Editing Max Perutz (section)

==Early life and education==
Perutz was born in [[Vienna]], the son of Adele "Dely" (Goldschmidt) and Hugo Perutz, a textile manufacturer.<ref>{{Cite web|url=https://www.nobelprize.org/nobel_prizes/chemistry/laureates/1962/perutz.html|title=Max F. Perutz – Facts|website=www.nobelprize.org|access-date=9 October 2016}}</ref> His parents were Jewish by ancestry, but had baptised Perutz in the Catholic religion.<ref>{{Cite journal|last=Dickerson|first=Richard E.|date=9 October 2016|title=Max Perutz and the secret of life, by Georgina Ferry|pmc=2222719|journal=Protein Science|volume=17|issue=2|pages=377–379|doi=10.1110/ps.073363908|issn=0961-8368}}</ref> Although Perutz rejected religion and was an atheist in his later years, he was against offending others for their religious beliefs.<ref>{{cite web|title=Perutz rubbishes Popper and Kuhn|url=http://www.timeshighereducation.co.uk/154140.article|publisher=TSL EDUCATION LTD.|access-date=19 June 2013|date=28 November 1994|quote=Dr Perutz, said: "It is one thing for scientists to oppose creationism which is demonstrably false but quite another to make pronouncements which offend people's religious faith – that is a form of tactlessness which merely brings science into disrepute. My view of religion and ethics is simple: even if we do not believe in God, we should try to live as though we did."}}</ref>

His parents hoped that he would become a lawyer, but he became interested in chemistry while at school. Overcoming his parents' objections he enrolled as a chemistry undergraduate at the [[University of Vienna]] and completed his degree in 1936. Made aware by lecturer Fritz von Wessely of the advances being undertaken at the [[University of Cambridge]] into biochemistry by a team led by [[Gowland Hopkins]], he asked [[Herman Francis Mark|Professor Mark]], who was soon to visit Cambridge, to make inquiries of Hopkins about whether there would be a place for him. Mark forgot, but had visited [[J.D. Bernal]], who was looking for a research student to assist him with studies into X-ray crystallography.<ref>Medawar & Pyke. Page 108.</ref> Perutz was dismayed as he knew nothing about the subject. Mark countered by saying that he would soon learn. Bernal accepted him as a research student in his [[crystallography]] research group at the [[Cavendish Laboratory]]. His father had deposited £500 with his London agent to support him. He learnt quickly. Bernal encouraged him to use the X-ray diffraction method to study the structure of proteins. As protein crystals were difficult to obtain, he used horse haemoglobin crystals, and began his doctoral thesis on its structure. Haemoglobin was a subject which was to occupy him for most of his professional career. He completed his Ph.D. under [[Lawrence Bragg]] in 1940.<ref>{{Cite web |title=Prof. Dr. Max Ferdinand Perutz > Research Profile|url=https://mediatheque.lindau-nobel.org/laureates/perutz/research-profile |access-date=2023-05-16 |website=Lindau Nobel Laureate Meetings |date=17 June 2015 |language=en}}</ref>

He applied to [[King's College, Cambridge|Kings]] and [[St John's College, Cambridge|St. John's]] colleges, and became a member of [[Peterhouse]], on the basis that it served the best food. He was elected an Honorary Fellow of Peterhouse in 1962. He took a keen interest in the Junior Members, and was a regular and popular speaker at the Kelvin Club, the college's scientific society.

===World War II===
When [[Adolf Hitler|Hitler]] took over Austria in 1938, Perutz's parents managed to escape to Switzerland, but they had lost all of their money. As a result, Perutz lost their financial support. With his ability to ski, experience in mountaineering since childhood and his knowledge of crystals, Perutz was accepted as a member of a three-man team to study the conversion of snow into ice in Swiss glaciers in the summer of 1938. His resulting article for the ''[[Proceedings of the Royal Society]]'' made him known as an expert on glaciers.<ref name="Medawar & Pyke. Page 109">Medawar & Pyke. Page 109.</ref>

Lawrence Bragg, who was Professor of Experimental Physics at the Cavendish, thought that Perutz's research into haemoglobin had promise and encouraged him to apply for a grant from the Rockefeller Foundation to continue his research. The application was accepted in January 1939 and with the money Perutz was able to bring his parents from Switzerland to England in March 1939.<ref name="Medawar & Pyke. Page 109"/>

On the outbreak of World War II, Perutz was [[Enemy alien#United Kingdom|rounded up along with other persons of German or Austrian background]], and sent to [[Newfoundland]] (on orders from Winston Churchill).<ref>{{Cite journal | last1 = Fersht | first1 = Alan R. | author-link = Alan Fersht| title = Max Ferdinand Perutz OM FRS | doi = 10.1038/nsb0402-245 | journal = [[Nature Structural Biology]] | volume = 9 | issue = 4 | pages = 245–246 | year = 2002 | pmid =  11914731| doi-access = free }}</ref> After being interned for several months he returned to Cambridge.  
Because of his pre-War research into the changes in the arrangement of the crystals in the layers of a glacier, he was asked for advice on whether if a battalion of commandos were landed in Norway, could they be hidden in shelters under glaciers. His knowledge on the subject of ice then led to him being recruited for [[Project Habakkuk]] in 1942. This was a secret project to build an ice platform in the mid-Atlantic, which could be used to refuel aircraft. To that end he investigated the recently invented mixture of ice and woodpulp known as [[pykrete]]. He carried out early experiments on pykrete in a secret location underneath [[Smithfield, London|Smithfield Meat Market]] in the [[City of London]].

===Establishment of the Molecular Biology Unit===
After the War he returned briefly to glaciology, demonstrating how glaciers flow.<ref>{{cite journal |last=Gratzer |first=Walter |title=Max Perutz (1914–2002) |journal=Current Biology |volume=12 |issue=5 |pages=R152–R154 |date=5 March 2002 |doi=10.1016/S0960-9822(02)00727-3 |s2cid=30263181 |df=dmy-all |doi-access=free |bibcode=2002CBio...12.R152G }}</ref>

In 1947, Perutz, with the support of Professor Bragg, was successful in obtaining support from the [[Medical Research Council (United Kingdom)|Medical Research Council]] (MRC) to undertake research into the molecular structure of biological systems. This financial support allowed him to establish the Molecular Biology Unit at the Cavendish Laboratory.<ref>Medawar & Pyke. Pages 110 to 111.</ref> Perutz's new unit attracted researchers who realised that the field of molecular biology had great promise; among them were [[Francis Crick]] in 1949 and [[James D. Watson]] in 1951.

In 1953, Perutz showed that diffracted [[X-ray]]s from [[protein]] crystals could be phased by comparing the patterns from crystals of the protein with and without heavy atoms attached. In 1959 he employed this method to determine the molecular structure of the protein [[haemoglobin]], which transports [[oxygen]] in the blood.<ref name="Everts">{{cite journal|last1=Everts|first1=Sarah|title=Information Overload|journal=Distillations|date=2016|volume=2|issue=2|pages=26–33|url=https://www.sciencehistory.org/distillations/magazine/information-overload|access-date=20 March 2018}}</ref> This work resulted in his sharing with [[John Kendrew]] the 1962 [[Nobel Prize for Chemistry]]. Fifty years later, in 2013, 9,500  molecular structures of proteins were determined by X-ray crystallography.<ref name="PDB Newsletter">{{cite web |title=RCSB PDB Newsletter: Deposition & Annotation |url=https://cdn.rcsb.org/rcsb-pdb/general_information/news_publications/newsletters/2014q1/deposit.html?utm_source=chatgpt.com |website=cdn.rcsb.org |publisher=Protein Data Bank |access-date=10 February 2025 |language=en |date=Winter 2014 |issue=60}}</ref>

After 1959, Perutz and his colleagues went on to determine the structure of oxy- and deoxy- haemoglobin at high resolution. As a result, in 1970, he was at last able to suggest how it works as a molecular machine: how it switches between its deoxygenated and its oxygenated states, in turn triggering the uptake of oxygen and then its release to the muscles and other organs. Further work over the next two decades refined and corroborated the proposed mechanism. In addition Perutz studied the structural changes in a number of haemoglobin diseases and how these might affect oxygen binding. He hoped that the molecule could be made to function as a drug receptor and that it would be possible to inhibit or reverse the genetic errors such as those that occur in [[sickle cell anaemia]]. A further interest was the variation of the haemoglobin molecule from species to species to suit differing habitats and patterns of behaviour. In his final years Perutz turned to the study of changes in protein structures implicated in Huntington and other neurodegenerative diseases. He demonstrated that the onset of [[Huntington disease]] is related to the number of glutamine repeats as they bind to form what he called a "polar zipper".<ref>{{cite book |last=Perutz |first=Max |title=Science is Not a Quiet Life |chapter=1–11 |publisher=World Scientific |year=1998 |isbn=978-981-4498-51-7}}</ref>

===DNA structure and Rosalind Franklin===
[[File:Max Perutz with wife 1962.jpg|thumb|Perutz with his wife Gisela at the 1962 Nobel ball]]
During the early 1950s, while Watson and Crick were trying to determine the structure of [[deoxyribonucleic acid]] (DNA), they were given by Perutz an unpublished 1952 progress report for the [[King's College London|King's College]] laboratory of [[John Randall (physicist)|Sir John Randall]]. This report contained [[X-ray diffraction]] images taken by [[Rosalind Franklin]] that proved to be crucial in coming to the double-helix structure.

Perutz did this without Franklin's knowledge or permission, and before she had a chance to publish a detailed analysis of the content of her unpublished progress report. Later this action was criticised by Randall and others, in view of the results and the honours resulting from this "gift".

In an effort to clarify this issue, Perutz later published the report, arguing that it included nothing that Franklin had not said in a talk she gave in late 1951, which Watson had attended. Perutz also added that the report was addressed to an MRC committee created to "establish contact between the different groups of people working for the Council". Randall's and Perutz's labs were both funded by the MRC.

===The author===
In his later years, Perutz was a regular reviewer/essayist for ''[[The New York Review of Books]]'' on biomedical subjects. Many of these essays are reprinted in his 1998 book, ''I wish I had made you angry earlier''.<ref>[http://www.nature.com/nsmb/journal/v9/n4/full/nsb0402-245.html Max Ferdinand Perutz OM FRS – Nature Structural & Molecular Biology]</ref>

In August 1985, ''[[The New Yorker]]'' published his account of his experiences as an internee during World War II, titled "That Was the War: Enemy Alien".

Perutz won the [[Lewis Thomas Prize]] for Writing about Science in 1997.<ref>[https://www.rockefeller.edu/news/4446-lewis-thomas-prize-honors-max-perutz/ Lewis Thomas Prize Honors Max Perutz]</ref>

A collection of Perutz's correspondence was published posthumously in 2009, titled ''What a Time I Am Having: Selected Letters of Max Perutz''.

===The scientist-citizen===
Perutz attacked the theories of philosophers [[Sir Karl Popper]] and [[Thomas Kuhn]] and biologist [[Richard Dawkins]] in a lecture given at Cambridge on 'Living Molecules' in 1994. He criticised Popper's notion that science progresses through a process of [[hypothesis]] formation and refutation, saying that hypotheses are not necessarily the basis of scientific research and, in molecular biology at least, they are not necessarily subject to revision either. For Perutz, Kuhn's notion that science advances in [[paradigm]] shifts that are subject to social and cultural pressures is an unfair representation of modern science.

These criticisms extended to scientists who attack religion, in particular to Dawkins. Statements which offend people's religious faith were for Perutz tactless and simply damage the reputation of science, though he did not criticize scientists opposing "demonstrably false" theories such as [[creationism]]. He concluded that "even if we do not believe in God, we should try to live as though we did."<ref>Patel, Kam [http://www.timeshighereducation.co.uk/story.asp?storyCode=154140&sectioncode=26 ''Perutz rubbishes Popper and Kuhn''], The Times Higher Education Supplement, 25 November 1994</ref>

Within days of the [[11 September attacks]] in 2001, Perutz wrote to British Prime Minister [[Tony Blair]], appealing to him to not respond with military force: "I am alarmed by the American cries for vengeance and concerned that President Bush's retaliation will lead to the death of thousands more innocent people, driving us into a world of escalating terror and counter-terror. I do hope that you can use your restraining influence to prevent this happening."<ref>Max Perutz and the Secret of Life, By Georgina Ferry. 352 pp., illustrated. Cold Spring Harbor, NY, Cold Spring Harbor Laboratory Press, 2008 {{ISBN|978-0-87969-785-3}}. p. 283 in UK version</ref>

===Honours and awards===
Perutz was elected a [[List of Fellows of the Royal Society elected in 1954|Fellow of the Royal Society (FRS) in 1954]].<ref name=frs/> In addition to the [[Nobel Prize for Chemistry]] in 1962, which he shared with [[John Kendrew]] for their respective studies of the structures of haemoglobin and myoglobin,<ref name="Stoddart">{{cite journal |last1=Stoddart |first1=Charlotte |title=Structural biology: How proteins got their close-up |journal=Knowable Magazine |date=1 March 2022 |doi=10.1146/knowable-022822-1|s2cid=247206999 |doi-access=free |url=https://knowablemagazine.org/article/living-world/2022/structural-biology-how-proteins-got-their-closeup |access-date=25 March 2022}}</ref> Max Perutz received a number of other important honours: he was appointed a [[Commander of the Order of the British Empire]] in 1963, elected to the [[American Academy of Arts and Sciences]] that same year,<ref>{{Cite web |title=Max Ferdinand Perutz |url=https://www.amacad.org/person/max-ferdinand-perutz |access-date=2022-09-16 |website=American Academy of Arts & Sciences |language=en}}</ref> received the [[Austrian Decoration for Science and Art]] in 1967, was elected to the [[American Philosophical Society]] in 1968,<ref>{{Cite web |title=APS Member History |url=https://search.amphilsoc.org/memhist/search?creator=Max+Perutz&title=&subject=&subdiv=&mem=&year=&year-max=&dead=&keyword=&smode=advanced |access-date=2022-09-16 |website=search.amphilsoc.org}}</ref> elected to the United States [[National Academy of Sciences]] in 1970,<ref>{{Cite web |title=Max F. Perutz |url=http://www.nasonline.org/member-directory/deceased-members/45945.html |access-date=2022-09-16 |website=www.nasonline.org}}</ref> received the [[Royal Medal]] of the [[Royal Society]] in 1971, appointed a [[Member of the Order of the Companions of Honour]] in 1975, received the [[Copley Medal]] in 1979 and became a [[Member of the Order of Merit]] in 1988.

Perutz was made a Member of the [[German Academy of Sciences Leopoldina]] in 1964, received an Honorary doctorate from the [[University of Vienna]] (1965) and received the [[Wilhelm Exner Medal]] in 1967.<ref>editor, ÖGV. (2015). Wilhelm Exner Medal. Austrian Trade Association. ÖGV. Austria.</ref> He was elected to [[EMBO Membership]] in 1964.<ref name=membo>{{cite web|url=https://people.embo.org/profile/max-f-perutz|website=people.embo.org|title=Max Perutz EMBO member|author=Anon|year=1964}}</ref>

The [[European Crystallographic Association]] established the Max Perutz Prize, named in his honour.{{citation needed|date=July 2022}}

===Lectures===
In 1980, Perutz was invited to deliver one of the six lectures for the [[Royal Institution Christmas Lectures]] on ''The Chicken, the Egg and the Molecules''.<ref>{{Cite web |title=The chicken, the egg and the molecules – Haemoglobin: the breathing molecule (1980)  |url=https://www.rigb.org/explore-science/explore/video/chicken-egg-and-molecules-haemoglobin-breathing-molecule-1980 |access-date=2023-05-17 |website=The Royal Institution of Great Britain|date=5 December 1980 }}</ref>

===Books===
*1962. ''Proteins and Nucleic Acids: Structure and Function''. Amsterdam and London. Elsevier{{ISBN missing}}
*1989. ''Is Science Necessary? Essays on science and scientists''. London. Barrie and Jenkins. {{ISBN|0-7126-2123-7}}
*1990. ''Mechanisms of Cooperativity and Allosteric Regulation in Proteins.'' Cambridge. Cambridge University Press {{ISBN|0-521-38648-9}}
*1992. ''Protein Structure: New Approaches to Disease and Therapy.'' New York. Freeman. {{ISBN|0-7167-7021-0}}
*1997. ''Science is Not a Quiet Life: Unravelling the Atomic Mechanism of Haemoglobin.'' Singapore. World Scientific. {{ISBN|981-02-3057-5}}
*2002. ''I Wish I’d Made You Angry Earlier. ''Cold Spring Harbor, New York. Cold Spring Harbor Laboratory Press. {{ISBN|978-0-87969-674-0}}
*2009. ''What a Time I Am Having: Selected Letters of Max Perutz'' edited by Vivien Perutz. Cold Spring Harbor, New York. Cold Spring Harbor Laboratory Press. {{ISBN|978-0-87969-864-5}}