecular biology |
Institutions |
University College London Royal Institution University of Leeds |
Alma mater | University of Cambridge |
Doctoral advisor | William Henry Bragg[1] |
Notable awards | Fellow of the Royal Society[2] |
William Thomas Astbury FRS (also Bill Astbury; 25 February 1898, Longton – 4 June 1961, Leeds) was an English physicist and molecular biologist who made pioneering X-ray diffraction studies of biological molecules.[1] His work on keratin provided the foundation for Linus Pauling's discovery of the alpha helix. He also studied the structure for DNA in 1937 and made the first step in the elucidation of its structure.
Early life
Astbury was the fourth child of seven, born in Longton, Staffordshire. His father, William Edwin Astbury, was a potter and provided comfortably for his family. Astbury also had a younger brother, Norman, with whom he shared a love of music.
Astbury might well have become a potter but, luckily, won a scholarship to Longton High School, where his interests were shaped by the Headmaster and second master, both chemists. After becoming Head boy and winning the Duke of Sutherland's Gold Medal, Astbury won the only local scholarship available and went up to Jesus College, Cambridge.
After two terms at Cambridge, his studies were interrupted by service during the First World War. A poor medical rating following appendectomy resulted in his posting in 1917 to Cork, Ireland with the Royal Army Medical Corps. He later returned to Cambridge and finished his last year with a specialization in physics.
Academic career
After graduating from Cambridge, Astbury worked with William Bragg, first at University College London and then, in 1923, at the Davy-Faraday Laboratory at the Royal Institution in London. Fellow students included many eminent scientists, including Kathleen Lonsdale and J. D. Bernal and others. Astbury showed great enthusiasm for his studies and published papers in the journal "Classic Crystallography", such as on the structure of tartaric acid.
In 1928, Astbury was appointed Lecturer in Textile Physics at the University of Leeds. He remained at Leeds for the remainder of his career, being appointed Reader in Textile Physics in 1937 and Professor of Biomolecular Structure in 1946. He held the chair until his death in 1961. He was elected a Fellow of the Royal Society (FRS) in 1940.[3] He is commemorated by the Astbury Centre for Structural Molecular Biology at Leeds.[4]
In later life he was given many awards and honorary degrees.
X-ray diffraction studies of fibrous proteins
At Leeds Astbury studied the properties of fibrous substances such as keratin and collagen with funding from the textile industry. (Wool is made of keratin.) These substances did not produce sharp patterns of spots like crystals, but the patterns provided physical limits on any proposed structures. In the early 1930s, Astbury showed that there were drastic changes in the diffraction of moist wool or hair fibres as they are stretched significantly (100%). The data suggested that the unstretched fibres had a coiled molecular structure with a characteristic repeat of 5.1 Å (=0.51 nm). Astbury proposed that (1) the unstretched protein molecules formed a helix (which he called the α-form); and (2) the stretching caused the helix to uncoil, forming an extended state (which he called the β-form). Although incorrect in their details, Astbury's models were correct in essence and correspond to modern elements of secondary structure, the α-helix and the β-strand (Astbury's nomenclature was kept), which were developed twenty years later by Linus Pauling and Robert Corey in 1951. Hans Neurath was the first to show that Astbury's models could not be correct in detail, because they involved clashes of atoms. Interestingly, Neurath's paper and Astbury's data inspired H. S. Taylor (1941,1942) and Maurice Huggins (1943) to propose models of keratin that are very close to the modern α-helix.
In 1931, Astbury was also the first to propose that mainchain-mainchain hydrogen bonds (i.e., hydrogen bonds between the backbone amide groups) contributed to stabilizing protein structures. His initial insight was taken up enthusiastically by several researchers, including Linus Pauling.
Astbury's worked moved on to X-ray studies of many proteins (including myosin, epidermin and fibrin) and he was able to deduce from the diffraction patterns that the molecules of these substances were coiled and folded.
In 1937 Torbjörn Caspersson of Sweden sent him well prepared samples of DNA from calf thymus. The fact that DNA produced a diffraction pattern indicated that it also had a regular structure and it might be feasible to deduce it. Astbury reported that DNA's structure repeated every 2.7 nanometres and that the bases lay flat, stacked, 0.34 nanometres apart. At a symposium in 1938 at Cold Spring Harbor, Astbury pointed out that the 0.34 nanometre spacing was the same as amino acids in polypeptide chains. (The currently accepted value for the spacing of the bases in B-form of DNA is 0.332 nm.)
In 1946 Astbury presented a paper at a symposium in Cambridge in which he said: "Biosynthesis is supremely a question of fitting molecules or parts of molecules against another, and one of the great biological developments of our time is the realisation that probably the most fundamental interaction of all is that between the proteins and the nucleic acids." He also said that the spacing between the nucleotides and the spacing of amino acids in proteins "was not an arithmetical accident".
Astbury was unable to propose the correct structure of DNA from his rudimentary data. However in 1952 Linus Pauling used Astbury's insufficient data to propose a structure for DNA, which was also incorrect. Nevertheless Astbury's insights encouraged the work of Maurice Wilkins and Rosalind Franklin,[1] after which the structure of DNA was identified by Francis Crick and James D. Watson in 1953.
Personal qualities and history
Astbury was known for his unfailing cheerfulness, idealism, imagination and enthusiasm. He foresaw correctly the tremendous impact of molecular biology and transmitted his vision to his students, "his euphoric evangelizing zeal transforming laboratory routine into a great adventure" (Bailey reference below). Astbury's enthusiasm may also account for an occasional lack of scientific caution observable in his work; Astbury could make speculative interpretations sound plausible.
Astbury was an excellent writer and lecturer; his works are characterized by remarkable clarity and an easy-going, natural manner. He also enjoyed music, playing both piano and violin.
Astbury met Frances Gould when he was stationed in Cork, Ireland with the Royal Army Medical Corps during World War I. They married in 1922 and had a son, Bill, and a daughter, Maureen.
References
- 1 2 3 G Ferry (2014) Of DNA and broken dreams, Nature 510(7503), 32-33.
- ↑ Bernal, J. D. (1963). "William Thomas Astbury 1898-1961". Biographical Memoirs of Fellows of the Royal Society 9: 1–01. doi:10.1098/rsbm.1963.0001.
- ↑ University of Leeds, Biography
- ↑ University of Leeds, History of the Astbury Centre
- Bailey K. (1961) "William Thomas Astbury (1898-1961): A Personal Tribute", Adv. Protein Chem., 17, x-xiv.
- Astbury WT and Woods HJ. (1931) "The Molecular Weights of Proteins", Nature, 127, 663-665.
- Astbury WT and Street A. (1931) "X-ray studies of the structures of hair, wool and related fibres. I. General", Trans. R. Soc. Lond., A230, 75-101.
- Astbury WT. (1933) "Some Problems in the X-ray Analysis of the Structure of Animal Hairs and Other Protein Fibers", Trans. Faraday Soc., 29, 193-211.
- Astbury WT and Woods HJ. (1934) "X-ray studies of the structures of hair, wool and related fibres. II. The molecular structure and elastic properties of hair keratin", Trans. R. Soc. Lond., A232, 333-394.
- Astbury WT and Sisson WA. (1935) "X-ray studies of the structures of hair, wool and related fibres. III. The configuration of the keratin molecule and its orientation in the biological cell", Proc. R. Soc. Lond., A150, 533-551.
- Neurath H. (1940) "Intramolecular folding of polypeptide chains in relation to protein structure", J. Phys. Chem., 44, 296-305.
- Taylor HS. (1942) "Large molecules through atomic spectacles", Proc. Am. Philos. Soc., 85, 1-12.
- Huggins M. (1943) "The structure of fibrous proteins", Chem. Rev., 32, 195-218.
Further reading
- Olby, Robert (1970). "Astbury, William Thomas". Dictionary of Scientific Biography 1. New York: Charles Scribner's Sons. pp. 319–320. ISBN 0-684-10114-9.
- Hall, Kersten T (2014). The Man in the Monkeynut Coat: William Astbury and the Forgotten Road to the Double-Helix. Oxford: Oxford University Press. ISBN 978-0-19-870459-1.
External links
- Astbury Centre for Structural Biology
- Key Participants: William T. Astbury – Linus Pauling and the Race for DNA: A Documentary History
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