Department of Biochemistry University of Oxford Department of Biochemistry
University of Oxford
South Parks Road
Oxford OX1 3QU

Tel: +44 (0)1865 613200
Fax: +44 (0)1865 613201
Image showing the global movement of lipids in a model planar membrane
Matthieu Chavent, Sansom lab
Anaphase bridges in fission yeast cells
Whitby lab
Lactose permease represented using bending cylinders in Bendix software
Caroline Dahl, Sansom lab
Epithelial cells in C. elegans showing a seam cell that failed to undergo cytokinesis
Serena Ding, Woollard lab
Collage of Drosophila third instar larva optic lobe
Lu Yang, Davis lab
First year Biochemistry students at a practical class
Bootstrap Slider

The Joel Mandelstam Lectures

The Eighth Joel Mandelstam Lecture
Thursday 10th November 2016, at 4.00 p.m.
Seminar Room, New Biochemistry

Professor Dr. Bert Poolman
Department of Biochemistry,
University of Groningen,
The Netherlands
(Professor Dr. Bert Poolman : A brief biosketch)
"In vitro construction of a metabolic network for cell volume regulation"

- -

The Seventh Joel Mandelstam Lecture
Thursday 19th November 2015, at 4.00 p.m.
Seminar Room, New Biochemistry

Professor Neil Hunter FRS
Krebs Chair in Biochemistry,
University of Sheffield
"The structure and organization of photosynthetic membranes and the prospects for engineering new capabilities for utilizing solar energy"

- -

The Sixth Joel Mandelstam Lecture
Monday 17th November 2014, at 4.00 p.m.
Seminar Room, New Biochemistry

Professor Susan Golden
Distinguished Professor,
Section of Molecular Biology, UCSD
(UCSD Susan S. Golden Page)
How Cyanobacteria Tell Time

- -

The Fifth Joel Mandelstam Lecture
Monday 26th November 2013, at 4.00 p.m.
Seminar Room, New Biochemistry

Dr. Gisela Storz
Cell Biology and Metabolism Program,
National Institutes of Health,
Maryland, USA
(Dr. Gisela Storz : A brief biosketch)
The genes that were missed:  an expanding universe of small RNAs and small proteins

- -

The Fourth Joel Mandelstam Lecture
Monday 12th November 2012, at 4.00 p.m.
Seminar Room, New Biochemistry

Professor Thomas J. Silhavy
Warner-Lambert Parke-Davis Professor,
Department of Molecular Biology,
Princeton University
(Short Biography)
Outer Membrane Biogenesis in Gram-Negative Bacteria

- -

The Third Joel Mandelstam Lecture
Rescheduled: Wednesday, 22nd February 2012, at 4.00 p.m.
MSTC Lecture Theatre, Medical Sciences Division

Professor Pascale Cossart
(Institut Pasteur - Short Biography)
Recent lessons from Listeria monocytogenes, a magnificent model in infection biology

- -

The Second Joel Mandelstam Lecture

Thursday, 25rd November 2010, at 4.00 p.m.
MSTC Lecture Theatre, Medical Sciences Division

Professor Bonnie Bassler
(Squibb Professor of Molecular Biology,
Princeton University - Short Biography)
Manipulating Quorum Sensing to Control Bacterial Pathogenicity

- -

The Inaugural Joel Mandelstam Lecture

Monday, 23rd November 2009, at 4.00 p.m.
MSTC Lecture Theatre, Medical Sciences Division

Jeff Errington FRS
(Director of the Centre for Bacterial Cell Biology, and
the Institute for Cell and Molecular Biosciences,
at Newcastle University)
Spores, antibiotics and the cell cycle

Joel Mandelstam was a pioneer in using bacteria to study fundamental biological phenomena, such as development, which had more usually been investigated in higher organisms. The latter part of his career was spent in research into spore formation, a feature of certain bacteria.

Professor Joel Mandelstam

Professor Joel Mandelstam, FRS

When spore-formers are result in the development of the smaller cell into a heat-resistant spore, while the larger cell, having contributed essential components to its fellow, finally bursts and disappears. Mandelstam saw spore formation as a valuable model for both development and differentiation, and the many students, post-doctoral workers and visitors who worked with him during his tenure of the Professorship of Microbiology in Oxford were witness to the creative imagination and rigour with which he exploited this fruitful insight.

Joel Mandelstam was born in Johannesburg to Leo and Fanny Mandelstam, a Jewish couple of Lithuanian origin, and educated at Jeppe High School. While studying for a BSc at the University of Witwatersrand he initiated and ran, together with a group of friends, a voluntary night school, teaching mainly reading, writing and arithmetic to adult Africans who had had no formal education. From 1942 to 1947 he was a Research Assistant to Dr. Joseph Gilman at the Medical School in Johannesburg.

In 1947 Mandelstam came to London to work for a PhD with John Yudkin on “enzyme adaptation”, the synthesis in microbes of a new enzyme in response to the introduction into their environment of a substance on which the enzyme acts. On moving to the National Institute for Medical Research at Mill Hill, northwest London, he continued to pursue his interest in this phenomenon.

Enzyme adaptation was well known as a characteristic of growing bacteria, but, in a series of incisive experiments in the late 1950s and early 1960s, Mandelstam showed that starved bacteria could also make new enzymes and that they did this largely by degrading proteins that they no longer needed and recycling the constituent “building blocks” (the amino acids). Thus proteins, which had previously been thought to be stable, were in fact in a state of turnover.

This important discovery, broadly generalisable across biology, helped to establish Mandelstam’s reputation, and this was further enhanced by his unravelling the complex regulation of a multi-enzyme metabolic pathway in the soil bacterium Pseudomonas fluorescens. He was elected to the Royal Society in 1971.

Meanwhile, the Iveagh Professorship of Microbiology at the University of Oxford had become vacant through the death of D.D. Woods in 1964. The electors decided to offer the chair to Mandelstam, whose originality and clarity of thought were already becoming evident, rather than to make the more conventional choice of electing a classical bacteriologist. After some hesitation Mandelstam agreed to accept the professorship.

In the event his tenure was an uninterrupted success. With the opportunity to assemble a larger team of researchers, he initiated an important new project to understand spore formation in the bacterium Bacillus subtilis. He became a leading figure in this field internationally, and over the next 20 years his group made major contributions in finding and characterising the key genes involved in controlling development and in determining when, where and how the genes were turned on and off.

During his time at Oxford Mandelstam trained and mentored a large number of researchers who went on to establish their own independent scientific careers. He was generous in allowing the people in his group to follow their own intuition. Unlike many successful and ambitious scientists, he would not add his name to scientific papers from his lab if he believed that he had not made a sufficient contribution to the work. Nor was he the type of scientist to spend time in self-advertisement by rushing from one international conference to another.

He was soft-spoken, courteous and self-effacing, but his reticence was in no way due to timidity or to a lack of self-confidence. He had a just sense of what he and his group had accomplished, and he took great pleasure in the success of his junior associates. He was not seduced by the Byzantine politics of Oxford administration, and he did not seek power. He seldom spoke at faculty meetings, but when he did he was listened to with respect, since his colleagues appreciated his integrity, objectivity and good judgement.

Mandelstam was married twice: first to Dorothy Hillier, and from 1975 until his death to Maureen Dale, who survives him together with the son and daughter of his first marriage.

Professor Joel Mandelstam, FRS, Biochemist and Microbiologist, was born on 13th November 1919, he died on 20th December 2008 aged 89.






Related Information

Share This