Brian S. Hartley

{{Short description|British biochemist and professor (1926–2021)}}

{{For|the mathematician Brian Hartley (1939–1994)|Brian Hartley}}

{{Infobox scientist

| name = Brian Hartley

| honorific_suffix = FRS

| birth_name = Brian Selby Hartley

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| birth_date = {{Birth date|df=yes|1926|4|16}}{{Who's Who | title=HARTLEY, Prof. Brian Selby | id = U19332 | volume = 2015 | edition = online Oxford University Press}}

| death_date = {{Death date and age|df=yes|2021|5|3|1926|4|16}}

| birth_place = Rawtenstall, Lancashire, England

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| education = {{Plainlist|

University of Cambridge (BA, MA)
University of Leeds (PhD)}}

| thesis_title = The chemistry and biochemistry of certain organic phosphorus esters with special reference to the inhibition of chymotrypsin

| thesis_url = http://lib.leeds.ac.uk/record=b1027598~S5

| thesis_year = 1952

| doctoral_advisor = {{Plainlist|

Bernard A. Kilby
Malcolm Dixon{{cite web|archiveurl=https://web.archive.org/web/20151230144324/http://academictree.org/chemistry/tree.php?pid=47110|archivedate=2015-12-30|url=http://academictree.org/chemistry/tree.php?pid=47110|title=Chemistry Tree – Brian S. Hartley Family Tree|publisher=academictree.org}}}}

| academic_advisors =

| doctoral_students = {{Plainlist|

Michael Neuberger{{cite journal|doi=10.1073/pnas.1401334111|title=Michael S. Neuberger 1953-2013|journal=Proceedings of the National Academy of Sciences|volume=111|issue=8|pages=2862–3|year=2014|last1=Rajewsky|first1=K.|pmid=24532658|pmc=3939883|bibcode=2014PNAS..111.2862R|doi-access=free}}{{cite thesis|degree=PhD|publisher=University of London|title=Transducing phages for analysis of gene duplications|first= Michael Samuel|last=Neuberger|year=1978|url=http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.466977|oclc=500526968}}
Gregory Winter}}

| notable_students =

| known_for = Studies of chymotrypsin

| awards =

| website = {{URL|royalsociety.org/people/brian-hartley-11577}}

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}}Brian Selby Hartley (16 April 1926 – 3 May 2021){{Cite web|url=https://www2.mrc-lmb.cam.ac.uk/brian-hartley-1926-2021/|title = Brian Hartley (1926 – 2021)|date = 7 May 2021}} FRS was a British biochemist. He was Professor of Biochemistry at Imperial College London from 1974 to 1991.{{cite web|archiveurl=https://web.archive.org/web/20151124095720/https://royalsociety.org/people/brian-hartley-11577/ |archivedate=2015-11-24 |url=https://royalsociety.org/people/brian-hartley-11577/ |title=Professor Brian Hartley FRS |publisher=Royal Society |location=London }} One or more of the preceding sentences incorporates text from the royalsociety.org website where: {{blockquote|"All text published under the heading 'Biography' on Fellow profile pages is available under Creative Commons Attribution 4.0 International License." --{{cite web|url=https://royalsociety.org/about-us/terms-conditions-policies/ |title=Royal Society Terms, conditions and policies |accessdate=2016-03-09 |url-status=bot: unknown |archiveurl=https://web.archive.org/web/20150925220834/https://royalsociety.org/about-us/terms-conditions-policies/ |archivedate=2015-09-25 }}}}{{cite journal|last1=Hartley|first1=Brian|title=The First Floor, Department of Biochemistry, University of Cambridge (1952–58)|journal=IUBMB Life|volume=56|issue=7|year=2004|pages=437–439|issn=1521-6543|doi=10.1080/15216540412331318974|pmid=15545222|s2cid=19975592}}

Education

Hartley was educated at Queens' College, Cambridge graduating with a Bachelor of Arts in 1947 followed by a Master of Arts degree in 1952. He moved to the University of Leeds where he was awarded a PhD in 1952{{cite thesis|degree=PhD|publisher=University of London|title=Transducing phages for analysis of gene duplications|first=Brian Selby|last=Hartley|year=1978|url=http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.466977|oclc=500526968}} for research supervised by Malcolm Dixon and Bernard A. Kilby.

Career and research

From 1952 to 1964, Hartley pioneered work on the sequence and mechanism of the enzyme chymotrypsin in Cambridge, and developed the use of paper chromatography to separate amino acids and peptides — an essential part of protein characterisation at that time.{{cite journal | doi= 10.1038/1841869a0| title= A Two-Dimensional System for the Separation of Amino-Acids and Peptides on Paper| year= 1959| last1= Richmond| first1= Virginia| last2= Hartley| first2= Brian S.| journal= Nature| volume= 184| issue= 4702| pages= 1869–1870| bibcode= 1959Natur.184.1869R

| s2cid= 4287417}}{{cite journal | doi= 10.1042/bj1010214| title= Location of disulphide bridges by diagonal paper electrophoresis. The disulphide bridges of bovine chymotrypsinogen A| year= 1966| last1= Brown| first1= JR| last2= Hartley| first2= BS| journal= Biochemical Journal| volume= 101| issue= 1| pages= 214–228| pmid= 5971783| pmc= 1270086}} In 1965, he became a founding member of the Medical Research Council (MRC) Laboratory of Molecular Biology (LMB), and collaborated with David Mervyn Blow{{cite journal|last1=Blow|first1=David M.|last2=Birktoft|first2=J. J.|last3=Hartley|first3=Brian S.|title=Role of a Buried Acid Group in the Mechanism of Action of Chymotrypsin|journal=Nature|volume=221|issue=5178|year=1969|pages=337–340|issn=0028-0836|doi=10.1038/221337a0|pmid=5764436|bibcode=1969Natur.221..337B|s2cid=4214520

}} in determining the structure and mechanism of chymotrypsin, as part of extensive work on chymotrypsin and related enzymes.{{cite journal | doi= 10.1042/bj0770149| title= The amino acid sequence around the reactive serine residue of some proteolytic enzymes| year= 1960| last1= Naughton| first1= M. A.| last2= Sanger| first2= F.| last3= Hartley| first3= B. S.| last4= Shaw| first4= D. C.| journal= Biochemical Journal| volume= 77| issue= 1| pages= 149–163| pmid= 13727969| pmc= 1204911}}{{cite journal | doi= 10.1146/annurev.bi.29.070160.000401| title= Proteolytic Enzymes| year= 1960| last1= Hartley| first1= B. S.| journal= Annual Review of Biochemistry| volume= 29| pages= 45–72| pmid= 14400122}}{{cite journal | doi= 10.1016/0006-3002(59)90254-9| title= The amino acid sequence around the reactive serine of elastase| year= 1959| last1= Hartley| first1= B.S.| last2= Naughton| first2= M.A.| last3= Sanger| first3= F.| journal= Biochimica et Biophysica Acta| volume= 34| pages= 243–244| pmid= 14400120}}

{{cite journal | doi= 10.1038/2071157a0| title= Evolutionary Similarities between Pancreatic Proteolytic Enzymes| year= 1965| last1= Hartley| first1= B. S.| last2= Brown| first2= J. R.| last3= Kauffman| first3= Dorothy L.| last4= Smillie| first4= L. B.| journal= Nature| volume= 207| issue= 5002| pages= 1157–1159| pmid= 5882362| bibcode= 1965Natur.207.1157H| s2cid= 4216808}}

{{cite journal | doi= 10.1038/2011284a0| title= Amino-Acid Sequence of Bovine Chymotrypsinogen-A| year= 1964| last1= Hartley| first1= B. S.| journal= Nature| volume= 201| issue= 4926| pages= 1284–1287| pmid= 14151403| bibcode= 1964Natur.201.1284H| s2cid= 11398820}} His group also showed that mammalian serine proteases, including the blood clotting cascade, had homologous structures and mechanisms, indicating a common evolutionary origin.{{cite journal | doi= 10.1098/rspb.1979.0078| title= Evolution of enzyme structure| journal= Proceedings of the Royal Society of London. Series B. Biological Sciences| year= 1979| volume= 205| issue= 1161| pages= 443–452| pmid= 42054| last1= Hartley| first1= B. S.| bibcode= 1979RSPSB.205..443H| s2cid= 32023040}} Hartley also studied other enzymes, such as aminoacyl tRNA synthetases (with Alan Fersht),{{cite journal | doi= 10.1016/0014-5793(77)80471-7| title= The amino acid sequence of tryptophanyl tRNA Synthetase from Bacillus stearothermophilus| year= 1977| last1= Winter| first1= G.P.| last2= Hartley| first2= B.S.| journal= FEBS Letters| volume= 80| issue= 2| pages= 340–342| pmid= 891985| doi-access= free| bibcode= 1977FEBSL..80..340W}}{{cite journal | doi= 10.1021/bi00672a001| title= Active site titration and aminoacyl adenylate binding stoichiometry of aminoacyl-tRNA synthetases| year= 1975| last1= Fersht| first1= Alan R.| last2= Ashford| first2= Jeremy S.| last3= Bruton| first3= Christopher J.| last4= Jakes| first4= Ross| last5= Koch| first5= Gordon L. E.| last6= Hartley| first6= Brian S.| journal= Biochemistry| volume= 14| issue= 1| pages= 1–4| pmid= 1109585}} xylose isomerase{{cite journal | doi= 10.1042/bj2890201| title= Arthrobacter D-xylose isomerase: Partial proteolysis with thermolysin| year= 1993| last1= Siddiqui| first1= K. S.| last2= Rangarajan| first2= M.| last3= Hartley| first3= B. S.| last4= Kitmitto| first4= A.| last5= Panico| first5= M.| last6= Blench| first6= I. P.| last7= Morris| first7= H. R.| journal= Biochemical Journal| volume= 289| issue= Pt 1| pages= 201–208| pmid= 8424759| pmc= 1132150}} and glucose isomerase.{{cite journal | doi= 10.1016/S0167-4838(00)00246-6| title= Glucose isomerase: Insights into protein engineering for increased thermostability| year= 2000| last1= Hartley| first1= Brian S.| last2= Hanlon| first2= Neil| last3= Jackson| first3= Robin J.| last4= Rangarajan| first4= Minnie| journal= Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology| volume= 1543| issue= 2| pages= 294–335| pmid= 11150612}}

In 1974, Hartley became Head of the Department of Biochemistry at Imperial College London, converting it into a centre for molecular biology. In 1982, he conceived the need for a discipline – biotechnology – to exploit molecular biology breakthroughs. He left the Department of Biochemistry to set up Imperial's Centre for Biotechnology, and became a founding board member of Biogen – the longest surviving genetic engineering company. Since then, Hartley has founded companies to make cheap bioethanol from waste hemicellulosic biomass, using genetically engineered compost heap microorganisms.

Awards and honours

Hartley was elected a Fellow of the Royal Society (FRS) in 1971. His certificate of election reads: {{centred pull quote|Distinguished for his studies on the structure and mode of action of the proteolytic enzymes. In particular, he has determined the complete amino acid sequence of chymotrypsinogen, a protein of 253 residues, and has studied the relationship of this structure to enzymic activity. He has developed two important new techniques in protein chemistry: the "dansyl" methods for determining sequences in peptides on a very small scale, and the "diagonal" technique for studying the distribution of disulphide bridges in proteins. His comparative studies on other pancreatic proteolytic enzymes have revealed interesting homologies, which give information about the biological origin of the proteins and their mode of action.

His earlier kinetic studies on chymotrypsin demonstrated the formation of an acyl enzyme as an intermediate in the hydrolysis reaction.{{cite web

|url=https://collections.royalsociety.org/DServe.exe?dsqIni=Dserve.ini&dsqApp=Archive&dsqDb=Catalog&dsqCmd=show.tcl&dsqSearch=(RefNo==%27EC%2F1971%2F10%27)

|title=Certificate of election EC/1971/10: EC/1971/10

|publisher=Royal Society

|archivedate=2014-08-05

|archiveurl=https://web.archive.org/web/20140805042155/https://royalsociety.org/people/fellowship/2014/rajesh-thakker/

|location=London

|url-status=dead

}}}}

References

Category:1926 births

Category:2021 deaths

Category:Fellows of the Royal Society

Category:British biochemists

Category:Academics of Imperial College London

Category:Alumni of Queens' College, Cambridge

Category:Alumni of the University of Leeds

Category:People from Rawtenstall