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Sarath Ramachandran

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Current Opinion in Structural Biology|December 3, 2020
Building ubiquitination machineries: E3 ligase multi-subunit assembly and substrate targeting by PROTACs and molecular gluesSarath Ramachandran, Alessio Ciulli
Biochemical and Biophysical Research Communications|February 24, 2016
Structure and mapping of spontaneous mutational sites of PyrR from Mycobacterium tuberculosisPramila Ghode, Sarath Ramachandran, Pablo Bifani, et al.
Biochemical and Biophysical Research Communications|October 13, 2015
Structural basis of mapping the spontaneous mutations with 5-flurouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosisPramila Ghode, Chacko Jobichen, Sarath Ramachandran, et al.
Nature Communications|June 12, 2019
Structural insights into substrate recognition by the SOCS2 E3 ubiquitin ligaseWei-Wei Kung, Sarath Ramachandran, Nikolai Makukhin, et al.
The FEBS Journal|October 19, 2022
A novel allosteric site employs a conserved inhibition mechanism in human kidney-type glutaminaseSrihari Shankar, Sarath Ramachandran, Nikhil Tulsian, et al.
The Journal of Biological Chemistry|July 31, 2014
Dimeric switch of Hakai-truncated monomers during substrate recognition: insights from solution studies and NMR structureManjeet Mukherjee, Fan Jing-Song, Sarath Ramachandran, et al.
Methods in Molecular Biology (Clifton, N.J.)|August 9, 2023
HiBiT Cellular Thermal Shift Assay (HiBiT CETSA)Sarath Ramachandran, Magdalena Szewczyk, Samir H Barghout, et al.
Oncotarget|July 28, 2016
Structural basis for exploring the allosteric inhibition of human kidney type glutaminaseSarath Ramachandran, Catherine Qiurong Pan, Sarah C Zimmermann, et al.
Nature Communications|October 10, 2023
Structure-based design of a phosphotyrosine-masked covalent ligand targeting the E3 ligase SOCS2Sarath Ramachandran, Nikolai Makukhin, Kevin Haubrich, et al.
Nature Communications|October 15, 2024
Design of a Cereblon construct for crystallographic and biophysical studies of protein degradersAlena Kroupova, Valentina A Spiteri, Zoe J Rutter, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Current Opinion in Structural Biology|December 3, 2020
Building ubiquitination machineries: E3 ligase multi-subunit assembly and substrate targeting by PROTACs and molecular gluesSarath Ramachandran, Alessio Ciulli
Biochemical and Biophysical Research Communications|February 24, 2016
Structure and mapping of spontaneous mutational sites of PyrR from Mycobacterium tuberculosisPramila Ghode, Sarath Ramachandran, Pablo Bifani, et al.
Biochemical and Biophysical Research Communications|October 13, 2015
Structural basis of mapping the spontaneous mutations with 5-flurouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosisPramila Ghode, Chacko Jobichen, Sarath Ramachandran, et al.
Nature Communications|June 12, 2019
Structural insights into substrate recognition by the SOCS2 E3 ubiquitin ligaseWei-Wei Kung, Sarath Ramachandran, Nikolai Makukhin, et al.
The FEBS Journal|October 19, 2022
A novel allosteric site employs a conserved inhibition mechanism in human kidney-type glutaminaseSrihari Shankar, Sarath Ramachandran, Nikhil Tulsian, et al.
The Journal of Biological Chemistry|July 31, 2014
Dimeric switch of Hakai-truncated monomers during substrate recognition: insights from solution studies and NMR structureManjeet Mukherjee, Fan Jing-Song, Sarath Ramachandran, et al.
Methods in Molecular Biology (Clifton, N.J.)|August 9, 2023
HiBiT Cellular Thermal Shift Assay (HiBiT CETSA)Sarath Ramachandran, Magdalena Szewczyk, Samir H Barghout, et al.
Oncotarget|July 28, 2016
Structural basis for exploring the allosteric inhibition of human kidney type glutaminaseSarath Ramachandran, Catherine Qiurong Pan, Sarah C Zimmermann, et al.
Nature Communications|October 10, 2023
Structure-based design of a phosphotyrosine-masked covalent ligand targeting the E3 ligase SOCS2Sarath Ramachandran, Nikolai Makukhin, Kevin Haubrich, et al.
Nature Communications|October 15, 2024
Design of a Cereblon construct for crystallographic and biophysical studies of protein degradersAlena Kroupova, Valentina A Spiteri, Zoe J Rutter, et al.
Pageof 1