Though Ramachandran trained to be a physicist, he later took a fascination towards Biology and his creation of the Ramachandran plot for understanding peptide structure. He was the first to propose a triple-helical model for the structure of collagen. Career: After completing his Ph.D, he returned to the Indian Institute of Science, Bangalore, India in 1949 as an assistant professor of physics. In 1952, he moved to Madras University as professor and head of the Department of Physics where he continued his work on crystal physics. His interest, however, shifted to the structure of biological macromolecules. Using X-ray diffraction Ramachandran along with Gopinath Kartha proposed and published the triple helical structure of collagen in 1954. At Madras University, Professor Ramachandran was the favorite of the famous vice-chancellor and celebrated doctor and medical scientist, Sir Arcot Laksmanaswamy Mudaliar. Wanting to tackle problems at a more fundamental level, Ramachandran decided to use this information to examine the various polypeptide conformations then known and also to develop a good 'yardstick' that could be used for examining and assessing any structure in general, but peptides in particular. The result which emerged from these calculations in 1962, - now commonly known as theRamachandran plot - was published in the Journal of Molecular Biology in 1963 and has become an essential tool in the field of protein conformation. When it was first calculated, crystal structures had barely been obtained for any protein. From the mid-1960s onward, Ramachandran studied many topics relating to the conformation of peptides including types of beta-turns, conformation of prolyl residues, cis-peptide units, occurrence and need for non-planarity of the peptides, NMR coupling constants, peptides containing L and D residues and many others. Ramachandran can be credited for bringing together into the one field of molecular biophysics the then disparate fields of X-ray crystallography, peptide synthesis, NMR and other optical studies, and physico-chemical experimentation. In 1970, he founded the Molecular Biophysics Unit at the Indian Institute of Science which was later known as the Centre of Advanced Study in Biophysics. In 1971, he moved to Bangalore owing to the deterioration in standards of the University of Madras after the long-term of Sir Arcot Lakshmanaswamy Mudaliar as the vice-chancellor. The general complaint was that the successor N.D. Sundaravadvelu could not sustain the academic standards of Sir A.L. Mudaliar. Ramachandran and A.V. Lakshminarayana developed convolution-backprojection algorithms which greatly improved the quality and practicality of results obtainable by x-ray tomography. Compared to previously used methods, their algorithms considerably reduced computer processing time for image reconstruction, as well as providing more numerically accurate images. As a result, commercial manufacturers of x-ray tomographic scanners started building systems capable of reconstructing high resolution images that were almost photographically perfect. In 1971, they published their research in PNAS. Notable awards that Ramachandran received include the Shanti Swarup Bhatnagar Award for Physics in India (1961) and the Fellowship of the Royal Society of London. In 1999, the International Union of Crystallography honored him with the Ewald Prize for his 'outstanding contributions to crystallography'. He was nominated for the Nobel Prize as well for his fundamental contributions in protein structure and function. Leading scientists including Professor Linus Pauling and Professor Francis Crick regarded Professor Ramchandran as a Nobel Prize caliber scientist of great reputation.
