Jake MacMillan explained

Jake MacMillan
Birth Name:John MacMillan
Birth Date:1924 9, df=y
Birth Place:Wishaw
Resting Place:Pucklechurch
Fields:Plant hormones
Workplaces:Imperial Chemical Industries
University of Bristol
UCLA
Long Ashton Research Station
Education:Lanark Grammar School
Alma Mater:University of Glasgow
Thesis Year:1948
Doctoral Advisor:J D Loudon
Known For:Properties and structures of griseofulvins and gibberellins
Awards:See list
Spouse:Anneliese (Anne) Levy
Children:3

John MacMillan (1924–2014), always known as Jake MacMillan, was a British scientist who worked at the interface between biology and chemistry. He "became renowned for his work on isolating, naming and determining the chemical structure of gibberellins, which regulate growth and influence processes such as stem elongation and germination".[1]

Biography

John MacMillan was born on 13 September 1924 in Wishaw, Lanarkshire, and lived there for his first 10 years. His father, John,[2] like his grandfather, was a “signalman on the old London Midland and Scottish (LMS) railway line”,[3] and his mother, Barbara (née Lindsay) came from a farming background. His parents, he and his younger brother lived in a two-room tenement, in which the ‘best’ room, as was the custom then, was never used, so the family essentially lived in a single room.[4]

MacMillan gained a place in the top entry form at Lanark Grammar School.[3] Here he became very interested in chemistry and entered the University of Glasgow in 1942, to read chemistry, natural philosophy and mathematics in the first year, and chemistry and botany in the second; he graduated in 1946 with first class honours. He went on to obtain a postgraduate studentship from the Department of Scientific and Industrial Research (DSIR), enabling him to continue as a PhD student in Glasgow. He worked on the structure of colchicine, and was supervised by Dr J D Loudon. The results were published in four papers.[5]

ICI

After gaining his PhD in 1948, MacMillan was not attracted to academia, especially with its low salaries. Instead, “as luck would have it […] an ideal position with Imperial Chemical Industries (ICI) fell into my lap”.[3] He joined a small, high-powered group of organic chemists and microbiologists at The Frythe[6] in Welwyn, aiming to find potential pharmaceuticals in fungi. This resulted, inter alia, in the isolation from Penicillium spp. of the potent fungistatic agent griseofulvin.

MacMillan’s next project at ICI was on the plant hormones gibberellins, which were first known as fungal metabolites. In the 1950s the search began at the ICI Akers Research Labs to see if they existed in higher plants. A multidisciplinary team was involved in the effort, with Margaret Radler discovering that immature seeds of runner beans (Phaseolus multiflorus) were a relatively rich source (ca 0.25 μg/g). With the help of local growers about 2 metric tons of beans were processed, eventually yielding milligram quantities of Gibberellin A1 (GA1). More gibberellins were to follow and their structures determined.

There was growing international interest in these compounds, and a Gordon Conference was organised in 1957, at which MacMillan presented a paper. On the same trip he met R B Woodward, flew to California to meet Bernie Phinney[7] at Stanford, and then to New York to attend the 132nd Meeting of the American Chemical Society (ACS). MacMillan made a second trip to the USA in 1960, to attend the 138th ACS meeting in New York.

His final years at ICI were spent in overseeing the move of Akers staff to the newly-established Pharmaceutical Division at Alderley Edge, and the transfer of The Frythe to its new owners, Unilever. He did not enjoy this time away from research, and decided to apply for an academic post, despite the large cut in salary.

University of Bristol

Jake MacMillan was appointed a lecturer at Bristol in 1963. He and a colleague, Bob Binks, worked on the relatively new technique of gas chromatography (GC) in combination with mass spectrometry GC-MS to identify a range of gibberellins. The results were presented at the Sixth International Conference on Plant Growth Substances at Carleton University, Ottawa, in 1967, and published in 1969.[8] There he met and developed a life-long collaboration with Nobutaka Takahashi, leading to several visits to Japan.

MacMillan became head of the Department of Organic Chemistry in 1983. Long-term funding from the Agricultural and Food Research Council (AFRC) eased the day-to-day running of the group. He formally retired in 1990 but was able to continue for another year, taking care not to interfere with the work of his successor Thomas J Simpson, FRS.[9]

Long Ashton Research Station (LARS)

Again with funding from AFRC, Jake MacMillan was able to take up research at LARS “working at the bench and learning new methods in enzymology and molecular biology [and] for the first three years he spent six months each year in Bernie Phinney’s lab at UCLA”.[4] He also wrote reviews and many papers in the period 1990-2004. Overall, he published about 400 papers.[10]

In 2003 MacMillan returned to the School of Chemistry, University of Bristol, as Emeritus Professor and Senior Research Fellow.

Family

John MacMillan married Anneliese Levy on 20 December 1952 in the Hendon registration district.[11] They had three children:

Jake died on 12 May 2014 and was cremated in Pucklechurch.[2]

Anneliese (Anne) Levy was born in 1925; her family were refugees from Germany in the mid-1930s.[4] She studied for her PhD at The Frythe, where she and Jake met. After the move to Bristol Anne worked as a Biology teacher at the former Westwing School, Thornbury.[13]

References

  1. News: Life in brief: Professor Jake MacMillan. The Times. London. 52. 11 June 2014.
  2. Personal communication from Professor F M MacMillan, 7 June 2023
  3. MacMillan. Jake. Reflections of a Bio-organic Chemist. Annu. Rev. Plant Physiol. Plant Mol. Biol.. 47. 1. 1–21. 1996.
  4. Simpson. Thomas J.. Willis. Christine L.. 2020. John (Jake) Macmillan. 13 September 1924—12 May 2014. Biographical Memoirs of Fellows of the Royal Society. 70.
  5. For example Buchanan. G L. Cook. J W. Loudon. J D. MacMillan. J. Synthesis of Colchicine Derivatives. Nature. 162. 692. 1948.
  6. Web site: Knaggs. Jeffery. The Frythe, Welwyn, Hertfordshire. Jeff Knaggs. 9 June 2023.
  7. Web site: Bernard Orin Phinney 1917–2009. 10 June 2023.
  8. Binks. R. MacMillan. J. Pryce. R J. Plant hormones—VIII: combined gas chromatography-mass spectrometry of methyl esters of gibberellins A1 to A24 and their trimethylsilyl ethers. Phytochemistry. 8. 1. 271–284. 1969.
  9. Web site: https://web.archive.org/web/20151117114351/https://royalsociety.org/people/thomas-simpson-12278/. 2015-11-17. Professor Thomas Simpson FRS. Royal Society. London.
  10. Web site: Jake MacMillan - Publications. Chemistry Tree: The Academic Genealogy of Chemistry Researchers. 12 June 2023.
  11. Web site: Hendon Registration District. UKBMD. 16 June 2023.
  12. Web site: Professor Frankie MacMillan receives teaching prize from the Physiological Society. University of Bristol: School of Physiology, Pharmacology and Neuroscience. 12 June 2023.
  13. Web site: Westwing School, Thornbury. Avon Gardens Trust. 13 June 2023.