Joydeep K. Banerjee, Ph.D.
Affiliations: | 2013 | Immunology | Yale University, New Haven, CT |
Area:
immunologyGoogle:
"Joydeep Banerjee"Mean distance: 17.64 (cluster 31) | S | N | B | C | P |
Parents
Sign in to add mentor| David G. Schatz | grad student | 2013 | Yale | |
| (Biochemical Investigations Into the Beyond 12/23 Rule of V(D)J Recombination.) | ||||
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Publications
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| Gain H, Nandi D, Kumari D, et al. (2022) Genome‑wide identification of CAMTA gene family members in rice (Oryza sativa L.) and in silico study on their versatility in respect to gene expression and promoter structure. Functional & Integrative Genomics |
| Das A, Pramanik K, Sharma R, et al. (2019) In-silico study of biotic and abiotic stress-related transcription factor binding sites in the promoter regions of rice germin-like protein genes. Plos One. 14: e0211887 |
| Banerjee JK, Schatz DG. (2014) Synapsis alters RAG-mediated nicking at Tcrb recombination signal sequences: implications for the “beyond 12/23†rule. Molecular and Cellular Biology. 34: 2566-80 |
| Banerjee J, Sahoo DK, Raha S, et al. (2014) A Region Containing an as-1 Element of Dahlia Mosaic Virus (DaMV) Subgenomic Transcript Promoter Plays a Key Role in Green Tissue- and Root-Specific Expression in Plants Plant Molecular Biology Reporter. 33: 532-556 |
| Ji Y, Little AJ, Banerjee JK, et al. (2010) Promoters, enhancers, and transcription target RAG1 binding during V(D)J recombination. The Journal of Experimental Medicine. 207: 2809-16 |
| Zhang XH, Kangsamaksin T, Chao MS, et al. (2005) Exon inclusion is dependent on predictable exonic splicing enhancers. Molecular and Cellular Biology. 25: 7323-32 |