Venki Ramakrishnan

Venkatraman "Venki" Ramakrishnan (born 1952) is a British-American structural biologist.

Ramakrishnan was born in 1952 in Chidambaram in Cuddalore district of Tamil Nadu, India.

His parents, Prof. C. V. Ramakrishnan and Prof. Rajalakshmi Ramakrishnan were both scientists, and his father was head of the department of biochemistry at the Maharaja Sayajirao University of Baroda.

At the time of his birth, Ramakrishnan's father was away from India doing postdoctoral research with David E. Green at the University of Wisconsin–Madison in the US.

Ramakrishnan's mother obtained a PhD in psychology from McGill University in 1959, completing it in only 18 months, and was mentored, among others, by Donald O. Hebb.

Ramakrishnan has one sibling, his younger sister Lalita Ramakrishnan, who is professor of immunology and infectious diseases at the department of medicine, University of Cambridge, and a member of the National Academy of Sciences.

Ramakrishnan moved to Vadodara (previously also known as Baroda) in Gujarat at the age of three, where he had his entire schooling at the Convent of Jesus and Mary, except for a year and a half (1960–61) which he and his family spent in Adelaide, Australia.

Following his pre-science at the Maharaja Sayajirao University of Baroda, he did his undergraduate studies in the same university on a National Science Talent Scholarship, graduating with a Bachelor of Science degree in physics in 1971.

At the time, the physics course at Baroda was new, and based in part on the Berkeley Physics Course and The Feynman Lectures on Physics.

Immediately after graduation he moved to the US, where he obtained his Doctor of Philosophy degree in physics from Ohio University in 1976 for research into the ferroelectric phase transition of potassium dihydrogen phosphate (KDP) supervised by Tomoyasu Tanaka.

Then he spent two years studying biology as a graduate student at the University of California, San Diego while making a transition from theoretical physics to biology.

Ramakrishnan began work on ribosomes as a postdoctoral fellow with Peter Moore at Yale University.

After his post-doctoral fellowship, he initially could not find a faculty position even though he had applied to about 50 universities in the United States.

He continued to work on ribosomes from 1983 to 1995 as a staff scientist at Brookhaven National Laboratory.

In 1995, he moved to the University of Utah as a professor of biochemistry, and in 1999, he moved to his current position at the Medical Research Council Laboratory of Molecular Biology in Cambridge, England, where he had also been a sabbatical visitor during 1991–92 on a Guggenheim Fellowship.

Since 1999, he has worked as a group leader at the Medical Research Council (MRC) Laboratory of Molecular Biology (LMB) on the Cambridge Biomedical Campus, UK and is a Fellow of Trinity College, Cambridge.

In 1999, Ramakrishnan's laboratory published a 5.5 angstrom resolution structure of the 30S subunit.

The following year, his laboratory determined the complete molecular structure of the 30S subunit of the ribosome and its complexes with several antibiotics.

This was followed by studies that provided structural insights into the mechanism that ensures the fidelity of protein biosynthesis.

Ramakrishnan was elected a Member of the European Molecular Biology Organization in 2002, a Fellow of the Royal Society (FRS) in 2003, and a Member of the U.S. National Academy of Sciences in 2004.

In 2007, his laboratory determined the atomic structure of the whole ribosome in complex with its tRNA and mRNA ligands.

In 2007, Ramakrishnan was awarded the Louis-Jeantet Prize for Medicine and the Datta Lectureship and Medal of the Federation of European Biochemical Societies (FEBS).

In 2008, Ramakrishnan won the Heatley Medal of the British Biochemical Society, and became a Fellow of Trinity College, Cambridge and a foreign Fellow of the Indian National Science Academy.

He shared the 2009 Nobel Prize in Chemistry with Thomas A. Steitz and Ada Yonath for research on the structure and function of ribosomes.

Ramakrishnan was awarded the Nobel Prize in Chemistry in 2009, along with Thomas A. Steitz and Ada Yonath.

He received India's second highest civilian honor, the Padma Vibhushan, in 2010.

He has been a member of the German Academy of Sciences Leopoldina and an Honorary Fellow of the Academy of Medical Sciences (Hon FMedSci) since 2010.

He has received honorary degrees from the Maharaja Sayajirao University of Baroda, University of Utah and University of Cambridge.

He is also an Honorary Fellow of Trinity College, Cambridge, Somerville College, Oxford, and The Queen's College, Oxford.

Ramakrishnan was knighted in the 2012 New Year Honours for services to molecular biology, but does not generally use the title "Sir".

That same year, he was awarded the Sir Hans Krebs Medal by the FEBS.

Since 2013, he has used Cryogenic electron microscopy to work primarily on eukaryotic and mitochondrial translation.

Ramakrishnan is also known for his past work on histone and chromatin structure.

his most cited papers (according to Google Scholar ) have been published in Nature, Science, and Cell.

He served as President of the Royal Society from 2015 to 2020.

Ramakrishnan's term as president of the Royal Society from 2015-2020 was dominated by Brexit and, in his final year, the COVID-19 pandemic and its response.

In an interview in July 2018, he said that Britain's decision to leave the European Union was hurting Britain's reputation as a good place to work in science, commenting "It's very hard for the science community to see any advantages in Brexit. They are pretty blunt about that."

He saw advantages to both the UK and the EU for Britain to continue to be engaged in Galileo and Euratom, which, unlike the European Medicines Agency, are not EU agencies.

Ramakrishnan argued that a no-deal Brexit would harm science.

Ramakrishnan wrote, "A deal on science is in the best interests of Europe as a whole and should not be sacrificed as collateral damage over disagreements on other issues. If we are going to successfully tackle global problems like climate change, human disease and food security, we can't do so in isolation. There is no scenario where trashing our relationships with our closest scientific collaborators in the EU gets us closer to these goals."