Organization:Laboratory of Molecular Biology

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MRC Laboratory of Molecular Biology
Cmglee Cambridge LMB train.jpg
The new building of the LMB viewed from the Cambridgeshire Guided Busway bridge in June 2013
AbbreviationMRC LMB
Location
  • Cambridge, UK
Coordinates [ ⚑ ] : 52°10′35″N 0°08′35″E / 52.1763°N 0.1430°E / 52.1763; 0.1430
FieldsMolecular biology
Director
Jan Löwe
Parent organization
Medical Research Council
Websitewww2.mrc-lmb.cam.ac.uk

The Medical Research Council (MRC) Laboratory of Molecular Biology (LMB) is a research institute in Cambridge, England , involved in the revolution in molecular biology which occurred in the 1950–60s. Since then it has remained a major medical research laboratory with a much broader focus.

A new replacement building constructed close by to the original site on the Cambridge Biomedical Campus was opened in May 2013. The road outside the new building is named Francis Crick Avenue after the 1962 joint Nobel Prize winner, who co-discovered the helical structure of DNA in 1953.

History

Origins: 1947-61

Max Perutz, following an undergraduate training in organic chemistry, left Austria in 1936 and came to the University of Cambridge to study for a PhD, joining the X-ray crystallographic group led by J.D. Bernal. Here, in the Cavendish laboratory, he started his lifelong work on hemoglobin. The death of Lord Rutherford led to his successor, Lawrence Bragg, a pioneer in X-ray crystallography, becoming the new Cavendish professor of physics in 1938. Bragg became a major supporter of Perutz and his group in those early days.

After World War II, many scientists from the physical side of science turned to biology, bringing with them a new way of thinking and expertise. John Kendrew joined Perutz's group to study a protein closely related to hemoglobin — myoglobin — in 1946. In 1947, the Medical Research Council (MRC), under the guidance of its Secretary Harold Himsworth, decided to form and support the “MRC Unit for the Study of the Molecular Structure of Biological Systems”. The group, which by 1948 also included Hugh Huxley working on muscle, was joined in 1949 by Francis Crick, who worked initially on protein crystallography. In 1951 they were joined by James Watson.

1953 was an annus mirabilis: Watson and Crick discovered the double-helical structure of DNA, which revealed that biological information was encoded in a linear structure and how this information could be duplicated during cell division. Perutz discovered that the detailed three-dimensional structures of proteins, such as myoglobin and hemoglobin could, in principle, be solved by X-ray analysis using a heavy metal atom labeling technique. Hugh Huxley discovered that muscle contraction works by a sliding filament mechanism.

In 1957 the group's name was changed to the “MRC Unit for Molecular Biology”. Also that year, Vernon Ingram discovered that the disease sickle cell anaemia is caused by a single amino acid change in the hemoglobin molecule and Sydney Brenner joined the Unit. In 1958, Crick's review “On Protein Synthesis” appeared: this laid out, for the first time, the central dogma of molecular biology, the sequence hypothesis and the adaptor hypothesis. In 1961 Brenner helped discover messenger RNA and, in the same year, he and Crick established that the genetic code was read in triplets.

All this work was accomplished in a single-storey temporary building (The Hut), a few rooms in the Austin Wing, a room with a lean-to glass front (The Greenhouse) and a short sealed off corridor (The Gallery) within the Cavendish laboratory.[1]

Opening of the LMB in 1962

The LMB building until 2012. The white structure is a new lecture hall added to the old building.

The MRC built a new Laboratory on the outskirts of Cambridge — the LMB — into which the Unit from the Cavendish moved in early 1962. Additionally, Fred Sanger's Unit which had been housed in the University's Biochemistry department joined them, as did Aaron Klug from London. Sanger had invented methods for determining the sequence of amino acids in a protein: he was awarded the Nobel prize for chemistry in 1958 for the first protein sequence, that of insulin. The new laboratory was opened by Queen Elizabeth II in 1962. Later that year, Kendrew and Perutz shared the Nobel prize for chemistry and Crick and Watson received a share of the Nobel prize for physiology or medicine. The LMB building was incorporated into the new Addenbrooke's Hospital complex as this was constructed in the 1970s.[2]

The new LMB had Perutz as its chairman and contained 3 divisions: Structural Studies, headed by Kendrew; Molecular Genetics (Crick); Protein Chemistry (Sanger). In all, there were about 40 scientists but this number rapidly increased, particularly with a large influx of post-doctoral visitors from the US.[1]

Molecular Biology: after 1962

During the next decade, molecular biology the world over flourished, the outline bones of the 1950s now having flesh put on them. The detailed 3-D atomic structures of a series of proteins, and how they function, were deduced. These included myoglobin, hemoglobin and chymotrypsin, the last by David Blow. The genetic code, from evidence around the world, was assembled by Crick. Punctuation signals in the messenger RNA — where to start translating the RNA into a protein sequence, and where to stop — were discovered by postdoctoral fellow Joan A. Steitz.[3] Crick suggested how the tRNA molecules — his original adaptors — read the messenger in his wobble hypothesis. Sanger devised new methods for sequencing RNA molecules and then later for DNA molecules (for which he received a second Nobel prize in chemistry in 1980). Much later, this line was extended to include determining the sequence of whole genomes, in which John Sulston played a key role. How tRNA precursor molecules are processed to give a functional tRNA was elucidated by John Smith and Sid Altman, and this later led to the discovery of ribozymes. The atomic structure of the first tRNA molecule was solved and zinc fingers discovered by Klug (who received the Nobel prize for chemistry in 1982). The structure of the ATP synthase was solved by John E. Walker and Andrew Leslie, for which Walker shared the Nobel prize for chemistry in 1997.[1] The structure of the ribosome was solved by Venkatraman Ramakrishnan, for which he shared the Nobel prize for chemistry in 2009.[4]

1960s: Development and C.elegans

A laboratory at the new LMB building in June 2013

Towards the end of the 1960s decade, it seemed that new problems in biology could be solved using the approaches which proved so successful in molecular biology.

Sydney Brenner started working on the genetics of the nematode C.elegans in 1965. This group expanded, especially with many foreign visitors who today form the core of C.elegans research. Sulston determined the cell lineage of this small worm and John Graham White the entire wiring diagram of its nervous system. Robert Horvitz, who helped in the cell lineage, was to share the Nobel prize for physiology or medicine with Brenner and Sulston in 2002. Jonathan Hodgkin established the genetic pathway in C.elegans which controls sex determination. John Gurdon developed the use of the frog oocyte to translate mRNAs, sharing the 2012 Nobel Prize for physiology or medicine for his earlier work showing that genetic information remains intact during development.

Peter Lawrence came to study pattern formation, helping discover how compartments in Drosophila determine the fly's body plan. Under his influence, Crick also became interested in morphogenetic gradients and how they may help specify biological patterns.

Immunology

César Milstein had over many years been working on antibody variation. He was joined in this by Georges Köhler and, together, they discovered how to produce monoclonal antibodies. For this they shared the Nobel prize for physiology or medicine in 1984. This area was extended by Greg Winter[5] who pioneered antibody engineering to make novel human antibodies and antibody fragments. Both monoclonal antibodies and their fragments are now of major medical importance.

Michael Neuberger discovered the mechanism by which antibody diversification occurs by Activation-induced (cytidine) deaminase. This fundamental discovery is the keystone to understanding the molecular mechanism by which organisms can produce a diverse repertoire of antibodies to recognise new pathogens. This of wider importance in understanding the role of directed mutagenesis and DNA repair in physiology. Finally, the molecular mechanisms elucidated by Neuberger may be of great importance in understanding the mutational pattern of kataegis in breast cancer. Sadly, Michael Neuberger died from myeloma - the irony of which was not lost on him.

Cell biology

Atrium of the new building at night

The emphasis on classical molecular biology shifted towards cell biology and development, so that the Molecular Genetics division was renamed Cell Biology. Mark Bretscher discovered the topological way proteins are arranged in the human erythrocyte membrane and its phospholipid asymmetry. Richard Henderson and Nigel Unwin developed electron crystallography to determine the structure of two-dimensional arrays, applying this to the bacterial purple protein, bacteriorhodopsin. Barbara Pearse discovered the major components of clathrin-coated vesicles, structures formed during endocytosis, and a low resolution structure of the cage-like lattice around them was determined. How proteins become localised to different parts of the cell — such as to the endoplasmic reticulum, Golgi apparatus or the plasma membrane — and the role of this in cell polarity, have been elucidated by Bretscher, Hugh Pelham[6] and Sean Munro. The spindle pole bodies — the large structures in yeast cells which act as the foci to which chromosomes are moved during mitosis — have been purified and a low resolution structure of them deduced by John Kilmartin.[7]

A continuing interest has been the structure of chromosomes. This was initiated by a visitor, Roger Kornberg, who discovered the first level of condensation of DNA, the nucleosome, and continues with the focus on understanding the higher orders of folding DNA.

Neurobiology

A new division of Neurobiology was created in 1993 with a wide variety of topics. Unwin has further developed electron crystallography and solved the structure of the acetylcholine receptor, which activates many neurons. Michel Goedert has identified variant proteins associated with Alzheimer's disease.

Instrumentation

Scientific advances often depend on technological advances: the LMB has been at the forefront of many of these. Some major examples include nucleic acid sequencing, protein and antibody engineering, construction of new X-ray equipment and the invention of the scanning confocal microscope.[1]

Administrative structure

A public lecture at the new building

The LMB has a deliberately simple administrative environment.[8] From outside the LMB, the parent MRC ensured that the quinquennial assessment had a light touch: only a brief explanation of past achievements and an indication of where future plans lay were required by the external committee. Their recommendations were simply advisory, leaving the division leaders a free hand as to how to run their affairs: they were assumed to know best.[citation needed]

Within the LMB, Perutz's criterion of how to arrange things was that the act of doing science should be facilitated at all levels. The LMB had a single budget: there were no personal budgets or equipment — everything was communal. It had state of the art equipment and was well financed by the MRC.[citation needed] Chemical reagents, glassware and other expendables could be withdrawn from a single store with only a signature required. Key to the smooth functioning of the lab was Michael Fuller, who was responsible for its day-to-day running.[9]

There was no overt hierarchy; everyone was on first-name terms. Most members of the lab met freely in the canteen, which was said to assist inter-divisional communication and collaboration.[1] Today the LMB has around 400 scientists, of whom 130 are postdoctoral researchers and 90 students. The new building (situated on the Cambridge Biomedical Campus) was opened in 2013[10] and has four seminar rooms named after LMB scientists: Sydney Brenner, Aaron Klug, César Milstein and Frederick Sanger, as well as another lecture theatre named after the late Max Perutz.

Groups at the LMB

(As of 2018) there are around fifty group leaders[5][11] Groups are part of one of the four divisions of the LMB: Cell Biology, Neurobiology, Protein and Nucleic Acid Chemistry and Structural Studies. (As of 2018) group leaders include the following people:


Emeritus

The LMB is also home to a number of Emeritus Scientists, pursuing their research interests in the Laboratory after their formal retirement[11] including:


Alumni

Scientific staff of the LMB who have been awarded individually or have shared Nobel prizes[25][26][27] are:


Visitors who received a Nobel prize for work done, or initiated at the LMB and alumni include:


Other notable LMB alumni include:


References

  1. 1.0 1.1 1.2 1.3 1.4 John Finch; A Nobel Fellow On Every Floor, Medical Research Council 2008, 381 pp, ISBN:978-1-84046-940-0
  2. http://www.medschl.cam.ac.uk/lmb-past-present-future/
  3. J. A. Steitz, (1969) "Polypetide Chain Initiation: Nucleotide Sequences of the Three Ribosomal Binding Sites in Bacteriophage R17 RNA," Nature 224 (5223):957-964.
  4. Nobel Laureates in Chemistry 2009
  5. 5.0 5.1 Pelham, Hugh (2013). "Building for the future". eLife 2. doi:10.7554/eLife.00856. PMID 23741620. 
  6. "PELHAM, Sir Hugh (Reginald Brentnall)". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U30466.  (subscription or UK public library membership required) (Subscription content?)
  7. 7.0 7.1 "MARTIN, Dr John Vincent". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U43561.  (subscription or UK public library membership required) (Subscription content?)
  8. Wong, Min-Liang (2012). "LMB Cambridge: Bureaucracy bypass let research flourish". Nature 490 (7421): 487. doi:10.1038/490487e. PMID 23099394. Bibcode2012Natur.490..487W. 
  9. Cleaver, J. E. (2003). "Cambridge Laboratory of Molecular Biology". Science 300 (5627): 1875c. doi:10.1126/science.300.5627.1875c. 
  10. "Her Majesty the Queen opens the new MRC Laboratory of Molecular Biology". Cambridge University. 23 May 2013. http://www.cam.ac.uk/news/her-majesty-the-queen-opens-the-new-mrc-laboratory-of-molecular-biology. Retrieved 20 June 2013. 
  11. 11.0 11.1 "Group Leaders - MRC Laboratory of Molecular Biology". 2018. Archived from the original on 2014-10-26. https://web.archive.org/web/20141026011715/http://www2.mrc-lmb.cam.ac.uk/group-leaders/. 
  12. "BIENZ, Dr Mariann, (Lady Pelham)". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U44039.  (subscription or UK public library membership required) (Subscription content?)
  13. "HASTINGS, Dr Michael Harvey". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U251428.  (subscription or UK public library membership required) (Subscription content?)
  14. "LÖWE, Dr Jan". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U255866.  (subscription or UK public library membership required)
  15. Short, B. (2011). "Harvey Mc Mahon: Ahead of the curve on membrane dynamics". The Journal of Cell Biology 193 (4): 598–9. doi:10.1083/jcb.1934pi. PMID 21576387. 
  16. Anon (2016). "Munro, Dr (Bruce) Sean". Who's Who (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. doi:10.1093/ww/9780199540884.013.U256393. https://www.ukwhoswho.com/view/article/oupww/whoswho/U256393.  (subscription or UK public library membership required) (Subscription content?)
  17. Raper, V. (2011). "A Nobel Prize-Winning Culture". Science. doi:10.1126/science.caredit.a1100063. 
  18. Nair, Prashant (2011). "Profile of Venkatraman Ramakrishnan". Proceedings of the National Academy of Sciences 108 (38): 15676–15678. doi:10.1073/pnas.1113044108. PMID 21914843. Bibcode2011PNAS..10815676N.  open access
  19. Anon (2014). "365 daysm Nature's 10: Ten people who mattered this year". Nature 516 (7531): 311–9. doi:10.1038/516311a. PMID 25519114. Bibcode2014Natur.516..311.. 
  20. "CHOTHIA, Cyrus Homi". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U10866.  (subscription or UK public library membership required) (Subscription content?)
  21. "Dr Richard Crowther FMedSci FRS". London: Royal Society. Archived from the original on 2015-11-17. https://web.archive.org/web/20151117010217/https://royalsociety.org/people/richard-crowther-11284/. 
  22. "CROWTHER, Dr Richard Anthony". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U12464.  (subscription or UK public library membership required) (Subscription content?)
  23. "EVANS, Dr Philip Richard". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U45634.  (subscription or UK public library membership required) (Subscription content?)
  24. "LESLIE, Dr Andrew Greig William". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U42371.  (subscription or UK public library membership required) (Subscription content?)
  25. John Finch; 'A Nobel Fellow On Every Floor', Medical Research Council 2008, 381 pp, ISBN:978-1-84046-940-0; this book is all about the MRC Laboratory of Molecular Biology, Cambridge.
  26. LMB Archives
  27. The Nobel Laureates of the LMB
  28. Walker, John (2014). "Frederick Sanger (1918–2013)". Nature 505 (7481): 27. doi:10.1038/505027a. PMID 24380948. Bibcode2014Natur.505...27W. 
  29. Blow, D.M. (2004). "Max Ferdinand Perutz OM CH CBE. 19 May 1914 - 6 February 2002: Elected F.R.S. 1954". Biographical Memoirs of Fellows of the Royal Society 50: 227–56. doi:10.1098/rsbm.2004.0016. PMID 15768489. 
  30. Rich, Alexander; Stevens, Charles F. (2004). "Obituary: Francis Crick (1916–2004)". Nature 430 (7002): 845–7. doi:10.1038/430845a. PMID 15318208. Bibcode2004Natur.430..845R. 
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  32. Rajewsky, Klaus (2002). "ObituaryCésar Milstein (1927–2002)". Nature 416 (6883): 806. doi:10.1038/416806a. PMID 11976669. Bibcode2002Natur.416..806R. 
  33. Friedberg, Errol C. (2008). "Sydney Brenner". Nature Reviews Molecular Cell Biology 9 (1): 8–9. doi:10.1038/nrm2320. PMID 18159633. 
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  35. Rajewsky, K. (2014). "Michael S. Neuberger 1953-2013". Proceedings of the National Academy of Sciences 111 (8): 2862–3. doi:10.1073/pnas.1401334111. PMID 24532658. Bibcode2014PNAS..111.2862R. 
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  37. "NAGAI, Kiyoshi". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U29142.  (subscription or UK public library membership required) (Subscription content?)
  38. "PROUDFOOT, Prof. Nicholas Jarvis". Who's Who. 2016 (online Oxford University Press ed.). A & C Black, an imprint of Bloomsbury Publishing plc. https://www.ukwhoswho.com/view/article/oupww/whoswho/U45811.  (subscription or UK public library membership required) (Subscription content?)
  39. Skipper, M.; Milne, C. A.; Hodgkin, J. (1999). "Genetic and molecular analysis of fox-1, a numerator element involved in Caenorhabditis elegans primary sex determination". Genetics 151 (2): 617–631. PMID 9927456.  open access
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