Oscillation modulated by feedback and sensitivity analysis for frequency and amplitude. by Peng Zhao (128233)

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Simulated <i>C. elegans</i> from the simplified connectome moved forward. by Peng Zhao (128233)

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Collaborative loops in the head and body of <i>C. elegans.</i> by Peng Zhao (128233)

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Simulated actual-connectome <i>C. elegans.</i> by Peng Zhao (128233)

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Computational Investigation of the PazB-Catalyzed Cyclopropanation Reaction: Role of Active-Site Water in S_N2 Mechanism by Shenggan Luo (5100326)

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Computational Investigation of the PazB-Catalyzed Cyclopropanation Reaction: Role of Active-Site Water in S_N2 Mechanism by Shenggan Luo (5100326)

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الطَّلَاقُ اللَفْظِيّ بينَ الإِيْقَاعِ والوقوعِ وأثرُه على سلامةِ العَلَاقَةِ الزَوْجِيّةِ: دراسةٌ فقهيّةٌ قانونيّةٌ... by Dwairi, Orwah Nassir

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Stable Isotope Labeling of Pyrimidines Using a Deconstruction–Reconstruction Strategy by Benjamin J. H. Uhlenbruck (22267064)

“…By deconstructing pyrimidines into vinamidinium salts and reconstructing them with deuterium, ¹³C, and ¹⁵N-enriched amidines, we achieve high isotopic enrichment across various substitution patterns, including complex drug-like pyrimidine derivatives. The process involves a Tf₂O-mediated ring-opening and ring-closing sequence to form a pyrimidinium ion, followed by cleavage to the vinamidinium salt with pyrrolidine. …”

Multiscale Simulations Elucidate the Mechanism of Polyglutamine Aggregation and the Role of Flanking Domains in Fibril Polymorphism by Avijeet Kulshrestha (14290812)

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Honolignols A–C, Three Racemic Forms of Honokiol-Derived Dimeric Neolignans from <i>Magnolia Officinalis</i> Var. <i>Biloba</i> by Wei-Ming Huang (7134713)

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Honolignols A–C, Three Racemic Forms of Honokiol-Derived Dimeric Neolignans from <i>Magnolia Officinalis</i> Var. <i>Biloba</i> by Wei-Ming Huang (7134713)

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Scores of written tasks for all samples, including pre-test results, multiple drafts for the three writing tasks, and post-test scores for both the experimental and control groups. by Vezolu Puro (22766111)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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Droplets as Cell Models: Chemical Gradient-Induced Directional Filopodia Formation by Sanjana Krishna Mani (13731159)

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