Publications by authors named "J Tainer"
While many researchers can design knockdown and knockout methodologies to remove a gene product, this is mainly untrue for new chemical inhibitor designs that empower multifunctional DNA Damage Response (DDR) networks. Here, we present a robust Goldilocks (GL) computational discovery protocol to efficiently innovate inhibitor tools and preclinical drug candidates for cellular and structural biologists without requiring extensive virtual screen (VS) and chemical synthesis expertise. By computationally targeting DDR replication and repair proteins, we exemplify the identification of DDR target sites and compounds to probe cancer biology.
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- * Researchers combined techniques like cryo-electron microscopy (cryo-EM), crosslinking mass spectrometry (XL-MS), and AlphaFold2 predictions to create a model of the NER pre-incision complex (PInC), highlighting how proteins interact during DNA repair.
- * The study reveals new insights into how specific proteins (like TFIIH, XPG, and XPF) coordinate their actions, affects DNA binding, and provides explanations for disease-causing mutations related to xeroderma pigmentosum and Cockayne syndrome.
Article Synopsis
- The BRCA2 protein plays a crucial role in protecting DNA during replication and repairing breaks, working closely with RAD51.
- Researchers determined the crystal structure of the BRCA2 C-terminal interaction-domain (TR2i) with RAD51, discovering it changes RAD51's shape to better accommodate double-stranded DNA rather than supporting its function in break repair.
- The study found that TR2i functions as an allosteric regulator, influencing the shift between replication fork protection and DNA repair, depending on the cell cycle phase.
Unlabelled: Persistent DNA double-strand breaks (DSBs) are enigmatically implicated in neurodegenerative diseases including Huntington's disease (HD), the inherited late-onset disorder caused by CAG repeat elongations in Huntingtin (HTT). Here we combine biochemistry, computation and molecular cell biology to unveil a mechanism whereby HTT coordinates a Transcription-Coupled Non-Homologous End-Joining (TC-NHEJ) complex. HTT joins TC-NHEJ proteins PNKP, Ku70/80, and XRCC4 with chromatin remodeler Brahma-related Gene 1 (BRG1) to resolve transcription-associated DSBs in brain.
View Article and Find Full Text PDFNon-B DNA G-quadruplex (G4) structures with guanine (G) runs of 2 to 4 repeats can trigger opposing experimental transcriptional impacts. Here, we used bioinformatic algorithms to comprehensively assess correlations of steady-state RNA transcript levels with all putative G4 sequence (pG4) locations genome-wide in three mammalian genomes and in normal and tumor human tissues. The human pG4-containing gene set displays higher expression levels than the set without pG4, supporting and extending some prior observations.
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