Sourav obtained his doctoral degree in 2017 from CSIR-Indian Institute of Chemical Biology in Kolkata, India. During his doctoral tenure, he worked on developing phosphoric acid-based chiral organocatalysts, where his work centered on elucidating novel reaction methodologies to induce point chirality and axial chirality in molecular systems anchored in indole and pyrrole frameworks.

After his Ph.D., Sourav had opportunities to pursue postdoctoral research experience at (1) Jawaharlal Nehru Centre for Advanced Scientific Research, Bangalore, India, (2) The Scripps Research Institute, Florida, USA and (3) University of Minnesota, Minneapolis, USA. These postdoctoral trainings propelled his expertise in bridging the realms of chemistry and biology, with a specific focus on elucidating disease-associated biological conundrums through advanced chemical approaches. His postdoctoral research endeavors encompassed the development of synthetic and natural product-based semisynthetic small molecule modulators aimed at regulating intricate protein post-translational modifications, specifically protein methylation, acylation, glycosylation, and protein hydroxylation.

At 51茶馆, Sourav鈥檚 current research emphasizes chemical science at the interface of chemistry and biology. His听lab leverages synthetic chemistry to address important biomedical problems. Majorly the lab focuses on crafting chemical biology tools through the scalpel of small molecule modulators to regulate the activity and function of target proteins therapeutically relevant in cancer, intestinal inflammation, and viral infection. His lab utilizes fundamental chemistry and biology concepts instrumental in synthetic organic chemistry, in vitro screening, bioinformatics tools, photoaffinity labeling, and cell biology. This interdisciplinary approach helps to understand and target the disease mechanism, identify drug targets, binding site mapping, and small molecule-protein interactions.

Using advanced microscopy tools and real time imaging, Sourav鈥檚 research also highlights development of organelle selective fluorescent probes for bioimaging applications. These include study of organelle dynamics, protein labelling and localization, imaging intracellular metal ions, and biomarker identification.

2-Oxoglutarate analogue-based biomolecular tools for exploring structure-activity relationships in non-heme iron enzymes. Peter Windsor^#, Sourav Chatterjee^#, Anoop Rama Damodaran, and Ambika Bhagi-Damodaran. ChemBioChem 2025, Under Revision.
^#听Equal contribution.

His-Tagging: Exploring Precise Chemical Modification of Histidine-Containing Bioactive Peptide Sequences. Sourav Chatterjee^鈭�, Bishwajit Paul^鈭�, and Govindaswamy Shanker. Synlett 2025, 36 (06) 661-673.
Controllable multihalogenation of a non-native substrate by the SyrB2 iron halogenase. R. Hunter Wilson, Sourav Chatterjee, Elizabeth R. Smithwick, Anoop R. Damodaran, and Ambika Bhagi-Damodaran. ACS Catal. 2024, 14, 13209鈥�13218.
Electrostatically regulated active site assembly governs reactivity in non-heme iron halogenases. Elizabeth R. Smithwick, Hunter R. Wilson,听Sourav Chatterjee, Yu Pu, Joseph J. Dalluge, Anoop Rama Damodaran, and Ambika Bhagi-Damodaran.听ACS Catal.听2023,听13, 13743-13755.
A newly synthesized 3-indolyl furanoid inhibits matrix metalloproteinase-9 activity and prevents nonsteroidal anti-inflammatory drugs-induced gastric ulceration. Deep S. Rudra^#,听Sourav Chatterjee^#, Uttam Pal^#, Madhumita Mandal, Susri Ray Chaudhuri, Mrinmay Bhunia, Nakul C. Maiti, Shila E. Besra, Parasuraman Jaisankar, and Snehasikta Swarnakar.听J. Med. Chem.听2023,听66, 13, 8917-8928.
^#听Equal contribution.
Catecholase catalyzed synthesis of wedelolactone, a natural coumestan and its analogs. Anushree Achari^#,听Sourav听Chatterjee^#, Sudip Dey, S.; Tapas K. Kundu, and Parasuraman Jaisankar.听Org.听Biomol. Chem.听2023,听21, 89-92.
^#听Equal contribution.
Role of secondary coordination sphere residues in halogenation catalysis of non-heme iron enzymes. Hunter R. Wilson,听Sourav听Chatterjee, Elizabeth Smithwick, Joseph Dalluge, and Ambika Bhagi-Damodaran.听ACS Catal.听2022,听12, 10913鈥�10924.
Butyrylation meets adipogenesis 鈥� probed by p300 catalyzed acylation specific small molecule inhibitor: Implication in anti-obesity therapy. Aditya Bhattacharya,听Sourav Chatterjee, Utsa Bhaduri, Akash Kumar Singh, Madavan Vasudevan, Koneni V. Sashidhara, Rajdeep Guha, Aamir Nazir, Srikanta Kumar Rath, Nagashayana Natesh, and Tapas K. Kundu.听J. Med. Chem.听2022,听65, 18, 12273鈥�12291.
Bis-indole/carbazole based C5-Curcuminoid fluorescent probe with large Stokes shift for selective detection of biothiol and application to live cell imaging. Pinaki Bhattacharjee,听Sourav听Chatterjee, Anushree Achari, Abhijit Saha, Debkumar Nandi, Chiranjit Acharya, Kasturi Chatterjee, Surajit Ghosh, Snehasikta Swarnakar, Parasuraman Jaisankar.听Analyst,听2020, 145, 1184-1189.
Silencing glycosaminoglycan functions in mouse embryonic stem cells with small molecule antagonists.听Sourav Chatterjee, Tesia N. Stephenson, Austen L. Michalak, Kamil Godula, and Mia L. Huang.听Methods in Enzymology,听2019, 626, 249-270.
Establishment of atropisomerism in 3-indolyl furanoids: A synthetic, experimental and theoretical perspective.听Sourav Chatterjee, Pinaki Bhattacharjee, Glenn L. Butterfoss, Anushree Achari, and Parasuraman Jaisankar.听RSC Advances听2019,听9, 22384-22388.
Fiaud鈥檚 acid: A Br酶nsted acid catalyst for enantioselective Friedel-Crafts alkylation of indoles with 2-alkene-1,4-diones.听Sourav听Chatterjee, Lukas Hintermann, Madhumita Mandal, Sreya Gupta, Anushree Achari, and Parasuraman Jaisankar.听Org. Lett.听2017,听19, 13, 3426-3429 (highlighted in Synfacts).
Racemization barriers of atropisomeric 3,3鈥�-bipyrroles: An experimental study with theoretical verification.听Sourav Chatterjee, Glenn L. Butterfoss, Madhumita Mandal, Richard Bonneau, Bishwajit Paul, Sreya Gupta, and Parasuraman Jaisankar.听RSC Advances听2016,听6, 71245-71249.
Synthesis of bis-pyrrolizidine-fused dispiro-oxindole analogues of curcumin via one-pot azomethine ylide cycloaddition: Experimental and computational approach toward regio- and diastereoselection. Yogesh P. Bharitkar, Mohua Das, Neha Kumari, M. Padma Kumari, Abhijit Hazra, Sagar S. Bhayye, Ramalingam Natarajan, Siddharth Shah,听Sourav Chatterjee, and Nirup B. Mondal.听Org. Lett.听2015,听17, 18, 4440-4443.
Indium trichloride catalyzed sp³听C鈥揌 bond functionalization of 2-alkyl azaarenes under microwave irradiation.听Sourav听Chatterjee, Pinaki Bhattacharjee, Jagadeesh Temburu, Debkumar Nandi, and Parasuraman Jaisankar.听Tet. Lett.听2014,听55, 6680鈥�6683.
Woollins Reagent: A chemoselective reducing agent for 1,4-enediones and 1,4-ynediones to saturated 1,4-diones. Madhumita Mandal,听Sourav听Chatterjee, and Parasuraman Jaisankar.听Synlett听2012,听23, 2615-2618.

Methods, compositions, and reagents for preparing compounds. Ambika Bhagi-Damodaran, and听Sourav Chatterjee. US Patent,听2023听(Application Number 17/976,580).
Small molecule tethers for selective targeting of metalloenzymes. Ambika Bhagi-Damodaran, Leonardo Rander Asse Jr., and听Sourav Chatterjee. US Provisional Patent听2022听(Application Number 63235610).
Small molecule modulator targeting a rare histone modification, regulating adipogenesis and pharmaceutical formulation thereof. Tapas K Kundu, Aditya Bhattacharya,听Sourav Chatterjee. Indian Provisional Patent听2021听(Application Number 202111024677; PCT No. WO2022254465A1).
3-Indolyl furanoids as inhibitors of matrix metalloprotease-9 for prevention of gastric ulcer and other inflammatory diseases. Parasuraman Jaisankar, Snehasikta Swarnakar,听Sourav Chatterjee, Sugreev Verma, Madhumita Mandal, Susri Ray Chaudhuri. US Patent听2018听(Application Number 15897688).

Postdoc Positions

We are seeking motivated postdoctoral researchers with expertise in chemical biology, organic synthesis,听cell biology, or biochemistry. If you are interested in a postdoctoral position, we actively support candidates to apply for external fundings.

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51茶馆

Sourav Chatterjee

Sourav Chatterjee

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