[Most recent first]
Bandyopadhyay A, Sengupta A, Elvitigala T, Pakrasi HB. “Endogenous clock-mediated regulation of intracellular oxygen dynamics is essential for diazotrophic growth of unicellular cyanobacteria”. Nat Commun (2024).
Grosjean N, Yee EF, Kumaran D, Chopra K, Abernathy M, Biswas S, Byrnes J, Kreitler DF, Cheng JF, Ghosh A, Almo SC, Iwai M, Niyogi KK, Pakrasi HB, Sarangi R, van Dam H, Yang L, Blaby IK, Blaby-Haas CE. “A hemoprotein with a zinc-mirror heme site ties heme availability to carbon metabolism in cyanobacteria”. Nat Commun (2024).
Sengupta A, Bandyopadhyay A, Sarkar D, Hendry JI, Schubert MG, Liu D, Church GM, Maranas CD, Pakrasi HB. “Genome streamlining to improve performance of a fast-growing cyanobacterium Synechococcus elongatus UTEX 2973″. mBio (2024).
Biswas S, Niedzwiedzki DM, Liberton M, Pakrasi HB. “Phylogenetic and spectroscopic insights on the evolution of core antenna proteins in cyanobacteria”. Photosynthesis Research (2023).
Biswas S, Niedzwiedzki DM, Pakrasi HB. “Energy dissipation efficiency in the CP43 assembly intermediate complex of photosystem II ”. BBA-Bioenergetics (2023).
Sengupta A, Bandyopadhyay A, Schubert MG, Church GM, and Pakrasi HB. “Antenna Modification in a fast-growing cyanobacterium Synechococcus elongatus UTEX 2973 leads to improved efficiency and carbon-neutral productivity.” Microbiology Spectrum (2023).
Zhao R, Sengupta A, Tan AX, Whelan R, Pinkerton T, Menasalvas J, Eng T, Mukhopadhyay A, Jun Y-S, Pakrasi HB, and Tang YJ. “Photobiological production of high-value pigments via compartmentalized co-cultures using Ca-alginate hydrogels.” Scientific Reports (2022).
Liberton M, Biswas S, Pakrasi HB. “Photosynthetic modulation during the diurnal cycle in a unicellular diazotrophic cyanobacterium grown under nitrogen-replete and nitrogen-fixing conditions.” Scientific Reports (2022).
Walker PL and Pakrasi HB. “A Ubiquitously Conserved Cyanobacterial Protein Phosphatase Essential for High Light Tolerance in a Fast-Growing Cyanobacterium”. Microbiology Spectrum. (2022).
Biswas S, Niedzwiedzki DM, Pakrasi HB. “Introduction of cysteine-mediated quenching in the CP43 protein of photosystem II builds resilience to high-light stress in a cyanobacterium”. BBA-Bioenergetics (2022).
Johnson VM and Pakrasi HB. “Advances in the understanding of the lifecycle of Photosystem II” microorganisms (2022).
Johnson VM, Biswas S, Roose JL, Pakrasi HB, Liu H. “Psb27, a photosystem II assembly protein, enables quenching of excess light energy during its participation in the PSII lifecycle”. Photosynthesis Research (2022).
Anindita Bandyopadhyay, Zi Ye, Zuzana Benedikty, Martin Trtilek, and Himadri B. Pakrasi. “Antenna modification leads to enhanced nitrogenase activity in a high light tolerant cyanobacterium”. mBio (2021)
Wendt, K. E., Walker, P., Sengupta, A., Ungerer, J. and Pakrasi, H. B. “Engineering natural competence into the fast-growing cyanobacterium Synechococcus elongatus UTEX 2973.” Appl. Environ. Microbiol. (2021)
Sarkar, D., et al. “Elucidation of trophic interactions in an unusual single-cell nitrogen-fixing symbiosis using metabolic modeling.” PLOS computational Biology. (2021)
Hendry J. I., et al., “A Genome-Scale Metabolic Model of Anabaena 33047 to Guide Genetic Modifications to Overproduce Nylon Monomers.” Metabolites. (2021)
Lin, P.C., et al., “Enhanced limonene production in a fast-growing cyanobacterium through combinatorial metabolic engineering.” Metabolic Engineering Communications. (2021)
Chen, H.-Y.S., et al., “A Novel Mode of Photoprotection by a Cysteine Residue in Chlorophyll Protein IsiA” mBio (2021)
Liu, H., et al. “Structure of cyanobacterial phycobilisome core revealed by structural modeling and chemical cross-linking.” Science Advances (2021)